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FSS2022-0298ADDITIONAL SITES CHRONOLOGY CONTACTS NAME TYPE NAME ADDRESS1 CITY STATE ZIP PHONE FAX EMAIL APPLICANT RESIDENTIAL FIRE PROTECTION DBA ON GUARD 6438 ARVILLE ST LAS VEGAS NV 89118 (702)966-8021 VanesaH@ONGUARDF P.COM CONTRACTOR RESIDENTIAL FIRE PROTECTION DBA ON GUARD 6438 ARVILLE ST LAS VEGAS NV 89118 (702)966-8021 VanesaH@ONGUARDF P.COM OWNER VERTICAL INTEGRITY 917 GLENNEYRE ST LAGUNA BEACH CA 92651 (702)966-8021 CONDITIONS Description: SOLTERRA - RECREATION CENTER - NFPA 13 Type: FIRE SPRINKLER (WEB)Subtype: COMMERCIAL/INDUSTRIAL Status: FINALED Applied: 9/15/2022 RWI Parcel No: 600340048 Site Address: 47470 ALOE WY LA QUINTA,CA 92253 Approved: Subdivision: Block: Lot: REC Issued: ONLINE Lot Sq Ft: 0 Building Sq Ft: 0 Zoning: Finaled: 8/2/2023 LRO Valuation: $38,820.00 Occupancy Type: Construction Type: Expired: No. Buildings: 0 No. Stories: 0 No. Unites: 0 Details: FINANCIAL INFORMATION Printed: Wednesday, September 27, 2023 9:55:01 AM 1 of 4 Permit Details City of La Quinta PERMIT NUMBER FSS2022-0298 INSPECTIONS SEQID INSPECTION TYPE INSPECTOR SCHEDULED DATE COMPLETED DATE RESULT REMARKS NOTES OVERHEAD HYRO KHET 2/9/2023 2/9/2023 APPROVED DESCRIPTION ACCOUNT QTY AMOUNT PAID PAID DATE RECEIPT #CHECK #METHOD PAID BY CLTD BY FIRE FAILED OR ADDITIONAL FIELD INSPECTIONS (EXCESSIVE) EACH 101-0000-42421 0 $175.00 $175.00 8/1/23 WEB15866 113105008 6 CREDIT 950378 ECON FIRE PLAN REVISION SUBMITTALS 101-0000-42420 0 $175.00 $175.00 7/17/23 WEB15722 112154985 8 CREDIT 950378 ECON FIRE SPRINKLER SYSTEMS COMMERCIAL/INDUSTR IAL 101-0000-42421 0 $240.00 $240.00 9/19/22 WEB13088 727303679 CREDIT 950378 ECON FIRE SPRINKLER SYSTEMS COMMERCIAL/INDUSTR IAL PC 101-0000-42420 0 $667.00 $667.00 9/19/22 WEB13088 727303679 CREDIT 950378 ECON Total Paid for FIRE FEES: $1,257.00 $1,257.00 RECORDS MANAGEMENT FEE 101-0000-42416 0 $11.00 $11.00 9/19/22 WEB13088 727303679 CREDIT 950378 ECON Total Paid for RECORDS MANAGEMENT FEE: $11.00 $11.00 TECHNOLOGY ENHANCEMENT FEE 502-0000-43611 0 $5.00 $5.00 9/19/22 WEB13088 727303679 CREDIT 950378 ECON Total Paid for TECHNOLOGY ENHANCEMENT FEE: $5.00 $5.00 TOTALS:$1,273.00 $1,273.00 Printed: Wednesday, September 27, 2023 9:55:01 AM 2 of 4 Permit Details City of La Quinta PERMIT NUMBER FSS2022-0298 OVERHEAD ROUGH PIPING KHET 2/9/2023 2/9/2023 APPROVED SEE NOTES Today’s inspection for Rough/Hydro was approved with the following requirements: Prior to final, provide revised plans and calcs based on the observed as-built conditions noted on the attached document. FIRE FINAL**KHET 8/1/2023 8/1/2023 DISAPPROVE D SEE NOTES The following correction items are required for final clearance: 1. Install additional spare head box to store minimum compliment. 2. Provide minimum 2 spare heads for the 6 different types. 3. Provide Sprinkler wrench concealed head type 4. Install Sprinkler legend in spare head box 5. Install “New” Riser service tag 6. Install hydraulic calc information sign (CA compliant) as discussed 7. Provide completed Contractor Certification (Attached) *81 psi residual on main drain test. 8. Provide physical copy of 2013 CA edition NFPA 25 to be given to new system owner. FIRE FINAL**LRO 8/2/2023 8/2/2023 APPROVED REVIEWS REVIEW TYPE REVIEWER SENT DATE DUE DATE RETURNED DATE STATUS REMARKS NOTES 1ST FIRE - ETRAKIT (2 WK) REBECCA WINSCOTT 8/23/2022 9/7/2022 9/15/2022 APPROVED 1ST PERMIT TECH – ETRAKIT (1 DAY) AARON HICKSON 8/23/2022 8/24/2022 8/23/2022 COMPLETE 2ND FIRE (1 WK)KOHL HETRICK 7/7/2023 7/14/2023 7/17/2023 APPROVED Revised plans and calcs S PARENT PROJECTS Printed: Wednesday, September 27, 2023 9:55:01 AM 3 of 4 Permit Details City of La Quinta PERMIT NUMBER FSS2022-0298 ATTACHMENTS Attachment Type CREATED OWNER DESCRIPTION PATHNAME SUBDIR ETRAKIT ENABLED DOC 8/23/2022 Etrakit Contractor 1ST SUBMITTAL HYDRAULIC CALCULATIONS 01 THE CENTRE REC BLDG HYD CALC- D0.pdf 1 DOC 8/23/2022 Etrakit Contractor 1ST SUBMITTAL MATERIAL SPEC SHEETS W/FLOW TEST OGFP MATERIAL SUBMITTAL.pdf 1 DOC 8/23/2022 Etrakit Contractor 1ST SUBMITTAL FIRES SPRINKLER PLAN 00 THE CENTRE REC BLDG FS PLAN- D0.pdf 1 DOC 7/7/2023 Etrakit Contractor Revised Plans for As- built revisions 01 RECREATION BUILDING- THE CENTER AT LA QUINTA- D1 HYD CALCS.pdf 1 DOC 7/7/2023 Etrakit Contractor Revised hyd calcs 00 RECREATION BUILDING- THE CENTER AT LA QUINTA- D1 ASBUILT REVISIONS.pdf 1 DOC 2/9/2023 KOHL HETRICK Pages from LQ FSS2022- 0298 - 2-9-2023 - Insp Notes.pdf Pages from LQ FSS2022- 0298 - 2-9-2023 - Insp Notes.pdf 1 DOC 7/17/2023 KOHL HETRICK FSS2022-0298 - REVISED PLANS AND CALCS - APPROVED.pdf FSS2022-0298 - REVISED PLANS AND CALCS - APPROVED.pdf 1 DOC 8/2/2023 LEILANI ROJAS FSS2022-0298 Contracters Cert.pdf FSS2022-0298 Contracters Cert.pdf 1 DOC 9/15/2022 REBECCA WINSCOTT LQ FSS2022-0298 Centre Rec Bldg (COA).pdf LQ FSS2022-0298 Centre Rec Bldg (COA).pdf 1 DOC 9/15/2022 REBECCA WINSCOTT LQ FSS2022-0298 Centre Rec Bldg (APPROVED).pdf LQ FSS2022-0298 Centre Rec Bldg (APPROVED).pdf 1 BOND INFORMATION Printed: Wednesday, September 27, 2023 9:55:01 AM 4 of 4 Permit Details City of La Quinta PERMIT NUMBER FSS2022-0298 APPROVEDRwinscot09/15/2022 5:04:17 PMRiverside County Fire DepartmentOffice of the Fire MarshalBy:Rebecca WinscottDigitally signed by Rebecca WinscottDN: C=US, E=rebecca.winscott@fire.ca.gov, OU=Riverside County Fire Department, CN=Rebecca WinscottDate: 2021.09.10 13:10:33-07'00'Fire Safety SpecialistVK300 in utility closetAux drain drop to beaddedInstalled seismic ingreenUpdate to comply withCFC ammendmentsCombustible overhangRequire add headprovide pick of install APPROVEDRwinscot09/15/2022 5:04:18 PMRiverside County Fire DepartmentOffice of the Fire MarshalBy:Rebecca WinscottDigitally signed by Rebecca WinscottDN: C=US, E=rebecca.winscott@fire.ca.gov, OU=Riverside County Fire Department, CN=Rebecca WinscottDate: 2021.09.10 13:10:33-07'00'Fire Safety SpecialistUpdate to comply withCFC ammendmentsUpdate this sheet for pipinglayout changes noted onprevious from insp notes Hydraulic Calculations Location: 47470 ALOE WAY, LA QUINTA CA 92225, , Project Name: THE CENTRE AT LA QUINTA- REC BLDG Drawing Name: RECREATION BUILDING- THE CENTER AT LA QUINTA- D0.c Calculation Date: 6/28/2022 for Design Light Hazard Area of Application: 1500.00ft² (Actual 1074.42ft²) Coverage per Sprinkler: 180.00ft² Type of sprinklers calculated: 11 1- 180ft² SPACINGRemote Area Number: Occupancy Classification: No. of sprinklers calculated: Density 0.100gpm/ft² Pendent No. of nozzles calculated:0 In-rack Demand: Hose Streams:at Node:Type:Allowance at Source N/Aat Node:N/A gpm 1100.00 (including Hose Streams where applicable):Total Water Required 77.299@311.23From Water Supply at Node 1:(Safety Margin = 3.088) Type of System: WET, 13 Volume of Dry/PreAction/Antifreeze/OtherAgent System:N/A Source:COACHELLA VALLEY WATER DISTRICT Location:SOUTH LA QUINTA DR. 02/08/2022Date:for Node:1 Name of Contractor:On Guard Fire Protection LA QUINTAAuthority Having Jurisdiction: Address: Phone Number: Name of designer: 6438 ARVILLE STREET, LAS VEGAS, NV 89118 702-966-8021 OSCAR GARCIA N/A N/A Right:Left:Automatic peaking results Notes: 6/28/2022© M.E.P.CAD, Inc.Page 1AutoSPRINK 2020 v16.3.18.0 2:22:51PM1- 180ft² SPACING Hydraulic Summary Report Description: Light Hazard (1- 180ft² SPACING) Job Number: 22-21-001 Node Flow(gpm) Total Hose Streams 100.00 Safety MarginRequiredAvailable Node Hose Flow Static Residual Flow Total Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@Name 1 80.387 77.299 3.0882650.00100.00 72.00080.550 311.23Water Supply Design EngineerJob Number Total Water Required (Including Hose Allowance) 311.23 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 100.00 Hose Allowance At Source Supplies 13081.33gal Light Hazard 0.100gpm/ft² 180.00ft² 1500.00ft² (Actual 1074.42ft²) 11 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Job Suffix Number Of Nozzles Calculated 0 AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Volume capacity of Dry PipesVolume capacity of Wet Pipes 5.18 between nodes 5 and 6 Maximum Velocity Under Ground 21.51 between nodes 250 and 252 Maximum Velocity Above Ground 5.6 K-Factor 18.00 at 10.332 Most Demanding Sprinkler Data System TRACT 73359 Job Site/Building LA QUINTA47470 ALOE WAY, LA QUINTA CA 92225 AHJ 950378THE CENTRE AT LA QUINTA- REC BLDG Job State Certification/License NumberJob Name: OSCAR GARCIA22-21-001 Contractor Contractor Number 950378 Name of Contractor: On Guard Fire Protection Address 1 6438 ARVILLE STREET Address 2 LAS VEGAS, NV 89118 Contact Name Contact Title ExtensionPhone 702-966-8021 FAX 702-987-1174 E-mail BOBBY@ONGUARDFP.COM Web-Site BOBBY TAVAKOLI Address 3 Address 1 Address 2 Drawing Name RECREATION BUILDING- THE CENTER AT LA QUINTA- D0.c System Flow Demand 211.23 Remote Area(s) Address 3 6/28/2022© M.E.P.CAD, Inc.Page 1AutoSPRINK 2020 v16.3.18.0 2:23:09PM Hydraulic Graph Water Supply Node: 1 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Date: 6/28/2022 Summary Sheet N 1.85 © M.E.P.CAD, Inc.6/28/2022 Page 2AutoSPRINK 2020 v16.3.18.0 2:22:53PM Device (gpm) Actual Flow Minimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: Light Hazard (1- 180ft² SPACING) Job Number: 22-21-001 Sprinkler 1101 18.54 18.00 5.6 10.960 Sprinkler 1102 18.63 18.00 5.6 11.069 Sprinkler 1103 19.09 18.00 5.6 11.625 Sprinkler 1104 20.30 18.00 5.6 13.137 Sprinkler 1105 21.66 18.00 5.6 14.957 Sprinkler 1106 18.00 18.00 5.6 10.332 Sprinkler 1107 18.57 18.00 5.6 11.000 Sprinkler 1108 18.57 18.00 5.6 10.996 Sprinkler 1109 18.66 18.00 5.6 11.108 Sprinkler 1110 19.20 18.00 5.6 11.759 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.6/28/2022 Page 3AutoSPRINK 2020 v16.3.18.0 2:22:54PM Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Date: 6/28/2022 Node @ @ Supply Analysis Static (psi) Required Pressure (psi)(gpm) Total DemandAvailable (psi) Flow (gpm) Residual (psi)Name 72.0001 77.299311.232650.00 80.38780.550Water Supply Node Analysis NotesDischarge at Node (gpm) Pressure at Node (psi) Node TypeElevation (Foot)Node Number 0'211.2377.299Supply1 15'18.5410.960Sprinkler1101 15'18.6311.069Sprinkler1102 15'19.0911.625Sprinkler1103 15'20.3013.137Sprinkler1104 15'21.6614.957Sprinkler1105 15'18.0010.332Sprinkler1106 15'18.5711.000Sprinkler1107 15'18.5710.996Sprinkler1108 15'18.6611.108Sprinkler1109 15'19.2011.759Sprinkler1110 15'20.0012.750Sprinkler1111 -3'78.5462 -3'77.9883 -3'77.6424 -3'72.3015 -3'68.9276 1'66.9597 5'64.125Supply8 © M.E.P.CAD, Inc.6/28/2022 Page 4AutoSPRINK 2020 v16.3.18.0 2:22:57PM Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Date: 6/28/2022 NotesDischarge at Node (gpm) Pressure at Node (psi) Node TypeElevation (Foot)Node Number 15'-6 11.068150 15'-6 11.180152 15'-6 11.752154 15'-6 13.304156 15'-6 15.174160 15'-6 10.815162 15'-6 11.072164 15'-6 11.284166 15'-6 15.905168 15'-6 11.284170 15'-6 11.110172 15'-6 11.105174 15'-6 11.220176 15'-6 11.890178 15'-6 12.908180 15'-6 14.462182 10'-6 49.718250 15'-6 17.720252 © M.E.P.CAD, Inc.6/28/2022 Page 5AutoSPRINK 2020 v16.3.18.0 2:22:57PM Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 10' 15'-6 12'-6 -0.217 0.700 15'2'-61106 162 1 • • • • • Route 1 • • • • •(See Notes) 1.1010 10.33218.00 0.055993 Sprinkler, 18.00 5.6 E(5'), T(5') 150 6' 15'-6 14'-6 0.257 15'-6 8'-6162 164 1¼(See Notes) 1.3940 10.815 0.01774518.00 T(6') 150 6' 15'-6 9'-6 0.212 15'-6 3'-6164 166 1¼(See Notes) 1.3940 11.0722.35 0.022268 Flow (q) from Route 12 20.35 T(6') 150 22' 15'-6 63'-2 4.621 15'-6 41'-2166 168 1 (See Notes) 1.1010 11.2840.45 0.073153 Flow (q) from Route 14 20.80 2E(5'), E(7'), T(5') 150 15'-6 6'-5 1.815 15'-6 6'-5168 252 1½ 1.5980 15.90594.56 0.283617 Flow (q) from Route 3 115.36 150 47' 10'-6 103'-2 2.168 29.830 15'-6 56'-2252 250 2 (See Notes) 2.0030 17.72095.87 0.289043 Flow (q) from Route 2 211.23 5E(9'), 2cplg(1') 150 6'-10 5'14'-4 2.384 12.023 10'-6 7'-6250 8 2 (See Notes) 2.2030 49.718 0.274759211.23 E(6'-10), sCV(-7.257), UMC 120 1'4' 1.734 1.099 5'4'8 7 2 2.2030 64.125 0.274759211.23 120 13'-2 -3'21'-2 1.734 0.234 1'8'7 6 4 (See Notes) 4.2600 66.959 0.011072211.23 E(13'-2) 120 77'-4 -3'373'-2 3.374 -3'295'-106 5 4 (See Notes) 4.0800 68.927 0.009041211.23 4E(16'-1), PIV(3'-3), LtE(9'-8) 150 32'-3 -3'44'-3 5.341 -3'12'5 4 4 (See Notes) 4.2800 72.301 0.008137211.23 3LtE(10'-9), BFP(-5.013) 140 © M.E.P.CAD, Inc.6/28/2022 Page 6AutoSPRINK 2020 v16.3.18.0 2:22:59PM1- 180ft² SPACING Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 32'-3 -3'38'-3 0.346 -3'6'4 3 4 (See Notes) 4.0800 77.642 0.009041211.23 PO(32'-3) 150 332' -3'1883'-5 0.558 -3'1551'-53 2 8 (See Notes) 8.4500 77.988 0.000296211.23 10GV(7'), 4T(61'-6), EE(15'-10 ) 140 28'-1 0'44'-6 -1.301 0.053 -3'16'-52 1 6 (See Notes) 6.3400 78.546 0.001201211.23 GV(4'-11), E(23'-1), S 140 1 100.00 Hose Allowance At Source 311.23 Route 1Total(Pt) 77.299 5' 15'-6 5'-6 -0.217 0.325 15'6"1101 150 1 • • • • • Route 2 • • • • •(See Notes) 1.1010 10.96018.54 0.059134 Sprinkler, 18.54 5.6 T(5') 150 15'-6 7'-8 0.112 15'-6 7'-8150 152 1¼ 1.3940 11.068 0.01458416.19 150 1' 15'-6 9'-6 0.571 15'-6 8'-6152 154 1¼(See Notes) 1.3940 11.18018.63 0.060144 Flow (q) from Route 5 34.82 cplg(1') 150 15'-6 11'-6 1.553 15'-6 11'-6154 156 1¼ 1.3940 11.75219.09 0.135035 Flow (q) from Route 7 53.91 150 15'-6 7'-8 1.870 15'-6 7'-8156 160 1¼ 1.3940 13.30420.30 0.243876 Flow (q) from Route 10 74.21 150 6' 15'-6 6'-6 2.546 15'-6 6"160 252 1¼(See Notes) 1.3940 15.17421.66 0.391658 Flow (q) from Route 11 95.87 T(6') 150 17.720 Total(Pt)Route 2 © M.E.P.CAD, Inc.6/28/2022 Page 7AutoSPRINK 2020 v16.3.18.0 2:22:59PM1- 180ft² SPACING Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 5' 15'-6 5'-6 -0.217 0.326 15'6"1108 174 1 • • • • • Route 3 • • • • •(See Notes) 1.1010 10.99618.57 0.059311 Sprinkler, 18.57 5.6 T(5') 150 15'-6 8'-6 0.115 15'-6 8'-6174 176 1¼ 1.3940 11.105 0.01354515.55 150 15'-6 11'-6 0.670 15'-6 11'-6176 178 1¼ 1.3940 11.22018.66 0.058237 Flow (q) from Route 6 34.22 150 15'-6 7'-8 1.018 15'-6 7'-8178 180 1¼ 1.3940 11.89019.20 0.132769 Flow (q) from Route 8 53.42 150 6' 15'-6 6'-6 1.554 15'-6 6"180 182 1¼(See Notes) 1.3940 12.90820.00 0.239084 Flow (q) from Route 9 73.42 T(6') 150 1' 15'-6 7'-4 1.443 15'-6 6'-4182 168 1½(See Notes) 1.5980 14.46221.14 0.196334 Flow (q) from Route 4 94.56 Tr(1') 150 15.905 Total(Pt)Route 3 5' 15'-6 5'-6 -0.217 0.326 15'6"1107 172 1 • • • • • Route 4 • • • • •(See Notes) 1.1010 11.00018.57 0.059336 Sprinkler, 18.57 5.6 T(5') 150 6' 15'-6 7'0.174 15'-6 1'172 170 1¼(See Notes) 1.3940 11.1103.01 0.024837 Flow (q) from Route 13 21.59 T(6') 150 55' 15'-6 133'3.178 15'-6 78'170 182 1¼(See Notes) 1.3940 11.284 0.02389221.14 6E(6'), 3T(6'), cplg(1') 150 14.462 Total(Pt)Route 4 5' 15'-6 5'-6 -0.217 0.328 15'6"1102 152 1 • • • • • Route 5 • • • • •(See Notes) 1.1010 11.06918.63 0.059677 Sprinkler, 18.63 5.6 T(5') 150 11.180 Total(Pt)Route 5 © M.E.P.CAD, Inc.6/28/2022 Page 8AutoSPRINK 2020 v16.3.18.0 2:22:59PM1- 180ft² SPACING Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 5' 15'-6 5'-6 -0.217 0.329 15'6"1109 176 1 • • • • • Route 6 • • • • •(See Notes) 1.1010 11.10818.66 0.059870 Sprinkler, 18.66 5.6 T(5') 150 11.220 Total(Pt)Route 6 5' 15'-6 5'-6 -0.217 0.343 15'6"1103 154 1 • • • • • Route 7 • • • • •(See Notes) 1.1010 11.62519.09 0.062445 Sprinkler, 19.09 5.6 T(5') 150 11.752 Total(Pt)Route 7 5' 15'-6 5'-6 -0.217 0.347 15'6"1110 178 1 • • • • • Route 8 • • • • •(See Notes) 1.1010 11.75919.20 0.063114 Sprinkler, 19.20 5.6 T(5') 150 11.890 Total(Pt)Route 8 5' 15'-6 5'-6 -0.217 0.374 15'6"1111 180 1 • • • • • Route 9 • • • • •(See Notes) 1.1010 12.75020.00 0.068018 Sprinkler, 20.00 5.6 T(5') 150 12.908 Total(Pt)Route 9 5' 15'-6 5'-6 -0.217 0.385 15'6"1104 156 1 • • • • • Route 10 • • • • •(See Notes) 1.1010 13.13720.30 0.069922 Sprinkler, 20.30 5.6 T(5') 150 13.304 Total(Pt)Route 10 5' 15'-6 5'-6 -0.217 0.434 15'6"1105 160 1 • • • • • Route 11 • • • • •(See Notes) 1.1010 14.95721.66 0.078841 Sprinkler, 21.66 5.6 T(5') 150 15.174 Total(Pt)Route 11 6' 15'-6 9'-11 0.004 15'-6 3'-11150 164 1¼• • • • • Route 12 • • • • •(See Notes) 1.3940 11.06816.19 0.000411 Flow (q) from Route 2 2.35 T(6') 150 11.072 Total(Pt)Route 12 15'-6 7'-8 0.005 15'-6 7'-8174 172 1¼• • • • • Route 13 • • • • • 1.3940 11.10515.55 0.000651 Flow (q) from Route 3 3.01 150 11.110 Total(Pt)Route 13 © M.E.P.CAD, Inc.6/28/2022 Page 9AutoSPRINK 2020 v16.3.18.0 2:22:59PM1- 180ft² SPACING Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 6' 15'-6 12'-4 0.000 15'-6 6'-4170 166 1¼• • • • • Route 14 • • • • •(See Notes) 1.3940 11.28421.14 0.000019 Flow (q) from Route 4 0.45 T(6') 150 11.284 Total(Pt)Route 14 © M.E.P.CAD, Inc.6/28/2022 Page 10AutoSPRINK 2020 v16.3.18.0 2:22:59PM1- 180ft² SPACING Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 1- 180ft² SPACING Equivalent Pipe Lengths of Valves and Fittings (C=120 only) 1.51 Fittings Legend ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90°cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Ee1 11¼° Elbow Ee2 22½° Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow flg Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90°Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap 4.87 )(150 1.33 140 1.16 130 0.713 100Actual Inside Diameter Schedule 40 Steel Pipe Inside Diameter = Factor C Value Multiplier Value Of C Multiplying Factor © M.E.P.CAD, Inc.6/28/2022 Page 11AutoSPRINK 2020 v16.3.18.0 2:22:59PM1- 180ft² SPACING Hydraulic Calculations Location: 47470 ALOE WAY, LA QUINTA CA 92225, , Project Name: THE CENTRE AT LA QUINTA- REC BLDG Drawing Name: RECREATION BUILDING- THE CENTER AT LA QUINTA- D0.c Calculation Date: 6/28/2022 for Design Remote Area Location: Light Hazard Area of Application: 1500.00ft² (Actual 459.83ft²) Coverage per Sprinkler: 30.00ft² Type of sprinklers calculated: 7 ATTIC OVER MULTI-PURPOSE ROOM 2- 5BB & 2APRemote Area Number: Occupancy Classification: No. of sprinklers calculated: Density 0.100gpm/ft² Upright No. of nozzles calculated:0 In-rack Demand: Hose Streams:at Node:Type:Allowance at Source N/Aat Node:N/A gpm 1100.00 (including Hose Streams where applicable):Total Water Required 38.791@196.21From Water Supply at Node 1:(Safety Margin = 41.690) Type of System: WET, 13 Volume of Dry/PreAction/Antifreeze/OtherAgent System:N/A Source:COACHELLA VALLEY WATER DISTRICT Location:SOUTH LA QUINTA DR. 02/08/2022Date:for Node:1 Name of Contractor:On Guard Fire Protection LA QUINTAAuthority Having Jurisdiction: Address: Phone Number: Name of designer: 6438 ARVILLE STREET, LAS VEGAS, NV 89118 702-966-8021 OSCAR GARCIA Right: 38.791Left: 38.791Automatic peaking results Notes: 6/28/2022© M.E.P.CAD, Inc.Page 1AutoSPRINK 2020 v16.3.18.0 2:24:38PM2- 5BB & 2AP Hydraulic Summary Report Description: Light Hazard (2- 5BB & 2 AP ) Job Number: 22-21-001 Node Flow(gpm) Total Hose Streams 100.00 Safety MarginRequiredAvailable Node Hose Flow Static Residual Flow Total Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@Name 1 80.481 38.791 41.6902650.00100.00 72.00080.550 196.21Water Supply Design EngineerJob Number Total Water Required (Including Hose Allowance) 196.21 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 100.00 Hose Allowance At Source Supplies 13081.33gal Light Hazard 0.100gpm/ft² 30.00ft² 1500.00ft² (Actual 459.83ft²) 7 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Job Suffix Number Of Nozzles Calculated 0 AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Left: 38.791 Right: 38.791 Volume capacity of Dry PipesVolume capacity of Wet Pipes 2.36 between nodes 5 and 6 Maximum Velocity Under Ground 13.72 between nodes 168 and 2003 Maximum Velocity Above Ground 4.2 K-Factor 13.01 at 9.600 Most Demanding Sprinkler Data System TRACT 73359 Job Site/Building LA QUINTA47470 ALOE WAY, LA QUINTA CA 92225 AHJ 950378THE CENTRE AT LA QUINTA- REC BLDG Job State Certification/License NumberJob Name: OSCAR GARCIA22-21-001 Contractor Contractor Number 950378 Name of Contractor: On Guard Fire Protection Address 1 6438 ARVILLE STREET Address 2 LAS VEGAS, NV 89118 Contact Name Contact Title ExtensionPhone 702-966-8021 FAX 702-987-1174 E-mail BOBBY@ONGUARDFP.COM Web-Site BOBBY TAVAKOLI Address 3 Address 1 Address 2 Drawing Name RECREATION BUILDING- THE CENTER AT LA QUINTA- D0.c System Flow Demand 96.21 Remote Area(s) Address 3 6/28/2022© M.E.P.CAD, Inc.Page 1AutoSPRINK 2020 v16.3.18.0 2:24:21PM Hydraulic Graph Water Supply Node: 1 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Date: 6/28/2022 Summary Sheet N 1.85 © M.E.P.CAD, Inc.6/28/2022 Page 2AutoSPRINK 2020 v16.3.18.0 2:24:39PM Device (gpm) Actual Flow Minimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: Light Hazard (2- 5BB & 2 AP ) Job Number: 22-21-001 Sprinkler 2001 13.01 13.01 4.2 9.601 Sprinkler 2002 13.15 13.01 4.2 9.803 Sprinkler 2003 13.59 13.01 4.2 10.469 Sprinkler 2004 13.01 13.01 4.2 9.600 Sprinkler 2005 13.11 13.01 4.2 9.750 Sprinkler 2006 15.14 12.00 4.2 12.995 Sprinkler 2007 15.19 12.00 4.2 13.074 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.6/28/2022 Page 3AutoSPRINK 2020 v16.3.18.0 2:24:41PM Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Date: 6/28/2022 Node @ @ Supply Analysis Static (psi) Required Pressure (psi)(gpm) Total DemandAvailable (psi) Flow (gpm) Residual (psi)Name 72.0001 38.791196.212650.00 80.48180.550Water Supply Node Analysis NotesDischarge at Node (gpm) Pressure at Node (psi) Node TypeElevation (Foot)Node Number 0'96.2138.791Supply1 17'-8 13.019.601Sprinkler2001 17'-8 13.159.803Sprinkler2002 17'-8 13.5910.469Sprinkler2003 17'-8 13.019.600Sprinkler2004 17'-8 13.119.750Sprinkler2005 16'15.1412.995Sprinkler2006 16'15.1913.074Sprinkler2007 -3'40.0792 -3'39.9483 -3'39.8684 -3'34.2705 -3'33.4836 1'31.6947 5'29.703Supply8 15'-6 14.077166 15'-6 14.734168 15'-6 14.081170 15'-6 14.524182 © M.E.P.CAD, Inc.6/28/2022 Page 4AutoSPRINK 2020 v16.3.18.0 2:24:43PM Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Date: 6/28/2022 NotesDischarge at Node (gpm) Pressure at Node (psi) Node TypeElevation (Foot)Node Number 10'-6 24.666250 15'-6 15.535252 15'-6 14.050254 15'-6 14.133256 © M.E.P.CAD, Inc.6/28/2022 Page 5AutoSPRINK 2020 v16.3.18.0 2:24:43PM Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 17'-8 5'-7 0.001 17'-8 5'-72004 2001 1 • • • • • Route 1 • • • • •(See Notes) 1.1010 9.60013.01 0.000241 Sprinkler 0.95 4.2 150 17'-8 5'-9 0.201 17'-8 5'-92001 2002 1 (See Notes) 1.1010 9.60113.01 0.034988 Sprinkler 13.96 4.2 150 17'-8 5'-7 0.667 17'-8 5'-72002 2003 1 (See Notes) 1.1010 9.80313.15 0.119442 Sprinkler 27.11 4.2 150 10' 15'-6 13'-2 0.939 3.326 17'-8 3'-22003 168 1 (See Notes) 1.1010 10.46913.59 0.253285 Sprinkler, 40.70 4.2 E(5'), T(5') 150 15'-6 6'-5 0.801 15'-6 6'-5168 252 1½ 1.5980 14.73433.41 0.125090 Flow (q) from Route 3 74.11 150 47' 10'-6 103'-2 2.168 6.963 15'-6 56'-2252 250 2 (See Notes) 2.0030 15.53522.10 0.067472 Flow (q) from Route 2 96.21 5E(9'), 2cplg(1') 150 6'-10 5'14'-4 2.384 2.653 10'-6 7'-6250 8 2 (See Notes) 2.2030 24.666 0.06413896.21 E(6'-10), sCV(-7.257), UMC 120 1'4' 1.734 0.257 5'4'8 7 2 2.2030 29.703 0.06413896.21 120 13'-2 -3'21'-2 1.734 0.055 1'8'7 6 4 (See Notes) 4.2600 31.694 0.00258496.21 E(13'-2) 120 77'-4 -3'373'-2 0.788 -3'295'-106 5 4 (See Notes) 4.0800 33.483 0.00211196.21 4E(16'-1), PIV(3'-3), LtE(9'-8) 150 32'-3 -3'44'-3 5.597 -3'12'5 4 4 (See Notes) 4.2800 34.270 0.00189996.21 3LtE(10'-9), BFP(-5.013) 140 © M.E.P.CAD, Inc.6/28/2022 Page 6AutoSPRINK 2020 v16.3.18.0 2:24:45PM2- 5BB & 2AP Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 32'-3 -3'38'-3 0.081 -3'6'4 3 4 (See Notes) 4.0800 39.868 0.00211196.21 PO(32'-3) 150 332' -3'1883'-5 0.130 -3'1551'-53 2 8 (See Notes) 8.4500 39.948 0.00006996.21 10GV(7'), 4T(61'-6), EE(15'-10 ) 140 28'-1 0'44'-6 -1.301 0.012 -3'16'-52 1 6 (See Notes) 6.3400 40.079 0.00028096.21 GV(4'-11), E(23'-1), S 140 1 100.00 Hose Allowance At Source 196.21 Route 1Total(Pt) 38.791 17'-8 5'-7 0.150 17'-8 5'-72004 2005 1 • • • • • Route 2 • • • • •(See Notes) 1.1010 9.60013.01 0.026720 Sprinkler 12.07 4.2 150 17' 15'-6 32'-6 0.939 3.388 17'-8 15'-62005 166 1 (See Notes) 1.1010 9.75013.11 0.104198 Sprinkler, 25.18 4.2 E(5'), E(7'), T(5') 150 13' 15'-6 56'-3 1.458 15'-6 43'-3166 252 1¼(See Notes) 1.3940 14.077 0.02593422.10 2T(6'), cplg(1') 150 15.535 Total(Pt)Route 2 15' 15'-6 20'-7 0.217 0.838 16'5'-72006 254 1 • • • • • Route 3 • • • • •(See Notes) 1.1010 12.99515.14 0.040657 Sprinkler, 15.14 4.2 2E(5'), T(5') 150 15'-6 11'-10 0.084 15'-6 11'-10254 256 1¼ 1.3940 14.050 0.00706110.94 150 6' 15'-6 11'-1 0.390 15'-6 5'-1256 182 1¼(See Notes) 1.3940 14.13315.19 0.035347 Flow (q) from Route 4 26.12 T(6') 150 © M.E.P.CAD, Inc.6/28/2022 Page 7AutoSPRINK 2020 v16.3.18.0 2:24:45PM2- 5BB & 2AP Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 1' 15'-6 7'-4 0.211 15'-6 6'-4182 168 1½(See Notes) 1.5980 14.5247.29 0.028650 Flow (q) from Route 5 33.41 Tr(1') 150 14.734 Total(Pt)Route 3 15' 15'-6 20'-7 0.217 0.842 16'5'-72007 256 1 • • • • • Route 4 • • • • •(See Notes) 1.1010 13.07415.19 0.040885 Sprinkler, 15.19 4.2 2E(5'), T(5') 150 14.133 Total(Pt)Route 4 6' 15'-6 25'-11 0.031 15'-6 19'-11254 170 1¼• • • • • Route 5 • • • • •(See Notes) 1.3940 14.05010.94 0.001203 Flow (q) from Route 3 4.20 T(6') 150 55' 15'-6 133'0.443 15'-6 78'170 182 1¼(See Notes) 1.3940 14.0813.08 0.003330 Flow (q) from Route 6 7.29 6E(6'), 3T(6'), cplg(1') 150 14.524 Total(Pt)Route 5 15'-6 6'-4 0.004 15'-6 6'-4166 170 1¼• • • • • Route 6 • • • • • 1.3940 14.07722.10 0.000678 Flow (q) from Route 2 3.08 150 14.081 Total(Pt)Route 6 © M.E.P.CAD, Inc.6/28/2022 Page 8AutoSPRINK 2020 v16.3.18.0 2:24:45PM2- 5BB & 2AP Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 2- 5BB & 2AP Equivalent Pipe Lengths of Valves and Fittings (C=120 only) 1.51 Fittings Legend ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90°cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Ee1 11¼° Elbow Ee2 22½° Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow flg Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90°Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap 4.87 )(150 1.33 140 1.16 130 0.713 100Actual Inside Diameter Schedule 40 Steel Pipe Inside Diameter = Factor C Value Multiplier Value Of C Multiplying Factor © M.E.P.CAD, Inc.6/28/2022 Page 9AutoSPRINK 2020 v16.3.18.0 2:24:45PM2- 5BB & 2AP Hydraulic Calculations Location: 47470 ALOE WAY, LA QUINTA CA 92225, , Project Name: THE CENTRE AT LA QUINTA- REC BLDG Drawing Name: RECREATION BUILDING- THE CENTER AT LA QUINTA- D0.c Calculation Date: 6/28/2022 for Design Remote Area Location: Light Hazard Area of Application: 1500.00ft² (Actual 532.28ft²) Coverage per Sprinkler: 195.00ft² Type of sprinklers calculated: 7 ATTIC OVER FITNESS AREA 3- 5BB & 2AP HEADSRemote Area Number: Occupancy Classification: No. of sprinklers calculated: Density 0.100gpm/ft² Upright No. of nozzles calculated:0 In-rack Demand: Hose Streams:at Node:Type:Allowance at Source N/Aat Node:N/A gpm 1100.00 (including Hose Streams where applicable):Total Water Required 63.432@200.28From Water Supply at Node 1:(Safety Margin = 17.046) Type of System: WET, 13 Volume of Dry/PreAction/Antifreeze/OtherAgent System:N/A Source:COACHELLA VALLEY WATER DISTRICT Location:SOUTH LA QUINTA DR. 02/08/2022Date:for Node:1 Name of Contractor:On Guard Fire Protection LA QUINTAAuthority Having Jurisdiction: Address: Phone Number: Name of designer: 6438 ARVILLE STREET, LAS VEGAS, NV 89118 702-966-8021 OSCAR GARCIA N/ALeft: 62.676 Right:Automatic peaking results Notes: 6/28/2022© M.E.P.CAD, Inc.Page 1AutoSPRINK 2020 v16.3.18.0 2:25:56PM3- 5BB & 2AP HEADS Hydraulic Summary Report Description: Light Hazard (3- 5BB & 2 AP HEADS) Job Number: 22-21-001 Node Flow(gpm) Total Hose Streams 100.00 Safety MarginRequiredAvailable Node Hose Flow Static Residual Flow Total Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@Name 1 80.478 63.432 17.0462650.00100.00 72.00080.550 200.28Water Supply Design EngineerJob Number Total Water Required (Including Hose Allowance) 200.28 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 100.00 Hose Allowance At Source Supplies 13081.33gal Light Hazard 0.100gpm/ft² 195.00ft² 1500.00ft² (Actual 532.28ft²) 7 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Job Suffix Number Of Nozzles Calculated 0 AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Left: 62.676 Volume capacity of Dry PipesVolume capacity of Wet Pipes 2.46 between nodes 5 and 6 Maximum Velocity Under Ground 21.08 between nodes 366 and 370 Maximum Velocity Above Ground 4.2 K-Factor 13.01 at 9.600 Most Demanding Sprinkler Data System TRACT 73359 Job Site/Building LA QUINTA47470 ALOE WAY, LA QUINTA CA 92225 AHJ 950378THE CENTRE AT LA QUINTA- REC BLDG Job State Certification/License NumberJob Name: OSCAR GARCIA22-21-001 Contractor Contractor Number 950378 Name of Contractor: On Guard Fire Protection Address 1 6438 ARVILLE STREET Address 2 LAS VEGAS, NV 89118 Contact Name Contact Title ExtensionPhone 702-966-8021 FAX 702-987-1174 E-mail BOBBY@ONGUARDFP.COM Web-Site BOBBY TAVAKOLI Address 3 Address 1 Address 2 Drawing Name RECREATION BUILDING- THE CENTER AT LA QUINTA- D0.c System Flow Demand 100.28 Remote Area(s) Address 3 6/28/2022© M.E.P.CAD, Inc.Page 1AutoSPRINK 2020 v16.3.18.0 2:26:15PM Hydraulic Graph Water Supply Node: 1 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Date: 6/28/2022 Summary Sheet N 1.85 © M.E.P.CAD, Inc.6/28/2022 Page 2AutoSPRINK 2020 v16.3.18.0 2:25:58PM Device (gpm) Actual Flow Minimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: Light Hazard (3- 5BB & 2 AP HEADS) Job Number: 22-21-001 Sprinkler 3101 18.54 12.00 4.2 19.490 Sprinkler 3102 13.15 13.01 4.2 9.805 Sprinkler 3103 13.02 13.01 4.2 9.605 Sprinkler 3104 13.01 13.01 4.2 9.600 Sprinkler 3105 13.09 13.01 4.2 9.714 Sprinkler 3106 13.41 13.01 4.2 10.189 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.6/28/2022 Page 3AutoSPRINK 2020 v16.3.18.0 2:25:59PM Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Date: 6/28/2022 Node @ @ Supply Analysis Static (psi) Required Pressure (psi)(gpm) Total DemandAvailable (psi) Flow (gpm) Residual (psi)Name 72.0001 63.432200.282650.00 80.47880.550Water Supply Node Analysis NotesDischarge at Node (gpm) Pressure at Node (psi) Node TypeElevation (Foot)Node Number 0'100.2863.432Supply1 14'-6 18.5419.490Sprinkler3101 15'13.159.805Sprinkler3102 15'13.029.605Sprinkler3103 15'13.019.600Sprinkler3104 15'13.099.714Sprinkler3105 15'13.4110.189Sprinkler3106 14'-6 16.0614.616Sprinkler3107 -3'64.7192 -3'64.5783 -3'64.4914 -3'58.9015 -3'58.0516 1'56.2587 5'54.247Supply8 15'-6 35.832166 15'-6 38.803168 15'-6 36.861170 15'-6 38.488182 © M.E.P.CAD, Inc.6/28/2022 Page 4AutoSPRINK 2020 v16.3.18.0 2:26:02PM Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Date: 6/28/2022 NotesDischarge at Node (gpm) Pressure at Node (psi) Node TypeElevation (Foot)Node Number 10'-6 48.985250 15'-6 39.300252 13'-6 15.971360 13'-6 16.028362 13'-6 16.547364 15'-6 34.866366 15'9.993368 13'-6 20.279370 © M.E.P.CAD, Inc.6/28/2022 Page 5AutoSPRINK 2020 v16.3.18.0 2:26:02PM Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 15'5'-2 0.114 15'5'-23104 3105 1 • • • • • Route 1 • • • • •(See Notes) 1.1010 9.60013.01 0.021999 Sprinkler 10.86 4.2 150 15'5'0.475 15'5'3105 3106 1 (See Notes) 1.1010 9.71413.09 0.094996 Sprinkler 23.95 4.2 150 17' 13'-6 24' 0.650 5.188 15'7'3106 362 1 (See Notes) 1.1010 10.18913.41 0.216184 Sprinkler, 37.36 4.2 2T(5'), E(7') 150 13'-6 3'-11 0.520 13'-6 3'-11362 364 1¼ 1.3940 16.02816.06 0.132745 Flow (q) from Route 4 53.42 150 6' 13'-6 12'-10 3.731 13'-6 6'-10364 370 1¼(See Notes) 1.3940 16.54728.32 0.291586 Flow (q) from Route 2 81.74 E(6') 150 24' 15'-6 36'-4 -0.867 15.455 13'-6 12'-4370 366 1¼(See Notes) 1.3940 20.27918.54 0.425632 Flow (q) from Route 5 100.28 3E(6'), T(6') 150 13' 15'-6 49'-10 4.433 15'-6 36'-10366 252 1¼(See Notes) 1.3940 34.866 0.088962 T(6') 43.03 cplg(1'), T(6') 150 47' 10'-6 103'-2 2.168 7.518 15'-6 56'-2252 250 2 (See Notes) 2.0030 39.30057.25 0.072846 Flow (q) from Route 6 100.28 5E(9'), 2cplg(1') 150 6'-10 5'14'-4 2.384 2.877 10'-6 7'-6250 8 2 (See Notes) 2.2030 48.985 0.069246100.28 E(6'-10), sCV(-7.257), UMC 120 1'4' 1.734 0.277 5'4'8 7 2 2.2030 54.247 0.069246100.28 120 13'-2 -3'21'-2 1.734 0.059 1'8'7 6 4 (See Notes) 4.2600 56.258 0.002790100.28 E(13'-2) 120 © M.E.P.CAD, Inc.6/28/2022 Page 6AutoSPRINK 2020 v16.3.18.0 2:26:04PM3- 5BB & 2AP HEADS Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 77'-4 -3'373'-2 0.850 -3'295'-106 5 4 (See Notes) 4.0800 58.051 0.002279100.28 4E(16'-1), PIV(3'-3), LtE(9'-8) 150 32'-3 -3'44'-3 5.590 -3'12'5 4 4 (See Notes) 4.2800 58.901 0.002051100.28 3LtE(10'-9), BFP(-5.013) 140 32'-3 -3'38'-3 0.087 -3'6'4 3 4 (See Notes) 4.0800 64.491 0.002279100.28 PO(32'-3) 150 332' -3'1883'-5 0.141 -3'1551'-53 2 8 (See Notes) 8.4500 64.578 0.000075100.28 10GV(7'), 4T(61'-6), EE(15'-10 ) 140 28'-1 0'44'-6 -1.301 0.013 -3'16'-52 1 6 (See Notes) 6.3400 64.719 0.000303100.28 GV(4'-11), E(23'-1), S 140 1 100.00 Hose Allowance At Source 200.28 Route 1Total(Pt) 63.432 15'5'0.005 15'5'3104 3103 1 • • • • • Route 2 • • • • •(See Notes) 1.1010 9.60013.01 0.001099 Sprinkler 2.15 4.2 150 5' 15'9'-6 0.387 15'4'-63103 368 1 (See Notes) 1.1010 9.60513.02 0.040786 Sprinkler, 15.17 4.2 T(5') 150 17' 13'-6 45'-7 0.650 5.904 15'28'-7368 364 1 (See Notes) 1.1010 9.99313.15 0.129475 Flow (q) from Route 3 28.32 E(7'), E(5'), C(5') 150 16.547 Total(Pt)Route 2 5' 15'6'0.188 15'1'3102 368 1 • • • • • Route 3 • • • • •(See Notes) 1.1010 9.80513.15 0.031330 Sprinkler, 13.15 4.2 T(5') 150 9.993 Total(Pt)Route 3 © M.E.P.CAD, Inc.6/28/2022 Page 7AutoSPRINK 2020 v16.3.18.0 2:26:04PM3- 5BB & 2AP HEADS Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 15' 13'-6 20'-4 0.434 0.922 14'-6 5'-43107 360 1 • • • • • Route 4 • • • • •(See Notes) 1.1010 14.61616.06 0.045324 Sprinkler, 16.06 4.2 E(5'), 2T(5') 150 13'-6 3'-11 0.056 13'-6 3'-11360 362 1¼ 1.3940 15.971 0.01436416.06 150 16.028 Total(Pt)Route 4 5' 13'-6 6' 0.434 0.355 14'-6 1'3101 370 1 • • • • • Route 5 • • • • •(See Notes) 1.1010 19.49018.54 0.059150 Sprinkler, 18.54 4.2 T(5') 150 20.279 Total(Pt)Route 5 15'-6 6'-5 0.966 15'-6 6'-5366 166 1¼• • • • • Route 6 • • • • • 1.3940 34.86643.03 0.150910 Flow (q) from Route 1 57.25 150 6' 15'-6 12'-4 1.029 15'-6 6'-4166 170 1¼(See Notes) 1.3940 35.832 0.08333141.53 T(6') 150 6' 15'-6 42'-10 1.627 15'-6 36'-10170 182 1¼(See Notes) 1.3940 36.861 0.03797927.16 T(6') 150 1' 15'-6 7'-4 0.315 15'-6 6'-4182 168 1½(See Notes) 1.5980 38.48814.37 0.042850 Flow (q) from Route 8 41.53 Tr(1') 150 15'-6 6'-5 0.497 15'-6 6'-5168 252 1½ 1.5980 38.80315.72 0.077599 Flow (q) from Route 7 57.25 150 39.300 Total(Pt)Route 6 27' 15'-6 68'-2 2.971 15'-6 41'-2166 168 1 • • • • • Route 7 • • • • •(See Notes) 1.1010 35.832 0.043583 T(5') 15.72 2E(5'), E(7'), T(5') 150 38.803 Total(Pt)Route 7 © M.E.P.CAD, Inc.6/28/2022 Page 8AutoSPRINK 2020 v16.3.18.0 2:26:04PM3- 5BB & 2AP HEADS Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Pipe Information Node 1 Node 2 Nominal ID Actual ID Fittings & Devices C Factor Total(Pt) Elev(Pe) Friction(Pf) Fitting/Device (Equivalent Length) Fixed Pressure Losses, when applicable, are added directly to (Pf) and shown as a negative value. NotesFlow added this step (q) K-Factor Elev 1 Elev 2 Total Flow (Q) Equiv. Length (Foot) (Foot)(Foot) (Foot) Length (Foot) Fitting (Foot) Total (psi) Pf Friction Loss Per Unit 61' 15'-6 139'1.627 15'-6 78'170 182 1¼• • • • • Route 8 • • • • •(See Notes) 1.3940 36.861 0.011702 T(6') 14.37 6E(6'), 3T(6'), cplg(1') 150 38.488 Total(Pt)Route 8 © M.E.P.CAD, Inc.6/28/2022 Page 9AutoSPRINK 2020 v16.3.18.0 2:26:04PM3- 5BB & 2AP HEADS Date: 6/28/2022 Job Name: THE CENTRE AT LA QUINTA- REC BLDG Remote Area Number: 3- 5BB & 2AP HEADS Equivalent Pipe Lengths of Valves and Fittings (C=120 only) 1.51 Fittings Legend ALV Alarm Valve AngV Angle Valve b Bushing BalV Ball Valve BFP Backflow Preventer BV Butterfly Valve C Cross Flow Turn 90°cplg Coupling Cr Cross Run CV Check Valve DelV Deluge Valve DPV Dry Pipe Valve E 90° Elbow EE 45° Elbow Ee1 11¼° Elbow Ee2 22½° Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow flg Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Turn 90°Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap 4.87 )(150 1.33 140 1.16 130 0.713 100Actual Inside Diameter Schedule 40 Steel Pipe Inside Diameter = Factor C Value Multiplier Value Of C Multiplying Factor © M.E.P.CAD, Inc.6/28/2022 Page 10AutoSPRINK 2020 v16.3.18.0 2:26:04PM3- 5BB & 2AP HEADS FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M MATERIAL SUBMITTAL FOR: The Centre at La Quinta Recreational Building 47470 Aloe Way La Quinta, Ca 92253 GENERAL CONTRACTOR: Vertical Integrity June 29, 2022 PREPARED BY: ON GUARD FIRE PROTECTION ENGINEERING DEPT. FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES Page 2 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M TABLE OF CONTENTS: 1. Water Flow Info 2. Sprinkler Heads 3. Pipe & Fittings 4. Valves 5. Accessories & Fire Caulking FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES Page 5 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M 1. Water Flow FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES Page 3 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M 2. Sprinkler Heads MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 1 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com 1. DESCRIPTIONViking Mirage® Standard and Quick Response Concealed Pendent Sprinkler VK462 and HP Sprinkler VK463 are thermosensitive glass-bulb spray sprinklers designed for installation on concealed pipe systems where the appearance of a smooth ceiling is desired.The sprinkler is pre-assembled with a threaded adapter for installation with a low-profile cover assembly that provides up to ½” (12.7 mm) of vertical adjustment. The two-piece design allows installation and testing of the sprinkler prior to installation of the cover plate. The “The “push-on” and “thread-on” designs of the concealed cover plate assemblies allow easy installation of the cover plate after the system has been tested and the ceiling finish has been applied. The cover assembly can be removed and reinstalled, allowing temporary removal of ceiling panels without taking the sprinkler system out of service or removing the sprinkler. The Electroless Nickel PTFE (ENT) coating has been investigated for installation in corrosive environments and is listed and approved as indicated in the Approval Charts. The ENT finish is only available for the sprinkler assembly, the cover plate is not plated. 2. LISTINGS AND APPROVALS cULus Listed: Category VNIV FM Approval: Class 2015 NYC Approved: MEA 89-92-E, Volume 32 VdS Approved: Certificate G4080021 LPCB Approved: Ref. No. 096e/12 CE Certified: Standard EN 12259-1, EC-certificate of conformity 0832-CPD-2032 China Approval: Approved according to China GB Standard Refer to the Approval Charts and Design Criteria listing and approval requirements that must be followed. 3. TECHNICAL DATA Specifications:Available since 2006.Minimum Operating Pressure: 7 psi (0.5 bar)*Maximum Working Pressure: Sprinkler VK463 is rated for use with water working pressures ranging from the minimum 7 psi (0.5 bar) up to 250 psi (17.2 bar) for high-pressure systems. High-pressure (HP) sprinklers can be identified by locating “250” stamped on the deflector. Sprinkler VK462 is rated to a maximum 175 psi (12 bar) wwp. Factory tested hydrostatically to 500 psi (34.5 bar)Thread size: 1/2” (15 mm) NPTNominal K-Factor: 5.6 U.S. (80.6 metric**)Glass-bulb fluid temperature rated to -65°F (-55°C)Patents Pending * cULus Listing, FM Approval, and NFPA 13 installs require a minimum of 7 psi (0.5 bar). The minimum operating pressure for LPCB and CE Approvals ONLY is 5 psi (0.35 bar). ** Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. Material Standards:Sprinkler Body: Brass UNS-C84400Deflector: Copper UNS-C19500 for Sprinkler; Phosphor Bronze UNS-C51000 for Sprinkler VK463Deflector Pins: Stainless Steel AlloyBulb: Glass, nominal 3 mm diameterPip Cap and Insert Assembly: Copper UNS-C11000 and Stainless Steel UNS-S30400Button: Brass UNS-C36000 Screws: 18-8 Stainless SteelBelleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with PTFE TapeYoke: Phosphor Bronze UNS-C51000Cover Adapter: Cold Rolled Steel UNS-G10080, Finish: Clear Chromate over Zinc Plating Cover Assembly Materials:Cover: Copper UNS-C11000 or Stainless Steel UNS-S30400Base: Brass UNS-C26000 or UNS-C26800Springs: Nickel AlloySolder: Eutectic Ordering Information: The sprinkler and cover plate must be ordered separately. Refer to Tables 1 and 2. Replaces Form No. F_103005 Rev 20.3 (Revised VdS Approval requirements.) MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 2 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com 4. INSTALLATIONRefer to appropriate NFPA Installation Standards. 5. OPERATIONDuring fire conditions, when the temperature around the sprinkler approaches its operating temperature, the cover plate detaches. Continued heating of the exposed sprinkler causes the heat-sensitive liquid in the glass bulb to expand and the bulb to shatter, releasing the yoke, pip-cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. 6. INSPECTIONS, TESTS AND MAINTENANCERefer to NFPA 25 for Inspection, Testing and Maintenance requirements. 7. AVAILABILITYViking Sprinklers VK462 and VK463 are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEEFor details of warranty, refer to Viking’s current list price schedule or contact Viking directly. TABLE 1: SPRINKLER ORDERING INFORMATION Instructions: (1) Select a Sprinkler Base Part Number (2) Add the suffix for the desired Finish (3) Add the suffix for the desired Sprinkler Temperature Rating (4) Order a cover plate (refer to Table 2) Example: 13503AE = 200 °F (93 °C) Temperature Rated Sprinkler with a standard Brass finish. SIN Sprinkler Base Part Number8 Size 1: Finishes 2: Temperature Ratings NPT Inch BSPT mm Description Suffix1 Sprinkler Temperature Classification Nominal Rating Bulb Color Max. Ambient Ceiling Temperature2 Suffix VK462 13503 1/2 --Brass A Ordinary 155 °F (68 °C)Red 100 °F (38 °C)B VK462 213567,9 --15 ENT 3,4 JN Intermediate 175 °F (79 °C)Yellow 150 °F (65 °C)D VK463 13667 1/2 --Intermediate 200 °F (93 °C)Green 150 °F (65 °C)E Accessories Sprinkler Wrenches and tools (see Figure 1): A. Heavy Duty Part Number: 14047W/B5 (available since 2006) B. Head Cabinet Wrench Part Number: 140316 (available since 2006) C. Optional Concealed Cover Plate Installer Tool Part Number: 1441210 (available since 2007) D. Optional Large Concealed Cover Plate Installer Tool Part No. 1486710 (available since 2007) Sprinkler Cabinet:Holds up to 6 sprinklers: Part number 01731A (available since 1971). Footnotes 1. Where a dash (-) is shown in the Finish suffix designation, insert the desired Temperature Rating suffix. See example above. 2. Based on NFPA 13, NFPA 13R, and NFPA 13D. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 3. UL Listed as corrosion resistant. 4. The corrosion resistant coatings have passed the standard corrosion test required by the approving agencies indicated in the Approval Chart. These tests cannot and do not represent all possible corrosive environments. Prior to installation, verify through the end-user that the coatings are compatible with or suitable for the proposed environment. For automatic sprinklers, the ENT coating is applied to all exposed exterior surfaces, including the waterway. 5. Requires a ½” ratchet (not available from Viking). 6. Also optional for removal of the protective cap. Ideal for sprinkler cabinets. 7. Not available with ENT finish. See approval charts for more information. 8. See approval charts for more information. 9. Approved according to China GB Standard. 10. The installer tool is for push-on style cover plates only. MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 3 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com TABLE 2: COVER PLATE ORDERING INFORMATION Instructions: (1) Select a Cover Plate Base Part Number (2) Add the suffix for the desired Finish (3) Add the suffix for the required Cover Plate Nominal Rating. Example: 23190MC/W = 165 °F (74 °C) Temperature Rated, 2-3/4” (70 mm) diameter, Thread-On style Round Cover Plate with a Painted White finish. 1: Select a Cover Plate Base Part Number3 2: Select a FinishThread-On Style Push-On Style Base Part Number Size Inch (mm)Type Base Part Number Size Inch (mm)Type Description Suffix5 23190 2-3/4 (70)Round 23447 2-3/4 (70)Round Polished Chrome F 23174 3-5/16 (84)Round 23463 3-5/16 (84)Round Brushed Chrome F-/B 23179 3-5/16 (84)Square 23482 3-5/16 (84)Square Bright Brass B 231934 2-3/4 (70)Stainless Steel Round 234554 2-3/4 (70)Stainless Steel Round Antique Brass B-/A Brushed Brass B-/B 231834 3-5/16 (84)Stainless Steel Round 234734 3-5/16 (84)Stainless Steel Round Brushed Copper E-/B Painted White M-/W 23174-/CR 3-5/16 (84)Clean Room 23463-/CR 3-5/16 (84)Clean Room Painted Ivory M-/I 23183CR4 3-5/16 (84) Stainless Steel Round Clean Room 23473CR4 3-5/16 (84) Stainless Steel Round Clean Room Painted Black M-/B 3: Temperature Rating Matrix1,2 Cover Plate Nominal Rating (Required) Temperature Classification Sprinkler Nominal Rating Sprinkler Maximum Ambient Ceiling Temperature2 Suffix UL: 135 °F (57 °C) FM: 139° F (59 °C)Ordinary 155 °F (68 °C)100 °F (38 °C)A 165 °F (74 °C)Intermediate 175 °F (79 °C)150 °F (65 °C)C 165 °F (74 °C)Intermediate 200 °F (93 °C)150 °F (65 °C)C Footnotes 1. The sprinkler temperature rating is stamped on the deflector. 2. Based on NFPA-13. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 3. Part number shown is the base part number. For complete part number, refer to current Viking price list schedule. 4. Stainless Steel versions are not available with any finishes or paint. 5. Where a dash (-) is shown in the Finish suffix designation, insert the desired Temperature Rating suffix. See example above. MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 4 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Approval Chart 1 (UL) Mirage® Concealed Pendent Sprinklers VK462 and VK463 Sprinkler Base Part No.1 SIN Thread Size Nominal K-factor Maximum Water Working Pressure Listings and Approvals4 (Refer also to Design Criteria) NPT Inch BSPT mm U.S.metric2 cULus5 NYC VdS7 LPCB China Approval Standard Response Applications 13503A VK462 1/2”--5.6 80.6 175 psi (12 bar)----AY1, CZ1 AY1, BZ1 AY1, CZ18 -- 21356A12 VK462 --15 5.6 80.6 175 psi (12 bar)----------AY1, CZ1 Quick Response Applications 13503A VK462 1/2”15 5.6 80.6 175 psi (12 bar)AV1, BX1, AS2, BT2 AV1, BX16 -------- 13503JN11 VK462 1/2”15 5.6 80.6 175 psi (12 bar)AV1, BX1, AS2, BT2 AV1, BX16 -------- 21356A12 VK462 --15 5.6 80.6 175 psi (12 bar)AY1, CZ1 ---------- 13667A VK463 1/2”15 5.6 80.6 250 psi (17.2 bar)3 AV1, BX1 AV1, BX16 -------- 13667JN11 VK463 1/2”15 5.6 80.6 250 psi (17.2 bar)3 AV1, BX1 AV1, BX16 -------- Approved Sprinkler Temperature Rating Codes Approved Cover Plate Temperature Rating Codes Approved Cover Plate Finish Codes A = 155 °F (68 °C) B = 175 °F (79 °C) C = 200 °F (93 °C) S - 135 °F (57 °C) cover 23193, 23445 or 23183, 23473 (large diameter) T - 165 °F (74 °C) cover 23193, 23445 or 23183, 23473 (large diameter) V - 135 °F (57 °C) cover 23190, 23447, 23174, 23463 (large diameter), or 23179, 23482 (square cover plate) X - 165 °F (74 °C) cover 23190, 23447, or 23174, 23463 (large diameter) Y - 135 °F (57 °C) cover 23190, 23447 LPCB Approved as 139 °F (59 °C) Z - 165 °F (74 °C) cover 23190, 23447 1 - Polished Chrome, Brushed Chrome, Bright Brass, Antique Brass, Brushed Brass, Brushed Copper, Painted White, Painted Ivory, or Painted Black 2 - Stainless Steel Footnotes 1. Part number shown is the base part number. For complete part number, refer to current Viking price list schedule. 2. Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. 3. The Water Working Pressure rating is stamped on the deflector. 4. This chart shows the listings and approvals available at the time of printing. Other approvals may be in process. Check with the manufacturer for any additional approvals. 5. Listed by Underwriter’s Laboratories for use in the U.S. and Canada. 6. Accepted for use, City of New York Department of Buildings, MEA Number 89-92-E, Vol. 32. 7. VdS Approved, standards VdS 2344:2005-12, VdS 2100-25:2008-01, and EN 12259-1:1999 + A1:2001 + A2:2004 + A3:2006, Certificate G4080021. 8. CE Certified, Standard EN 12259-1, EC-certificate of conformity 0832-CPD-2032. 9. The 135/139 °F cover has an orange label. The 165 °F (74 °C) cover has a white label. 10. Painted finish consists of Polyester Baked Enamel. Other paint colors are available on request with the same listings as the standard paint colors. Listings and approvals apply for any paint manufacturer. Contact Viking for additional information. 11. cULus Listed as corrosion resistant. 12. Approved according to China GB Standard. NOTE: Custom colors are indicated on a label inside the cover assembly. Refer to Figure 1. MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 5 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com DESIGN CRITERIA - UL (Also refer to Approval Chart 1) cULus Listing Requirements: Mirage® Concealed Pendent Sprinklers VK462 and VK463 are cULus Listed as quick response for installation in accordance with the latest edition of NFPA 13 for standard coverage pendent spray sprinklers as indicated below. • For hazard occupancies up to and including Ordinary Hazard, Group II. • Protection areas and maximum spacing shall be in accordance with the tables provided in NFPA 13. Maximum spacing allowed is 15 ft. (4.6 m). • Minimum spacing allowed is 6 ft. (1.8 m) unless baffles are installed in accordance with NFPA 13. • Minimum distance from walls is 4 in. (102 mm). • Maximum distance from walls shall be no more than one-half of the allowable distance between sprinklers. The distance shall be measured perpendicular to the wall. • The sprinkler obstruction rules contained in NFPA 13 for standard coverage pendent spray sprinklers must be followed. NOTE: Concealed sprinklers must be installed in neutral or negative pressure plenums only. VdS Approval Requirements: Concealed sprinklers must be installed in neutral or negative pressure plenums only. VdS does not allow the installation of concealed sprinklers in false ceiling where the void above also contains a water based active fire protection system. Steps of installation: 1. Prepare the sprinkler key. 2. Remove the plastic cover. 3. Hold the sprinkler with the wrench and fasten it. 4. Replace the plastic cover and do not remove until the cover is installed. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Also refer to Form No. F_080614 for general care, installation, and maintenance information. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appropriate standards of NFPA, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. Figure 1: Identification of Custom Paint for Concealed Covers Figure 2: Square Cover Assembly All custom color painted cover plates will have an identifying label affixed to the inside of the cover that indicates the custom color and will have a representative sample (a paint dot) of the paint on the label.FACTORY APPLIE D C USTO M P A I NT COLOR MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 6 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com DESIGN CRITERIA - FM (Also refer to Approval Chart 2 above.) FM Approval Requirements: Viking Concealed Pendent Sprinkler VK462 is FM Approved as a standard response Non-Storage concealed pendent sprinkler as indicated in the FM Approval Guide. For specific application and installation requirements, reference the latest applicable FM Loss Prevention Data Sheets (including Data Sheet 2-0). FM Global Loss Prevention Data Sheets contain guidelines relating to, but not limited to: minimum water supply requirements, hydraulic design, ceiling slope and obstructions, minimum and maximum allowable spacing, and deflector distance below the ceiling. NOTE: The FM installation guidelines may differ from cULus and/or NFPA criteria. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Also refer to Form No. F_080614 for general care, installation, and maintenance information. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organiza- tions, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. Approval Chart 2 (FM) Mirage® Standard Response Concealed Pendent Sprinkler VK462 Sprinkler Base Part No.1 SIN Thread Size Nominal K-Factor Maximum Water Working Pressure FM Approvals3 (Refer also to Design Criteria below.)NPT Inch BSPT mm U.S.metric2 13503A VK462 1/2”15 5.6 80.6 175 psi (12 bar)AW1, BX1, AY2, BZ2 21356A6 VK462 --15 5.6 80.6 175 psi (12 bar)AU1, CV1 Approved Sprinkler Temperature Rating Codes Approved Cover Plate Temperature Rating Codes Approved Cover Plate Finish Codes A - 155 °F (68 °C) B - 175 °F (79 °C) and 200 °F (93 °C) C - 200 °F (93 °C) U - 139 °F (59 °C) cover 23190, 23447 V - 165 °F (74 °C) cover 23190, 23447 W - 139 °F (59 °C) cover 23190, 23447, or 23174, 23463 (large diameter), or 23179, 23482 (square cover plate) X - 165 °F (74 °C) cover 23190, 23447, 23174, 23463 (large diameter), or 23179, 23482 (square cover plate) Y - 139 °F (59 °C) cover, 23183, 23473 or 23193, 23455 Z - 165 °F (74 °C) cover 23183, 23473 or 23193, 23455 1 - Polished Chrome, Brushed Chrome, Bright Brass, Antique Brass, Brushed Brass, Brushed Copper, Painted White, Painted Ivory, or Painted Black 2 - Stainless Steel Footnotes 1. Part number shown is the base part number. For complete part number, refer to current Viking price list schedule. 2. Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. 3. This chart shows the FM Approvals available at the time of printing. Other approvals may be in process. Check with the manufacturer for any additional approvals. 4. The 139 °F (59 °C) cover has an orange label. The 165 °F (74 °C) cover has a white label. 5. Painted finish consists of Polyester Baked Enamel. Other paint colors are available on request with the same listings as the standard paint colors. Listings and approvals apply for any paint manufacturer. Contact Viking for additional information. 6. Approved according to China GB Standard. NOTE: Custom colors are indicated on a label inside the cover assembly. Refer to Figure 1. MIRAGE® STANDARD AND QR CONCEALED PENDENT SPRINKLER VK462 AND HP SPRINKLER VK463 (K5.6) TECHNICAL DATA Form No. F_103005 21.08.14 Rev 21.1 Page 7 of 7 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Sprinkler and Adapter Assembly • Protective cap removed • Use wrench 14047W/B** Step 1: Carefully slide the wrench sideways around the deflector and pins Sprinkler Wrench Part No. 14047W/B** ** A 1/2” ratchet is required (Not available from Viking) 2-1/4” (57 mm) diameter opening required in the ceiling. Step 2: Carefully press the wrench upward and turn slightly to ensure engagement with the sprinkler wrench flats. Figure 3: Sprinkler Installation and Proper Wrench Usage NEVER install the sprinkler by applying the installation wrench across the frame arms. DO NOT overtighten. Use only the designated sprinkler wrenches, Viking Part Numbers 14047W/B** or 14031**. A leak tight seal should be achieved by turning the sprinkler clockwise 1 to 1-1/2 turns beyond finger tight. Sprinkler wrench flat Sprinkler frame arms Figure 4: Sprinkler Dimensions and Cover Installation 1/2” (15 mm) NPT 2-3/16”(55 mm)2-9/16” (65 mm)Maximum 2-1/16” (52 mm)Minimum 2-3/4” (70 mm) or 3-5/16” (84 mm)NOTE: Upon sprinkler activation, the deflector descends to approximately 13/16” (21 mm) below the sprinkler body. Replaces Form No. F_103005 Rev 20.3 (Revised VdS Approval requirements.) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 1 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 SPRINKLERS ARE FRAGILE - HANDLE WITH CARE! General Handling and Storage: • Store sprinklers in a cool, dry place. • Protect sprinklers during storage, transport, handling, and after installation. • Use the original shipping containers. DO NOT place sprinklers loose in boxes, bins, or buckets. • Keep sprinklers separated at all times. DO NOT allow metal parts to contact sprinkler operating elements. For Pre-Assembled Drops: • Protect sprinklers during handling and after installation. • For recessed assemblies, use the protective sprinkler cap (Viking Part Number 10364). Sprinklers with Protective Shields or Caps: • DO NOT remove shields or caps until after sprinkler installation and there no longer is potential for mechanical damage to the sprinkler operating elements. • Sprinkler shields or caps MUST be removed BEFORE placing the system in service! • Remove the sprinkler shield by carefully pulling it apart where it is snapped together. • Remove the cap by turning it slightly and pulling it off the sprinkler. Sprinkler Installation: • DO NOT use the sprinkler deflector or operating element to start or thread the sprinkler into a fitting. • Use only the designated sprinkler head wrench! Refer to the current sprinkler tech- nical data page to determine the correct wrench for the model of sprinkler used. • DO NOT install sprinklers onto piping at the floor level. • Install sprinklers after the piping is in place to prevent mechanical damage. • DO NOT allow impacts such as hammer blows directly to sprinklers or to fittings, pipe, or couplings in close proximity to sprinklers. Sprinklers can be damaged from direct or indirect impacts. • DO NOT attempt to remove drywall, paint, etc., from sprinklers. • Take care not to over-tighten the sprinkler and/or damage its operating parts! Maximum Torque: 1/2” NPT: 14 ft-lbs. (19.0 N-m) 3/4” NPT: 20 ft-lbs. (27.1 N-m) 1” NPT: 30 ft-lbs. (40.7 N-m) WARNING Any sprinkler with a loss of liquid from the glass bulb or damage to the fusible element should be destroyed. Never install sprinklers that have been dropped, damaged, or exposed to temperatures exceeding the maximum ambient temperature allowed. Sprinklers that have been painted in the field must be replaced per NFPA 13. Protect sprinklers from paint and paint overspray in accordance with the installation standards. Do not clean sprinklers with soap and water, ammonia, or any other cleaning fluid. Do not use adhesives or solvents on sprinklers or their operating elements. Refer to the appropriate technical data page and NFPA standards for complete care, handling, installation, and maintenance instructions. For additional product and system information Viking data pages and installation instructions are available on the Viking Web site at www.vikinggroupinc.com. CORRECT (Original container used) INCORRECT (Placed loose in box) CORRECT (Protected with caps) INCORRECT (Protective caps not used) CORRECT (Piping is in place at the ceiling) INCORRECT (Sprinkler at floor level) CORRECT (Special installation wrenches) INCORRECT (Designated wrench not used) Replaces Form No. F_091699 Rev 16.1 (Added P65 Warning) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 2 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 PROTECTIVE SPRINKLER SHIELDS AND CAPS General Handling and Storage: Many Viking sprinklers are available with a plastic protective cap or shield temporarily covering the operating elements. The snap- on shields and caps are factory installed and are intended to help protect the operating elements from mechanical damage during shipping, storage, and installation. NOTE: It is still necessary to follow the care and handling instructions on the appropriate sprin- kler technical data sheets* when installing sprinklers with bulb shields or caps. WHEN TO REMOVE THE SHIELDS AND CAPS: NOTE: SHIELDS AND CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Remove the shield or cap from the sprinkler only after checking all of the following: • The sprinkler has been installed*. • The wall or ceiling finish work is completed where the sprinkler is installed and there no longer is a potential for mechanical damage to the sprinkler operating elements. SHIELDS AND CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Figure 1: Sprinkler shield being removed from a pendent sprinkler.Figure 2: Sprinkler cap being removed from a pendent sprinkler.Figure 3: Sprinkler cap being re-moved from and upright sprinkler. HOW TO REMOVE SHIELDS AND CAPS: No tools are necessary to remove the shields or caps from sprinklers. DO NOT use any sharp objects to remove them! Take care not to cause mechanical damage to sprinklers when removing the shields or caps. When removing caps from fusible ele- ment sprinklers, use care to prevent dislodging ejector springs or damaging fusible elements. NOTE: Squeezing the sprinkler cap excessively could damage sprinkler fusible elements. • To remove the shield, simply pull the ends of the shield apart where it is snapped together. Refer to Figure 1. • To remove the cap, turn it slightly and pull it off the sprinkler. Refer to Figures 2 and 3. Refer to the current sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. Never install sprinklers that have been dropped, damaged, or exposed to temperatures in excess of the maximum ambient temperature allowed. * Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 3 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 GENERAL HANDLING AND STORAGE INSTRUCTIONS: • Do not store in temperatures exceeding 100 °F (38 °C). Avoid direct sunlight and confined areas subject to heat. • Protect sprinklers and cover assemblies during storage, transport, handling, and after installation. -- Use original shipping containers. -- Do not place sprinklers or cover assemblies loose in boxes, bins, or buckets. • Keep the sprinkler bodies covered with the protective sprinkler cap any time the sprinklers are shipped or handled, during testing of the system, and while ceiling finish work is being completed. • Use only the designated Viking recessed sprinkler wrench (refer to the appropriate sprinkler data page) to install these sprinklers. NOTE: The protective cap is temporarily removed during installation and then placed back on the sprinkler for protection until finish work is completed. • Do not over-tighten the sprinklers into fittings during installation. • Do not use the sprinkler deflector to start or thread the sprinklers into fittings during installation. • Do not attempt to remove drywall, paint, etc., from the sprinklers. • Remove the plastic protective cap from the sprinkler before attaching the cover plate assembly. PROTECTIVE CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. Concealed Sprinkler and Adapter Assembly with Protective Cap CAUTION: CONCEALED COVER ASSEMBLIES ARE FRAGILE! TO ASSURE SATISFACTORY PERFORMANCE OF THE PRODUCT, HANDLE WITH CARE. Cover Plate Assembly (Pendent Cover 12381 shown) Concealed Sprinkler and Adapter Assembly (Protective Cap Removed) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 4 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 USE THE FOLLOWING PRECAUTIONS WHEN HANDLING WAX-COATED SPRINKLERS Many of Viking’s sprinklers are available with factory-applied wax coating for corrosion resistance. These sprinklers MUST receive appropriate care and handling to avoid damaging the wax coating and to assure satisfactory performance of the product. General Handling and Storage of Wax-Coated Sprinklers: • Store the sprinklers in a cool, dry place (in temperatures below the maximum ambient temperature allowed for the sprinkler temperature rating. Refer to Table 1 below.) • Store containers of wax-coated sprinklers separate from other sprinklers. • Protect the sprinklers during storage, transport, handling, and after installation. • Use original shipping containers. • Do not place sprinklers in loose boxes, bins, or buckets. Installation of Wax-Coated Sprinklers: Use only the special sprinkler head wrench designed for installing wax-coated Viking sprinklers (any other wrench may damage the unit). • Take care not to crack the wax coating on the units. • For touching up the wax coating after installation, wax is available from Viking in bar form. Refer to Table 1 below. The coating MUST be repaired after sprinkler installation to protect the corrosion-resistant properties of the sprinkler. • Use care when locating sprinklers near fixtures that can generate heat. Do not install sprinklers where they would be exposed to temperatures exceed- ing the maximum recommended ambient temperature for the temperature rating used. • Inspect the coated sprinklers frequently soon after installation to verify the integrity of the corrosion resistant coating. Thereafter, inspect representative samples of the coated sprinklers in accordance with NFPA 25. Close up visual inspections are necessary to determine whether the sprinklers are being affected by corrosive conditions. Never install sprinklers that have been dropped, damaged, or exposed to temperatures in excess of the maximum ambi- ent temperature allowed. Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. TABLE 1 Sprinkler Temperature Rating (Fusing Point) Wax Part Number Wax Melting Point Maximum Ambient Ceiling Temperature1 Wax Color 155 °F (68 °C) / 165 °F (74 °C)02568A 148 °F (64 °C)100 °F (38 °C)Light Brown 175 °F (79 °C)04146A 161 °F (71 °C)150 °F (65 °C)Brown 200 °F (93 °C)04146A 161 °F (71 °C)150 °F (65 °C)Brown 220 °F (104 °C)02569A 170 °F (76 °C)150 °F (65 °C)Dark Brown 286 °F (141 °C)02569A 170 °F (76 °C)150 °F (65 °C)Dark Brown 1 Based on NFPA-13. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. Replaces Form No. F_091699 Rev 16.1 (Added P65 Warning) TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 1 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 1. DESCRIPTION Viking fire sprinklers consist of a threaded frame with a specific waterway or orifice size and a deflector for distributing water in a specified pattern. A closed or sealed sprinkler refers to a complete assembly, including the thermosensitive operating element. An open sprinkler does not use an operating element and is open at all times. The distribution of water is intended to extinguish a fire or to control its spread. Viking sprinklers are available in several models and styles. Refer to specific sprinkler technical data pages for available styles, finishes, temperature ratings, thread sizes, and nominal K-Factors for the particular model selected. 2. LISTINGS AND APPROVALS Refer to the Approval Charts on the appropriate sprinkler technical data page(s) and/or approval agency listings. 3. TECHNICAL DATA Pressure Ratings: Maximum allowable water working pressure is 175 psig (12 Bar) unless rated and specified for high water working pressure [250 psig (17.2 bar)]. Sprinkler Identification: Viking sprinklers are identified and marked with the word “Viking”, the sprinkler identification number (SIN) consisting of “VK” plus a three digit number*, the model letter, and the year of manufacture. Available Finishes: Viking sprinklers are available in several decorative finishes. Some models are available with corrosion-resistant coatings or are fabricated from non-corrosive material. Refer to the sprinkler technical data page for additional information. Available Temperature Ratings: Viking sprinklers are available in several temperature ratings that relate to a specific temperature classification. Applicable installa- tion rules mandate the use and limitations of each temperature classification. In selecting the appropriate temperature classifica- tion, the maximum expected ceiling temperature must be known. When there is doubt as to the maximum temperature at the sprinkler location, a maximum-reading thermometer should be used to determine the temperature under conditions that would show the highest readings to be expected. In addition, recognized installation rules may require a higher temperature classifica- tion, depending upon sprinkler location, occupancy classification, commodity classification, storage height, and other hazards. In all cases, the maximum expected ceiling temperature dictates the lowest allowable temperature classification. Sprinklers located immediately adjacent to a heat source may require a higher temperature rating. K-Factors: Viking sprinklers are available in several orifice sizes with related K-Factors. The orifice is a tapered waterway and, therefore, the K-Factor given is nominal. Nominal U.S. K-Factors are provided in accordance with the 1999 edition of NFPA 13, Section 3-2.3. Refer to the specific data page for appropriate K-Factor information. Available Styles: Viking sprinklers are available for installation in several positions as indicated by a stamping on the deflector. The deflector style dictates the appropriate installation position of the sprinkler; it breaks the solid stream of water issuing from the sprinkler orifice to form a specific spray pattern. The following list indicates the various styles and identification of Viking sprinklers. UPRIGHT SPRINKLER: A sprinkler intended to be installed with the deflector above the frame so water flows upward through the orifice, striking the deflector and forming an umbrella-shaped spray pat- tern downward. Marked “SSU” (Standard Sprinkler Upright) or “UPRIGHT” on the deflector. PENDENT SPRINKLER: A sprinkler intended to be oriented with the deflec- tor below the frame so water flows downward through the orifice, striking the deflector and forming an umbrella-shaped spray pattern downward. Marked “SSP” (Standard Sprinkler Pendent) or “PENDENT” on the de- flector. CONVENTIONAL SPRINKLER: An “old style” sprinkler intended to be installed with the deflector in either the upright or pendent position. The deflector provides a spherical type pattern with 40 to 60 percent of the water initially directed downward and a proportion directed upward. Must be installed in accordance with installation rules for conventional or old style sprinklers. DO NOT USE AS A REPLACEMENT FOR STANDARD SPRAY SPRINKLERS. Marked “C U/P” (Conventional Upright/Pendent) on the deflector. Viking Technical Data may be found on The Viking Corporation’s Web site at http://www.vikinggroupinc.com. The Web site may include a more recent edition of this Technical Data Page. Replaces Form No. F_080814 Rev 14.1 (Added P65 Warning.) TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 2 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 VERTICAL SIDEWALL (VSW) SPRINKLER: A sprinkler intended for installation near the wall and ceiling. The deflector provides a water spray pattern outward in a quarter-spherical pattern and can be installed in the upright or pendent position with the flow arrow in the direction of discharge. Marked “SIDEWALL” on the deflector with an arrow and the word “FLOW”. (Note: Some vertical sidewall sprinklers can only be installed in the upright or pendent position—in this case, the sprinkler will also be marked “UPRIGHT” or “PENDENT”.) HORIZONTAL SIDEWALL (HSW) SPRINKLER: A sprinkler intended for installation near the wall and ceiling. The special deflector provides a water spray pattern outward in a quarter-spherical pattern. Most of the water is directed away from the nearby wall with a small portion directed at the wall behind the sprinkler. The top of the deflector is oriented parallel with the ceiling or roof. The flow arrows point in the direction of discharge. Marked “SIDEWALL” and “TOP” with an arrow and the word “FLOW”. EXTENDED COVERAGE (EC) SPRINKLER: A spray sprinkler designed to discharge water over an area having the maximum dimensions indicated in the individual listings. Maximum area of coverage, minimum flow rate, orifice size, and nominal K-Factor are specified in the individual listings. EC sprinklers are intended for Light-Hazard occupancies with smooth, flat, horizontal ceil- ings unless otherwise specified. In addition to the above markings, the sprinkler is marked “EC”. QUICK RESPONSE (QR) SPRINKLER: A spray sprinkler with a fast- actuating operating element. The use of quick response sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction (AHJ) prior to installing. QUICK RESPONSE EXTENDED COVERAGE (QREC) SPRINKLER: A spray sprinkler designed to discharge water over an area having the maximum dimensions indicated in the individual listing. This is a sprinkler with an operating element that meets the criteria for quick response. QREC sprinklers are only intended for Light Hazard occupancies. The sprinkler is marked “QREC”. FLUSH SPRINKLER: A decorative spray sprinkler intended for installation with a concealed piping system. The unit is mounted flush with the ceiling or wall, with the fusible link exposed. Upon actuation, the deflector extends beyond the ceiling or wall to distribute water discharge. The sprinkler is marked “SSP”, “PEND”, or “SIDEWALL” and “TOP”. CONCEALED SPRINKLER: A decorative spray sprinkler intended for installation with a concealed piping system. The sprinkler is hidden from view by a cover plate installed flush with the ceiling or wall. During fire conditions, the cover plate detaches, and upon sprinkler actuation, the deflector extends beyond the ceiling or wall to distribute water discharge. The sprinkler is marked “SSP”, “PEND”, or “SIDEWALL” and “TOP”. RECESSED SPRINKLER: A spray sprinkler assembly intended for installation with a concealed piping system. The assembly con- sists of a sprinkler installed in a decorative adjustable recessed escutcheon that minimizes the protrusion of the sprinkler beyond the ceiling or wall without adversely affecting the sprinkler distribution or sensitivity. Refer to the appropriate technical data page for allowable sprinkler models, temperature ratings, and occupancy classifications. DO NOT RECESS ANY SPRINKLER NOT LISTED FOR USE WITH THE ESCUTCHEON. CORROSION-RESISTANT SPRINKLER: A special service sprinkler with non-corrosive protective coatings, or that is fabricated from non-corrosive material, for use in atmospheres that would normally corrode sprinklers. DRY SPRINKLER: A special-service sprinkler intended for installation on dry pipe systems or wet pipe systems where the sprinkler is subject to freezing temperatures. The unit consists of a sprinkler permanently secured to an extension nipple with a sealed inlet end to prevent water from entering the nipple until the sprinkler operates. The unit MUST be installed in a tee fitting. Dry upright sprinklers are marked with the “B” dimension [distance from the face of the fitting (tee) to the top of the deflector]. Dry pendent and sidewall sprinklers are marked with the “A” dimension [the distance from the face of fitting (tee) to the finished surface of the ceiling or wall]. LARGE DROP SPRINKLER: A type of special application sprinkler used to provide fire control of specific high-challenge fire haz- ards. Large drop sprinklers are designed to produce an umbrella-shaped spray pattern downward with a higher percentage of “large” water droplets than standard spray sprinklers. The sprinkler has an extra-large orifice with a nominal K-Factor of 11.2. Marked “HIGH CHALLENGE” and “UPRIGHT”. EARLY SUPPRESSION FAST-RESPONSE (ESFR) SPRINKLER: A sprinkler intended to provide fire suppression of specific high- challenge fire hazards through the use of a fast response fusible link, 14.0, 16.8, or 25.2 nominal K-Factor, and special deflector. ESFR sprinklers are designed to produce high-momentum water droplets in a hemispherical pattern below the deflector. This permits penetration of the fire plume and direct wetting of the burning fuel surface while cooling the atmosphere early in the development of a high-challenge fire. Marked “ESFR” and “UPRIGHT” or “PEND”. INTERMEDIATE LEVEL/RACK STORAGE SPRINKLER: A standard spray sprinkler assembly designed to protect its operating element from the spray of sprinklers installed at higher elevations. The assembly consists of a standard or large orifice upright or pendent sprinkler with an integral upright or pendent water shield and guard assembly. Use only those sprinklers that have been tested and listed for use with the assembly. Refer to the technical data page for allowable sprinkler models. RESIDENTIAL SPRINKLER: A sprinkler intended for use in the following occupancies: one- and two-family dwellings with the fire protection sprinkler system installed in accordance with NFPA 13D; residential occupancies up to four stories in height with the fire protection system installed in accordance with NFPA 13R; and where allowed by the Authority Having Jurisdiction in resi- dential portions of any occupancy with the fire protection system installed in accordance with NFPA 13. TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 3 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 Residential sprinklers have a unique distribution pattern and utilize a “fast response” heat sensitive operating element. They en- hance survivability in the room of fire origin and are designed to provide a life safety environment for a minimum of ten minutes. For this reason, residential sprinklers must not be used to replace standard sprinklers unless tested for and approved by the Authority Having Jurisdiction. In addition to standard markings, the unit is identified as “RESIDENTIAL SPRINKLER” or “RES”. 4. INSTALLATION Refer to appropriate NFPA Installation Standards. 5. OPERATION Refer to the appropriate sprinkler technical data page(s). 6. INSPECTIONS, TESTS AND MAINTENANCE Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. 7. AVAILABILITY Viking sprinklers are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEE For details of warranty, refer to Viking’s current list price schedule or contact Viking directly. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers and the appropriate sprin- kler general care, installation, and maintenance guide. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. The sprinkler technical data page may contain installation requirements specific for the sprinkler model selected. The use of certain types of sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction prior to installation. Replaces Form No. F_080814 Rev 14.1 (Added P65 Warning.) REGULATORY AND HEALTH WARNINGSBULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 1 of 1 Form No. F_111218 18.11.15 Rev 18.1 New Bulletin 1. DESCRIPTION Regulatory and Health Warnings applying to materials used in the manufacture and construction of fire protection products are provided herin as they relate to legally mandated jurisdictional regions. WARNING STATE OF CALIFORNIA, USA Installing or servicing fire protection products such as sprinklers, valves, piping etc. can expose you to chemicals including, but not li- mited to, lead, nickel, butadiene, titaninum dioxide, chromium, carbon black, and acrylonitrile which are known to the State of California to cause cancer or birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov 2. WARRANTY TERMS AND CONDITIONS For details of warranty, refer to Viking’s current list price schedule at www.vikinggroupinc.com or contact Viking directly. VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 1 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 1. DESCRIPTIONThe Viking VK3021 Quick Response Pendent Sprinkler is a small thermosensitive glass bulb spray sprinkler available with various finishes and temperature ratingsto meet design requirements. The special Polyester and Electroless Nickel PTFE(ENT) coatings can be used in decorative applications where colors are desired.In addition, these coatings have been investigated for installation in corrosiveenvironments and are Listed and Approved as indicated in the Approval Chart. 2. LISTINGS AND APPROVALS UL Listed: Category VNIV FM Approved: Classes 2017, 2015, 2043 Also approved for use in FM Approved vacuum dry sprinkler systems with a maximum supervisory vacuum pressure of -3 PSI (-207 mbar) CE: Standard EN12259-1, DOP_XT1A LPCB Approved: reference no. 096m VdS Approved: Certificate no. G 422006 Refer to the Approval Chart and Design Criteria for requirements that must be followed. 3. TECHNICAL DATA Specifications:Minimum Operating Pressure: 7 PSI (0.5 bar)Rated to: UL - 250 PSI (17 bar) WWP FM, CE, LPCB, and VdS - 175 PSI (12 bar) WWP Factory tested hydrostatically to 500 PSI (34.5 bar)Thread size: 1/2” NPT (15 mm BSPT)Nominal K-factor: 5.6 U.S. (80.6 metric*)Glass-bulb fluid temperature rated to -65 °F (-55 °C) * Metric K-factor measurement shown is in bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. Material Standards:Sprinkler Body: Brass CW602N, UNS-C84400 or QM BrassDeflector: Stainless Steel UNS S30400Pip Cap Shell - Stainless Steel UNS-S44400Pip Cap Disc - Stainless Steel UNS-S30100 Belleville Spring - Nickel AlloyPip Cap Seal - Polytetrafluoroethylene (PTFE)Compression Screw: Brass CW612N, CW508L, UNS-C36000 or UNS-C26000Shipping Cap: PolyethyleneBulb: Glass, nominal 3 mm diameter Ordering Information: (Refer to Table 1 and the current Viking List Price Book.) 4. INSTALLATION Refer to appropriate NFPA, FM Global, and/or any other applicable installation standards. NOTICE Risk of permanent damage. Over-tightening the sprinkler can cause permanent damage. >Tighten the sprinkler to a MAXIMUM torque of 14 ft-lbs (19 N-m). 5. OPERATION During fire conditions, when the temperature around the sprinkler reaches its operating temperature, the heat-sensitive liquid in the glass bulb expands, causing the bulb to shatter, releasing the pip cap assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. Replaces Form No. F_110720 21.3 (Added LPCB and VdS details) VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 2 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 6. INSPECTIONS, TESTS AND MAINTENANCE Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. 7. AVAILABILITY Viking Sprinklers are available through a network of domestic and international distributors. See the Viking website for the closest distributor or contact Viking. 8. GUARANTEE For details of warranty, refer to Viking’s current list price schedule or contact Viking directly. VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 3 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 Figure 2: Sprinkler Dimensions 7/16” (11 mm) Nominal Pipe Engagement 1-15/16” (49 mm) 1/2” NPT 15 mm BSPT TABLE 1: ORDERING INFORMATION Instructions: Using the sprinkler base part number, (1) add the suffix for the desired Finish (2) add the suffix for the desired Temperature Rating. Sprinkler Base Part Number Size 1: Finishes 2: Temperature Ratings NPT Inch BSPT mm Description Suffix1 Nominal Rating Bulb Color Max. Ambient Ceiling Temperature3 Suffix 238707 1/2 Brass A 135 °F (57 °C)Orange 100 °F (38 °C)A 238827 15 Chrome F 155 °F (68 °C)Red 100 °F (38 °C)B White Polyester 4,6 M-/W 175 °F (79 °C)Yellow 150 °F (65 °C)D Black Polyester 4,6 M-/B 200 °F (93 °C)Green 150 °F (65 °C)E ENT 4,5,6 JN 286 °F (141 °C)Blue 225 °F (107 °C)G OPEN ----Z Example: 23870MB/W = VK3021 with white polyester finish and 155 °F (68 °C) nominal temperature rating. This sprinkler is to be installed into an area with a maximum ambient temperature of 100 °F (38 °C) meaning if the area will experience temperatures above the maximum ambient rating, you shall use a higher temperature-rated sprinkler. Accessories Sprinkler Wrenches (see Figure 1): A. Standard Wrench: Part number 23559MB B. Recessed Socket Wrench: Part number 23560MB2 Sprinkler Cabinet: A. Up to 6 sprinklers: Part number 01724A B. 6-12 sprinklers: Part number 01725A Footnotes 1. Where a dash (-) is shown in the Finish suffix designation, insert the desired Temperature Rating suffix. See example above. 2. Requires a 1/2” ratchet which is not available from Viking. 3. Based on NFPA 13, NFPA 13R, and NFPA 13D. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 4. UL Listed as corrosion resistant. 5. FM Approved as corrosion resistant. 6. The corrosion resistant coatings have passed the standard corrosion test required by the approving agencies indicated in the Approval Chart. These tests cannot and do not represent all possible corrosive environments. Prior to installation, verify through the end-user that the coatings are compatible with or suitable for the proposed environment. For automatic sprinklers, the ENT coating is applied to all exposed exterior surfaces, including the waterway. 7. UL Listed for 250 PSI (17 bar) WWP. Figure 1: Sprinkler Wrenches A Top View B VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 4 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 APPROVAL CHART Viking Quick Response Pendent Sprinkler VK3021 K5.6 (80.6 metric) Sprinkler Base Part Number1 Thread Size Listings and Approvals2 NPT BSPT cULus FM Inch mm Approval Specification Maximum WWP Approval Specification Maximum WWP 23870 1/2 --A1, A2X, B3Y 250 PSI (17 bar)A1, B2X, B3Y 175 PSI (12 bar) 23882 --15 A1, A2X, B3Y 250 PSI (17 bar)A1, B2X, B3Y 175 PSI (12 bar) Additional Listings and Approvals Maximum WWP 175 PSI (12 bar) CE6 LPCB7 VdS8 23870 1/2 --C1, D2X, D3Y A1, B2X, B3Y A1 23882 --15 C1, D2X, D3Y A1, B2X, B3Y A1 Approved Temperature Ratings A = 135 °F (57 °C), 155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C) and 286 °F (141 °C) B = 135 °F (57 °C), 155 °F (68 °C), 175 °F (79 °C), and 200 °F (93 °C) C = 155 °F (68 °C), 175 °F (79 °C), 200 °F (93 °C) and 286 °F (141 °C) D = 155 °F (68 °C), 175 °F (79 °C), and 200 °F (93 °C) Approved Finishes 1 = Brass, Chrome, White Polyester 3,4, Black Polyester 3,4, and ENT 4,5 2 = Brass, Chrome, White Polyester 3,4, and Black Polyester 3,4 3 = ENT 4,5 X = Installed with Viking Recessed Escutcheons Models E-1, E-2, E-3, NP-1, NP-2, and NP-3, or Viking Standard Surface Mounted Escutcheons Y = Installed with Viking Recessed Escutcheons Models E-1 and NP-1, or Viking Standard Surface Mounted Escutcheons Footnotes 1 Base Part number is shown. For complete part number, refer to Viking’s current price schedule. 2 This table shows the listings and approvals available at the time of printing. Check with the manufacturer for any additional approvals. 3 Other colors are available upon request with the same Listings and Approvals as the standard colors. 4 cULus Listed as corrosion resistant. 5 FM Approved as corrosion resistant. 6 CE: Standard EN12259-1, Declaration of Performance DOP_XT1A. 7 LPCB Approved; reference no. 096m 8 VdS Approved; Certificate no. G 422006 VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 5 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 DESIGN CRITERIA - UL cULus Listing Requirements: The Viking VK3021 Quick Response Pendent Sprinkler is cULus Listed as indicated in Approval Chart for installation in accordance with the latest edition of NFPA 13 for standard spray sprinklers. • Designed for use in Light and Ordinary Hazard occupancies. • The sprinkler installation rules contained in NFPA 13 for standard spray pendent sprinklers shall be followed. IMPORTANT: Always refer to Form Number F_091699 - Care and Handling of Sprinklers. Also refer to Form Number F_080614 for general care, installation, and maintenance information. Viking sprinklers are to be installed in accordance with the latest edition of Viking Technical Data, the appropriate standards of NFPA, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. DESIGN CRITERIA - FM FM Approval Requirements: The Viking VK3021 Quick Response Pendent Sprinkler is FM Approved as quick response Non-Storage Pendent sprinkler as indicated in the FM Approval Guide. For specific application and installation requirements, reference the latest applicable FM Loss Prevention Data Sheets (including Data Sheet 2-0). FM Global Loss Prevention Data Sheets contain guidelines relating to, but not limited to: minimum water supply requirements, hydraulic design, ceiling slope and obstructions, minimum and maximum allowable spacing, and deflector distance below the ceiling. NOTE: The FM Installation guidelines may differ from UL and/or NFPA criteria. IMPORTANT: Always refer to Form Number F_091699 - Care and Handling of Sprinklers. Also refer to Form Number F_080614 for general care, installation, and maintenance information. Viking sprinklers are to be installed in accordance with the latest edition of Viking Technical Data, the appropriate standards of NFPA, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 6 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 1. Install the escutcheon inner ring onto the sprinkler threads. Figure 3: Recessed Installation (with Recessed Socket Wrench) **A 1/2” ratchet is required (not available from Viking). 2. Carefully slide the wrench** sideways around the protective cap then push upwards to engage with the sprinkler wrench flats. 3. Install the sprinkler and escutcheon assembly into the pipe fitting. Be sure the escutcheon outer ring contacts the surface of the finished ceiling. 1. Install the escutcheon onto the sprinkler threads. Figure 4: Installation (with Standard Wrench) 2. Carefully slide the wrench onto the sprinkler wrench flats.3. Install the sprinkler and escutcheon assembly into the pipe fitting. Be sure the escutcheon contacts the surface of the finished ceiling. VK3021 QUICK RESPONSE PENDENT SPRINKLER (K5.6)TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 7 of 7 Form No. F_110720 Rev 22.1 February 22, 2022 Ceiling opening size: Minimum: 2-5/16” (59 mm) Maximum: 2-1/2” (64 mm) 2-1/8” (54 mm)2-1/8” (54 mm) Models E-2, E-3, NP-2 or NP-3 Thread- Recessed Escutcheon (E-3 and NP-3 Outer rings have larger diameters) Max. 1-7/16” (37 mm)Max. 1-3/4” (44 mm) 1-7/16” (37 mm) Min. 13/16” (21 mm) Min. 15/16” (24 mm) Ceiling opening size: Minimum: 2-5/16” (59 mm) Maximum: 2-1/2” (64 mm) Standard Surface-Mounted Escutcheon Figure 5: Installation Dimensions with Viking Escutcheons Models E-1 or NP-1 Recessed Escutcheon Replaces Form No. F_110720 21.3 (Added LPCB and VdS details) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 1 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 SPRINKLERS ARE FRAGILE - HANDLE WITH CARE! General Handling and Storage: • Store sprinklers in a cool, dry place. • Protect sprinklers during storage, transport, handling, and after installation. • Use the original shipping containers. DO NOT place sprinklers loose in boxes, bins, or buckets. • Keep sprinklers separated at all times. DO NOT allow metal parts to contact sprinkler operating elements. For Pre-Assembled Drops: • Protect sprinklers during handling and after installation. • For recessed assemblies, use the protective sprinkler cap (Viking Part Number 10364). Sprinklers with Protective Shields or Caps: • DO NOT remove shields or caps until after sprinkler installation and there no longer is potential for mechanical damage to the sprinkler operating elements. • Sprinkler shields or caps MUST be removed BEFORE placing the system in service! • Remove the sprinkler shield by carefully pulling it apart where it is snapped together. • Remove the cap by turning it slightly and pulling it off the sprinkler. Sprinkler Installation: • DO NOT use the sprinkler deflector or operating element to start or thread the sprinkler into a fitting. • Use only the designated sprinkler head wrench! Refer to the current sprinkler tech- nical data page to determine the correct wrench for the model of sprinkler used. • DO NOT install sprinklers onto piping at the floor level. • Install sprinklers after the piping is in place to prevent mechanical damage. • DO NOT allow impacts such as hammer blows directly to sprinklers or to fittings, pipe, or couplings in close proximity to sprinklers. Sprinklers can be damaged from direct or indirect impacts. • DO NOT attempt to remove drywall, paint, etc., from sprinklers. • Take care not to over-tighten the sprinkler and/or damage its operating parts! Maximum Torque: 1/2” NPT: 14 ft-lbs. (19.0 N-m) 3/4” NPT: 20 ft-lbs. (27.1 N-m) 1” NPT: 30 ft-lbs. (40.7 N-m) WARNING Any sprinkler with a loss of liquid from the glass bulb or damage to the fusible element should be destroyed. Never install sprinklers that have been dropped, damaged, or exposed to temperatures exceeding the maximum ambient temperature allowed. Sprinklers that have been painted in the field must be replaced per NFPA 13. Protect sprinklers from paint and paint overspray in accordance with the installation standards. Do not clean sprinklers with soap and water, ammonia, or any other cleaning fluid. Do not use adhesives or solvents on sprinklers or their operating elements. Refer to the appropriate technical data page and NFPA standards for complete care, handling, installation, and maintenance instructions. For additional product and system information Viking data pages and installation instructions are available on the Viking Web site at www.vikinggroupinc.com. CORRECT (Original container used) INCORRECT (Placed loose in box) CORRECT (Protected with caps) INCORRECT (Protective caps not used) CORRECT (Piping is in place at the ceiling) INCORRECT (Sprinkler at floor level) CORRECT (Special installation wrenches) INCORRECT (Designated wrench not used) Replaces Form No. F_091699 Rev 16.1 (Added P65 Warning) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 2 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 PROTECTIVE SPRINKLER SHIELDS AND CAPS General Handling and Storage: Many Viking sprinklers are available with a plastic protective cap or shield temporarily covering the operating elements. The snap- on shields and caps are factory installed and are intended to help protect the operating elements from mechanical damage during shipping, storage, and installation. NOTE: It is still necessary to follow the care and handling instructions on the appropriate sprin- kler technical data sheets* when installing sprinklers with bulb shields or caps. WHEN TO REMOVE THE SHIELDS AND CAPS: NOTE: SHIELDS AND CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Remove the shield or cap from the sprinkler only after checking all of the following: • The sprinkler has been installed*. • The wall or ceiling finish work is completed where the sprinkler is installed and there no longer is a potential for mechanical damage to the sprinkler operating elements. SHIELDS AND CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Figure 1: Sprinkler shield being removed from a pendent sprinkler.Figure 2: Sprinkler cap being removed from a pendent sprinkler.Figure 3: Sprinkler cap being re-moved from and upright sprinkler. HOW TO REMOVE SHIELDS AND CAPS: No tools are necessary to remove the shields or caps from sprinklers. DO NOT use any sharp objects to remove them! Take care not to cause mechanical damage to sprinklers when removing the shields or caps. When removing caps from fusible ele- ment sprinklers, use care to prevent dislodging ejector springs or damaging fusible elements. NOTE: Squeezing the sprinkler cap excessively could damage sprinkler fusible elements. • To remove the shield, simply pull the ends of the shield apart where it is snapped together. Refer to Figure 1. • To remove the cap, turn it slightly and pull it off the sprinkler. Refer to Figures 2 and 3. Refer to the current sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. Never install sprinklers that have been dropped, damaged, or exposed to temperatures in excess of the maximum ambient temperature allowed. * Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 3 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 GENERAL HANDLING AND STORAGE INSTRUCTIONS: • Do not store in temperatures exceeding 100 °F (38 °C). Avoid direct sunlight and confined areas subject to heat. • Protect sprinklers and cover assemblies during storage, transport, handling, and after installation. -- Use original shipping containers. -- Do not place sprinklers or cover assemblies loose in boxes, bins, or buckets. • Keep the sprinkler bodies covered with the protective sprinkler cap any time the sprinklers are shipped or handled, during testing of the system, and while ceiling finish work is being completed. • Use only the designated Viking recessed sprinkler wrench (refer to the appropriate sprinkler data page) to install these sprinklers. NOTE: The protective cap is temporarily removed during installation and then placed back on the sprinkler for protection until finish work is completed. • Do not over-tighten the sprinklers into fittings during installation. • Do not use the sprinkler deflector to start or thread the sprinklers into fittings during installation. • Do not attempt to remove drywall, paint, etc., from the sprinklers. • Remove the plastic protective cap from the sprinkler before attaching the cover plate assembly. PROTECTIVE CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. Concealed Sprinkler and Adapter Assembly with Protective Cap CAUTION: CONCEALED COVER ASSEMBLIES ARE FRAGILE! TO ASSURE SATISFACTORY PERFORMANCE OF THE PRODUCT, HANDLE WITH CARE. Cover Plate Assembly (Pendent Cover 12381 shown) Concealed Sprinkler and Adapter Assembly (Protective Cap Removed) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 4 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 USE THE FOLLOWING PRECAUTIONS WHEN HANDLING WAX-COATED SPRINKLERS Many of Viking’s sprinklers are available with factory-applied wax coating for corrosion resistance. These sprinklers MUST receive appropriate care and handling to avoid damaging the wax coating and to assure satisfactory performance of the product. General Handling and Storage of Wax-Coated Sprinklers: • Store the sprinklers in a cool, dry place (in temperatures below the maximum ambient temperature allowed for the sprinkler temperature rating. Refer to Table 1 below.) • Store containers of wax-coated sprinklers separate from other sprinklers. • Protect the sprinklers during storage, transport, handling, and after installation. • Use original shipping containers. • Do not place sprinklers in loose boxes, bins, or buckets. Installation of Wax-Coated Sprinklers: Use only the special sprinkler head wrench designed for installing wax-coated Viking sprinklers (any other wrench may damage the unit). • Take care not to crack the wax coating on the units. • For touching up the wax coating after installation, wax is available from Viking in bar form. Refer to Table 1 below. The coating MUST be repaired after sprinkler installation to protect the corrosion-resistant properties of the sprinkler. • Use care when locating sprinklers near fixtures that can generate heat. Do not install sprinklers where they would be exposed to temperatures exceed- ing the maximum recommended ambient temperature for the temperature rating used. • Inspect the coated sprinklers frequently soon after installation to verify the integrity of the corrosion resistant coating. Thereafter, inspect representative samples of the coated sprinklers in accordance with NFPA 25. Close up visual inspections are necessary to determine whether the sprinklers are being affected by corrosive conditions. Never install sprinklers that have been dropped, damaged, or exposed to temperatures in excess of the maximum ambi- ent temperature allowed. Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. TABLE 1 Sprinkler Temperature Rating (Fusing Point) Wax Part Number Wax Melting Point Maximum Ambient Ceiling Temperature1 Wax Color 155 °F (68 °C) / 165 °F (74 °C)02568A 148 °F (64 °C)100 °F (38 °C)Light Brown 175 °F (79 °C)04146A 161 °F (71 °C)150 °F (65 °C)Brown 200 °F (93 °C)04146A 161 °F (71 °C)150 °F (65 °C)Brown 220 °F (104 °C)02569A 170 °F (76 °C)150 °F (65 °C)Dark Brown 286 °F (141 °C)02569A 170 °F (76 °C)150 °F (65 °C)Dark Brown 1 Based on NFPA-13. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. Replaces Form No. F_091699 Rev 16.1 (Added P65 Warning) TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 1 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 1. DESCRIPTION Viking fire sprinklers consist of a threaded frame with a specific waterway or orifice size and a deflector for distributing water in a specified pattern. A closed or sealed sprinkler refers to a complete assembly, including the thermosensitive operating element. An open sprinkler does not use an operating element and is open at all times. The distribution of water is intended to extinguish a fire or to control its spread. Viking sprinklers are available in several models and styles. Refer to specific sprinkler technical data pages for available styles, finishes, temperature ratings, thread sizes, and nominal K-Factors for the particular model selected. 2. LISTINGS AND APPROVALS Refer to the Approval Charts on the appropriate sprinkler technical data page(s) and/or approval agency listings. 3. TECHNICAL DATA Pressure Ratings: Maximum allowable water working pressure is 175 psig (12 Bar) unless rated and specified for high water working pressure [250 psig (17.2 bar)]. Sprinkler Identification: Viking sprinklers are identified and marked with the word “Viking”, the sprinkler identification number (SIN) consisting of “VK” plus a three digit number*, the model letter, and the year of manufacture. Available Finishes: Viking sprinklers are available in several decorative finishes. Some models are available with corrosion-resistant coatings or are fabricated from non-corrosive material. Refer to the sprinkler technical data page for additional information. Available Temperature Ratings: Viking sprinklers are available in several temperature ratings that relate to a specific temperature classification. Applicable installa- tion rules mandate the use and limitations of each temperature classification. In selecting the appropriate temperature classifica- tion, the maximum expected ceiling temperature must be known. When there is doubt as to the maximum temperature at the sprinkler location, a maximum-reading thermometer should be used to determine the temperature under conditions that would show the highest readings to be expected. In addition, recognized installation rules may require a higher temperature classifica- tion, depending upon sprinkler location, occupancy classification, commodity classification, storage height, and other hazards. In all cases, the maximum expected ceiling temperature dictates the lowest allowable temperature classification. Sprinklers located immediately adjacent to a heat source may require a higher temperature rating. K-Factors: Viking sprinklers are available in several orifice sizes with related K-Factors. The orifice is a tapered waterway and, therefore, the K-Factor given is nominal. Nominal U.S. K-Factors are provided in accordance with the 1999 edition of NFPA 13, Section 3-2.3. Refer to the specific data page for appropriate K-Factor information. Available Styles: Viking sprinklers are available for installation in several positions as indicated by a stamping on the deflector. The deflector style dictates the appropriate installation position of the sprinkler; it breaks the solid stream of water issuing from the sprinkler orifice to form a specific spray pattern. The following list indicates the various styles and identification of Viking sprinklers. UPRIGHT SPRINKLER: A sprinkler intended to be installed with the deflector above the frame so water flows upward through the orifice, striking the deflector and forming an umbrella-shaped spray pat- tern downward. Marked “SSU” (Standard Sprinkler Upright) or “UPRIGHT” on the deflector. PENDENT SPRINKLER: A sprinkler intended to be oriented with the deflec- tor below the frame so water flows downward through the orifice, striking the deflector and forming an umbrella-shaped spray pattern downward. Marked “SSP” (Standard Sprinkler Pendent) or “PENDENT” on the de- flector. CONVENTIONAL SPRINKLER: An “old style” sprinkler intended to be installed with the deflector in either the upright or pendent position. The deflector provides a spherical type pattern with 40 to 60 percent of the water initially directed downward and a proportion directed upward. Must be installed in accordance with installation rules for conventional or old style sprinklers. DO NOT USE AS A REPLACEMENT FOR STANDARD SPRAY SPRINKLERS. Marked “C U/P” (Conventional Upright/Pendent) on the deflector. Viking Technical Data may be found on The Viking Corporation’s Web site at http://www.vikinggroupinc.com. The Web site may include a more recent edition of this Technical Data Page. Replaces Form No. F_080814 Rev 14.1 (Added P65 Warning.) TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 2 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 VERTICAL SIDEWALL (VSW) SPRINKLER: A sprinkler intended for installation near the wall and ceiling. The deflector provides a water spray pattern outward in a quarter-spherical pattern and can be installed in the upright or pendent position with the flow arrow in the direction of discharge. Marked “SIDEWALL” on the deflector with an arrow and the word “FLOW”. (Note: Some vertical sidewall sprinklers can only be installed in the upright or pendent position—in this case, the sprinkler will also be marked “UPRIGHT” or “PENDENT”.) HORIZONTAL SIDEWALL (HSW) SPRINKLER: A sprinkler intended for installation near the wall and ceiling. The special deflector provides a water spray pattern outward in a quarter-spherical pattern. Most of the water is directed away from the nearby wall with a small portion directed at the wall behind the sprinkler. The top of the deflector is oriented parallel with the ceiling or roof. The flow arrows point in the direction of discharge. Marked “SIDEWALL” and “TOP” with an arrow and the word “FLOW”. EXTENDED COVERAGE (EC) SPRINKLER: A spray sprinkler designed to discharge water over an area having the maximum dimensions indicated in the individual listings. Maximum area of coverage, minimum flow rate, orifice size, and nominal K-Factor are specified in the individual listings. EC sprinklers are intended for Light-Hazard occupancies with smooth, flat, horizontal ceil- ings unless otherwise specified. In addition to the above markings, the sprinkler is marked “EC”. QUICK RESPONSE (QR) SPRINKLER: A spray sprinkler with a fast- actuating operating element. The use of quick response sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction (AHJ) prior to installing. QUICK RESPONSE EXTENDED COVERAGE (QREC) SPRINKLER: A spray sprinkler designed to discharge water over an area having the maximum dimensions indicated in the individual listing. This is a sprinkler with an operating element that meets the criteria for quick response. QREC sprinklers are only intended for Light Hazard occupancies. The sprinkler is marked “QREC”. FLUSH SPRINKLER: A decorative spray sprinkler intended for installation with a concealed piping system. The unit is mounted flush with the ceiling or wall, with the fusible link exposed. Upon actuation, the deflector extends beyond the ceiling or wall to distribute water discharge. The sprinkler is marked “SSP”, “PEND”, or “SIDEWALL” and “TOP”. CONCEALED SPRINKLER: A decorative spray sprinkler intended for installation with a concealed piping system. The sprinkler is hidden from view by a cover plate installed flush with the ceiling or wall. During fire conditions, the cover plate detaches, and upon sprinkler actuation, the deflector extends beyond the ceiling or wall to distribute water discharge. The sprinkler is marked “SSP”, “PEND”, or “SIDEWALL” and “TOP”. RECESSED SPRINKLER: A spray sprinkler assembly intended for installation with a concealed piping system. The assembly con- sists of a sprinkler installed in a decorative adjustable recessed escutcheon that minimizes the protrusion of the sprinkler beyond the ceiling or wall without adversely affecting the sprinkler distribution or sensitivity. Refer to the appropriate technical data page for allowable sprinkler models, temperature ratings, and occupancy classifications. DO NOT RECESS ANY SPRINKLER NOT LISTED FOR USE WITH THE ESCUTCHEON. CORROSION-RESISTANT SPRINKLER: A special service sprinkler with non-corrosive protective coatings, or that is fabricated from non-corrosive material, for use in atmospheres that would normally corrode sprinklers. DRY SPRINKLER: A special-service sprinkler intended for installation on dry pipe systems or wet pipe systems where the sprinkler is subject to freezing temperatures. The unit consists of a sprinkler permanently secured to an extension nipple with a sealed inlet end to prevent water from entering the nipple until the sprinkler operates. The unit MUST be installed in a tee fitting. Dry upright sprinklers are marked with the “B” dimension [distance from the face of the fitting (tee) to the top of the deflector]. Dry pendent and sidewall sprinklers are marked with the “A” dimension [the distance from the face of fitting (tee) to the finished surface of the ceiling or wall]. LARGE DROP SPRINKLER: A type of special application sprinkler used to provide fire control of specific high-challenge fire haz- ards. Large drop sprinklers are designed to produce an umbrella-shaped spray pattern downward with a higher percentage of “large” water droplets than standard spray sprinklers. The sprinkler has an extra-large orifice with a nominal K-Factor of 11.2. Marked “HIGH CHALLENGE” and “UPRIGHT”. EARLY SUPPRESSION FAST-RESPONSE (ESFR) SPRINKLER: A sprinkler intended to provide fire suppression of specific high- challenge fire hazards through the use of a fast response fusible link, 14.0, 16.8, or 25.2 nominal K-Factor, and special deflector. ESFR sprinklers are designed to produce high-momentum water droplets in a hemispherical pattern below the deflector. This permits penetration of the fire plume and direct wetting of the burning fuel surface while cooling the atmosphere early in the development of a high-challenge fire. Marked “ESFR” and “UPRIGHT” or “PEND”. INTERMEDIATE LEVEL/RACK STORAGE SPRINKLER: A standard spray sprinkler assembly designed to protect its operating element from the spray of sprinklers installed at higher elevations. The assembly consists of a standard or large orifice upright or pendent sprinkler with an integral upright or pendent water shield and guard assembly. Use only those sprinklers that have been tested and listed for use with the assembly. Refer to the technical data page for allowable sprinkler models. RESIDENTIAL SPRINKLER: A sprinkler intended for use in the following occupancies: one- and two-family dwellings with the fire protection sprinkler system installed in accordance with NFPA 13D; residential occupancies up to four stories in height with the fire protection system installed in accordance with NFPA 13R; and where allowed by the Authority Having Jurisdiction in resi- dential portions of any occupancy with the fire protection system installed in accordance with NFPA 13. TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 3 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 Residential sprinklers have a unique distribution pattern and utilize a “fast response” heat sensitive operating element. They en- hance survivability in the room of fire origin and are designed to provide a life safety environment for a minimum of ten minutes. For this reason, residential sprinklers must not be used to replace standard sprinklers unless tested for and approved by the Authority Having Jurisdiction. In addition to standard markings, the unit is identified as “RESIDENTIAL SPRINKLER” or “RES”. 4. INSTALLATION Refer to appropriate NFPA Installation Standards. 5. OPERATION Refer to the appropriate sprinkler technical data page(s). 6. INSPECTIONS, TESTS AND MAINTENANCE Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. 7. AVAILABILITY Viking sprinklers are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEE For details of warranty, refer to Viking’s current list price schedule or contact Viking directly. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers and the appropriate sprin- kler general care, installation, and maintenance guide. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. The sprinkler technical data page may contain installation requirements specific for the sprinkler model selected. The use of certain types of sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction prior to installation. Replaces Form No. F_080814 Rev 14.1 (Added P65 Warning.) SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 1 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. 1. DESCRIPTION - STANDARD RESPONSE, QUICK RESPONSE, EXTENDED COVERAGE, AND DRY SPRINKLERS Viking thermosensitive spray sprinklers consist of a small frame and either a glass bulb or a fusible operating element. Available styles include pendent, flush pendent, concealed pendent, upright, horizontal sidewall, vertical sidewall, or conventional, depending on the particular sprinkler model selected. Viking sprinklers are available with various finishes, temperature ratings, responses, and K-Factors to meet design requirements†. Used in conjunction with one of the corrosion-resistant coatings (for frame style sprinklers), the units provide protection against many corrosive environments. In addition, the special Polyester or 37)( coatings can be used in decorative applications where colors are desired. † Refer to the sprinkler technical data page for available styles, finishes, temperature ratings, responses, and nominal K-Factors for specific sprinkler models. 2. LISTINGS AND APPROVALS Refer to the Approval Charts on the appropriate sprinkler technical data page(s) and/or approval agency listings. 3. TECHNICAL DATA Specifications: Refer to the appropriate sprinkler technical data sheet. Material Standards: Refer to the appropriate sprinkler technical data sheet. 4. INSTALLATION NOTE: Take care not to over-tighten the sprinkler and/or damage its operating parts! Maximum Torque: 1/2” NPT: 14 ft-lbs. (19.0 N-m) 3/4” NPT: 20 ft-lbs. (27.1 N-m) 1” NPT: 30 ft-lbs. (40.7 N-m) A. Care and Handling (also refer to Bulletin - Care and Handling of Sprinklers, Form No. F_091699.) Sprinklers must be handled with care. They must be stored in a cool, dry place in their original shipping container. Never install sprinklers that have been dropped, damaged, or exposed to temperatures exceeding the maximum ambient temperature al- lowed (refer to the temperature chart on the sprinkler technical data page). Never install any glass-bulb sprinkler if the bulb is cracked or if there is a loss of liquid from the bulb. A small air bubble should be present in the glass bulb. Any sprinkler with a loss of liquid from the glass bulb or damage to the fusible element should be destroyed immediately. (Note: Installing glass bulb sprinklers in direct sunlight (ultraviolet light) may affect the color of the dye used to color code the bulb. This color change does not affect the integrity of the bulb.) Sprinklers must be protected from mechanical damage during storage, transport, handling, and after installation. Sprinklers subject to mechanical damage must be protected with an approved sprinkler guard. Use only sprinklers listed as corrosion resistant when subject to corrosive environments. When installing corrosion-resistant sprin- klers, take care not to damage the corrosion-resistant coating. Use only the special wrench designed for installing coated or recessed Viking sprinklers (any other wrench may damage the unit). Concealed sprinklers must be installed in neutral or negative pressure plenums only! Use care when locating sprinklers near fixtures that can generate heat. Do not install sprinklers where they could be exposed to temperatures exceeding the maximum recommended ambient temperature for the temperature rating used. Wet pipe systems must be provided with adequate heat. Sprinklers supplied from dry systems in areas subject to freezing must be listed dry sprinklers, upright, or horizontal sidewall sprinklers installed so that water is not trapped. For dry systems, pendent sprinklers and sidewall sprinklers installed on return bends are permitted, where the sprinklers, return bend, and branch line piping are in an area maintained at or above 40 °F (4 °C). B. Installation Instructions - Standard Spray Sprinklers Viking sprinklers are manufactured and tested to meet the rigid requirements of approving agencies. They are designed to be installed in accordance with recognized installation standards. Deviation from the standards or any alteration to sprinklers or cover plate assemblies after they leave the factory including, but not limited to: painting, plating, coating, or modification, may render them inoperative and will automatically nullify the approvals and any guarantee made by The Viking Corporation. Replaces Form No. F_080614 Rev 16.1 (Added P65 Warning.) SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 2 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. Before installation, be sure to have the appropriate sprinkler model and style, with the correct K-Factor, temperature rating, and response characteristics. Sprinklers must be installed after the piping is in place to prevent mechanical damage. Keep sprinklers with protective caps or bulb shields contained within the caps or shields during installation and testing, and any time the sprinkler is shipped or handled. 1a. For frame-style sprinklers, install escutcheon (if used), which is designed to thread onto the external threads of the sprinkler. Refer to the appropriate sprinkler data page to determine approved escutcheons for use with specific sprinkler models. 1b. For flush and concealed style sprinklers: Cut the sprinkler nipple so that the ½” or 3/4” (15 mm or 20 mm)* NPT outlet of the reducing coupling is at the desired location, and centered in the opening* in the ceiling or wall. *Size depends on the sprinkler model used. Refer to the sprinkler technical data page. 2. Apply a small amount of pipe-joint compound or tape to the external threads of the sprinkler only, taking care not to allow a build-up of compound in the sprinkler inlet. NOTE: Sprinklers with protective caps or bulb shields must have the caps or shields kept on them when applying pipe-joint compound or tape. Exception: For domed concealed sprinklers, remove the protective cap for installation, and then place it back on the sprinkler temporarily.. 3. Refer to the appropriate sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. DO NOT use the deflector or fusible element to start or thread the sprinkler into a fitting. a. Install the sprinkler onto the piping using the special sprinkler wrench only, taking care not to over-tighten or damage the sprinkler. b. For flush and concealed style sprinklers: the internal diameter of the special sprinkler installation wrench is designed for use with the sprinkler contained in the protective cap. Exception: For domed concealed sprinklers, remove the protective cap for installation, and then place it back on the sprinkler temporarily. Thread the flush or concealed sprinkler into the ½” or 3/4” (15 mm or 20 mm)* NPT outlet of the coupling by turning it clockwise with the special sprinkler wrench. *Thread size depends on the particular sprinkler model used. Refer to the sprinkler technical data page. C. Installation Instructions - Dry Sprinklers WARNING: Viking dry sprinklers are to be installed in the 1” outlet (for dry and preaction systems), or run of malleable, ductile iron, or Nibco CPVC* threaded tee fittings (for wet systems) that meet the dimensional requirements of ANSI B16.3 (Class 150), or cast iron threaded tee fittings that meet the dimensional requirements of ANSI B16.4 (Class 125), even at branch line ends. The threaded end of the dry sprinkler is designed to allow the seal to penetrate and extend into the fitting to a predetermined depth. This prevents condensation from accumulating and freezing over the sprinkler seal. *NOTE: When using CPVC fittings with Viking dry sprinklers, use only new Nibco Model 5012-S-Bl. When selecting other CPVC fittings, contact Viking Technical Services. 1. DO NOT install the dry sprinkler into a threaded elbow, coupling, or any other fitting that could interfere with thread penetration. Such installation would damage the brass seal. 2. DO NOT install dry sprinklers into couplings or fittings that would allow condensation to accumulate above the seal when the sprinkler is located in an area subject to freezing. 3. NEVER try to modify dry sprinklers. They are manufactured for specific “A” or “B” dimensions and cannot be modified. The dry sprinkler must be installed after the piping is in place to prevent mechanical damage. Before installation, be sure to have the correct sprinkler model and style, with the appropriate “A” or “B” dimension(s), temperature rating, orifice size, and response characteristics. Keep sprinklers with protective caps or bulb shields contained within the caps or shields during installation and testing, and any time the sprinkler is shipped or handled. Exception: For concealed and adjustable recessed dry sprinklers, the protective caps and shields are removed for installation. To install the dry sprinkler, refer to the instructions below and the appropriate sprinkler technical data page for illustrated instruc- tions. Dry upright sprinklers must be installed above the piping, in the upright position only. When installing dry upright or plain barrel style vertical sidewall sprinklers on piping located close to the ceiling, it may be necessary to lower the sprinkler into the fitting from above the ceiling. When installing dry upright or plain barrel vertical sidewall sprinklers from below the ceiling, verify that the opening in the ceiling is a minimum 1-1/2” (38.1 mm) in diameter. For dry upright or plain barrel vertical sidewall sprinklers in the upright position: First, install the escutcheon (if used) over the threaded end of the sprinkler barrel. Slide the escutcheon past the external threads. NOTE: When installing the dry upright or plain barrel vertical sidewall sprinkler from above the ceiling, it will be necessary to install the escutcheon after lowering the threaded end of the sprinkler through the ceiling penetration. A. For all dry sprinklers: Apply a small amount of pipe-joint compound or tape to the external threads of the sprinkler barrel only, taking care not to allow a build-up of compound or tape over the brass inlet and seal. NOTE: Sprinklers with protective caps or bulb shields must be contained within the caps or shields before applying pipe-joint compound or tape. SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 3 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. B. Refer to the appropriate sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. C. Install the dry sprinkler on the piping using the special dry sprinkler wrench only, while taking care not to damage the sprinkler. NOTE: Thread the sprinkler into the fitting hand tight, plus 1/2 turn with the dry sprinkler wrench. D. For adjustable standard and adjustable recessed dry pendent and sidewall sprinklers: Escutcheons can be installed after the sprinklers have been installed onto the piping. Refer to the appropriate sprinkler technical data page for escutcheon installation instructions and illustrations. D. Installation Instructions - Testing 4. After installation, the entire sprinkler system must be tested. The test must be conducted to comply with the installation stand- ards. Viking high pressure sprinklers may be hydrostatically tested at a maximum of 300 psi (20.7 bar) for limited periods of time (two hours), for the purpose of acceptance by the Authority Having Jurisdiction. a. Make sure the sprinkler is properly tightened. If a thread leak occurs, normally the sprinkler must be removed, new pipe-joint compound or tape applied, and then reinstalled. This is due to the fact that when the joint seal is damaged, the sealing compound or tape is washed out of the joint. Air testing [do not exceed 40 psi (2.76 bar)] the sprinkler piping prior to testing with water may be considered in areas where leakage during testing must be prevented. Refer to the Installation Standards and the Authority Having Jurisdiction. b. Remove plastic protective sprinkler caps or bulb shields AFTER the wall or ceiling finish work is completed where the sprinkler is installed and there no longer is a potential for mechanical damage to the sprinkler operating ele- ments. To remove the bulb shields, simply pull the ends of the shields apart where they are snapped together. To remove caps from frame style sprinklers, turn the caps slightly and pull them off the sprinklers. SPRINKLER CAPS OR BULB SHIELDS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Retain a protective cap or shield in the spare sprinkler cabinet. 5. For flush style sprinklers: the ceiling ring can now be installed onto the sprinkler body. Align the ceiling ring with the sprinkler body and thread or push it on (depends on sprinkler model) until the outer flange touches the surface of the ceiling. Note the maximum adjustment is 1/4” (6.35 mm). DO NOT MODIFY THE UNIT. If necessary, re-cut the sprinkler drop nipple as required. 6. For concealed sprinklers: the cover assembly can now be attached. a. Remove the cover from the protective box, taking care not to damage the cover plate assembly. b. Gently place the base of the cover plate assembly over the sprinkler protruding through the opening in the ceiling. c. Push the cover plate assembly onto the sprinkler until the unfinished brass flange of the cover plate base (or the cover adapter, if used) touches the surface of the ceiling. d. Refer to the applicable technical data sheet to determin the maximum adjustment available for concealed sprinklers. DO NOT MODIFY THE UNIT. If necessary, re-cut the sprinkler drop nipple. NOTE: If it is necessary to remove the entire sprinkler unit, the system must be taken out of service. See section 6. INSPECTIONS, TESTS AND MAINTENANCE and follow all warnings and instructions. 5. OPERATION Refer to the appropriate sprinkler technical data page(s). During fire conditions, the operating element fuses or shatters (depending on the type of sprinkler), releasing the pip cap and sealing assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appro- priate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. The sprinkler technical data page may contain installation requirements specific for the sprinkler model selected. The use of certain types of sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction prior to installation. SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 4 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. 6. INSPECTIONS, TESTS AND MAINTENANCE NOTICE: Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. NOTICE: The owner is responsible for having the fire-protection system and devices inspected, tested, and maintained in proper operating condition in accordance with this guide, and applicable NFPA standards. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements that must be followed. A. Sprinklers must be inspected on a regular basis for corrosion, mechanical damage, obstructions, paint, etc. Frequency of inspec- tions may vary due to corrosive atmospheres, water supplies, and activity around the sprinkler unit. B. Sprinklers or cover plate assemblies that have been field painted, caulked, or mechanically damaged must be replaced im- mediately. Sprinklers showing signs of corrosion shall be tested and/or replaced immediately as required. Installation standards require sprinklers to be tested and, if necessary, replaced after a specified term of service. Refer to NFPA 25 and the Authority Having Jurisdiction for the specified period of time after which testing and/or replacement is required. Never attempt to repair or reassemble a sprinkler. Sprinklers and cover assemblies that have operated cannot be reassembled or re-used, but must be replaced. When replacement is necessary, use only new sprinklers and cover assemblies with identical performance char- acteristics. C. The sprinkler discharge pattern is critical for proper fire protection. Therefore, nothing should be hung from, attached to, or otherwise obstruct the discharge pattern. All obstructions must be immediately removed or, if necessary, additional sprinklers installed. D. When replacing existing sprinklers, the system must be removed from service. Refer to the appropriate system description and/ or valve instructions. Prior to removing the system from service, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected area. 1. Remove the system from service, drain all water, and relieve all pressure on the piping. 2a. For frame-style sprinklers, use the special sprinkler wrench to remove the old sprinkler by turning it counterclockwise to unthread it from the piping. 2b. For flush and concealed style sprinklers: Remove the ceiling ring or cover plate assem- bly before unthreading the sprinkler body from the piping. Ceiling rings and cover plates can be removed ei- ther by gently unthreading them or pulling them off the sprinkler body (depends on the sprinkler model used). After the ceiling ring or cover plate assembly has been removed from the sprinkler body, place the plastic protective cap (from the spare sprinkler cabinet) over the sprinkler to be removed and then fit the sprinkler wrench over the cap. Then use the wrench to unthread the sprinkler from the piping. Exception: Domed concealed sprinklers are removed without the plastic cap. 3. Install the new sprinkler unit by following the instructions in section 4. INSTALLATION. Care must be taken to ensure that the replacement sprinkler is the proper model and style, with the correct K-Factor, temperature rating, and response character- istics. A fully stocked spare sprinkler cabinet should be provided for this purpose. For flush or concealed sprinklers: stock of spare ceiling rings or cover plates should also be available in the spare sprinkler cabinet. E. Place the system back in service and secure all valves. Check for and repair all leaks. Sprinkler systems that have been sub- jected to a fire must be returned to service as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. Sprinklers that have been exposed to corrosive products of combustion or high ambient temperatures, but have not operated, should be replaced. Refer to the Authority Having Jurisdiction for minimum replacement requirements. 7. AVAILABILITY Viking sprinklers are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEE For details of warranty, refer to Viking’s current list price schedule or contact Viking directly. Replaces Form No. F_080614 Rev 16.1 (Added P65 Warning.) REGULATORY AND HEALTH WARNINGSBULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 1 of 1 Form No. F_111218 18.11.15 Rev 18.1 New Bulletin 1. DESCRIPTION Regulatory and Health Warnings applying to materials used in the manufacture and construction of fire protection products are provided herin as they relate to legally mandated jurisdictional regions. WARNING STATE OF CALIFORNIA, USA Installing or servicing fire protection products such as sprinklers, valves, piping etc. can expose you to chemicals including, but not li- mited to, lead, nickel, butadiene, titaninum dioxide, chromium, carbon black, and acrylonitrile which are known to the State of California to cause cancer or birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov 2. WARRANTY TERMS AND CONDITIONS For details of warranty, refer to Viking’s current list price schedule at www.vikinggroupinc.com or contact Viking directly. XT1 Sprinkler and XG Guard AssembliesBULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 1 of 1 Form No. F_091119 19.09.11 Rev 19.1 1. INTRODUCTIONThe purpose of this bulletin is to inform users of proper XG Guard usage for the Model XT1 Sprinklers. The XG Guard assemblies are specifically listed and approved for use on Model XT1 Sprinklers; no other guard assemblies should be used. WARNING Viking sprinklers are manufactured and tested to meet the rigid requirements of the approving agency. The sprinklers are designed to be installed in accordance with recognized installation standards. Deviation from the standards or any alteration to the sprinkler after it leaves the factory including, but not limited to: unlisted accessories, painting, plating, coating, or modification, may render the sprinkler inoperative and will automatically nullify the approval and any guarantee made by The Viking Corporation. Refer to the Authority Having Jurisdiction prior to installation. 2. GENERAL INFORMATION: A potential product performance issue may exist when listed products are combined with unlisted product(s) that have not been evaluated together by a recognized approval laboratory. With the development of new products and existing products, it is extremely important to correctly match a sprinkler with a sprinkler guard. Please refer to the appropriate manufacturer’s technical literature or call Viking Technical Services at 877-384-5464. IMPORTANT Model XT1 sprinklers are specifically listed and approved with XG Guard. The XG Guard, part number 22931, is listed and approved for use with the following XT1 sprinklers: VK1001, VK1021, VK3001, VK3021, VK2002, VK2022, VK3502, VK3522, VK2001, VK2021, VK3501, VK3521. Listed and Approved XG Guard/XT1 Sprinkler Assembly Unlisted Guard/XT1 Sprinkler Assembly NOTE: Image is represetative only. Actual product appearance may vary. Activation element T-hinge blocked Models BB, SD, HIP, and AP Specific Application Sprinklers For Protecting Attics Page 1 of 28 JUNE 2021 TFP610 IMPORTANT Refer to Technical Data Sheet TFP2300 for warnings pertaining to regulatory and health information. Always refer to Technical Data Sheet TFP700 for the “INSTALLER WARNING” that provides cautions with respect to handling and instal- lation of sprinkler systems and com- ponents. Improper handling and installation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. Worldwide Contacts www.tyco-fire.com General Description The TYCO Models Back to Back Dual Directional (BB), Single Directional (SD), HIP, and Attic Plus (AP) Specific Appli- cation Attic Sprinklers for Protecting Attics are fire sprinklers for combus- tible and non-combustible sloped attic spaces. While Models BB, SD, and HIP are specific application attic sprinklers, the Model AP is a specific application combustible concealed-space sprin- kler with specific application criteria for use with Models BB, SD, and HIP in attic spaces. Specific Application Attic Sprinklers provide superior fire protection in attic spaces. When compared to Stan- dard Spray Sprinklers, cost savings are achieved by eliminating branchline materials and the associated installa- tion labor. Specific Application Attic Sprinklers for Protecting Attics have undergone the most extensive fire testing ever per- formed for sloped attic spaces. They are UL Listed with their specific appli- cation guidelines for use as special sprinklers as defined by the NATIONAL FIRE PROTECTION ASSOCIATION (NFPA). Specific Application Attic Sprinklers provide an extended coverage spacing alternative to the restricted spacing of Standard Spray Sprinklers. The Specific Application Attic Sprin- klers are the first sprinklers to be: • Listed for extended coverage in com- bustible construction • Full-scale fire tested in both wet and dry system scenarios • Full-scale tested for use in wood truss construction • Listed for specific roof slopes (Ref. Table A) The Specific Application Attic Sprin- klers provide cost control with the best level of protection by eliminat- ing the need for additional sprinklers and branchline piping. In many cases, an attic can be entirely protected with just one line of piping located below the peak of the roof using Model BB Sprin- klers. If Model SD Sprinklers or Model HIP Sprinklers are needed, one line of either at each area being covered is sufficient. For example, while using Standard Spray Sprinklers, a system in a 60 ft (18,3 m) wide attic with up to a 12:12 roof pitch designed to NFPA 13, could require seven branchlines to cover the main portion of the attic and several additional branchlines to cover the hip areas. With Specific Application Attic Sprinklers, the required coverage can be obtained with just one branchline running below the peak and one down each slope of the hip beam. This would result in approximately 90% less pipe needed for installation. This reduction in the number of branchlines saves the cost of the pipe, fittings, hangers, and associated labor by eliminating up to five branchlines. Another important aspect of the Spe- cific Application Attic Sprinkler technol- ogy, which also allows for cost savings, is the reduction in system volume. This volume reduction may result in reduc- ing the size of a dry pipe valve and air compressor, and possibly allows for quicker water delivery times, eliminat- ing the need for an accelerator. TFP610 Page 2 of 28 Button - Deector Sealing Assembly - Bulb Compression Screw Components: Frame- - - 2 3 1 6 4 -5 CROSS SECTION ELEVATION 2-1/4" (57,2 mm) 4 5 1-5/8" (41,3 mm) 1 3 2 6 13/16" (20,6 mm) 1-1/8" (28,6 mm) FLOW FLOW FRAME ARMS 1/2" (12,7 mm) NOMINAL MAKE-IN 2-1/8" (54,0 mm) WRENCH FLATS 3/4" NPT THREAD RELIEF - - - -- - - - Compression Screw Deector Diffuser Link Assembly Rivet Deector FrameSaddle Lever Components: - - - Sealing Assembly Body Cap 1 4 2 3 5 7 6 8 10 9 11 ELEVATION CROSS SECTION 10 7 5 4 6 8 2-1/2" (63,5 mm) 21 11 2-1/4" (57,2 mm) 1-9/16" (39,7 mm) 9 7/16" (11,1 mm) NOMINAL MAKE-IN FRAME ARMS WRENCH HEX 1-1/8" (28,6 mm) FLOW FLOW 1/2" NPT3 Button - Deector Sealing Assembly - Bulb Compression Screw Components: Frame- - - 2 3 1 6 4 -5 ELEVATION CROSS SECTION FRAME ARMS 54 3 7/16" (11,1 mm) NOMINAL MAKE-IN THREAD RELIEF 2-1/8" (54,0 mm)1 2 WRENCH FLATS 6 13/16" (20,6 mm) 1-1/8" (28,6 mm) FLOW 2-1/4" (57,2 mm) 1-5/8" (41,3 mm) FLOW 1/2" NPT - - -- - - - Compression Screw Deector Link Assembly Rivet Deector FrameSaddle Lever Components: - - - Sealing Assembly Body Cap 1 4 2 3 5 7 6 8 10 9 CROSS SECTION ELEVATION 7 4 3 6 5 10 2 1 3" (76,2 mm) 1-5/16" (33,4 mm) FLOW 2-1/8" (54,0 mm) FRAME ARMS 1-5/16" (33,3 mm) 9 8 WRENCH HEX 1/2" NPT 7/16" (11,1 mm) NOMINAL MAKE-IN FIGURE D MODELS SD1, SD2, AND SD3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS FIGURE A MODELS BB1, BB2, AND BB3 WITH 8.0 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS FIGURE C MODELS BB1, BB2, AND BB3 WITH 4.2 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS FIGURE B MODELS BB1, BB2, AND BB3 WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS TFP610 Page 3 of 28 Another cost reduction is the Listing of BLAZEMASTER CPVC for use in attic spaces to feed the wet system Specific Application Attic Sprinklers for Protect- ing Attics, as well as to feed the wet system sprinklers below the ceiling. Traditionally, BLAZEMASTER CPVC has been used on the lower floors in the joist space above a ceiling that do not require sprinklers. The cost of using CPVC on those floors can now be translated to the upper floor even if sprinklers are required in the attic. There are four models of the Specific Application Attic Sprinklers used for protecting attics: BB, SD, HIP, and AP. The Model BB and Model SD Sprinklers have three separate versions used for different roof pitches. The pitches, as applicable, can vary from a minimum of 3:12 to a maximum of 12:12. For more information, refer to Table A. BB Sprinkler (Back to Back Dual Directional) The Model BB Specific Application Attic Sprinkler, as seen in Figure A, B and C, throws a narrow and long pattern. The narrow spacing along the ridge serves two purposes: the response time is reduced by placing the sprinklers no farther than 6 ft (1,8 m) apart, and the spray can be concentrated in the throw direction to obtain a pattern that will cover up to 30 ft (9,1 m) in each direction when measured horizontally. There are three different models that account for different roof slopes: BB1, BB2, and BB3. Each model is provided in one of three different orifice sizes: K=4.2, 5.6, or 8.0. SD Sprinkler (Single Directional) The Model SD Specific Application Attic Sprinkler, as seen in Figure D, throws a narrow but long pattern like the Model BB. However, unlike the Model BB, the Model SD only throws in one direction. Model BB Sprinklers are primarily used where shear walls or draft curtains have been installed within an attic space. Model BB Sprinklers are also used when the framing direction is parallel with the outside wall in the hip area. For more information, refer to Figure 13. In this case, the SD Model Sprinkler would be used on one side of the slope and AP Sprinklers or Standard Spray Sprinklers would be used to protect the other side. The Model SD Sprinklers must be installed in a vertical upright orientation and not angled with the slope. Achiev- ing the vertical upright orientation may require the use of a swing joint if the SD Sprinklers are being fed from a line running along and parallel to the roof hip. There are three different models that account for different roof slopes: SD1, SD2, and SD3. HIP Sprinkler The Model HIP Specific Application Attic Sprinkler, as seen in Figure E, covers the area of the hip in the attic. This is a slightly different concept than the BB Model or SD Model Sprinklers. The HIP Sprinkler is located along the slope running down the hip, and throws a 90° pattern toward the outside eaves. This pattern allows the water to “corner” and control the fire. The HIP does not throw much water directly up or down the hip, but rather it throws most of the pattern out to each side (90°) down the slope of the roof. This sprinkler is typically spaced 6 ft (1,8 m) to 3 ft (0,9 m) on center down the slope. To use the HIP Sprinkler, the framing must be perpendicular to the outside wall (refer to Figure 12) and the maximum throw cannot exceed 28 ft (8,5 m) measured horizontally. The HIP, unlike the BB Model and SD Model, is installed with the deflector parallel with the slope. There is only one model with flows and pressures for two different spacings. Button - Deector Sealing Assembly - Bulb Compression Screw Components: Frame- - - 2 3 1 6 4 -5 CROSS SECTION ELEVATION 2-1/8" (54,0 mm) FLOW 6 2" (50,8 mm) 1-1/4" (31,8 mm) 2-1/8" (54,0 mm) 1-1/16" (27,0 mm) 4 5 1 FRAME ARMS 7/16" (11,1 mm) NOMINAL MAKE-IN WRENCH FLATS 1/2" NPT THREAD RELIEF 3 2 Sealing Assembly - Deector- Spring Ejection Bulb- - Compression Screw Components: Frame- - - Button 4 2 3 1 7 6 5 CROSS SECTION ELEVATION 2 1 3 4 5 6 WRENCH FLATS 7/16" (11,1 mm) NOMINAL MAKE-IN SPRINKLER FRAME ARMS 1-11/16" (42,9 mm) 2-1/4" (57,2 mm) 1/2" NPT 7 FIGURE F MODEL AP WITH 4.2 OR 5.6 K-FACTOR SPECIFIC APPLICATION COMBUSTIBLE CONCEALED SPACE SPRINKLERS FIGURE E MODEL HIP WITH 5.6 K-FACTOR SPECIFIC APPLICATION ATTIC SPRINKLERS TFP610 Page 4 of 28 AP Sprinkler (Attic Plus) The AP Specific Application Attic Sprin- kler are to be installed in the upright orientation with their deflector parallel to the roof. The Model AP Sprinklers, as seen in Figure F, are intended to be used to provide protection of attic areas outside the scope of applica- tions for the BB, SD, or HIP Sprinklers. The AP Sprinklers must only be used in conjunction with other Specific Appli- cation Attic Sprinklers (BB, SD, and HIP), or as permitted in other sections of this document. The AP Sprinklers will provide a hydraulic advantage over Standard Spray Sprinklers for the pro- tection of attic areas outside the scope of application for the BB Model, SD Model, or HIP Model Sprinklers. NOTICE The Specific Application Attic Sprin- klers for Protecting Attics described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of NFPA, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the perfor- mance of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. Contact the installing contrac- tor or product manufacturer with any questions. Sprinkler Identification Number (SIN) TY4180* BB1 K=8.0 TY4181* BB2 K=8.0 TY4182* BB3 K=8.0 TY3180* BB1 K=5.6 TY3181* BB2 K=5.6 TY3182* BB3 K=5.6 TY2180 BB1 K=4.2 TY2181 BB2 K=4.2 TY2182 BB3 K=4.2 TY3183* SD1 K=5.6 TY3184* SD2 K=5.6 TY3185* SD3 K=5.6 TY3187* HIP K=5.6 TY3190 AP K=5.6 TY2190 AP K=4.2 * The “TY” prefix is a re-designation of the previous “C” prefix. For example, TY4180 is a re-designation for C4180. Technical Data Approvals UL and C-UL Listed These Approvals only apply to the service conditions indicated in the Design Criteria section on Page 6 and the Design Guidelines section on Page 8. Pipe Thread Connection 1/2 inch NPT for K=4.2 and 5.6 3/4 inch NPT for K=8.0 Discharge Coefficient K = 4.2 GPM/psi½ (60,5 LPM/bar½) K = 5.6 GPM/psi½ (80,6 LPM/bar½) K = 8.0 GPM/psi½ (115,5 LPM/bar½) Temperature Rating Intermediate Temperature as follows: –200°F (93°C) for BB (K4.2 and K8.0), HIP, AP –212°F (100°C) for BB (K5.6), SD Finish Natural Brass Physical Characteristics (Figures A, C and E) Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . .Bronze Button .....................Bronze/Copper Sealing Assembly ..Beryllium Nickel w/TEFLON Bulb .....................Glass (3 mm dia.) Link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . MONEL Compression Screw . . . . . . . . . . . . . . . . . .Brass Deflector . . . . . . . . . . . . . . . . . . . . Brass/Bronze Physical Characteristics (Figures B and D) Body . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Brass Cap . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Bronze Sealing Assembly ..Beryllium Nickel w/TEFLON Saddle . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Brass Link Assembly . . . . . . . . . . . . . . . . . . . . . . Nickel Compression Screw . . . . . . . . . . . . . . . . . .Brass Deflector . . . . . . . . . . . . . . . . . . . . Brass/Bronze Lever .....................Bronze Deflector Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . .Bronze Diffuser . . . . . . . . . . . . . . . . . . . . . . . . . . . .Brass Rivet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Brass Physical Characteristics (Figure F) Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Brass Button . . . . . . . . . . . . . . . . . . . . . . . . . . . .Bronze Sealing Assembly ..Beryllium Nickel w/TEFLON Bulb .....................Glass (3 mm dia.) Compression Screw . . . . . . . . . . . . . . . . . .Brass Deflector . . . . . . . . . . . . . . . . . . . . . . . . . .Bronze Operation BB (K=8.0 and 4.2), HIP (K=5.6) and AP (5.6 and 4.2) The glass bulb contains a fluid that expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. BB (K=5.6) and SD (K=5.6) The fusible link assembly is comprised of two link halves which are joined by a thin layer of solder. When the rated temperature is reached, the solder melts and the two link halves separate, allowing the sprinkler to activate and water to flow. TFP610 Page 5 of 28 Installation The TYCO Specific Application Attic Sprinklers for Protecting Attics must be installed in accordance with this section. NOTICE Do not install any bulb-type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprin- kler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1/16 inch (1,6 mm) for the 155°F (68°C) and 3/32 inch (2,4 mm) for the 200°F (93°C) tem- perature ratings. A leak-tight 1/2 inch NPT sprinkler joint should be obtained by applying a min- imum-to-maximum torque of 7 to 14 lb-ft (9,5 to 19,0 N·m). Higher levels of torque can distort the sprinkler inlet with consequent leakage or impairment of the sprinkler. To install the Specific Application Attic Sprinklers, complete the following: Step 1. Sprinklers must be oriented correctly as follows: • Model BB Sprinklers are to be installed in the upright vertical posi- tion with the flow arrows on the deflector pointing down the two opposing slopes. • Model SD Sprinklers are to be installed in the upright vertical posi- tion with the flow direction arrow on the deflector pointing down the slope. • The Model HIP Sprinklers are to be installed with the deflector at the top, the sprinkler centerline perpendicular to the ridge of the hip roof, and the flow direction arrows on the deflec- tor pointing down the two oppos- ing slopes. Unlike the Model BB and Model SD, the Model HIP is installed angled so that its deflector is paral- lel with the slope of the hip ridge line. • The Model AP Sprinklers are to be installed in the upright position with the deflector parallel to the roof slope. There are no flow arrows on the deflector to consider; however, a good piping practice is to position all the Model AP Sprinklers so that their frame arms are in the same direction. Step 2. With pipe thread sealant applied to the pipe threads, hand- tighten the sprinkler into the sprinkler fitting. Note: With reference to Figure G, do not grasp the sprinkler by the deflector. Step 3. Wrench-tighten the sprin- kler using only the wrenches shown in Figures H through M. Wrenches are only to be applied to the sprin- kler wrench flats or wrench hex, as applicable. WRENCH FLATS USE END MARKED "A" ONLY WRENCH JAW FLANGE ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH FLATS USE END MARKED "A" ONLY WRENCH JAW FLANGE ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH HEX ADJUST WRENCH JAW TO FIT WRENCH HEX APPLY WRENCH TO WRENCH HEX ONLY DO NOT WRENCH FLATS USE END MARKED "A" ONLY WRENCH JAW FLANGE ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES WRENCH FLATS USE END MARKED "A" ONLY WRENCH JAW FLANGE ENGAGE SPRINKLER THREAD RELIEF WITH WRENCH JAW FLANGES FIGURE G DO NOT GRASP DEFLECTOR FIGURE H W-TYPE 3 SPRINKLER WRENCH FOR USE WITH BB (K=8.0) SPRINKLERS’ FIGURE K W-TYPE 20 SPRINKLER WRENCH FOR USE WITH HIP (K=5.6) SPRINKLERS FIGURE J W-TYPE 6 SPRINKLER WRENCH FOR USE WITH BB (K=4.2) SPRINKLERS FIGURE L ADJUSTABLE WRENCH FOR USE WITH BB (K=5.6) AND SD (K=5.6) SPRINKLERS FIGURE M W-TYPE 6 SPRINKLER WRENCH FOR USE WITH AP (K=4.2 AND 5.6) SPRINKLERS TFP610 Page 6 of 28 Design Criteria Area of Use The TYCO Specific Application Attic Sprinklers are designed for use in roof structures and combustible and non-combustible sloped attic spaces, including wood joist/rafters and wood trussed attics with a ceiling below. System Type for BB, SD, HIP, or AP Sprinklers Wet using CPVC pipe Wet or dry using steel pipe Note: Use of the 4.2 K sprinklers in dry pipe systems is permitted by NFPA 13 where piping is corrosion resistant or internally galvanized. Hazard Light Hazard. BB, SD, or HIP Allowable Roof Span (Coverage) and Roof Pitch Refer to Table A for allowable roof spans and roof pitches, and for the associated minimum sprinkler flows and pressures. Figures 1, 2, 11 and 12 illustrate where the roof span is to be measured. Coverage Beyond BB, SD or HIP Allowable Roof Spans Up to 10 ft (3,1 m) of coverage at the eave(s) beyond the allowable roof spans for BB, SD, or HIP Sprinklers may be obtained by using a single row of AP Sprinklers. For more information, refer to Figure 14A, 14B, and 15. BB, SD, HIP, or AP Minimum Distance Between Sprinklers 4 ft (1,2 m) as measured along the branchline for BB and SD. For more information, refer to Figure 3. 3 ft (0,9 m) as measured along the branchline for HIP. For more informa- tion, refer to Figure 12. 7 ft (2,1 m) between AP Sprinklers. BB, SD, HIP, or AP Maximum Distance Between Sprinklers 6 ft (1,8 m) on center along the branch- line for BB, SD, and HIP. For more infor- mation, refer to Figure 3 and 12. For AP, the maximum spacing is 10 ft (3,1 m) perpendicular to slope and 12 ft (3,6 m) parallel to slope. When there is more than one row of AP Sprin- klers, the sprinklers must be staggered as seen in Figure 20-B-3. BB, SD, HIP, or AP Minimum Distance to AP Sprinklers or Standard Spray Sprinklers As measured along the peak/ridge direction, 6 ft (1,8 m) from BB, SD, and HIP to Standard Spray Sprinklers. For more information, refer to Figure 4. As measured along the peak/ridge direction, 7 ft (2,1 m) from AP to Stan- dard Spray Sprinklers. For more infor- mation, refer to Figure 4. In the slope direction, 26 ft (7,9 m) from BB or HIP Sprinklers to AP Sprinklers or Standard Spray Sprinklers. For more information, refer to Figure 6. BB, SD, or HIP Deflector Installation Position Below Peak/Ridge or Deck For roof pitches of 4:12 (33%) to 12:12 (100%), 22 in. (558,8 mm) maximum and 16 in. (406,4 mm) minimum. For more information, refer to Figure 2 and 5. For roof pitches of 3:12 (25%) up to 4:12 (33%), (only 4.2K Model BB), 12 in. (304,8 mm) maximum below the peak and a minimum of 1 in. (25,4 mm) below the bottom of the top chord or solid wood rafter. AP Deflector Position and Roof Pitch 1 to 3 in. (25,4 to 75,6 mm) below the bottom of the top chord or bottom of solid wood rafter, where the roof pitch is 3:12 to 12:12 and the top chord or solid wood rafter is a nominal 12 in. (600 mm) or less. BB or SD Deflector Installation Position Above Scissor Truss 18 in. (457,2 mm) minimum. For more information, refer to Figure 5. BB, SD, or HIP Minimum Distance Away from Trusses Attic Sprinklers must be installed 6 in. (152,4 mm) away from the face of trusses. For more information, refer to Figure 7. SD Distance from Shear Wall or Draft Curtain 4 to 6 in. (101,6 to 152,4 mm) from face, and a minimum of 8 in. (203,2 mm) above the bottom of the draft curtain. For more information, refer to Figure 2. Draft Curtains Draft curtains installed to permit the installation of Attic Sprinklers shall be constructed so as to not allow heat to escape through or above the draft curtain. The draft curtain may be con- structed of 1/2 in (12,7 mm) plywood. BB or HIP Maximum Distance from the Center Line of the Ridge 6 in. (152,4 mm) with the deflector located 16 to 22 in. (406,4 mm to 558,8 mm) from the peak. For more informa- tion, refer to Figure 8. Use of UL Listed BLAZEMASTER CPVC Piping with Specific Application Attic Sprinklers for Protecting Attics (Wet Systems Only) BLAZEMASTER CPVC piping may be used in a combustible concealed attic space requiring sprinklers when installed in accordance with the follow- ing guidelines: Note: Where the use of non-com- bustible insulation is specified, verify with the insulation manufacturer as to the non-combustibility of the insula- tion. The non-combustible insulation (fiberglass) may be faced or unfaced. Where faced, the facing need not be non-combustible. The insulation is to have a flame spread index of not more than 25. Verify chemical compatibility of the insulation with BLAZEMASTER CPVC by consulting www.lubrizol.com. • BLAZEMASTER CPVC may be used to feed the wet system ceiling sprin- klers on the floor below. There must be 6 in. (152,4 mm) of non-combus- tible insulation covering the horizon- tal or vertical pipe extending 12 in. (304,8 mm) on each side away from the centerline of the pipe. Refer to Figures 9A, 9B, and 9C. The area above the pipe must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 9A. If the pipe is located inside the ceil- ing joist, the joist channel must be covered or filled with 6 in. (152,4 mm) of non-combustible insulation on top of the pipe and the area above must be protected by BB, SD, HIP, or AP Sprinklers. For more information, refer to Figure 9B. Insulation is for fire protection purposes. It is not freeze protection. BLAZEMASTER CPVC must be installed in accordance with the BLAZEMASTER installation guide instructions. • With reference to Figure 19, BLAZE- MASTER CPVC may be used exposed to feed wet system BB, SD, or HIP Sprinklers where: • Risers are vertical and protected by BB, SD, or HIP Sprinklers locat- ed at a maximum lateral distance of 12 in. (304,8 mm) from the riser centerline. • BB, SD, or HIP Sprinklers are di- rectly mounted on the branchline. • BB, SD, or HIP Sprinklers are on arm-overs and located at a max- imum lateral distance of 6 in. (152,4 mm) from the branchline centerline. • BB, SD, or HIP Sprinklers are on vertical sprigs attached to the branchline. TFP610 Page 7 of 28 • BB, SD, or HIP Sprinklers are on arm-over or angled sprigs, and lo- cated at a maximum lateral dis- tance of 6 in. (152,4 mm) from the branchline centerline. • A minimum lateral distance of 18 in. (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. • BLAZEMASTER CPVC may be used exposed to provide wet system, ver- tical or angled, sprigs to AP Sprin- klers (refer to Figures 17A and 17B) where: • The exposed portion of an angled sprig is a maximum length of 3 ft (0,9 m). Total sprig length 4 ft (1,2 m) or longer shall be restrained against lateral movement per NFPA 13. Vertical restraint is provided using the CPVC hanger support for horizontal pipe runs. • Vertical sprigs have a maximum exposed length of 10 ft (3,05 m), the AP Sprinkler is located at a maximum lateral distance of 12 in. (3304,8 mm) from the sprig center- line, and the sprig is supported at the swing joint to the AP Sprinkler. • A minimum 6 in. (152,4 mm) deep of non-combustible insulation ex- tending 12 in. (304,8 mm) on each side away from the centerline of the CPVC branchline feeding the AP sprigs (refer to Figure 17A). If the CPVC branchline is locat- ed inside the ceiling joist, the joist channel must be covered or filled with a minimum of 6 in. (152,4 mm) deep of noncombustible insula- tion on top of the branchline feed- ing the AP sprigs (refer to Figure 17B). Insulation is for fire protection purposes. It is not freeze protec- tion. Additional depth of non-com- bustible insulation may be added to reduce the exposed length of the AP sprigs. • A minimum lateral distance of 18 in. (450 mm) is maintained be- tween the CPVC pipe and a heat producing device such as heat pumps, fan motors, and heat lamps. Mismatched Slopes Refer to Figure 10. Obstructions For BB, SD, and HIP, refer to Figure 16. For AP Sprinklers, refer to Figure 18. BB, SD, HIP, and AP Sprinklers may be installed directly on maximum 2-1/2 inch NPS (DN65) branch lines without the need for sprigs. See NFPA 13 for requirements when installed on pipe greater than 2-1/2 inch NPS (DN65). Model K SIN Allowable Roof Span, (a) (b) (e) Feet (m) Minimum Flow, GPM (LPM) Minimum Pressure, psi (bar) Pitch, Rise Over Run (%) Dry Pipe System Maximum Water Delivery Time, Seconds BB1 8.0 TY4180 ≤60 (18,3)38 (144)22.6 (1,5)4:12 (33) to less than 7:12 (58)(c) BB2 8.0 TY4181 ≤60 (18,3)38 (144)22.6 (1,5)7:12 (58) to less than 10:12 (83)(c) BB3 8.0 TY4182 ≤60 (18,3)40 (152)25.0 (1,7)10:12 (83) to 12:12 (100)(c) BB1 5.6 TY3180 >40 (12,2) to ≤60 (18,3)38 (144)46.0 (3,2)4:12 (33) to less than 7:12 (58)(c) BB2 5.6 TY3181 >40 (12,2) to 60 (18,3)38 (144)46.0 (3,2)7:12 (58) to less than 10:12 (83)(c) BB3 5.6 TY3182 >40 (12,2) to 60 (18,3)38 (144)46.0 (3,2)10:12 (83) to 12:12 (100)(c) BB1 5.6 TY3180 ≤40 (12,2)25 (95)20.0 (1,4)4:12 (33) to less than 7:12 (58)(c) BB2 5.6 TY3181 ≤40 (12,2)25 (95)20.0 (1,4)7:12 (58) to less than 10:12 (83)(c) BB3 5.6 TY3182 ≤40 (12,2)25 (95)20.0 (1,4)10:12 (83) to 12:12 (100)(c) BB1 4.2 TY2180 ≤20 (6,1)13 (49)9.6 (0,7)3:12 (25) to less than 7:12 (58)45 (d) BB2 4.2 TY2181 ≤20 (6,1)13 (49)9.6 (0,7)7:12 (58) to less than 10:12 (83)45 (d) BB3 4.2 TY2182 ≤20 (6,1)13 (49)9.6 (0,7)10:12 (83) to 12:12 (100)45 (d) SD1 5.6 TY3183 >30 (9,1) to ≤40 (12,2)35 (132)39.0 (2,7)4:12 (33) to less than 7:12 (58)(c) SD2 5.6 TY3184 >30 (9,1) to ≤40 (12,2)35 (132)39.0 (2,7)7:12 (58) to less than 10:12 (83)(c) SD3 5.6 TY3185 >30 (9,1) to ≤40 (12,2)35 (132)39.0 (2,7)10:12 (83) to 12:12 (100)(c) SD1 5.6 TY3183 >10 (3,0) to ≤30 (9,1)25 (95)20.0 (1,4)4:12 (33) to less than 7:12 (58)(c) SD2 5.6 TY3184 >10 (3,0) to ≤30 (9,1)25 (95)20.0 (1,4)7:12 (58) to less than 10:12 (83)(c) SD3 5.6 TY3185 >10 (3,0) to ≤30 (9,1)25 (95)20.0 (1,4)10:12 (83) to 12:12 (100)(c) SD1 5.6 TY3183 ≤10 (3,0)19 (72)11.5 (0,8)4:12 (33) to less than 7:12 (58)(c) SD2 5.6 TY3184 ≤10 (3,0)19 (72)11.5 (0,8)7:12 (58) to less than 10:12 (83)(c) SD3 5.6 TY3185 ≤10 (3,0)19 (72)11.5 (0,8)10:12 (83) to 12:12 (100)(c) HIP 5.6 TY3187 >20 (6,1) to ≤28 (8,5)34 (129)36.9 (2,5)4:12 (33) to 12:12 (100)(c) HIP 5.6 TY3187 ≤20 (6,1)25 (95)20.0 (1,4)4:12 (33) to 12:12 (100)(c) AP 5.6 TY3190 10 (3,1) x 12 (3,6) See note (e) Min. 7 psi (0,48 bar) Min. 0.10 gpm/ft² (4,1 mm/min.) Design Density 3:12 (25) to 12:12 (100)60 (d) AP 4.2 TY2190 3:12 (25) to 12:12 (100)60 (d) NOTES a. The BB and SD roof span is measured horizontally (not along the slope) as shown in Figure 1 and Figure 2. b. The HIP roof span is measured horizontally as shown in Figure 2. c. Refer to NFPA 13. d. Maximum water delivery time for all system sizes. e. The AP roof span is measured along the slope. Maximum 10 ft (3, m) perpendicu- lar to slope by maximum 12 ft (3,6 m) parallel to slope. TABLE A ALLOWABLE ROOF SPAN, FLOW, PRESSURE, AND PITCH FOR SPECIFIC APPLICATION SPRINKLERS FOR PROTECTING ATTICS TFP610 Page 8 of 28 Design Guidelines To design a project with the TYCO Spe- cific Application Attic Sprinklers, use these steps as a guideline: • Determine if single, dual directional or hip sprinkler is needed. • Determine the roof slope is between 3:12 to 12:12. If more than one slope is being used on a project, select the correct sprinkler for each area. • Follow the guidelines for each type of sprinkler. • Calculate the sprinkler system in accordance with the appropriate flow and pressure information provided in Table A, as well as Figure 20. There is no interpolation of the flows and pressures shown on the chart. Note: The Model BB, SD, HIP and AP Specific Application Sprinklers have not been evaluated for use with sprayed on foam insulation. For BB Sprinklers (Back to Back Dual Directional) • Verify the framing direction is per- pendicular to the outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprinklers (refer Figure 13). • Determine the throw needed. For more information, see the spac- ing requirements in Table A. If over 20 ft (6,1 m) and up to 60 ft (18,3 m) is required, use the 8.0 K-factor, BB Sprinklers to reduce the pressure required. If pressure is not a concern, use the 5.6 K-factor, BB Sprinklers to minimize over discharge. • If less than 20 ft (6,1 m) is required, use the 4.2 K-factor, Back to Back Dual Directional to minimize pressure and flow requirements. • Determine the distance along the slope. If the distance is not equal, use the longer side. Multiply the lon- ger side by two to determine the spacing down the slope. Four hun- dred divided by this value will deter- mine the maximum spacing along the ridge. The maximum distance is 6 ft (1,8 m). For example, a 12:12 slope at the maximum span of 60 ft (18,3 m) will produce a slope length of approximately 42.5 ft (13,0 m). That number multiplied by two pro- duces an 85 ft (25,9 m) throw. A 400 ft² maximum divided by an 85 ft (25,9 m) throw only allows a 4 ft 8 in. (1,4 m) spacing along the ridge. Using the maximum spacing, space the sprinklers along the ridge. • Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. For SD Sprinklers (Single Directional) • Determine the throw needed. • As the 400 ft² (37,2 m²) is not a factor with the SD Sprinklers, the maximum spacing is 6 ft (1,8 m) and the mini- mum is 4 ft (1,2 m). For more infor- mation, refer to Figures 2 and 11. The reason 400 ft² is not an issue with the single directional is because, at its maximum spacing, 6 ft (1,8 m) on center / covering 40 ft (12,2 m) flat / a 12:12 slope / and the throw being 56.5 ft (17,2 m), the 400 ft² (37,2 m²) maximum would not be exceeded. • Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. For HIP Sprinklers • Verify framing direction is perpendic- ular to outside wall (refer to Figure 12). If not, cover that area with AP Sprinklers or Standard Spray Sprin- klers (refer to Figure 13). • From the intersection of the top of the hip and the ridge, the maximum distance down the slope of the hip is 3 ft (0,9 m). Start the layout with the first sprinkler as close to that point as possible, but no further, while staying 6 in. (152,4 mm) away from the face of the trusses. Remember the slope of the hip is not equal to the slope of the roof from the ridge to the out- side wall. Continue to space sprin- klers down the hip at a maximum of 6 ft (1,8 m) on center as measured along the slope of the hip. When the bottom of the hip is encountered, the last sprinkler must be within 7-1/2 ft (2,3 m) of the outside wall as mea- sured flat (plan view). If this pipe is “cut to fit”, remember to account for the different slopes of the hip and the roof, as well as distances measured along the slope verses horizontal in plan view must be accounted for. • Avoid obstructions as shown in Fig- ure 16. If necessary, add Model AP Sprinklers or Standard Spray Sprin- klers to maintain coverage around obstructions. Hydraulic Requirements Refer to Figure 20. Determine the Correct Flow and Pressure For BB, SD, or HIP Sprinklers, deter- mine the roof span (measured horizon- tally) and the slope of the roof, and then refer to Table A. There is no interpola- tion of the flow and pressure shown. Round all cases to the next higher spacing. For example, a 45 ft (13,7 m) span with the BB1 (K=8.0) would be calculated at the 60 feet (18,3 m) span. For the AP Sprinklers, the minimum design pressure is 7 psi, and the minimum design density is 0.10 gpm/ft² (4,1 mm/min). The NFPA 13, 20 psi (1,4 bar) minimum operating pressure for Standard Spray Sprinkler spacings parallel to the ridge that are above 8 ft (2,4 m) does not apply to the AP. Coverage Area • Coverage area for the BB Sprinklers is determined by twice the distance of the furthest throw measured along the slope multiplied by the distance along the branchline. The maximum distance along branchline is 6 ft (1,8 m) regardless of the length of the throw. Note: The distance along the branch- line may have to be reduced to less than the maximum of 6 ft (1,8 m) to remain under 400 ft² (37,2 m²) maximum depending on the slope and the span. In no case can the span exceed 60 ft (18,3 m) without additional Standard Spray Sprinklers. • Coverage area for the SD (Single Directional) Sprinklers is the distance along the branchline multiplied by the distance of the throw down the slope. Regardless of the throw, the maximum distance along the branch- line is 6 ft (1,8 m), the maximum throw measured horizontally is 40 ft (12,2 m), and the maximum coverage per sprinkler is 400 ft² (37,2 m²). • Coverage area for the HIP Sprinklers is the distance down the larger slope multiplied by two, and multiplied by the distance between the sprinklers as measured along the slope of the hip. • Coverage area for the AP (Attic Plus) Sprinklers is the distance along the branchline multiplied by the distance between the branchlines. The max- imum spacing is 10 ft (3,1 m) per- pendicular to the slope and 12 ft (3,6 m) parallel to slope, and as mea- sured on the slope. When there is more than one row of AP Sprinklers, the sprinklers must be staggered per Figure 20-B-3. The maximum spac- ing per sprinkler is 120 ft² (11,1 m²). TFP610 Page 9 of 28 Care and Maintenance The TYCO Specific Application Attic Sprinklers for Protecting Attics must be maintained and serviced in accor- dance with this section. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, obtain permission to shut down the affected fire protec- tion system from the proper authorities and notify all personnel who may be affected by this action. The owner is responsible for the inspection, testing, and maintenance of their fire protection system and devices in compliance with this document, as well as with the applicable standards of the NFPA, such as NFPA 25. In addition to the standards of any other authori- ties having jurisdiction. Contact the installing contractor or product manu- facturer with any questions. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national code. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or otherwise altered after leaving the factory. Modi- fied sprinklers must be replaced. Over-heated solder type sprinklers must be replaced. Bulb-type sprin- klers that have been exposed to cor- rosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid damage to the sprinklers before, during, and after installation. Sprin- klers damaged by dropping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb. For more informa- tion, refer to the Installation Section. Limited Warranty For warranty terms and conditions, visit www.tyco-fire.com. Ordering Procedure Contact your local distributor for avail- ability. When placing an order, indicate the full product name and Part Number (P/N). Sprinkler Assemblies with NPT Thread Connections Specify: Model (specify), K-factor (specify), SIN (specify), Specific Appli- cation Attic Sprinkler, P/N (specify): BB1 (K=8.0), TY4180 . . . . . . . . . . . . . . . . . . . . . .51-623-1-200 BB2 (K=8.0), TY4181 ......................51-621-1-200 BB3 (K=8.0), TY4182 ......................51-622-1-200 BB1 (K=5.6), TY3180 ......................50-601-1-212 BB2 (K=5.6), TY3181 ......................50-602-1-212 BB3 (K=5.6), TY3182 ......................50-603-1-212 BB1 (K=4.2), TY2180 ......................50-620-1-200 BB2 (K=4.2), TY2181 ......................50-621-1-200 BB3 (K=4.2), TY2182 ......................50-622-1-200 SD1 (K=5.6), TY3183 ......................50-611-1-212 SD2 (K=5.6), TY3184 ......................50-612-1-212 SD3 (K=5.6), TY3185 ......................50-613-1-212 HIP (K=5.6), TY3187 ......................51-620-1-200 AP (K=5.6), TY3190 ......................50-625-1-200 AP (K=4.2), TY2190 ......................50-624-1-200 Sprinkler Wrench Specify: W-Type 3 Sprinkler Wrench, P/N 56-895-1-001 Specify: W-Type 20 Sprinkler Wrench, P/N 56-000-1-106 Specify: W-Type 6 Sprinkler Wrench, P/N 56-000-6-387 TFP610 Page 10 of 28 ROOF SPAN (COVERAGE) BACK TO BACK SPRINKLERSTANDARD TRUSS SCISSOR TRUSS12 4-12 SEE FIG. 11 6" (152,4 mm) MAX. 4" (101,6 mm) MIN. FROM WALL ROOF SPAN (COVERAGE) SINGLE DIRECTIONAL SPRINKLERS 22" (558,8 mm) MAX. 16" (406,4 mm) MIN. BOTTOM OF SHEATHING 8" MIN. (203,2 mm) DECK DRAFT CURTAIN TO DECK AP or STANDARD SPRAY SPRINKLER FULL WALL TO DECK SEE FIG. 11 6'-0" (1,83 m) MAXIMUM 4'-0" (1,22 m) MINIMUM TRUSS BB or SD ATTIC SPRINKLERS CEILING BRANCH LINE RIDGE 7'-0" (2,1 m) MIN. FOR AP SPRINKLERS 6'-0" (1,8 m) MINIMUM FOR STANDARD SPRAY SPRINKLERS TRUSS CEILING BRANCH LINE ATTIC SPRINKLER RIDGEAP or STANDARD SPRAY SPRINKLER 22" (558,8 mm) MAX. 16" (406,4 mm) MIN. -or- FOR A ROOF PITCH LESS THAN 4:12 (33%), 12" (304,8 mm) MAXIMUM BELOW PEAK AND 1" (25,4 mm) MINIMUM BELOW BOTTOM OF TOP CHORD OR RAFTER BB, SD or HIP ATTIC SPRINKLER STANDARD TRUSS SCISSOR TRUSS 18" MIN. (457,2 mm)26'-0" (7,92 m) MINIMUM AP or STANDARD SPRAY SPRINKLERS BB, SD or HIP ATTIC SPRINKLER 6" (152,4 mm) MINIMUM TRUSS BB, SD or HIP SPRINKLER CEILING BRANCH LINE RIDGE 6" (152,4 mm) MAXIMUM BB or HIP ATTIC SPRINKLER 22" (558,8 mm) MAX. 16" (406,4 mm) MIN. BOTTOM OF SHEATHING FIGURE 1 FIGURE 2 FIGURE 3 FIGURE 4 FIGURE 5 FIGURE 6 FIGURE 7 FIGURE 8 TFP610 Page 11 of 28 JOIST NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION 12" MIN. (304,8 mm) 12" MIN. (304,8 mm) CEILING CEILING SPRINKLER 6" MIN. (152,4 mm) CPVC PIPE & FITTINGS ATTIC SPRINKLER PROTECTED SPACE JOISTCEILING SPRINKLER 6" MIN. (152,4 mm) CPVC PIPE & FITTINGS NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION OPTION BOPTION A CEILING ATTIC SPRINKLER PROTECTED SPACE 6" MIN. (152,4 mm) CPVC PIPE & FITTINGS NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION ATTIC SPRINKLER PROTECTED SPACE JOIST CEILING CEILING VERTICAL RISE CEILING ELEVATION CHANGE 8" MIN. (203,2 mm) DRAFT CURTAIN (SHOWN) OR FULL WALL TO ROOF DECK WHEN ANGLE "A" DOES NOT EQUAL ANGLE "B" SINGLE DIRECTIONAL SPRINKLERS AS APPROPRIATE FOR RESPECTIVE SLOPE A B CEILING JOIST BB, SD or HIP COVERAGE ON HORIZONTAL AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE AP or STANDARD SPRAY SPRINKLER COVERAGE ON SLOPE BB, SD or HIP COVERAGE ON HORIZONTAL TOP OF INSULATION NON-COMBUSTIBLE INSULATION ROOF JOIST OR TOP CHORD ROOF JOIST OR TOP CHORD MAXIMUM 2" (50 mm) VENT PERMITTED FIGURE 9B FIGURE 9C FIGURE 9A FIGURE 9 NON-COMBUSTIBLE INSULATION FOR THE PROTECTION OF CPVC PIPE FIGURE 10 PERMITTED USE OF ATTIC SPRINKLERS FOR MISMATCHED SLOPES FIGURE 11 COVERAGE STARTING POINT AT EAVE TFP610 Page 12 of 28 7'-6" (2,3 m) MAX. HORIZONTAL HIP RIDGES 6'-0" (1,8 m) MAX. 3'-0" (0,9 m) MIN. ON HIP SLOPE SEE FIG. 11 3'-0" (0,9 m) MAX. ON HIP SLOPE OUTSIDE WALLMAXIMUM 28'-0" (8,5 m) HORIZONTAL RIDGE LINE RAFTERS IN HIP SLOPE AREA PERPENDICULAR TO OUTSIDE WALL ROOF SLOPE HIP SLOPE HIP SPRINKLERS PROTECT AREA ON BOTH SIDES OF HIP RIDGE SEE FIG. 11 BACK TO BACK SPRINKLERS HIP RIDGES OUTSIDE WALL 6'-0" (1,8 m) MAX.6'-0" (1,8 m) MAX. CPVC PIPE MAY BE USED IN SHADED AREA ONLY FOR CEILING PROTECTION BELOW (SEE PAGE 6) WHERE AN AREA (SHOWN NON-SHADED) IS PROTECTED WITH AP SPRINKLERS, CPVC MAY BE USED FOR CEILING PROTECTION BELOW (SEE PAGE 6) HIP SLOPE RIDGE LINE ROOF SLOPE BACK TO BACK SPRINKLERS TRUSSES IN HIP SLOPE AREA PARALLEL TO OUTSIDE WALL STANDARD SPRAY SPRINKLERS INSTALLED PER NFPA 13 IN HIP SLOPE AREA WHEN TRUSSES ARE FRAMED PARALLEL TO OUTSIDE WALL SINGLE DIRECTIONAL SPRINKLERS MAXIMUM 40'-0" (12,2 m) HORIZONTAL ROOF SPAN (COVERAGE) 3'-0" (0,9 m) MAX. ON HIP SLOPE 3'-0" (0,9 m) MAX. ON HIP SLOPE CPVC PIPE MAY BE USED IN SHADED AREA ONLY FOR CEILING PROTECTION BELOW (SEE PAGE 6) WHERE AN AREA (SHOWN NON-SHADED) IS PROTECTED WITH AP SPRINKLERS, CPVC MAY BE USED FOR CEILING PROTECTION BELOW (SEE PAGE 6) HIP SLOPE RIDGE LINE ROOF SLOPE BACK TO BACK SPRINKLERS TRUSSES IN HIP SLOPE AREA PARALLEL TO OUTSIDE WALL 6'-0" (1,8 m) MAX.STANDARD SPRAY SPRINKLERS INSTALLED PER NFPA 13 IN HIP SLOPE AREA WHEN TRUSSES ARE FRAMED PARALLEL TO OUTSIDE WALL HIP RIDGES OUTSIDE WALL FIGURE 12 HIP ROOF INSTALLATION WITH RAFTERS FRAMED PERPENDICULAR TO OUTSIDE WALL (SHOWN WITH HIP SPRINKLERS PROTECTING HIP SLOPE AND ADJACENT AREAS TO HIP SLOPE) FIGURE 13A HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL (SHOWN WITH STANDARD SPRAY OR AP SPRINKLERS IN HIP SLOPE) FIGURE 13B HIP ROOF INSTALLATION WITH TRUSSES FRAMED PARALLEL TO OUTSIDE WALL (SHOWN WITH STANDARD SPRAY OR AP SPRINKLERS IN HIP SLOPE AND ADJACENT AREAS TO HIP SLOPE) TFP610 Page 13 of 28 10'-0" MAX. (3,05 m) AP SPRINKLER COVERAGE AP SPRINKLERS SPACED 7'-0" (1,8 m) TO 10'-0" (3,0 m) ON CENTER 6'-0" MAX. (1,83 m) 4'-0" MIN. (1,22 m) 6'-0" (1,83 m) MAX. BB ATTIC SPRINKLER SEE FIG. 11 BB SPAN (TABLE A) 10'-0" MAX. (3,05 m) AP SPRINKLER COVERAGE SD ATTIC SPRINKLER 6'-0" MAX. (1,83 m) 4'-0" MIN. (1,22 m) 6'-0" (1,83 m) MAX. SEE FIG. 11 AP SPRINKLERS SPACED 7'-0" (1,8 m) TO 10'-0" (3,0 m) ON CENTER SD SPAN (TABLE A) BB SPAN (TABLE A) 10'-0" (3,0 m) 10'-0" (3,0 m) PERIMETER PROTECTION AREA HIP SPRINKLERS BACK TO BACK SPRINKLERS ROOF SLOPE 10'-0" (3,0 m) HIP SLOPE AP SPRINKLERS AT THE EAVES HIP RIDGES RIDGE LINE CPVC PIPE MAY BE USED IN SHADED AREA FOR CEILING PROTECTION BELOW (SEE PAGE 6) 7'-0" to 10'-0" (2,1 m to 3,0 m) ON CENTER FOR AP SPRINKLERS FIGURE 14A FIGURE 14B FIGURE 15 Attic Spaces Greater Than 60 ft (18,3m) up to 80 ft (24,4m) Wide, (refer to Figures 14 and 15). Only 8.0 K, BB Sprinklers in conjunction with AP Sprinklers or Standard Spray Sprinklers can be used to protect attics up to 80 ft (24,4 m) wide. NOTES: • Attics over 80 ft (24,4 m) wide must use Standard Spray Sprinklers throughout because Attic Sprinklers have not been tested in this scenario. • For single ridge construction (refer to Figure 14A and 14B), use 8.0K, BB Sprinklers to protect the center portion. AP Sprinklers (refer to Figure 14A) or Standard Spray Sprinklers (refer to Figure 14B) are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.0K, BB Sprinklers. • For hip roof construction (refer to Figure 15), use 8.0K, BB Sprinklers in the center portion and HIP Sprinklers can be located down the entire hip. AP Sprinklers or Standard Spray Sprinklers are then used to protect up to 10 ft (3,1 m) of width at the eaves beyond the maximum allowable 60 ft (18,3 m) span of the 8.0K, BB Sprinklers, and the maximum allowable horizontal coverage of the HIP Sprinklers. TFP610 Page 14 of 28 There can be a maximum of a 6 in. (152,4 mm) high Horizontal Obstruction as long as it is 36 in. (914,4 mm), measured vertically, below the Attic Sprinkler. If the obstruction is closer or larger, there must be a sprinkler on the other side of the obstruction. Refer to Figures 16A and 16B. This criteria does not limit the top chord of the trusses or the depth of the raf- ter, but does limit the obstructions that run across the trusses or rafters. BB ATTIC SPRINKLER 6" MAX. (152,4 mm) 36" MIN. (914,4 mm) NO ADDITIONAL SPRINKLER REQUIRED 3-1/2" MIN. (88,9 mm) AIR SPACE BB ATTIC SPRINKLERANY DISTANCE ADDITIONAL AP OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE 14A OR 14B) GREATER THAN 6" (152,4 mm) 6" (152,4 mm) MINIMUM 36" (914,4 mm) MINIMUM BB ATTIC SPRINKLER NO ADDITIONAL SPRINKLER REQUIRED 4'-0" (1,2 m) MAXIMUM LESS THAN 6" (152,4 mm) 36" (914,4 mm) MINIMUM BB ATTIC SPRINKLER GREATER THAN 4'-0" (1,2 m) ADDITIONAL AP OR STANDARD SPRAY SPRINKLER(S) REQUIRED (LOCATE PER FIGURE 14A OR 14B) 40"-48" (1016,0 mm-1219,2 mm) 30"-40" (762,0 mm-1016,0 mm) 20"-30" (508,0 mm-762,0 mm) 10"-20" (254,0 mm-508,0 mm) 8"-10" (203,2 mm-254,0 mm) 4"-8" (101,4 mm-203,2 mm) 1"-4" (25,4 mm-101,6 mm) 1/2"-1" (12,7 mm-25,4 mm) > 48" (1219,2 mm) Maximum Horizontal Dimension of Obstruction All Vertical Obstructions Dimension A Any Distance 25'-0" (7,62 m) 20'-0" (6,10 m) 15'-0" (4,57 m) 10'-0" (3,05 m) 5'-0" (1,52 m) 24" (609,6 mm) 12" (304,8 mm) 6" (152,4 mm) Minimum Horizontal Distance to Obstruction < 6" (152,4 mm) Distance B NO YES NO NO NO NO NO NO NO YES Additional Sprinkler Required Beyond Obstruction DIMENSION A PER TABLE ADDITIONAL AP OR STANDARD SPRAY SPRINKLER REQUIRED (LOCATE PER FIGURE 14A OR 14B) DIMENSION B PER TABLE If the Horizontal Obstruction is below the sprinkler, there must be 6 in. (152,4 mm) clearance over the top of the obstruction, and the obstruction must be 4 ft (1,2 m) or less in width to allow water to pass both over and under the obstruction. The clearance is measured perpendicu- lar to and from the bottom of the rafter. If there is not 6 in. must be located on the other side of the obstruc- tion. If the obstruction is greater than 4 ft (1,2 m) in width, a sprinkler must be added below the obstruction. Refer to Figures 16C and 16D, where the maximum spacing for AP Sprinklers is 12 ft (3,7 m) and Standard Spray Sprin- klers is 15 ft (4,6 m). For Vertical Obstructions, the maximum dimension of the obstruction is its width and the horizontal distance away from the obstruction is measured horizontally. FIGURE 16A FIGURE 16B FIGURE 16C FIGURE 16D FIGURE 16E FIGURE 16 (1 OF 2) OBSTRUCTIONS TO WATER DISTRIBUTION — BB, SD AND HIP TFP610 Page 15 of 28 When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and 36 in. (914,4 mm) or greater clearance above the space is present, additional sprinklers are not needed. When a BB Sprinkler is 36 in. (914,4 mm) or greater above the space, and a 12 to 36 in. (304,8 to 914,4 mm) clear-ance above the space is present, Intermediate Level Stan- dard Sprinklers are to be installed to protect the obstructed area. Otherwise, the area beyond the mechanical space is to be protected as shown by installing Standard Spray Sprinklers as necessary or by constructing a shear wall and installing SD Sprinklers. Note: In all cases, the mechanical space or similar compartmented space is to be sprinklered per its respective hazard rating and sep- arated from the light hazard attic space by construction that has a fire resistance rating based on the water supply duration required for the hazard rating within the mechanical space or similar com- partmented space. When a BB Sprinkler can be installed below or between stiffeners and maintain the 16 to 22 in. (404,4 to 558,8 mm) distance to the peak, as well as the “V” and “H” clearance to the stiffeners, additional sprinklers are not required. When the stiffeners are located a minimum of 12 in. (304,8 mm) below the BB Sprinkler, the stiffeners are 7-1/2 in. (190,5 mm) maximum in width, the openings are 12 in. (304,8 mm) minimum, and there is 70% minimum open area, additional sprinklers are not required. Otherwise, additional sprinklers are required as shown. FIGURE 16F AREA OUTSIDE OF MECHANICAL SPACE OR SIMILAR COMPARTMENTAL SPACE FIGURE 16G PIGGYBACK TRUSSES -OR- 36" (914,4 mm) OR GREATER 4" (101,6 mm) TO 6" (152,4 mm) TYP. ADD SHEAR WALL AND PROTECT WITH SINGLE DIRECTIONAL SPRINKLERS MECHANICAL SPACE PROTECT WITH STANDARD SPRAY SPRINKLERS MECHANICAL SPACE LESS THAN 12" (304,8 mm) 12" (304,8 mm) TO 36" (914,4 mm) BB ATTIC SPRINKLER 4" (101,6 mm) TO 6" (152,4 mm) TYP. BB ATTIC SPRINKLER 36" (914,4 mm) OR GREATER NO ADDITIONAL SPRINKLERS REQUIRED BB ATTIC SPRINKLER 36" (914,4 mm) OR GREATER STANDARD SPRAY SPRINKLER STANDARD SPRAY SPRINKLER STANDARD SPRAY SPRINKLER MECHANICAL SPACE INTERMEDIATE LEVEL STANDARD SPRAY SPRINKLER BB ATTIC SPRINKLER 22" (558,8 mm) MAX. 16" (406,4 mm) MIN. BB ATTIC SPRINKLER 70% MINIMUM OPEN AREA 7-1/2" MAX. (190,5 mm) 12" MIN. (304,8 mm) LESS THAN 70% OPEN AREA, OPENINGS LESS THAN 12" (304,8 mm) WIDE, OR STIFFENERS GREATER THAN 7-1/2" (190,5 mm) WIDE SINGLE DIRECTIONAL SPRINKLER INSTALL DRAFT CURTAIN OR FULL WALL INTERMEDIATE LEVEL STANDARD SPRINKLER SINGLE DIRECTIONAL SPRINKLER BB ATTIC SPRINKLER OR STANDARD SPRAY SPRINKLER STIFFENERS STIFFENERS 12" MIN. (304,8 mm)3-1/2" MIN. (88,9 mm) AIR SPACE "V" BOTTOM PLANE OF STIFFENERS TOP OF DEFLECTOR "V" "H" BB1 0" V + 15" 0" H BB2 V + 10" 0" BB3 V + 8"V > 0" 0" V FIGURE 16 (2 OF 2) OBSTRUCTIONS TO WATER DISTRIBUTION — BB, SD, AND HIP(Obstructions to Water Distribution for Attic Sprinklers Differ from Standard Sprinklers as Shown) TFP610 Page 16 of 28 NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION 12" MIN. (304,8 mm) AP SPRIG AP SPRINKLER 12" MIN. (304,8 mm) OPTION A 6" MIN. (152,4 mm) AP SPRIG AP SPRINKLER 6" MIN. (152,4 mm) CEILING JOIST 3'-0" MAX. (0,9 m) JOIST 12" MIN. (304,8 mm) OPTION B 12" MIN. (304,8 mm) 10'-0" MAX. (3,0 m) CEILING OPTION B CEILING JOIST OPTION A CEILING JOIST NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION NON-COMBUSTIBLE INSULATION FOR FIRE PROTECTION OF CPVC PIPE, NOT FREEZE PROTECTION AP SPRIG AP SPRINKLER 6" MIN. (152,4 mm) AP SPRIG AP SPRINKLER 6" MIN. (152,4 mm) 3'-0" MAX. (0,9 m) 10'-0" MAX. (3,0 m) Horizontal Distance (A) Minimum Vertical Distance Below Deector (B) 6" (152,4 mm) 3" (76,2 mm) >6" to 9" (>152,4 mm to 228,6 mm) 4" (101,6 mm) >9" to 12" (>228,6 mm to 304,8 mm) 6" (88,9 mm) >12" to 15" (>304,8 mm to 381,0 mm) 8" (203,2 mm) >15" to 18" (>381,0 mm to 457,2 mm) 9-1/2" (241,3 mm) >18" to 24" (>457,2 mm to 609,6 mm) 12-1/2" (317,5 mm) >24" to 30" (>609,6 mm to 762,0 mm) 15-1/2" (393,7 mm) >30" (>762,0 mm) 18" (457,2 mm) A 3C or 3D A 24" (609,6 mm) (Use dimension C or D, whichever is greater) AP SPRINKLERC D A OBSTRUCTION A AP SPRINKLER AP SPRINKLER A B OBSTRUCTION ELEVATION VIEW PLAN VIEW C D OBSTRUCTION FIGURE 17A EXPOSED CPVC WITH AP SPRINKLERS AND BRANCHLINE OVER JOISTS FIGURE 17B EXPOSED CPVC WITH AP SPRINKLERS AND BRANCHLINE WITHIN JOISTS FIGURE 18 OBSTRUCTIONS TO WATER DISTRIBUTION FOR MODEL AP SPRINKLERS TFP610 Page 17 of 28 HYDRAULIC CALCULATIONS Attic sprinklers must be calculated in conformance with these guidelines. In all cases, the design area shall include the most hydraulically demanding sprinklers. More than one set of calculations may be required to prove different situations. For individual areas requiring more than four AP Sprinklers, the maximum area of attic protected by AP Sprinklers is limited to 3000 ft² (279 m²) in any single area. Areas must be separated by a minimum of 15 ft (4,6 m) by an area protected by BB, SD,or HIP Sprinklers, in order to be considered separate areas. The hydraulic calculations have been divided into three parts as follows: • FIGURE 20-A: “Attics Protected Entirely By BB, SD, and HIP Attic Sprinklers”. 20-A-1 (Page 18) BB Sprinklers 20-A-2 (Page 18) BB and HIP Sprinklers20-A-3 (Page 19) BB and SD Sprinklers 20-A-4 (Page 19) SD Sprinklers20-A-5 (Page 19) SD and HIP Sprinklers 20-A-6 (Page 19) HIP Sprinklers • FIGURE 20-B: “Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And AP Sprinklers”. 20-B-1 (Page 20) SD Sprinklers and AP Sprinklers At The Ridge 20-B-2 (Page 20) BB Sprinklers and AP Sprinklers At The Eaves or Beyond An Obstruction 20-B-3 (Page 21) BB Sprinklers and AP Sprinklers At The Hip 20-B-4 (Page 21) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and AP Sprinklers At The Hip 20-B-5 (Page 22) BB, SD, or HIP Sprinklers and AP Sprinklers in a Dormer, at a Cross, or at an Ell 20-B-6 (Page 22) BB,SD, or HIP Sprinklers and AP Sprinklers Separated By Compartmentalization • FIGURE 20-C: “Attics Protected With A Mixture Of BB. SD, and HIP Attic Sprinklers And Standard Spray Sprinklers”. 20-C-1 (Page 23) SD Sprinklers and Standard Spray Sprinklers At The Ridge 20-C-2 (Page 23) BB Sprinklers and Standard Spray Sprinklers At The Eaves or Beyond An Obstruction20-C-3 (Page 24) BB Sprinklers and Standard Spray Sprinklers At The Hip 20-C-4 (Page 25) BB Sprinklers, SD Sprinklers, HIP Sprinklers, and Standard Spray Sprinklers At The Hip20-C-5 (Page 26) BB, SD, or HIP Sprinklers and Standard Spray Sprinklers in a Dormer, at a Cross, or at an Ell 20-C-6 (Page 26) BB, SD, or HIP Sprinklers and Standard Sprinklers Separated By Compartmentalization B A A B A VERTICAL RISER VERTICAL RISER BRANCHLINE VERTICAL SPRIG ARMOVER SPRIG ANGLE SPRIG ARMOVER DIRECT MOUNT BRANCHLINE A = 6" (150 mm) MAX. B = 12" (300 mm) MAX. MODEL BB BACK TO BACK MODEL SD SINGLE DIRECTIONAL MODEL HIP MODEL AP OR STANDARD SPRAY FIGURE 19 FIGURE 20 HYDRAULIC CALCULATIONS TFP610 Page 18 of 28 RIDGE DRY SYSTEM SHOWN RIDGE DRY SYSTEM SHOWN RIDGE DRY SYSTEM SHOWNHIP HIPVALLEYFIGURE 20-A-1. BB SPRINKLERS • Wet Systems: Calculate the most demanding five sprinklers. • Dry Systems: Calculate the most demanding seven sprinklers. See the adjacent figure. FIGURE 20-A-2. BB AND HIP SPRINKLERS • Wet Systems: Calculate the most demanding five sprinklers. • Dry Systems: Calculate the most demanding seven sprinklers. Then calculate the most demanding contiguous nine sprinklers with a maximum of seven to be BB Sprin- klers. See the adjacent figures. Use the most demanding calculation. TFP610 Page 19 of 28 DRY SYSTEM SHOWN RIDGE OBSTRUCTION DRY SYSTEM SHOWN RIDGE WALL OR DRAFT CURTAIN AT RIDGE HIPDRY SYSTEM SHOWN RIDGE WALL OR DRAFT CURTAIN AT RIDGE WET SYSTEM SHOWNHIPHIPHIPHIPFIGURE 20-A-3. BB AND SD SPRINKLERS • Wet Systems: Calculate the most demanding five BB Sprinklers plus two SD Sprinklers. • Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two SD Sprinklers. See the adjacent figure. FIGURE 20-A-4. SD SPRIN- KLERS • Wet Systems: Calculate the most demanding five SD Sprinklers. • Dry Systems: Calculate the most demanding nine SD Sprinklers. See the adjacent figure. FIGURE 20-A-5. SD AND HIP SPRINKLERS • Wet Systems: Calculate the most demanding five sprinklers. • Dry Systems: Calculate the most demanding nine sprinklers with a maximum of seven to be SD Sprinklers. See the adjacent figure. FIGURE 20-A-6. HIP SPRIN- KLERS • Wet Systems: Calculate the most demanding five sprinklers. See the adjacent figure. • Dry Systems: Calculate the most demanding nine sprinklers. TFP610 Page 20 of 28 DRY SYSTEM SHOWN WALLS OR DRAFT CURTAINS RIDGE DRY SYSTEM SHOWN RIDGE DRY SYSTEM SHOWN OBSTRUCTION RIDGE DRY SYSTEM SHOWN FIGURE 20-B-1. SD SPRINKLERS AND AP SPRINKLERS AT THE RIDGE • Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. • Dry Systems: Calculate the most demanding nine SD Sprinklers, and then calculate the most demanding seven AP Sprinklers. Use the most demanding calcula- tion. See the adjacent figure. FIGURE 20-B-2. BB OR SD SPRINKLERS AND AP SPRIN- KLERS AT THE EAVES OR BE- YOND AN OBSTRUCTION • Wet Systems: Calculate the most demanding five BB or SD Sprinklers plus up to two most demanding AP Sprinklers. • Dry Systems: Calculate the most demanding seven BB or SD Sprinklers plus up to two most demanding AP Sprinklers. See the adjacent figures. TFP610 Page 21 of 28 AREA 2 WITH AP SPRINKLERS AREA 1 WITH BB SPRINKLERS AREA 3 WITH AP SPRINKLERS MINIMUM SEPARATION 15'-0" (4,6 m) STAGGERED SPACING WHEN MORE THAN ONE ROW DRY SYSTEM SHOWN RIDGE WALL OR DRAFT CURTAIN MINIMUM SEPARATION 15'-0" (4,6 m) AREA 1 WITH BB & SD SPRINKLERS AREA 2 WITH AP SPRINKLERS AREA 3 WITH AP SPRINKLERS FIGURE 20-B-3. BB SPRINKLERS AND AP SPRIN- KLERS AT THE HIP Where the total number of AP Sprinklers at the hip is greater than four: • Wet Systems: Calculate the most demanding five BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft ² (137 m ²) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. • Dry Systems: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1950 ft ² (181 m ²) having AP Sprin- klers, for example, Area 2 in the adjacent upper figure. Use the most demanding calculation. FIGURE 20-B-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND AP SPRINKLERS AT THE HIP Where the total number of AP Sprinklers at the hip is four or less: • Wet Systems: Calculate the most de- manding five BB, SD, or HIP Sprin- klers plus up to two most demanding AP Sprinklers. • Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprinklers plus up to two most demanding AP Sprinklers (Of the nine BB, SD, or HIP Sprinklers, calculate up to a maximum of seven BB Sprinklers, see adjacent upper figure). Where the total number of AP Sprinklers at the hip is greater than four: • Wet Systems: Calculate up to the most demanding five BB, SD, or HIP Sprinklers plus the two most demanding AP Sprinklers. Then calculate the most demanding area up to 1500 ft² (137 m ²) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. • Dry Systems: Calculate up to the most demanding nine BB, SD, or HIP Sprinklers, plus the two most demanding AP Sprinklers, and then calculate the most demanding area up to 1950 ft² (181 m ²) having AP Sprinklers, for example, Area 2. Use the most demanding calculation. TFP610 Page 22 of 28 AP SPRINKLERS (4 OR LESS) AP SPRINKLERS (4 OR LESS) AP SPRINKLERS (4 OR LESS) AP SPRINKLERS (4 OR LESS) RIDGE WALL RIDGE DORMER BUILT ON TOP OF ROOF OR SHEATHING FIGURE 20-B-5. BB, SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS IN A DORMER, AT A CROSS, AT A HIP, OR AT AN ELL Where the quantity of AP Sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four AP Sprinkler crite- ria, calculate the BB, SD, or HIP Sprin- kler demand as described in Part A-1 through A-6 or Part B-1 through B-4, plus up to two of the most demanding AP Sprinklers in the dormer, cross, or ell that is adjacent to the BB, SD, or HIP Sprinklers that are being included in the demand calculation. Where the quantity of AP Sprinklers in any dormer, cross, or ell is greater than four, refer to Figure B- 3. FIGURE 20-B-6. BB,SD, OR HIP SPRINKLERS AND AP SPRIN- KLERS SEPARATED BY COMPARTMENTALIZATION • Wet Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-1 through A-6 or Part B-1 through B-4. Then calculate the most demanding area up to 1500 ft ² (137 m ²) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. • Dry Systems: Calculate the BB, SD, or HIP Sprinkler demand as described in Part A-1 through A-6 or Part B-1 through B-4. Then calculate the most demanding area up to 1950 ft ² (181 m ²) having AP Sprin- klers. Use the most demanding calculation. See the adjacent figure. TFP610 Page 23 of 28 DRY SYSTEM SHOWN WALLS OR DRAFT CURTAINS RIDGE DRY SYSTEM SHOWN OBSTRUCTION RIDGE FIGURE 20-C-1. SD SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE RIDGE • Wet Systems: Calculate the most demanding five sprinklers of one type. Use the most demanding calculation. • Dry Systems: Calculate the most demanding nine SD Sprinklers. Then calculate the most demanding seven Standard Spray Sprinklers. Use the most demanding calculation. See the adjacent figures. FIGURE 20-C-2. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS BEYOND AN OBSTRUCTION • Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. • Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. See the adjacent figures. DRY SYSTEM SHOWN RIDGE 2535 SQ. FT. (235,5 SQ. METERS) SECOND CALCULATION DRY SYSTEM SHOWN RIDGE FIRST CALCULATION NOTE: Dry Pipe = 1500 SQ. FT. (NFPA Light Hazard) x 1.3 x 1.3 = 2535 SQ. FT. FIGURE 20-C-3. BB SPRINKLERS AND STANDARD SPRAY SPRIN- KLERS AT THE HIP Where the total number of standard spray sprinklers at the hip is greater than four: • Wet Systems: Calculate the most demanding five BB Sprinklers plus up to two most demanding Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinkler types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. • Dry Systems: Calculate the most demanding seven BB Sprinklers plus up to two most demanding Stand Spray Sprinklers. Then calculate the most demanding design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. Use the most demanding calculation. TFP610 Page 24 of 28 DRY SYSTEM SHOWN DRY SYSTEM SHOWN RIDGE WALL OR DRAFT CURTAIN RIDGE 2535 SQ. FT. (235,5 SQ. METERS) DRY SYSTEM SHOWN RIDGE FIRST CALCULATION SECOND CALCULATION NOTE: Dry Pipe = 1500 SQ. FT. (NFPA Light Hazard) x 1.3 x 1.3 = 2535 SQ. FT. FIGURE 20-C-4. BB SPRINKLERS, SD SPRINKLERS, HIP SPRIN- KLERS, AND STANDARD SPRAY SPRINKLERS AT THE HIP Where the total number of Standard Spray Sprinklers at the hip is four or less: • Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- klers plus up to two most demanding Standard Spray Sprinklers. • Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers . Of the nine BB,SD, or HIP Sprinklers, calcu- late up to a maximum of seven BB Sprinklers. See the adjacent upper figure. Where the total number of standard spray sprinklers at the hip is greater than four: • Wet Systems: Calculate the most demanding five BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Then calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, area reduction for quick response and 30% increase for sloped ceilings. Use the most demanding calculation. • Dry Systems: Calculate the most demanding nine BB, SD, or HIP Sprin- klers plus up to two most demand- ing Standard Spray Sprinklers. Of the nine BB,SD, or HIP Sprinklers, cal- culate up to a maximum of seven BB Sprinklers. See the adjacent upper fig- ure. Then calculate the most demand- ing design area, including all sprinkler types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. Include all sprinkler types within this area. See the adjacent figure. TFP610 Page 25 of 28 STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) STANDARD SPRAY SPRINKLERS (4 OR LESS) RIDGE WALL RIDGE DORMER BUILT ON TOP OF ROOF OR SHEATHING FIGURE 20-C-6. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRINKLERS SEPARATED BY COMPARTMENTALIZATION Calculate the Attic Sprinkler demand as described in Part A-1 through A-6 or Part C-1 through C-4, and then calcu- late the Standard Spray Sprinklers per NFPA 13. Use the most demanding cal- culation. See the adjacent figure. FIGURE 20-C-5. BB, SD, OR HIP SPRINKLERS AND STANDARD SPRAY SPRINKLERS IN A DOR- MER, AT A CROSS, AT A HIP, OR AT AN ELL Where the quantity of standard spray sprinklers in each dormer, cross, or ell is four or less (see the adjacent figure) and all of the dormers, crosses and ells meet the maximum four standard sprin- kler criteria, calculate the Attic Sprin- kler demand as described in Part A-1 through A-6 or Part B-1 through B-4, plus up to two of the most demanding standard spray sprinklers in the dormer, cross, or ell that is adjacent to the Attic Sprinklers that are being included in the demand calculation. Where the quantity of standard spray sprinklers in any dormer, cross, or ell is greater than four, refer to Figure C-3. TFP610 Page 26 of 28 100' (25,4 m) 60' (15,2 m)20' (5,1 m) 20' (5,1 m) 40' (10,2 m) 20' (5,1 m)60' (15,2 m) 100' (25,4 m) 20' (5,1 m) 12 12 Calculation 1 Calculation 240' (10,2 m) 40' (10,2 m) 20' (5,1 m) 100' (25,4 m) 60' (15,2 m) Calculation 2 20' (5,1 m) 40' (10,2 m) 20' (5,1 m) 100' (25,4 m) 60' (15,2 m) 12 12 Calculation 1 20' (5,1 m) MODEL AP SPRINKLERS WET PIPE SYSTEM (Refer to Figure 20-B-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1500 ft² having AP Sprinklers. In this case the design area will be 800 ft² (40 ft × 20 ft) Use the most demanding calculation to prove the adequacy of the water supply. Where AP Sprinklers are utilized, CPVC pipe may be used to supply the AP Sprinklers, as well as the ceiling sprin- klers below the AP Sprinklers. For more information, see Page 6. STANDARD SPRAY SPRINKLERS WET PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding five BB Sprinklers plus the two most demand- ing Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, per NFPA 13 (i.e., area reduction for quick response and 30% increase for sloped ceilings). In this case the theoretical design area is 1463 ft² (1500 ft² × 0.75* × 1.3). The actual design area, however, will need to be 1520 ft² to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. Where Standard Sprinklers are utilized, CPVC pipe CANNOT be used to supply the Standard Spray Sprinklers or the ceiling sprinklers below the Standard Spray Sprinklers. * A 25% reduction for 20 ft ceiling. FIGURE 21 EXAMPLE FOR A WET PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP610 Page 27 of 28 100' (25,4 m) 60' (15,2 m) 40' (10,2 m) 20' (5,1 m) Calculation 2 20' (5,1 m) 60' (15,2 m) 100' (25,4 m) 40' (10,2 m) 20' (5,1 m) Calculation 1 20' (5,1 m) 12 12 40' (10,2 m) 20' (5,1 m) 40' (10,2 m) 20' (5,1 m) 12 12 Calculation 2 100' (25,4 m) 60' (15,2 m)20' (5,1 m) Calculation 1 100' (25,4 m) 60' (15,2 m)20' (5,1 m) MODEL AP SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-B-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding AP Sprinklers. Calculation 2: Calculate the most demanding area up to 1950 ft² having AP Sprinklers. In this case the design area will be 800 ft² (40 ft x 20 ft) Use the most demanding calculation to prove the adequacy of the water supply. STANDARD SPRAY SPRINKLERS DRY PIPE SYSTEM (Ref. Figure 20-C-3) Calculation 1: Calculate the most demanding seven BB Sprinklers plus the two most demanding Standard Spray Sprinklers. Calculation 2: Calculate the most demanding remote design area, including all sprinklers types, as per NFPA 13. That is, 30% increase for sloped ceilings and 30% increase for dry systems. In this case the theoretical design area will be 2535 ft² (1500 ft² × 1.3 × 1.3). The actual design area, however, will need to be 2720 ft² to pick up the entire coverage area of the last BB Sprinkler. Use the most demanding calculation to prove the adequacy of the water supply. FIGURE 22 EXAMPLE FOR A DRY PIPE SYSTEM HYDRAULIC DESIGN AREA COMPARISON OF MODEL AP SPRINKLERS VERSES STANDARD SPRAY SPRINKLERS WHERE MODEL AP OR STANDARD SPRAY SPRINKLERS ARE USED IN HIP AREAS OUTSIDE THE SCOPE OF APPLICATION FOR MODEL BB BACK-TO-BACK SPRINKLERS TFP610 Page 28 of 28 NATIONAL FIRE PROTECTION ASSOCIATION and NFPA are registered trademarks of National Fire Protection Association; TEFLON is a trademark of The Chemours Company FC, LLC; BLAZEMASTER is a registered trademark of The Lubrizol Corporation 1400 Pennbrook Parkway, Lansdale, PA 19446 | Telephone +1-215-362-0700 © 2021 Johnson Controls. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 1 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com 1. DESCRIPTION Viking QR COIN® Sprinklers are quick response specific application sprinklers for combustible interstitial (concealed) spaces (i.e., between floors, as well as low pitch attics that meet the criteria shown in the figures in this data page). These upright sprinklers are designed for use in specific light hazard combustible, as well as non-combustible, concealed spaces requiring sprinkler protection. The orifice design of the Viking QR COIN® Sprinkler, with a nominal K-factor of 5.6 (80 metric*), allows efficient use of available water supplies for hydraulically designed fire protection systems. The glass bulb operating element and special deflector combine speed of operation and area of coverage to meet the crucial fire protection requirement for shallow space combustible concealed spaces. The Electroless Nickel PTFE (ENT) coating has been investigated for installation in corrosive environments and is listed/approved as indicated in the Approval Charts. FEATURES • In some cases COIN® Sprinklers can allow the use of CPVC piping within the concealed spaces of applications requiring sprinkler protection in open truss construction of both wood and steel trusses (see Figure 3) and solid wood or composite wood joist with upper deck filled with non-combustible insulation (see Figure 5).• COIN® Sprinklers can also be installed with steel pipe in protected areas constructed of solid wood joists (see Figure 7), and solid wood or composite wood joist with upper deck filled with non-combustible insulation (see Figure 8), and in unobstructed open truss construction of both wood and steel trusses (see Figures 9 and 10) as well as obstructed wood truss construction (see Figure 11). • When using steel pipe, COIN® Sprinklers can be applied as a dry system using air or gas as a supervisory medium (see Figures 7–11).• In certain scenarios, draft curtains are NOT required when sprinkler spacing meets either of the following criteria (also refer to Design Criteria): -14' X 14' (4,3 m X 4,3 m) for solid wood joists or trusses on edge -16' X 16' (4,9 m X 4,9 m) for truss construction on face (not on edge)For examples of trusses on face or edge see Figures 13A and 13B. 2. LISTINGS AND APPROVALS cULus Listed: Category VNIV Refer to the Approval Chart and Design Criteria in this technical data sheet for cULus Listing requirements that must be followed. The COIN® Sprinkler has been tested to address the proper application density for shallow concealed combustible space fire protection when installed in accordance with this technical data page. The COIN® Sprinkler must be installed in the upright position as specified in the appropriate application described in Figures 3–12. The clearance from the sprinkler deflector to the roof is critical to operation of the sprinkler (refer to Figures 3–12). The clearances from pipe to lower ceiling for CPVC pipe is critical for protection of CPVC pipe. For open truss and joist spaces, the maximum detection area is important for proper installation. In certain installations, draft curtains or heat collection baffles or solid walls are required using wood or other product that will not allow heat to escape. In these installations, the maximum detection space shall be limited to 1000 ft2 (93 m2) or 2000 ft2 (185 m2) for solid wood joists. The draft curtain is required to protrude down from the top deck surface as specified herein. Additionally, draft curtains are not required and the maximum detection space shall be unlimited for open truss construction with the top chord member on their face (not on edge) when sprinkler spacing is up to 16' X 16' (4,9 m X 4,9 m) and for solid wood joists or trusses on edge when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m). In these cases, draft curtains are not required. COIN® Sprinkler VK950 5.6K (80 metric) Replaces Form No. F_081216 20.2 (Added new Figure 6 and 12.) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 2 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com 3. TECHNICAL DATA Specifications:Minimum Operating Pressure: Refer to Design Criteria in this technical data sheet. Rated to 175 psi (12 bar) water working pressureFactory tested hydrostatically to 500 psi (34.5 bar)Thread size: 1/2” (15 mm) NPTNominal K-Factor: 5.6 U.S. (80 metric*) * Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. Glass-bulb fluid temperature rated to -65 °F (-55 °C)Overall Length: 2-1/4” (57 mm) Material Standards:Frame Casting: Brass UNS-C84400 or QM BrassDeflector: Phosphor Bronze UNS-C51000Bulb: Glass, nominal 3 mm diameterBelleville Spring Sealing Assembly: Nickel Alloy, coated on both sides with PTFE TapeScrew: Brass UNS-C36000Pip Cap and Insert Assembly: Copper UNS-C11000 and Stainless Steel UNS-S30400 Ordering Information: (Refer to Table 1.) 4. INSTALLATIONRefer to appropriate NFPA Installation Standards. 5. OPERATION During a fire condition, the heat sensitive liquid in the glass bulb expands, causing the glass to shatter, releasing the pip cap and sealing spring assembly. Water flowing through the sprinkler orifice strikes the deflector, forming a uniform spray pattern to extinguish or control the fire, and protect the piping in the interstitial space. 6. INSPECTIONS, TESTS AND MAINTENANCERefer to NFPA 25 for Inspection, Testing and Maintenance requirements. 7. AVAILABILITY The Viking QR COIN® Sprinkler is available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEEFor details of warranty, refer to Viking’s current list price schedule or contact Viking directly. Figure 1: Standard Sprinkler Wrench 21475M/B Wrench Flat Protective clip Figure 2: Sprinkler Dimensions 1/2” NPT (15mm) 2-1/4” (57 mm) 7/16” (11 mm) Nominal pipe engagement 1-3/4” (45 mm) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 3 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Approval Chart COIN® Specific Application QR Upright Sprinkler VK950 For Light Hazard Occupancies Only Part Number1 SIN Maximum Pressure Thread Size Nominal K-Factor Overall Length Listings and Approvals3 (Refer also to Design Criteria.) NPT BSPT U.S.metric2 Inches mm cULus4 20757 VK950 175 psi 1/2”15 mm 5.6 80 2-1/4 57 A1 Approved Temperature Rating A - 200 °F (93 °C) Approved Finish 1 - Brass, ENT6 Footnotes 1 Also refer to Viking’s current price schedule. 2 Metric K-factor measurement shown is when pressure is measured in Bar. When pressure is measured in kPa, divide the metric K-factor shown by 10.0. 3 This table shows the listings and approvals available at the time of printing. Other approvals may be in process. 4 Listed by Underwriters Laboratories Inc. for use in the U.S. and Canada. 5 Meets New York City requirements, effective July 1, 2008. 6 cULus Listed as corrosion resistant. TABLE 1: ORDERING INFORMATION Instructions: Using the sprinkler base part number, (1) add the suffix for the desired Finish (2) add the suffix for the desired Temperature Rating. Sprinkler Base Part No. Size 1: Finishes 2: Temperature Ratings4 Classification: Intermediate NPT Inch Description Suffix Nominal Rating Bulb Color Max. Ambient Ceiling Temperature1 Suffix 20757 1/2 Brass A 200 °F (93 °C)Green 150 °F (65 °C)E ENT 2,3 JN Corrosion-Resistant Coating: ENT2,3 Example: 20757AE = VK950 with Brass Finish and 200 °F (93 °C) Nominal temperature rating. This sprinkler is to be installed into an area with a maximum ambient temperature of 150 °F (65 °C) meaning if the area will experience temperatures above the maximum ambient rating, you shall use a higher temperature-rated sprinkler. Accessories Sprinkler Wrenches (see Figure 1): A. Standard Wrench: Part No. 21475MB. Sprinkler Cabinet: A. Up to 6 sprinklers: Part number 01724A. B. 6-12 Sprinklers: Part number 01725A. Footnotes 1. Based on NFPA 13, NFPA 13R, and NFPA 13D. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. 2. cULus Listed as corrosion resistant. 3. The corrosion resistant coatings have passed the standard corrosion test required by the approving agencies indicated in the Approval Chart. These tests cannot and do not represent all possible corrosive environments. Prior to installation, verify through the end-user that the coatings are compatible with or suitable for the proposed environment. For automatic sprinklers, the ENT coating is applied to all exposed exterior surfaces, including the waterway. For ENT coated sprinklers, the Belleville spring is exposed. 4. The sprinkler temperature rating is stamped on the deflector. COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 4 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com DESIGN CRITERIA - CPVC PIPE (See Figures 3-6) (Also refer to the Approval Chart on page 3.) The Viking COIN® Sprinkler MUST be installed in the upright position. APPLICATION For installation in horizontal interstitial concealed spaces constructed of engineered open wood trusses, open bar joist, and non-combustible insulation completely filling the upper joist for solid or composite wood joist construction having roof pitch of up to 2/12. NOTE: In order to be considered “non- combustible insulation filled solid wood or composite wood joist construction”, the insulation (including insulation provided with a combustible vapor barrier), must completely fill the pockets between the joists to the bottom of the joists, and the insulation must be secured in place with metal wire netting. The metal wire netting is intended to hold the insulation in place should the insulation become wetted by the operation of the COIN® Sprinklers in the event of a fire. A. Concealed Space Limitations The total concealed space is not limited; however, the following must be observed: • Draft curtains (heat collection baffle) or full height walls must be provided to limit the maximum area in order to confine heat of localized detection area to 1000 ft2 (93 m2) or, for solid wood joists and open truss construction with the top chord members on face (not on edge) to 2000 ft2 (185 m2). • Insulated top chord spaces (on edge) confine heat localized detection area to 2000 ft2, non-insulated top chord spaces (on edge) confine heat local-ized area to 1000 ft2 (93 m2). • The draft curtain must be at least 1/3 the depth of the concealed space or 8” (200 mm), whichever is greater, for open truss construction, open bar joist, and non-combustible insulation filled solid or composite wood joist construction. • The draft curtain must be constructed of material that will not allow heat to escape through or above it; this may be ¼” (6 mm) thick plywood. • Draft curtains are NOT required when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m) for solid wood joists or trusses on edge; see Figure 13B. • Draft curtains are NOT required when sprinkler spacing is up to 16' X 16' (4,9 m X 4,9 m) for truss construction on face (not on edge); see Figure 13A. • Draft curtains are NOT required when using wood truss construction with chords on face and non-combustible insulation is provided to the bottom of the trusses (Figure 12). B. Concealed Space Height Open Wood Truss and Open Steel Joist Construction (Figure 3): • Maximum height of the space: 60” (1.5 m). • Minimum height: 6” (150 mm) • Maximum roof pitch: 2/12 (9°) Where applied to pitch roof and flat ceiling, maintain specified clearances from sprinkler deflector to truss and maximum height of pipe run to ceiling or non-combustible ceiling insulation in all locations. NOTE: The sprinkler deflector shall be installed parallel with the roof plane. Solid wood or composite wood joist with non-combustible filled insulation only (Figure 5): • Maximum depth of concealed space is 60” (1500 mm) from bottom of upper deck joist to top of ceiling joist. • Minimum depth is 6” (152 mm) from bottom of upper deck joist to top of ceiling joist or non-combustible ceiling insulation. C. System Type • Light Hazard, Wet Pipe System D. Minimum Density • 0.10 gpm/ft2 (4.1 mm/min). E. Spacing of COIN® Sprinklers • Minimum Spacing: 6’-0”(1.8 m) • Maximum Spacing: 16’-0” (4.9 m) NOTE: Minimum spacing does not include additional sprinklers required for obstructions for use of CPVC pipe that includes offsets. F. Maximum Area of Coverage • 256 ft2 (24 m2) G. Minimum Operating Pressure • 7.0 PSI (0.5 bar) H. COIN® Sprinkler Deflector Position The COIN® Sprinkler shall be installed in the upright position. The frame arms must be installed parallel with the pipe. • 1-1/2” to 4” (40 - 100 mm) below upper deck for Open Wood Truss and Open Steel Open Joist Construction Using CPVC Pipe (see Figure 3). • 1-1/2” to 4” (40 - 100 mm) below non-combustible insulation-filled upper deck for Open Wood Truss and Open Steel Open Joist Construction with Using CPVC Pipe (see Figure 4). • 1-1/2” to 4” (40 - 100 mm) below non-combustible insulation-filled solid wood joists or composite wood joists (see Figure 5). (continues on page 5.) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 5 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com DESIGN CRITERIA - CPVC PIPE (See Figures 3-6) (Also refer to the Approval Chart) (continued from page 4.) I. Remote Area For wet pipe systems, 1. The remote area for open wood truss construction or open bar joist construction with the top chord members on face (not on edge) is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 16' X 16' (4,9 m X 4,9 m). The remote area for this application is the same as above. 2. The remote area for solid wood joists is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m). The remote area for this application is the same as above. 3. The remote area for open wood truss construction with the top chord members on edge is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m) The remote area for this application is the same as above. 4. The remote area for composite wood joists is 1000 ft2 (93 m2). NOTE: This area does not include additional sprinklers for protection of CPVC pipe over obstructions. J. UL Listed CPVC Pipe for use with COINTM Sprinklers The Viking COIN® Sprinkler is UL Listed for use with CPVC pipe products listed for use in concealed spaces with sprinklers**. **Currently listed products are manufactured under the BlazeMaster®, FireLock®, and FlameGuard® trade names. In order to use CPVC products, the bottom of the horizontal run must be no greater than 6” (150 mm) or 1/3 of the total space, whichever is smaller, above the ceiling or non-combustible insulation or 1/3 the depth of the space measured from the top surface of the ceiling to the bottom of the deck above. The CPVC pipe can supply the COIN® Sprinklers and the ceiling sprinklers below. Use all guidelines and installation instructions as specified by the CPVC pipe manufacturers unless specified differently in this data sheet. When using 1” (DN25) pipe or larger, a hanger must be located at the truss nearest the sprig for restraint. If using ¾” (DN20), all sprigs over 12” (300 mm) must include lateral bracing. For use of listed CPVC pipe products in concealed spaces using the COIN® Sprinkler, a minimum lateral distance of 18” (450 mm) must be maintained between the CPVC pipe and the heat sources (e.g. HVAC heat pump units, fan motors, and heat lamps, etc.) Where CPVC pipe must be installed above the maximum distance of 6” (150 mm) or 1/3 of the total space, whichever is smaller, above the ceiling or non-combustible insulation when piping around obstructions, additional COIN® Sprinklers must be installed as shown in Figures 3, 4, and 5 in order to protect the CPVC product. NOTE: Where CPVC piping is installed as a vertical reise to the next floor above, refer to Figure 6 for acceptable options. TABLE 2: PRESSURE VS. COVERAGE MATRIX All values based on 0.1 gpm/ft2 density per sprinkler or 7 psi (0.5 bar) whichever is higher. Ft. (m)PSI (bar) 16 (4.8)7 (0.4)7.2 (0.4)8.2 (0.5)10.3 (0.7)12.8 (0.8)14.1 (0.9)16.9 (1.1)18.4 (1.2)21.6 (1.4) 15 (4.5)7 (0.4)7 (0.4)7.2 (0.4)9.2 (0.6)10.3 (0.7)12.8 (0.8)14.1 (0.9)16.9 (1.1)18.4 (1.2) 14 (4.2)7 (0.4)7 (0.4)7 (0.4)8.2 (0.5)9.2 (0.6)11.5 (0.7)12.8 (0.8)14.1 (0.9)16.9 (1.1) 13 (3.9)7 (0.4)7 (0.4)7 (0.4)7 (0.4)8.2 (0.5)9.2 (0.6)11.5 (0.7)12.8 (0.8)14.1 (0.9) 12 (3.6)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)8.2 (0.5)9.2 (0.6)10.3 (0.7)12.8 (0.8) 11 (3.3)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)8.2 (0.5)9.2 (0.6)10.3 (0.7) 10 (3.0)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7.2 (0.4)8.2 (0.5) 9 (2.7)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7.2 (0.4) 8 (2.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4)7 (0.4) Ft. (m)8 (2.4)9 (2.7)10 (3.0)11 (3.3)12 (3.6)13 (3.9)14 (4.2)15 (4.5)16 (4.8) NOTES: • This table applies to heat collection areas of 2000 ft2 (185 m2) and greater (unlimited). • Design areas between table spacing values need to be rounded up. • This table does not apply to heat collection areas of 1000 ft2 (93 m2). COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 6 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Figure 4: Open Wood Truss and Open Web Steel Joist Construction with Non-Combustible Insulation Filling to Bottom of the Top Cord Using CPVC Pipe (Cross Section View) Figure 3: Open Wood Truss and Open Web Steel Joist Construction Using CPVC Pipe (Cross Section View) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 7 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Figure 5: Solid Wood or Composite Wood Joist Construction with Non-Combustible Insulation Filling Upper Deck Using CPVC Pipe (Cross Section View) Figure 6: CPVC Piping Installed as a Vertical Riser COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 8 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com DESIGN CRITERIA - STEEL PIPE (See Figures 7 – 12) (Also refer to the Approval Chart on page 3) The Viking COIN® Sprinkler MUST be installed in the upright position. APPLICATION For installation in horizontal concealed spaces of solid wood joist construction with a roof pitch of up to 2/12 maximum. The upper joist is constructed of solid wood or composite wood with a maximum depth of 12” (300 mm) and 16” (400 mm) on center minimum spacing. Also, steel pipe may be ap-plied in truss construction and solid filled non-combustible insulation in upper deck and wood or composite joist construction similar to that shown in Figures 3-5 with the exception of extra sprinklers are not required over obstructions. Also, there is no minimum clearance for supply pipe to upper joists.With the COIN® Sprinkler applied using steel pipe, the system may be wet, dry, or preaction type for wood truss or steel construction; solid wood or composite with non-combustible solid fill insulation (see Paragraph J on page 9). NOTE: In order to be considered “non-combustible insulation filled solid wood or composite wood joist construction”, the insulation (including insulation provided with a combustible vapor barrier), must completely fill the pockets between the joists to the bottom of the joists, and the insulation must be secured in place with metal wire netting. The metal wire netting is intended to hold the insulation in place should the insulation become wetted by the operation of the COIN® Sprinklers in the event of a fire. A. Concealed Space Limitations The total concealed space is not limited; however, the following must be observed: • Blocking between joists and upper deck must be constructed of material that will not allow heat to escape through or above the blocking. • The blocking must be constructed to the full depth of the upper joist, and must be constructed using a non-combustible material or a material that is the same as that of the joist construction. A maximum channel space for blocking is 32 ft (10 m) intervals.• Solid wall construction or draft curtains (heat collection baffles) must protrude below the joist a minimum of 6” (150 mm) or 1/3 the space, whichever is greatest, and run laterally with the joist spaced at 31 ft (9.4 m) width maximum to limit the heat detection space to a maximum of 1,000 ft2 (93 m2) or with the truss spaced at 62 ft (19 m) width maximum to limit the heat detection space for open wood truss construction to 2000 ft2 (185 m2) with their top chord members on face (not on edge) and 2000 ft2 (185 m2) for solid wood joists. • Insulated top chord spaces (on edge) confine heat localized detection area to 2000 ft2 (185 m2), non-insulated top chord spaces on edge confine heat localized area to 1,000 ft2 (93 m2). • The draft curtain may be constructed of ¼” (6 mm) thick plywood to prevent heat from escaping beyond.• When non-combustible solid filled insulation is used, the wood blocking and draft curtains are not required for solid wood or composite wood joist construction.• Draft curtains are NOT required when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m) for solid wood joists or trusses on edge for wet systems only; see Figure 13B. • Draft curtains are NOT required when sprinkler spacing is up to 16' X 16' (4,9 m X 4,9 m) for truss construction on face (not on edge) for wet or dry systems; see Figure 13A. • Draft curtains are NOT required when using wood truss construction with chords on face and non-combustible insulation is provided to the bottom of the trusses (Figure 12). B. Concealed Space Height Solid Wood or Composite Wood Joist Construction (See Figures 7 and 8): • Maximum depth or height of concealed space: 60” (1500 mm) from bottom of upper deck joist to top of ceiling joist. • Maximum space from bottom of upper deck to ceiling surface (bottom of joist): 84” (2100 mm). See Figure 7. • Minimum depth or height of concealed space: 6” (150 mm) from bottom of upper deck joist to top of ceiling frame joist. Open Wood Truss or Open Web Steel Joist (See Figure 10): • Maximum height from inside ceiling to inside deck of concealed space: 60” (1500 mm). • Minimum height from bottom of upper chords to top of lower chords: 6” (150 mm) • The top and bottom chord members of these types of wood joists must be on face (not on edge). Obstructed Wood Truss (See Figure 11): • Maximum depth of concealed space: 84” (2100 mm) from bottom of upper deck to top of ceiling. • Minimum depth of concealed space: 6” (150 mm) from bottom of upper chord to top of lower chord. C. System Type • Light hazard, wet pipe system or dry pipe system supervised with air or gas when using steel pipe only. D. Minimum Density • 0.10 gpm/ft2. (4.1 mm/min). E. Spacing of COIN® Sprinklers • Minimum Space Between Sprinklers: 6’-0” (1.8 m) • Maximum Space Between Sprinklers: 16’-0” (4.9 m) F. Maximum Area of Coverage • 256ft2 (24 m2)G. Minimum Operating Pressure • 7.0 PSI (0.5 bar) H. COIN® Sprinkler Deflector Position The COIN® Sprinkler shall be installed in the upright position. The frame arms must be installed parallel with the pipe. • 1-1/2” to 2” (40 - 50 mm) below solid wood joist or top chord of obstructed wood truss construction. See Figures 7 and 11. • 1-1/2” to 4” (40 - 100 mm) below upper deck for unobstructed open wood truss construction or concealed spaces of non-combustible open steel joist construction. See Figures 8 and 9. • 1-1/2” to 4” (40 - 100 mm) below non-combustible insulation-filled solid wood joists or composite wood joists. See Figure 8. (continues on page 9.) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 9 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com DESIGN CRITERIA - STEEL PIPE (See Figures 7–12) (Also refer to the Approval Chart on page 3) (continued from page 8) I. Remote Area For wet pipe systems, 1. The remote area for open wood truss construction or open bar joist construction with the top chord members on face (not on edge) is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 16' X 16' (4,9 m X 4,9 m). The remote area for this application is the same as above. 2. The remote area for solid wood joists is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m). The remote area for this application is the same as above. 3. The remote area for open wood truss construction with the top chord members on edge is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 14' X 14' (4,3 m X 4,3 m) The remote area for this application is the same as above. 4. The remote area for composite wood joists is 1000 ft2 (93 m2). For dry pipe systems, 1. The remote area for open wood truss construction or open bar joist construction with the top chord members on face (not on edge) is 1000 ft2 (93 m2) or 6 sprinklers, whichever is greater. See Table 2. • Draft curtains are NOT required when sprinkler spacing is up to 16' X 16' (4,9 m X 4,9 m). The remote area for this application is the same as above. 2. The remote area for solid wood joists is 2000 ft2 (185 m2) or 15 sprinklers, whichever is greater. See Table 2. 3. The remote area for open wood truss construction with the top chord members on edge is 1000 ft2 (93 m2). 4. The remote area for composite wood joists is 1000 ft2 (93 m2). J. Piping System Steel pipe installed in accordance with NFPA 13 standards may be applied. The steel pipe may be hung from the upper joist or truss using proper supports. The sprinkler deflector must be positioned as indicated in paragraph H above. Extra sprinklers are not required for protection of pipe when offsetting for obstructions. Ceiling sprinklers below the concealed space may be fed from the same piping as the COIN® Sprinklers. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Also refer to Bulletin Form No. F_080614 for general care, installation, and maintenance information. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. Figure 7: Solid Wood Joist Construction (Steel Pipe, Cross Sectional View) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 10 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Figure 8: Solid Wood or Composite Wood Joist Construction with Non-Combustible Insulation Filled Upper Deck (Steel Pipe, Cross Sectional View) Figure 9: Unobstructed Open Wood Truss and Open Steel Bar Joist (Steel Pipe, Cross Sectional View) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 11 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Figure 11: Obstructed Wood Truss Construction (Steel Pipe, Cross Sectional View) Figure 10: Open Wood Truss and Open Web Steel Joist Construction with Non-Combustible Insulation Filling to Bottom of the Top Cord Using Steel Pipe (Cross Section View) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 12 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Figure 12: Wood Truss Construction with Chords on Face and Non-combustible Insulation Provided to the Bottom of the Trusses (CPVC and Steel Pipe, Cross Section View) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 13 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com Figure 13A: Trusses on Face Figure 13B: Trusses on Edge 1-1/2" (38 mm) 1-1/2" (38 mm) On Edge On Face Example of Typical 2x4 Construction Refer to Design Critera Example of Typical 2x4 Construction Refer to Design Critera 3-1/2" (89 mm) 3-1/2" (89 mm) COIN® QUICK RESPONSE UPRIGHT SPRINKLER VK950 (SPECIFIC APPLICATION) TECHNICAL DATA 14 of 14 Form No. F_081216 21.03.06 Rev 20.3 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page: www.vikinggroupinc.com OBSTRUCTION CRITERIA - CPVC and STEEL PIPE APPLIES TO BOTH CPVC AND STEEL PIPE (Also refer to the Approval Chart) X ELEVATION VIEW Lower Deck Upper Deck PLAN VIEW XZ Y Y Z Upper Deck or bottom of non-combustible insulation ELEVATION VIEW X Y Extended Coverage Applications X ≥ 4Y or 4Z X ≤ 36” (900 mm) (Use dimension Y or Z, whichever is greater.) Standard Coverage Applications X ≥ 3Y or 3Z X ≤ 36” (900 mm) (Use dimension Y or Z, whichever is greater.) Figure 14: NFPA 13 Obstruction Criteria NFPA 13 Obstruction Criteria - Standard Coverage ApplicationTable 10.2.7.1.2 NFPA 13 Obstruction Criteria - Extended Coverage ApplicationTable 11.2.5.1.2 Distance from Sprinkler to Side of Obstruction (X) Maximum Allowable Distance of Deflector Above Bottom of Obstruction (Y) < 1’-0”<300 mm 0”0 mm 1’-0” to <1’-6”300 mm to <450 mm 0”0 mm 1’-6” to <2’-0”450 mm to <600 mm 1”25 mm 2’-0” to <2’-6”600 mm to <750 mm 1”25 mm 2’-6” to <3’-0”750 mm to <900 mm 1”75 mm 3’-0” to <3’-6”900 mm to <1.1 m 3”75 mm 3’-6” to <4’-0”1.1 m to <1.2 m 3”75 mm 4’-0” to <4’-6”1.2 m to <1.4 m 5”125 mm 4’-6” to <5’-0”1.4 m to <1.5 m 7”175 mm Distance from Sprinkler to Side of Obstruction (X) Maximum Allowable Distance of Deflector Above Bottom of Obstruction (Y) < 1’-0”<300 mm 0”0 mm 1’-0” to <1’-6”300 mm to <450 mm 21/2”65 mm 1’-6” to <2’-0”450 mm to <600 mm 31/2”90 mm 2’-0” to <2’-6”600 mm to <750 mm 51/2”140 mm 2’-6” to <3’-0”750 mm to <900 mm 71/2”190 mm 3’-0” to <3’-6”900 mm to <1.1 m 91/2”240 mm 3’-6” to <4’-0”1.1 m to <1.2 m 12”300 mm 4’-0” to <4’-6”1.2 m to <1.4 m 14”350 mm 4’-6” to <5’-0”1.4 m to <1.5 m 161/2”45 mm OBSTRUCTIONS• All obstruction criteria for extended coverage sprinklers per NFPA 13 shall apply unless specified differently in this data sheet.• For installations where the VK950 is installed up to a 15’-0” X 15’-0” spacing or less between sprinkler, the obstruction rules for standard coverage sprinklers shall apply. • For installations where the VK950 exceeds 15’-0” X 15’-0” spacing, and up to 16’-0” X 16’-0” spacing, the obstruction rules for extended coverage sprinklers shall apply• See illustrations below. Replaces Form No. F_081216 20.2 (Added new Figure 6 and 12.) SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 1 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. 1. DESCRIPTION - STANDARD RESPONSE, QUICK RESPONSE, EXTENDED COVERAGE, AND DRY SPRINKLERS Viking thermosensitive spray sprinklers consist of a small frame and either a glass bulb or a fusible operating element. Available styles include pendent, flush pendent, concealed pendent, upright, horizontal sidewall, vertical sidewall, or conventional, depending on the particular sprinkler model selected. Viking sprinklers are available with various finishes, temperature ratings, responses, and K-Factors to meet design requirements†. Used in conjunction with one of the corrosion-resistant coatings (for frame style sprinklers), the units provide protection against many corrosive environments. In addition, the special Polyester or Teflon® coatings can be used in decorative applications where colors are desired. † Refer to the sprinkler technical data page for available styles, finishes, temperature ratings, responses, and nominal K-Factors for specific sprinkler models. 2. LISTINGS AND APPROVALS Refer to the Approval Charts on the appropriate sprinkler technical data page(s) and/or approval agency listings. 3. TECHNICAL DATA Specifications: Refer to the appropriate sprinkler technical data sheet. Material Standards: Refer to the appropriate sprinkler technical data sheet. 4. INSTALLATION NOTE: Take care not to over-tighten the sprinkler and/or damage its operating parts! Maximum Torque: 1/2” NPT: 14 ft-lbs. (19.0 N-m) 3/4” NPT: 20 ft-lbs. (27.1 N-m) 1” NPT: 30 ft-lbs. (40.7 N-m) A. Care and Handling (also refer to Bulletin - Care and Handling of Sprinklers, Form No. F_091699.) Sprinklers must be handled with care. They must be stored in a cool, dry place in their original shipping container. Never install sprinklers that have been dropped, damaged, or exposed to temperatures exceeding the maximum ambient temperature al- lowed (refer to the temperature chart on the sprinkler technical data page). Never install any glass-bulb sprinkler if the bulb is cracked or if there is a loss of liquid from the bulb. A small air bubble should be present in the glass bulb. Any sprinkler with a loss of liquid from the glass bulb or damage to the fusible element should be destroyed immediately. (Note: Installing glass bulb sprinklers in direct sunlight (ultraviolet light) may affect the color of the dye used to color code the bulb. This color change does not affect the integrity of the bulb.) Sprinklers must be protected from mechanical damage during storage, transport, handling, and after installation. Sprinklers subject to mechanical damage must be protected with an approved sprinkler guard. Use only sprinklers listed as corrosion resistant when subject to corrosive environments. When installing corrosion-resistant sprin- klers, take care not to damage the corrosion-resistant coating. Use only the special wrench designed for installing coated or recessed Viking sprinklers (any other wrench may damage the unit). Concealed sprinklers must be installed in neutral or negative pressure plenums only! Use care when locating sprinklers near fixtures that can generate heat. Do not install sprinklers where they could be exposed to temperatures exceeding the maximum recommended ambient temperature for the temperature rating used. Wet pipe systems must be provided with adequate heat. Sprinklers supplied from dry systems in areas subject to freezing must be listed dry sprinklers, upright, or horizontal sidewall sprinklers installed so that water is not trapped. For dry systems, pendent sprinklers and sidewall sprinklers installed on return bends are permitted, where the sprinklers, return bend, and branch line piping are in an area maintained at or above 40 °F (4 °C). B. Installation Instructions - Standard Spray Sprinklers Viking sprinklers are manufactured and tested to meet the rigid requirements of approving agencies. They are designed to be installed in accordance with recognized installation standards. Deviation from the standards or any alteration to sprinklers or cover plate assemblies after they leave the factory including, but not limited to: painting, plating, coating, or modification, may render them inoperative and will automatically nullify the approvals and any guarantee made by The Viking Corporation. Replaces Form No. F_080614 Rev 16.1 (Added P65 Warning.) SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 2 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. Before installation, be sure to have the appropriate sprinkler model and style, with the correct K-Factor, temperature rating, and response characteristics. Sprinklers must be installed after the piping is in place to prevent mechanical damage. Keep sprinklers with protective caps or bulb shields contained within the caps or shields during installation and testing, and any time the sprinkler is shipped or handled. 1a. For frame-style sprinklers, install escutcheon (if used), which is designed to thread onto the external threads of the sprinkler. Refer to the appropriate sprinkler data page to determine approved escutcheons for use with specific sprinkler models. 1b. For flush and concealed style sprinklers: Cut the sprinkler nipple so that the ½” or 3/4” (15 mm or 20 mm)* NPT outlet of the reducing coupling is at the desired location, and centered in the opening* in the ceiling or wall. *Size depends on the sprinkler model used. Refer to the sprinkler technical data page. 2. Apply a small amount of pipe-joint compound or tape to the external threads of the sprinkler only, taking care not to allow a build-up of compound in the sprinkler inlet. NOTE: Sprinklers with protective caps or bulb shields must have the caps or shields kept on them when applying pipe-joint compound or tape. Exception: For domed concealed sprinklers, remove the protective cap for installation, and then place it back on the sprinkler temporarily.. 3. Refer to the appropriate sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. DO NOT use the deflector or fusible element to start or thread the sprinkler into a fitting. a. Install the sprinkler onto the piping using the special sprinkler wrench only, taking care not to over-tighten or damage the sprinkler. b. For flush and concealed style sprinklers: the internal diameter of the special sprinkler installation wrench is designed for use with the sprinkler contained in the protective cap. Exception: For domed concealed sprinklers, remove the protective cap for installation, and then place it back on the sprinkler temporarily. Thread the flush or concealed sprinkler into the ½” or 3/4” (15 mm or 20 mm)* NPT outlet of the coupling by turning it clockwise with the special sprinkler wrench. *Thread size depends on the particular sprinkler model used. Refer to the sprinkler technical data page. C. Installation Instructions - Dry Sprinklers WARNING: Viking dry sprinklers are to be installed in the 1” outlet (for dry and preaction systems), or run of malleable, ductile iron, or Nibco CPVC* threaded tee fittings (for wet systems) that meet the dimensional requirements of ANSI B16.3 (Class 150), or cast iron threaded tee fittings that meet the dimensional requirements of ANSI B16.4 (Class 125), even at branch line ends. The threaded end of the dry sprinkler is designed to allow the seal to penetrate and extend into the fitting to a predetermined depth. This prevents condensation from accumulating and freezing over the sprinkler seal. *NOTE: When using CPVC fittings with Viking dry sprinklers, use only new Nibco Model 5012-S-Bl. When selecting other CPVC fittings, contact Viking Technical Services. 1. DO NOT install the dry sprinkler into a threaded elbow, coupling, or any other fitting that could interfere with thread penetration. Such installation would damage the brass seal. 2. DO NOT install dry sprinklers into couplings or fittings that would allow condensation to accumulate above the seal when the sprinkler is located in an area subject to freezing. 3. NEVER try to modify dry sprinklers. They are manufactured for specific “A” or “B” dimensions and cannot be modified. The dry sprinkler must be installed after the piping is in place to prevent mechanical damage. Before installation, be sure to have the correct sprinkler model and style, with the appropriate “A” or “B” dimension(s), temperature rating, orifice size, and response characteristics. Keep sprinklers with protective caps or bulb shields contained within the caps or shields during installation and testing, and any time the sprinkler is shipped or handled. Exception: For concealed and adjustable recessed dry sprinklers, the protective caps and shields are removed for installation. To install the dry sprinkler, refer to the instructions below and the appropriate sprinkler technical data page for illustrated instruc- tions. Dry upright sprinklers must be installed above the piping, in the upright position only. When installing dry upright or plain barrel style vertical sidewall sprinklers on piping located close to the ceiling, it may be necessary to lower the sprinkler into the fitting from above the ceiling. When installing dry upright or plain barrel vertical sidewall sprinklers from below the ceiling, verify that the opening in the ceiling is a minimum 1-1/2” (38.1 mm) in diameter. For dry upright or plain barrel vertical sidewall sprinklers in the upright position: First, install the escutcheon (if used) over the threaded end of the sprinkler barrel. Slide the escutcheon past the external threads. NOTE: When installing the dry upright or plain barrel vertical sidewall sprinkler from above the ceiling, it will be necessary to install the escutcheon after lowering the threaded end of the sprinkler through the ceiling penetration. A. For all dry sprinklers: Apply a small amount of pipe-joint compound or tape to the external threads of the sprinkler barrel only, taking care not to allow a build-up of compound or tape over the brass inlet and seal. NOTE: Sprinklers with protective caps or bulb shields must be contained within the caps or shields before applying pipe-joint compound or tape. SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 3 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. B. Refer to the appropriate sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. C. Install the dry sprinkler on the piping using the special dry sprinkler wrench only, while taking care not to damage the sprinkler. NOTE: Thread the sprinkler into the fitting hand tight, plus 1/2 turn with the dry sprinkler wrench. D. For adjustable standard and adjustable recessed dry pendent and sidewall sprinklers: Escutcheons can be installed after the sprinklers have been installed onto the piping. Refer to the appropriate sprinkler technical data page for escutcheon installation instructions and illustrations. D. Installation Instructions - Testing 4. After installation, the entire sprinkler system must be tested. The test must be conducted to comply with the installation stand- ards. Viking high pressure sprinklers may be hydrostatically tested at a maximum of 300 psi (20.7 bar) for limited periods of time (two hours), for the purpose of acceptance by the Authority Having Jurisdiction. a. Make sure the sprinkler is properly tightened. If a thread leak occurs, normally the sprinkler must be removed, new pipe-joint compound or tape applied, and then reinstalled. This is due to the fact that when the joint seal is damaged, the sealing compound or tape is washed out of the joint. Air testing [do not exceed 40 psi (2.76 bar)] the sprinkler piping prior to testing with water may be considered in areas where leakage during testing must be prevented. Refer to the Installation Standards and the Authority Having Jurisdiction. b. Remove plastic protective sprinkler caps or bulb shields AFTER the wall or ceiling finish work is completed where the sprinkler is installed and there no longer is a potential for mechanical damage to the sprinkler operating ele- ments. To remove the bulb shields, simply pull the ends of the shields apart where they are snapped together. To remove caps from frame style sprinklers, turn the caps slightly and pull them off the sprinklers. SPRINKLER CAPS OR BULB SHIELDS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Retain a protective cap or shield in the spare sprinkler cabinet. 5. For flush style sprinklers: the ceiling ring can now be installed onto the sprinkler body. Align the ceiling ring with the sprinkler body and thread or push it on (depends on sprinkler model) until the outer flange touches the surface of the ceiling. Note the maximum adjustment is 1/4” (6.35 mm). DO NOT MODIFY THE UNIT. If necessary, re-cut the sprinkler drop nipple as required. 6. For concealed sprinklers: the cover assembly can now be attached. a. Remove the cover from the protective box, taking care not to damage the cover plate assembly. b. Gently place the base of the cover plate assembly over the sprinkler protruding through the opening in the ceiling. c. Push the cover plate assembly onto the sprinkler until the unfinished brass flange of the cover plate base (or the cover adapter, if used) touches the surface of the ceiling. d. Refer to the applicable technical data sheet to determin the maximum adjustment available for concealed sprinklers. DO NOT MODIFY THE UNIT. If necessary, re-cut the sprinkler drop nipple. NOTE: If it is necessary to remove the entire sprinkler unit, the system must be taken out of service. See section 6. INSPECTIONS, TESTS AND MAINTENANCE and follow all warnings and instructions. 5. OPERATION Refer to the appropriate sprinkler technical data page(s). During fire conditions, the operating element fuses or shatters (depending on the type of sprinkler), releasing the pip cap and sealing assembly. Water flowing through the sprinkler orifice strikes the sprinkler deflector, forming a uniform spray pattern to extinguish or control the fire. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appro- priate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. The sprinkler technical data page may contain installation requirements specific for the sprinkler model selected. The use of certain types of sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction prior to installation. SPRINKLER GENERAL CARE, INSTALLATION, AND MAINTENANCE GUIDE TECHNICAL DATA Page 4 of 4 Form No. F_080614 18.10.11 Rev 16.1.P65 The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page. 6. INSPECTIONS, TESTS AND MAINTENANCE NOTICE: Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. NOTICE: The owner is responsible for having the fire-protection system and devices inspected, tested, and maintained in proper operating condition in accordance with this guide, and applicable NFPA standards. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and inspection requirements that must be followed. A. Sprinklers must be inspected on a regular basis for corrosion, mechanical damage, obstructions, paint, etc. Frequency of inspec- tions may vary due to corrosive atmospheres, water supplies, and activity around the sprinkler unit. B. Sprinklers or cover plate assemblies that have been field painted, caulked, or mechanically damaged must be replaced im- mediately. Sprinklers showing signs of corrosion shall be tested and/or replaced immediately as required. Installation standards require sprinklers to be tested and, if necessary, replaced after a specified term of service. Refer to NFPA 25 and the Authority Having Jurisdiction for the specified period of time after which testing and/or replacement is required. Never attempt to repair or reassemble a sprinkler. Sprinklers and cover assemblies that have operated cannot be reassembled or re-used, but must be replaced. When replacement is necessary, use only new sprinklers and cover assemblies with identical performance char- acteristics. C. The sprinkler discharge pattern is critical for proper fire protection. Therefore, nothing should be hung from, attached to, or otherwise obstruct the discharge pattern. All obstructions must be immediately removed or, if necessary, additional sprinklers installed. D. When replacing existing sprinklers, the system must be removed from service. Refer to the appropriate system description and/ or valve instructions. Prior to removing the system from service, notify all Authorities Having Jurisdiction. Consideration should be given to employment of a fire patrol in the affected area. 1. Remove the system from service, drain all water, and relieve all pressure on the piping. 2a. For frame-style sprinklers, use the special sprinkler wrench to remove the old sprinkler by turning it counterclockwise to unthread it from the piping. 2b. For flush and concealed style sprinklers: Remove the ceiling ring or cover plate assem- bly before unthreading the sprinkler body from the piping. Ceiling rings and cover plates can be removed ei- ther by gently unthreading them or pulling them off the sprinkler body (depends on the sprinkler model used). After the ceiling ring or cover plate assembly has been removed from the sprinkler body, place the plastic protective cap (from the spare sprinkler cabinet) over the sprinkler to be removed and then fit the sprinkler wrench over the cap. Then use the wrench to unthread the sprinkler from the piping. Exception: Domed concealed sprinklers are removed without the plastic cap. 3. Install the new sprinkler unit by following the instructions in section 4. INSTALLATION. Care must be taken to ensure that the replacement sprinkler is the proper model and style, with the correct K-Factor, temperature rating, and response character- istics. A fully stocked spare sprinkler cabinet should be provided for this purpose. For flush or concealed sprinklers: stock of spare ceiling rings or cover plates should also be available in the spare sprinkler cabinet. E. Place the system back in service and secure all valves. Check for and repair all leaks. Sprinkler systems that have been sub- jected to a fire must be returned to service as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. Sprinklers that have been exposed to corrosive products of combustion or high ambient temperatures, but have not operated, should be replaced. Refer to the Authority Having Jurisdiction for minimum replacement requirements. 7. AVAILABILITY Viking sprinklers are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEE For details of warranty, refer to Viking’s current list price schedule or contact Viking directly. Replaces Form No. F_080614 Rev 16.1 (Added P65 Warning.) TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 1 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 1. DESCRIPTION Viking fire sprinklers consist of a threaded frame with a specific waterway or orifice size and a deflector for distributing water in a specified pattern. A closed or sealed sprinkler refers to a complete assembly, including the thermosensitive operating element. An open sprinkler does not use an operating element and is open at all times. The distribution of water is intended to extinguish a fire or to control its spread. Viking sprinklers are available in several models and styles. Refer to specific sprinkler technical data pages for available styles, finishes, temperature ratings, thread sizes, and nominal K-Factors for the particular model selected. 2. LISTINGS AND APPROVALS Refer to the Approval Charts on the appropriate sprinkler technical data page(s) and/or approval agency listings. 3. TECHNICAL DATA Pressure Ratings: Maximum allowable water working pressure is 175 psig (12 Bar) unless rated and specified for high water working pressure [250 psig (17.2 bar)]. Sprinkler Identification: Viking sprinklers are identified and marked with the word “Viking”, the sprinkler identification number (SIN) consisting of “VK” plus a three digit number*, the model letter, and the year of manufacture. Available Finishes: Viking sprinklers are available in several decorative finishes. Some models are available with corrosion-resistant coatings or are fabricated from non-corrosive material. Refer to the sprinkler technical data page for additional information. Available Temperature Ratings: Viking sprinklers are available in several temperature ratings that relate to a specific temperature classification. Applicable installa- tion rules mandate the use and limitations of each temperature classification. In selecting the appropriate temperature classifica- tion, the maximum expected ceiling temperature must be known. When there is doubt as to the maximum temperature at the sprinkler location, a maximum-reading thermometer should be used to determine the temperature under conditions that would show the highest readings to be expected. In addition, recognized installation rules may require a higher temperature classifica- tion, depending upon sprinkler location, occupancy classification, commodity classification, storage height, and other hazards. In all cases, the maximum expected ceiling temperature dictates the lowest allowable temperature classification. Sprinklers located immediately adjacent to a heat source may require a higher temperature rating. K-Factors: Viking sprinklers are available in several orifice sizes with related K-Factors. The orifice is a tapered waterway and, therefore, the K-Factor given is nominal. Nominal U.S. K-Factors are provided in accordance with the 1999 edition of NFPA 13, Section 3-2.3. Refer to the specific data page for appropriate K-Factor information. Available Styles: Viking sprinklers are available for installation in several positions as indicated by a stamping on the deflector. The deflector style dictates the appropriate installation position of the sprinkler; it breaks the solid stream of water issuing from the sprinkler orifice to form a specific spray pattern. The following list indicates the various styles and identification of Viking sprinklers. UPRIGHT SPRINKLER: A sprinkler intended to be installed with the deflector above the frame so water flows upward through the orifice, striking the deflector and forming an umbrella-shaped spray pat- tern downward. Marked “SSU” (Standard Sprinkler Upright) or “UPRIGHT” on the deflector. PENDENT SPRINKLER: A sprinkler intended to be oriented with the deflec- tor below the frame so water flows downward through the orifice, striking the deflector and forming an umbrella-shaped spray pattern downward. Marked “SSP” (Standard Sprinkler Pendent) or “PENDENT” on the de- flector. CONVENTIONAL SPRINKLER: An “old style” sprinkler intended to be installed with the deflector in either the upright or pendent position. The deflector provides a spherical type pattern with 40 to 60 percent of the water initially directed downward and a proportion directed upward. Must be installed in accordance with installation rules for conventional or old style sprinklers. DO NOT USE AS A REPLACEMENT FOR STANDARD SPRAY SPRINKLERS. Marked “C U/P” (Conventional Upright/Pendent) on the deflector. Viking Technical Data may be found on The Viking Corporation’s Web site at http://www.vikinggroupinc.com. The Web site may include a more recent edition of this Technical Data Page. Replaces Form No. F_080814 Rev 14.1 (Added P65 Warning.) TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 2 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 VERTICAL SIDEWALL (VSW) SPRINKLER: A sprinkler intended for installation near the wall and ceiling. The deflector provides a water spray pattern outward in a quarter-spherical pattern and can be installed in the upright or pendent position with the flow arrow in the direction of discharge. Marked “SIDEWALL” on the deflector with an arrow and the word “FLOW”. (Note: Some vertical sidewall sprinklers can only be installed in the upright or pendent position—in this case, the sprinkler will also be marked “UPRIGHT” or “PENDENT”.) HORIZONTAL SIDEWALL (HSW) SPRINKLER: A sprinkler intended for installation near the wall and ceiling. The special deflector provides a water spray pattern outward in a quarter-spherical pattern. Most of the water is directed away from the nearby wall with a small portion directed at the wall behind the sprinkler. The top of the deflector is oriented parallel with the ceiling or roof. The flow arrows point in the direction of discharge. Marked “SIDEWALL” and “TOP” with an arrow and the word “FLOW”. EXTENDED COVERAGE (EC) SPRINKLER: A spray sprinkler designed to discharge water over an area having the maximum dimensions indicated in the individual listings. Maximum area of coverage, minimum flow rate, orifice size, and nominal K-Factor are specified in the individual listings. EC sprinklers are intended for Light-Hazard occupancies with smooth, flat, horizontal ceil- ings unless otherwise specified. In addition to the above markings, the sprinkler is marked “EC”. QUICK RESPONSE (QR) SPRINKLER: A spray sprinkler with a fast- actuating operating element. The use of quick response sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction (AHJ) prior to installing. QUICK RESPONSE EXTENDED COVERAGE (QREC) SPRINKLER: A spray sprinkler designed to discharge water over an area having the maximum dimensions indicated in the individual listing. This is a sprinkler with an operating element that meets the criteria for quick response. QREC sprinklers are only intended for Light Hazard occupancies. The sprinkler is marked “QREC”. FLUSH SPRINKLER: A decorative spray sprinkler intended for installation with a concealed piping system. The unit is mounted flush with the ceiling or wall, with the fusible link exposed. Upon actuation, the deflector extends beyond the ceiling or wall to distribute water discharge. The sprinkler is marked “SSP”, “PEND”, or “SIDEWALL” and “TOP”. CONCEALED SPRINKLER: A decorative spray sprinkler intended for installation with a concealed piping system. The sprinkler is hidden from view by a cover plate installed flush with the ceiling or wall. During fire conditions, the cover plate detaches, and upon sprinkler actuation, the deflector extends beyond the ceiling or wall to distribute water discharge. The sprinkler is marked “SSP”, “PEND”, or “SIDEWALL” and “TOP”. RECESSED SPRINKLER: A spray sprinkler assembly intended for installation with a concealed piping system. The assembly con- sists of a sprinkler installed in a decorative adjustable recessed escutcheon that minimizes the protrusion of the sprinkler beyond the ceiling or wall without adversely affecting the sprinkler distribution or sensitivity. Refer to the appropriate technical data page for allowable sprinkler models, temperature ratings, and occupancy classifications. DO NOT RECESS ANY SPRINKLER NOT LISTED FOR USE WITH THE ESCUTCHEON. CORROSION-RESISTANT SPRINKLER: A special service sprinkler with non-corrosive protective coatings, or that is fabricated from non-corrosive material, for use in atmospheres that would normally corrode sprinklers. DRY SPRINKLER: A special-service sprinkler intended for installation on dry pipe systems or wet pipe systems where the sprinkler is subject to freezing temperatures. The unit consists of a sprinkler permanently secured to an extension nipple with a sealed inlet end to prevent water from entering the nipple until the sprinkler operates. The unit MUST be installed in a tee fitting. Dry upright sprinklers are marked with the “B” dimension [distance from the face of the fitting (tee) to the top of the deflector]. Dry pendent and sidewall sprinklers are marked with the “A” dimension [the distance from the face of fitting (tee) to the finished surface of the ceiling or wall]. LARGE DROP SPRINKLER: A type of special application sprinkler used to provide fire control of specific high-challenge fire haz- ards. Large drop sprinklers are designed to produce an umbrella-shaped spray pattern downward with a higher percentage of “large” water droplets than standard spray sprinklers. The sprinkler has an extra-large orifice with a nominal K-Factor of 11.2. Marked “HIGH CHALLENGE” and “UPRIGHT”. EARLY SUPPRESSION FAST-RESPONSE (ESFR) SPRINKLER: A sprinkler intended to provide fire suppression of specific high- challenge fire hazards through the use of a fast response fusible link, 14.0, 16.8, or 25.2 nominal K-Factor, and special deflector. ESFR sprinklers are designed to produce high-momentum water droplets in a hemispherical pattern below the deflector. This permits penetration of the fire plume and direct wetting of the burning fuel surface while cooling the atmosphere early in the development of a high-challenge fire. Marked “ESFR” and “UPRIGHT” or “PEND”. INTERMEDIATE LEVEL/RACK STORAGE SPRINKLER: A standard spray sprinkler assembly designed to protect its operating element from the spray of sprinklers installed at higher elevations. The assembly consists of a standard or large orifice upright or pendent sprinkler with an integral upright or pendent water shield and guard assembly. Use only those sprinklers that have been tested and listed for use with the assembly. Refer to the technical data page for allowable sprinkler models. RESIDENTIAL SPRINKLER: A sprinkler intended for use in the following occupancies: one- and two-family dwellings with the fire protection sprinkler system installed in accordance with NFPA 13D; residential occupancies up to four stories in height with the fire protection system installed in accordance with NFPA 13R; and where allowed by the Authority Having Jurisdiction in resi- dential portions of any occupancy with the fire protection system installed in accordance with NFPA 13. TECHNICAL DATA The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com SPRINKLER OVERVIEW Page 3 of 3 Form No. F_080814 18.12.06 Rev 14.1.P65 Residential sprinklers have a unique distribution pattern and utilize a “fast response” heat sensitive operating element. They en- hance survivability in the room of fire origin and are designed to provide a life safety environment for a minimum of ten minutes. For this reason, residential sprinklers must not be used to replace standard sprinklers unless tested for and approved by the Authority Having Jurisdiction. In addition to standard markings, the unit is identified as “RESIDENTIAL SPRINKLER” or “RES”. 4. INSTALLATION Refer to appropriate NFPA Installation Standards. 5. OPERATION Refer to the appropriate sprinkler technical data page(s). 6. INSPECTIONS, TESTS AND MAINTENANCE Refer to NFPA 25 for Inspection, Testing and Maintenance requirements. 7. AVAILABILITY Viking sprinklers are available through a network of domestic and international distributors. See The Viking Corporation web site for the closest distributor or contact The Viking Corporation. 8. GUARANTEE For details of warranty, refer to Viking’s current list price schedule or contact Viking directly. IMPORTANT: Always refer to Bulletin Form No. F_091699 - Care and Handling of Sprinklers and the appropriate sprin- kler general care, installation, and maintenance guide. Viking sprinklers are to be installed in accordance with the latest edition of Viking technical data, the appropriate standards of NFPA, FM Global, LPCB, APSAD, VdS or other similar organizations, and also with the provisions of governmental codes, ordinances, and standards, whenever applicable. The sprinkler technical data page may contain installation requirements specific for the sprinkler model selected. The use of certain types of sprinklers may be limited due to occupancy and hazard. Refer to the Authority Having Jurisdiction prior to installation. Replaces Form No. F_080814 Rev 14.1 (Added P65 Warning.) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 1 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 SPRINKLERS ARE FRAGILE - HANDLE WITH CARE! General Handling and Storage: • Store sprinklers in a cool, dry place. • Protect sprinklers during storage, transport, handling, and after installation. • Use the original shipping containers. DO NOT place sprinklers loose in boxes, bins, or buckets. • Keep sprinklers separated at all times. DO NOT allow metal parts to contact sprinkler operating elements. For Pre-Assembled Drops: • Protect sprinklers during handling and after installation. • For recessed assemblies, use the protective sprinkler cap (Viking Part Number 10364). Sprinklers with Protective Shields or Caps: • DO NOT remove shields or caps until after sprinkler installation and there no longer is potential for mechanical damage to the sprinkler operating elements. • Sprinkler shields or caps MUST be removed BEFORE placing the system in service! • Remove the sprinkler shield by carefully pulling it apart where it is snapped together. • Remove the cap by turning it slightly and pulling it off the sprinkler. Sprinkler Installation: • DO NOT use the sprinkler deflector or operating element to start or thread the sprinkler into a fitting. • Use only the designated sprinkler head wrench! Refer to the current sprinkler tech- nical data page to determine the correct wrench for the model of sprinkler used. • DO NOT install sprinklers onto piping at the floor level. • Install sprinklers after the piping is in place to prevent mechanical damage. • DO NOT allow impacts such as hammer blows directly to sprinklers or to fittings, pipe, or couplings in close proximity to sprinklers. Sprinklers can be damaged from direct or indirect impacts. • DO NOT attempt to remove drywall, paint, etc., from sprinklers. • Take care not to over-tighten the sprinkler and/or damage its operating parts! Maximum Torque: 1/2” NPT: 14 ft-lbs. (19.0 N-m) 3/4” NPT: 20 ft-lbs. (27.1 N-m) 1” NPT: 30 ft-lbs. (40.7 N-m) WARNING Any sprinkler with a loss of liquid from the glass bulb or damage to the fusible element should be destroyed. Never install sprinklers that have been dropped, damaged, or exposed to temperatures exceeding the maximum ambient temperature allowed. Sprinklers that have been painted in the field must be replaced per NFPA 13. Protect sprinklers from paint and paint overspray in accordance with the installation standards. Do not clean sprinklers with soap and water, ammonia, or any other cleaning fluid. Do not use adhesives or solvents on sprinklers or their operating elements. Refer to the appropriate technical data page and NFPA standards for complete care, handling, installation, and maintenance instructions. For additional product and system information Viking data pages and installation instructions are available on the Viking Web site at www.vikinggroupinc.com. CORRECT (Original container used) INCORRECT (Placed loose in box) CORRECT (Protected with caps) INCORRECT (Protective caps not used) CORRECT (Piping is in place at the ceiling) INCORRECT (Sprinkler at floor level) CORRECT (Special installation wrenches) INCORRECT (Designated wrench not used) Replaces Form No. F_091699 Rev 16.1 (Added P65 Warning) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 2 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 PROTECTIVE SPRINKLER SHIELDS AND CAPS General Handling and Storage: Many Viking sprinklers are available with a plastic protective cap or shield temporarily covering the operating elements. The snap- on shields and caps are factory installed and are intended to help protect the operating elements from mechanical damage during shipping, storage, and installation. NOTE: It is still necessary to follow the care and handling instructions on the appropriate sprin- kler technical data sheets* when installing sprinklers with bulb shields or caps. WHEN TO REMOVE THE SHIELDS AND CAPS: NOTE: SHIELDS AND CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Remove the shield or cap from the sprinkler only after checking all of the following: • The sprinkler has been installed*. • The wall or ceiling finish work is completed where the sprinkler is installed and there no longer is a potential for mechanical damage to the sprinkler operating elements. SHIELDS AND CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Figure 1: Sprinkler shield being removed from a pendent sprinkler.Figure 2: Sprinkler cap being removed from a pendent sprinkler.Figure 3: Sprinkler cap being re-moved from and upright sprinkler. HOW TO REMOVE SHIELDS AND CAPS: No tools are necessary to remove the shields or caps from sprinklers. DO NOT use any sharp objects to remove them! Take care not to cause mechanical damage to sprinklers when removing the shields or caps. When removing caps from fusible ele- ment sprinklers, use care to prevent dislodging ejector springs or damaging fusible elements. NOTE: Squeezing the sprinkler cap excessively could damage sprinkler fusible elements. • To remove the shield, simply pull the ends of the shield apart where it is snapped together. Refer to Figure 1. • To remove the cap, turn it slightly and pull it off the sprinkler. Refer to Figures 2 and 3. Refer to the current sprinkler technical data page to determine the correct sprinkler wrench for the model of sprinkler used. Never install sprinklers that have been dropped, damaged, or exposed to temperatures in excess of the maximum ambient temperature allowed. * Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 3 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 GENERAL HANDLING AND STORAGE INSTRUCTIONS: • Do not store in temperatures exceeding 100 °F (38 °C). Avoid direct sunlight and confined areas subject to heat. • Protect sprinklers and cover assemblies during storage, transport, handling, and after installation. -- Use original shipping containers. -- Do not place sprinklers or cover assemblies loose in boxes, bins, or buckets. • Keep the sprinkler bodies covered with the protective sprinkler cap any time the sprinklers are shipped or handled, during testing of the system, and while ceiling finish work is being completed. • Use only the designated Viking recessed sprinkler wrench (refer to the appropriate sprinkler data page) to install these sprinklers. NOTE: The protective cap is temporarily removed during installation and then placed back on the sprinkler for protection until finish work is completed. • Do not over-tighten the sprinklers into fittings during installation. • Do not use the sprinkler deflector to start or thread the sprinklers into fittings during installation. • Do not attempt to remove drywall, paint, etc., from the sprinklers. • Remove the plastic protective cap from the sprinkler before attaching the cover plate assembly. PROTECTIVE CAPS MUST BE REMOVED FROM SPRINKLERS BEFORE PLACING THE SYSTEM IN SERVICE! Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. Concealed Sprinkler and Adapter Assembly with Protective Cap CAUTION: CONCEALED COVER ASSEMBLIES ARE FRAGILE! TO ASSURE SATISFACTORY PERFORMANCE OF THE PRODUCT, HANDLE WITH CARE. Cover Plate Assembly (Pendent Cover 12381 shown) Concealed Sprinkler and Adapter Assembly (Protective Cap Removed) BULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com CARE AND HANDLING OF SPRINKLERS Page 4 of 4 Form No. F_091699 18.10.11 Rev 16.1.P65 USE THE FOLLOWING PRECAUTIONS WHEN HANDLING WAX-COATED SPRINKLERS Many of Viking’s sprinklers are available with factory-applied wax coating for corrosion resistance. These sprinklers MUST receive appropriate care and handling to avoid damaging the wax coating and to assure satisfactory performance of the product. General Handling and Storage of Wax-Coated Sprinklers: • Store the sprinklers in a cool, dry place (in temperatures below the maximum ambient temperature allowed for the sprinkler temperature rating. Refer to Table 1 below.) • Store containers of wax-coated sprinklers separate from other sprinklers. • Protect the sprinklers during storage, transport, handling, and after installation. • Use original shipping containers. • Do not place sprinklers in loose boxes, bins, or buckets. Installation of Wax-Coated Sprinklers: Use only the special sprinkler head wrench designed for installing wax-coated Viking sprinklers (any other wrench may damage the unit). • Take care not to crack the wax coating on the units. • For touching up the wax coating after installation, wax is available from Viking in bar form. Refer to Table 1 below. The coating MUST be repaired after sprinkler installation to protect the corrosion-resistant properties of the sprinkler. • Use care when locating sprinklers near fixtures that can generate heat. Do not install sprinklers where they would be exposed to temperatures exceed- ing the maximum recommended ambient temperature for the temperature rating used. • Inspect the coated sprinklers frequently soon after installation to verify the integrity of the corrosion resistant coating. Thereafter, inspect representative samples of the coated sprinklers in accordance with NFPA 25. Close up visual inspections are necessary to determine whether the sprinklers are being affected by corrosive conditions. Never install sprinklers that have been dropped, damaged, or exposed to temperatures in excess of the maximum ambi- ent temperature allowed. Refer to the appropriate current technical data pages for complete care, handling, and installation instructions. Data pages are included with each shipment from Viking or Viking distributors. They can also be found on the Web site at www. vikinggroupinc.com. TABLE 1 Sprinkler Temperature Rating (Fusing Point) Wax Part Number Wax Melting Point Maximum Ambient Ceiling Temperature1 Wax Color 155 °F (68 °C) / 165 °F (74 °C)02568A 148 °F (64 °C)100 °F (38 °C)Light Brown 175 °F (79 °C)04146A 161 °F (71 °C)150 °F (65 °C)Brown 200 °F (93 °C)04146A 161 °F (71 °C)150 °F (65 °C)Brown 220 °F (104 °C)02569A 170 °F (76 °C)150 °F (65 °C)Dark Brown 286 °F (141 °C)02569A 170 °F (76 °C)150 °F (65 °C)Dark Brown 1 Based on NFPA-13. Other limits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation standards. Replaces Form No. F_091699 Rev 16.1 (Added P65 Warning) REGULATORY AND HEALTH WARNINGSBULLETIN The Viking Corporation, 210 N Industrial Park Drive, Hastings MI 49058 Telephone: 269-945-9501 Technical Services: 877-384-5464 Fax: 269-818-1680 Email: techsvcs@vikingcorp.com Visit the Viking website for the latest edition of this technical data page www.vikinggroupinc.com Page 1 of 1 Form No. F_111218 18.11.15 Rev 18.1 New Bulletin 1. DESCRIPTION Regulatory and Health Warnings applying to materials used in the manufacture and construction of fire protection products are provided herin as they relate to legally mandated jurisdictional regions. WARNING STATE OF CALIFORNIA, USA Installing or servicing fire protection products such as sprinklers, valves, piping etc. can expose you to chemicals including, but not li- mited to, lead, nickel, butadiene, titaninum dioxide, chromium, carbon black, and acrylonitrile which are known to the State of California to cause cancer or birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov 2. WARRANTY TERMS AND CONDITIONS For details of warranty, refer to Viking’s current list price schedule at www.vikinggroupinc.com or contact Viking directly. FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES Page 4 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M 3. PIPE & FITTINGS Trusted above all ™ Features • Sizes Available (Nominal): 3/4” (DN20) through 3” (DN80) pipe diameters, with a Standard Dimension Ratio (SDR) of 13.5 as specified in ASTM F442. • Environmental Specifications: Indoor use only. Maximum Ambient Temperature: 150°F (65°C) • Hazen-Williams C Value: 150 • Pressure Data: Working Pressure: 175 PSI (12.1 bar) at 150°F (65°C) • Specifications: • Meets NFPA 13R and 13D standards for residential occupancies as well as NFPA 13 standards for light hazard occupancies. • Pipe meets or exceeds ASTM F442. • Certified by NSF International for potable water services. • CPVC pipe from Viking Plastics use compound cell class 23547 (demonstrated highest structural properties). • cULus Listed, FM Approved, New York City (MEA) Approved, LPCB Approved. CPVC PIPE PHYSICAL DATA Nominal Pipe Size Actual Outside Diameter Average Inside Diameter *Weight per 15’ (4,6 m) length Length Approvals Part Number Inch DN Inch mm Inch mm Lb.Kg.Feet M 3/4”DN20 1.050 26,670 0.874 22,199 2.52 1,14 15 4.6 cULus, FM, NSF 34PIPE 1”DN25 1.315 33,401 1.101 27,965 3.93 1,78 15 4.6 1PIPE 1 1/4”DN32 1.660 42,164 1.394 35,408 6.27 2,84 15 4.6 114PIPE 1 1/2”DN40 1.900 48,260 1.598 40,589 8.22 3,73 15 4.6 112PIPE 2”DN50 2.375 60,325 2.003 50,876 12.89 5,85 15 4.6 2PIPE 2 1/2”DN65 2.875 73,000 2.423 61,500 18.86 8,55 15 4.6 212PIPE 3”DN80 3.500 88,900 2.950 74,900 28.01 12,71 15 4.6 3PIPE Nominal Pipe Size Actual Outside Diameter Average Inside Diameter *Weight per 10’ (3,05 m) length Length Approvals Part Number Inch DN Inch mm Inch mm Lb.Kg.Feet M 3/4”DN20 1.050 26,670 0.874 22,199 1.68 0,76 10 3,05 cULus, FM, NSF 34PIPE10 1”DN25 1.315 33,401 1.101 27,965 2.62 1,19 10 3,05 1PIPE10 1 1/4”DN32 1.660 42,164 1.394 35,408 4.18 1,90 10 3,05 114PIPE10 1 1/2”DN40 1.900 48,260 1.598 40,589 5.48 2,49 10 3,05 112PIPE10 2”DN50 2.375 60,325 2.003 50,876 8.59 3,90 10 3,05 2PIPE10 2 1/2”DN65 2.875 73,000 2.423 61,500 12.57 5,70 10 3,05 212PIPE10 3”DN80 3.500 88,900 2.950 74,900 18.67 8,47 10 3,05 3PIPE10 NOTE: CPVC Pipe is produced in SDR 13.5 Dimensions in accordance with ASTM F442. Standard Dimension Ratio is the ratio of the outside pipe diameter to the wall thickness of the pipe. Blazemaster® is a registered trademark of Lubrizol. Specifications subject to change without notice *Empty pipe weights IMPORTANT: Installers should receive thorough hands-on training in the proper methods of assembly and installation of CPVC products. Trusted above all ™ CPVC Pipe Product Specifications Corrosion resistant CPVC fire sprinkler pipe, when installed in strict accordance with the manufacturer’s design and instal- lation instructions, is UL and c-UL Listed by Underwriters Laboratories for use in the following: Meets NFPA 13R and 13D standards for residential occupancies as well as NFPA 13 standards for light hazard occupancies. Residential occupancies up to and including four stories in height as defined by NFPA 13R. Residential occupancies as defined in the Standard for Sprinkler Systems in One and Two Family Dwellings, NFPA 13D. Installation of private fire service mains and their appurtenances, NFPA 24. CPVC fire sprinkler pipe from Viking Plastics shall be employed in wet pipe systems only and are not listed for outdoor use. CPVC pipe must never be used in a system using compressed air or other gases. • • • • CPVC pipe from Viking Plastics also carries the follow- ing enhanced listings and approvals: According to UL Listing Can be flush at return air plenums Exposed system risers NFPA 13D, 13R Exposed basement NFPA 13D (solid wood joist) Extended coverage (exposed) 20’ spacing on pendent in lieu of 15’ 18’ spacing on sidewall in lieu of 14’ Use with combustible concealed sprinklers Tyco attic sprinkler head (to protect the floor below) Tyco attic sprinkler head with wet system piping (feed main and ridge installation) • • • • •   • • • Exposed sidewall sprinkler listing for exposed pipe & fittings 24’ extended coverage sidewall sprinkler, 12” drop, 155°F sprinkler head 18’ extended coverage sidewall sprinkler, 12” drop, 165°F sprinkler head 16’ extended coverage sidewall sprinkler, 12” drop, 175°F sprinkler head 14’ standard coverage sidewall sprinkler, 12” drop, 200°F sprinkler head Factory Mutual Approved* Factory Mutual Approval exposed Factory Mutual Approval above drop-in ceilings Factory Mutual Approval exposed w/Soffi-Steel soffiting covering system •     • • • • New and enhanced listings and approvals are being pursued. Always check with the appropriate Listing and Approval agency for details on current listing parameters. CPVC pipe meets all applicable standards for pressure rated applica- tion as required in ANSI-NSF Standard 14 and complies with ANSI-NSF Standard 61 for health effects and are marked with the NSF-pw end use marking. All CPVC fire sprinkler pipe shall be Listed by Underwriters Laboratories for wet pipe systems, and shall carry a rated working pressure of 175 psi @ 150°F (12 bar @ 65.5°C). *The FM Approval is limited to use in wet pipe fire protection sprinkler systems for light hazard occupancies in both concealed and exposed applications with certain restrictions. Piping must always be installed in strict accordance to the manufacturer’s DESIGN AND INSTALLATION GUIDE, including product storage and handling, joining methods, supporting and bracing, expansion and con- traction allowance and testing, etc. National Fire Protection Association (NFPA) Standards 13, 13D, and 13R must be referenced for design and installation requirements in conjunction with the installation instructions. All CPVC fire sprinkler pipe from Viking Plastics is manufactured in the USA. All CPVC pipe shall be packaged immediately after its manufacture to prevent damage and shall be stored indoors after production, at the manufacturing site, until shipped from the factory. The pipe shall bear the logo of the listing agencies, and shall carry the National Sanitation Foun- dation (NSF) seal of approval for potable water applications. CPVC products are intended for use in areas where the maximum ambi- ent temperature does not exceed 150°F (65.5°C). If the ambient tempera- ture is expected to exceed this limitation, refer to the manufacturer’s DE- SIGN AND INSTALLATION GUIDE for additional information on methods to reduce the pipe exposure temperatures. CPVC pipe is not intended to be installed in outdoor applications. CPVC pipe is intended to be used in wet pipe systems only and have not been investigated for use in dry pipe systems. Special installation and design criteria relative to pipe hanger spacings, piping and sprinkler restraint, sprinkler temperature rating, piping locations, testing procedures and friction loss characteristics are specified in the manufacturer’s installation instructions provided with the pipe. The manufacturer’s installation instructions should be reviewed and the Authority Having Jurisdiction consulted before installation. FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES Page 6 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M 4. Valves victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT. 1.0 PRODUCT DESCRIPTION Available Sizes • 1 ¼ – 8"/DN32 – DN200 Maximum Working Pressure • Up to 300 psi/2068 kPa/20.6 bar Application • Floor control assemblies may be utilized to meet the zone separation requirements of multistory applications exceeding two stories in height or whenever separate control or zoning is specified. • Shotgun riser assemblies may be utilized in vertical orientations on individual system risers. Configurations • Optional control valve: Series 705 Butterfly Valve or Series 728 Ball Valve • Factory assembled right-handed/left-handed (field changeable if necessary) Included Components • Integrated Check Valve • Series UTD (Universal Test Drain) with integrated Series ARV (Adjustable Relief Valve) • Quick Drain Hose • Vane Type Flow Switch • 1 ¼ – 2"/DN32 – DN50 UMC use saddle type 2" VSR flow switch • 2 1/2 – 3"/73mm – DN80 and 8"/DN200 UMC use saddle type VSR flow switch for corresponding valve size • 4 – 6"/DN100-DN150 UMC use VSR-M flow switch with flange adapter • 1 ¼ – 8"/DN32 – DN200 System-side pressure gauge 400 psi/2750 kPa/27.5 bar • 1 ¼ – 3"/DN32-DN80 supply side 1/2" plugged port located on control valve (if using as a system riser, pressure gauge ordered separately) • 4 – 8"/DN100 – DN200 Supply-side pressure gauge 400 psi/2750 kPa/27.5 bar Available End Connections • Victaulic Original Groove System (OGS) standard groove 2.0 CERTIFICATION/LISTINGS Victaulic® Series UMC Universal Manifold Check Assembly 30.72 1 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com 3.0 SPECIFICATIONS – MATERIAL Body: Ductile iron conforming to ASTM A536, grade 65-45-12 Clapper: Stainless Steel Clapper Seal: EPDM Shafts: Stainless Steel Seat: Brass Spring: Stainless Steel Hose: Stainless Steel 4.0 DIMENSIONS G C B C1 A E to E E to E F ED F Size Dimensions Weight Nominal Actual Outside Dia. E to E with control valve E to E without control valve A B C C-1 D with control valve D without control valve E F with control valve F without control valve Series UTD Valve Size (Nominal) Series UTD Test Orifice G Quick Drain Hose Length Approx. (Each) with control valve Approx. (Each) without control valve inches DN inches mm inches mm inches DN K-Factor S.I. inches mm lb kg lb kg 1 1/4 1.660 20.50 13.13 3.63 5.88 8.25 10.00 6.00 6.00 2.00 23.38 16.00 1.00 2.8 24.00 32.0 24.0 DN32 42.4 521 333 92 149 210 254 152 152 51 594 406 25 4.0 610 14.5 10.9 1 1/2 1.900 20.50 13.13 3.63 5.88 8.25 10.00 6.00 6.00 2.00 23.50 16.13 1.00 2.8 24.00 34.0 25.0 DN40 48.3 521 333 92 149 210 254 152 152 51 597 410 25 4.0 610 15.4 11.3 NOTES • When Series UTD Valve Size (Nominal) is 1"/25 mm, flexible drain hose connection utilizes FireLock IGS™ groove profile • 1/2" system supply pressure gauge port located on the control valve for sizes 1 ¼ – 1 1/2"/DN32 – DN40 2 victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com 4.0 DIMENSIONS (CONTINUED) G C B C1 A E to E E to E F ED D F Size Dimensions Weight Nominal Actual Outside Dia. E to E with control valve E to E without control valve A B C C-1 D with control valve D without control valve E F with control valve F without control valve Series UTD Valve Size (Nominal) Series UTD Test Orifice G Quick Drain Hose Length Approx. (Each) with control valve Approx. (Each) without control valve inches DN inches mm inches mm inches DN K-Factor S.I. inches mm lb kg lb kg 2 2.375 17.50 13.13 3.63 5.88 8.25 10.00 6.38 6.00 2.00 21.13 16.38 1.00 2.8 24.00 36.0 25.0 DN50 60.3 445 333 92 149 210 254 162 152 51 537 416 25 4.0 610 16.3 11.3 2 1/2 2.875 17.38 13.50 4.25 6.75 9.25 11.50 7.50 6.13 2.25 21.25 16.63 1.25 4.2 24.00 39.0 28.0 73.0 441 343 108 171 235 292 191 156 57 540 422 32 6.1 610 17.7 12.7 3.000 17.38 13.50 4.25 6.75 9.25 11.50 7.50 6.13 2.25 21.25 16.63 1.25 4.2 24.00 39.0 28.0 DN65 76.1 441 343 108 171 235 292 191 156 57 540 422 32 6.1 610 17.7 12.7 3 3.500 17.63 13.75 4.38 7.13 9.63 11.88 7.75 6.38 2.38 21.13 16.50 1.25 4.2 24.00 44.0 31.0 DN80 88.9 448 349 111 181 244 302 197 162 60 537 419 32 6.1 610 20.0 14.1 4 4.500 19.50 14.63 5.75 8.75 11.63 14.88 8.75 7.00 3.00 22.75 17.63 2.00 5.6 36.00 65.0 52.0 DN100 114.3 495 371 146 222 295 378 222 178 76 578 448 51 8.1 914 29.5 23.6 6.500 23.50 17.38 6.88 10.00 12.88 16.13 11.38 8.00 3.88 25.88 19.75 2.00 5.6 36.00 100.0 73.0 165.1 597 441 175 254 327 410 289 203 98 657 502 51 8.1 914 45.4 33.1 6 6.625 23.50 17.38 6.88 10.00 12.88 16.13 11.38 8.00 3.88 25.88 19.75 2.00 5.6 36.00 100.0 73.0 DN150 168.3 597 441 175 254 327 410 289 203 98 657 502 51 8.1 914 45.4 33.1 NOTES • 1/2" system supply pressure gauge port located on the control valve for sizes 2 – 3"/DN50 – DN80 (gauge sold separately) • Included System supply pressure gauge located on the control valve for sizes 4 – 6"/DN100 – DN150 • When Series UTD Valve Size (Nominal) is 1"/25 mm, flexible drain hose connection utilizes FireLock IGS™ groove profile Horizontal Install Left Hand with Control Valve Horizontal Install Right Hand with Control Valve 3 victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com 4.0 DIMENSIONS (CONTINUED) G E to E E to E F ED D F C B C1 A Size Dimensions Weight Nominal Actual Outside Dia. E to E with control valve E to E without control valve A B C C-1 D with control valve D without control valve E F with control valve F without control valve Series UTD Valve Size (Nominal) Series UTD Test Orifice G Quick Drain Hose Length Approx. (Each) with control valve Approx. (Each) without control valve inches DN inches mm inches mm inches DN K-Factor S.I. inches mm lb kg lb kg 8 8.625 32.75 27.25 6.50 8.38 11.25 14.38 13.50 10.63 6.00 35.13 29.63 2.00 5.6 36.00 178.0 136.0 DN200 219.1 832 692 165 213 286 365 343 270 152 892 752 51 8.1 914 80.7 61.7 NOTE • System supply pressure gauge port is on the supply side of check valve 4 victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com 5.0 PERFORMANCE Size Equivalent Length of Sch. 40 Pipe1 Flow Characteristics Nominal Actual Outside Diameter with control valve without control valve Cv/Kv Values with control valve Cv/Kv Values without control valve Maximum Working Pressure inches DN inches mm feet meters feet meters Full Open Full Open psi kPa 1 1/4 1.660 8.3 8.0 38.52 35.59 300 DN32 42.4 2.5 2.4 33 31 2068 1 1/2 1.900 10.1 10.0 56.75 57.43 300 DN40 48.3 3.1 3.0 49 50 2068 2 2.375 21.1 15.8 71.43 83.14 300 DN50 60.3 6.4 4.8 62 72 2068 2 1/2 2.875 19.6 15.8 112.43 125.84 300 73.0 6.0 4.8 97 109 2068 3.000 19.6 15.8 112.43 125.84 300 DN65 76.1 6.0 4.8 97 109 2068 3 3.500 20.0 13.3 199.32 241.43 300 DN80 88.9 6.1 4.0 172 209 2068 4 4.500 17.6 12.9 425.88 499.23 300 DN100 114.3 5.4 3.9 368 432 2068 6.500 40.6 32.0 834.97 932.83 300 165.1 12.4 9.8 722 807 2068 6 6.625 40.6 32.0 834.97 932.83 300 DN150 168.3 12.4 9.8 722 807 2068 8 8.625 60.8 45.8 1376.8 1556.57 300 DN200 219.1 18.5 13.9 1191 1346 2068 1 Equivalent length of Sch 40 pipe calculated using the Hazen-Williams formula with a roughness coefficient of C=120 5 victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com 5.0 PERFORMANCE (CONTINUED) Series UMC without Control Valve 8 10 12 14 16 18 20 30 40 50 60 68 200 300 400 500 1000 2000 3000 4000 10000 15000 1.25 1.00 1.50 1.75 2.00 2.25 2.50 3.00 4.00 5.00 6.00 7.00 8.00 9.00 10.00 2.75 50 60 70 100 200 400 1000300500 2000 4000 FLOW RATE - LPM FLOW RATE - GPM PRESSURE DROP - kPaPRESSURE DROP - PSI1-1/4”/42.4mm1-1/2”/48.3mm2”/60.3mm2-1/2”/73.0mm & 76.1mm3”/88.9mm4”/114.3mm6”/168.3mm & 165.1mm8”/219.1mmNOTE • Includes friction loss across flow switch 6 victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com 5.0 PERFORMANCE (CONTINUED) Series UMC with Control Valve 8 10 12 14 16 18 20 30 40 50 60 68 200 300 400 500 1000 2000 3000 4000 10000 15000 1.25 1.00 1.50 1.75 2.00 2.25 2.50 3.00 4.00 5.00 6.00 7.00 8.00 9.00 10.00 2.75 50 60 70 100 200 400 1000300500 2000 4000 FLOW RATE - LPM FLOW RATE - GPM PRESSURE DROP - kPaPRESSURE DROP - PSI1-1/4”/42.4mm1-1/2”/48.3mm2”/60.3mm2-1/2”/73.0mm & 76.1mm3”/88.9mm4”/114.3mm6”/168.3mm & 165.1mm8”/219.1mmNOTE • Includes friction loss across flow switch 7 victaulic.com 30.72 15916 Rev B Updated 04/2022 © 2022 Victaulic Company. All rights reserved. victaulic.com User Responsibility for Product Selection and Suitability Each user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, as well as Victaulic performance, maintenance, safety, and warning instructions. Nothing in this or any other document, nor any verbal recommendation, advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer. Intellectual Property Rights No statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of such material, product, service, or design in the infringement of any patent or other intellectual property right. The terms “Patented” or “Patent Pending” refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries. Note This product shall be manufactured by Victaulic or to Victaulic specifications. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Installation Reference should always be made to the Victaulic installation handbook or installation instructions of the product you are installing. Handbooks are included with each shipment of Victaulic products, providing complete installation and assembly data, and are available in PDF format on our website at www.victaulic.com. Warranty Refer to the Warranty section of the current Price List or contact Victaulic for details. Trademarks Victaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries. 6.0 NOTIFICATIONS WARNING • Read and understand all instructions before attempting to install any Victaulic products. • Always verify that the piping system has been completely depressurized and drained immediately prior to installation, removal, adjustment, or maintenance of any Victaulic products. • Confirm that any equipment, branch lines, or sections of piping that may have been isolated for/during testing or due to valve closures/positioning are identified, depressurized, and drained intermediately prior to installation, removal, adjustment, or maintenance of any Victaulic products. • Wear safety glasses, hardhat, and foot protection. Failure to follow these instructions could result in death or serious personal injury and property damage. • These products shall be used only in fire protection systems that are designed and installed in accordance with current, applicable National Fire Protection Association (NFPA 13, 13D, 13R, etc.) standards, or equivalent standards, and in accordance with applicable building and fire codes. These standards and codes contain important information regarding protection of systems from freezing temperatures, corrosion, mechanical damage, etc. • The installer shall understand the use of this product and why it was specified for the particular application. • The installer shall understand common industry safety standards and potential consequences of improper product installation. Failure to follow installation requirements and local and national codes and standards could compromise system integrity or cause system failure, resulting in death or serious personal injury and property damage. 7.0 REFERENCE MATERIALS 10.17: FireLock® Ball Valve 10.54: Victaulic FireLock™ Innovative Groove System | IGS™ 10.64: Victaulic® FireLock™ Installation-Ready™ Rigid Couplings 10.81: FireLock® Butterfly Valve 30.71: Series UM Universal Manifold Assembly 30.73: Victaulic® Series UTD Universal Test and Drain 30.74: Victaulic® Series ARV Adjustable Relief Valve I-100: Field Installation Handbook I-UMC: Series UMC Universal Manifold Check Assembly 8 victaulic.com ES-F-LF856 MasterSeries® LF856 Double Check Detector Backflow Prevention Assemblies (Type II) Size: 21⁄2" - 10" LEAD FREE* Job Name ––––––––––––––––––––––––––––––––––––––––––– Contractor –––––––––––––––––––––––––––––––––––––––––––– Job Location ––––––––––––––––––––––––––––––––––––––––– Approval ––––––––––––––––––––––––––––––––––––––––––––– Engineer ––––––––––––––––––––––––––––––––––––––––––––– Contractor’s P.O. No. ––––––––––––––––––––––––––––––––––– Approval ––––––––––––––––––––––––––––––––––––––––––––– Representative –––––––––––––––––––––––––––––––––––––––– FEBCO product specifications in U.S. customary units and metric are approximate and are provided for reference only. For precise measurements, please contact FEBCO Technical Service. FEBCO reserves the right to change or modify product design, construction, specifications, or materials with- out prior notice and without incurring any obligation to make such changes and modifications on FEBCO products previously or subsequently sold. Model LF856 Double Check Detector Assembly The FEBCO MasterSeries LF856 Double Check Detector Assemblies are designed to protect drinking water supplies from dangerous cross-connections in accordance with national plumbing codes and water authority requirements for non-health hazard non-potable service applications such as irrigation, fire line, or industrial processing. This Backflow Assembly is primarily used for protection of drinking water systems and fire sprinkler systems, where Local Governing Code mandates protection from non-potable quality water being pumped or siphoned back into the potable water system. The coating on this backflow assembly uses ArmorTek™ technology to resist corrosion due to microbial induced corrosion (MIC) or exposed metal substrate. Features Main Valve: • Inline Serviceable Assembly • No Special Tools Required for Servicing • Captured Modular Spring Assembly • Reversible & Replaceable Discs • Field Replaceable Seats • Ductile Iron Valve Body Design • Stainless Steel Check Components • Utilizes advanced ArmorTek™ coating technology to resist corrosion of internals • Winterization feature with disc retainers and valve body drain ports • Clapper Check Assembly • Commonality between 1st & 2nd Check Components • Captured O-ring Design Auxiliary Bypass: • Compact Bypass Design; Remains within Main Valve Assembly Profile • Inline Serviceable 3⁄4" Check Assembly • No Special Tools Required for Servicing • Field Replaceable Seat & Disc • Detect Potential Underground Water Leaks • Detect Unauthorized Water Usage Specifications The FEBCO MasterSeries LF856 Double Check Detector Valve Assembly shall be installed on the potable water supply and at each point of cross-connection to protect against possible backpressure and backsiphonage conditions for non-health hazard (i.e., pollutant) applications. The assembly shall consist of a main line valve body composed of two (2) independently acting approved clapper style check modules with replaceable seats and disc rubbers. Servicing of both check modules does not require any special tools and are accessed through independent top entry covers. This assembly shall be fitted with approved UL/ FM inlet/outlet resilient seated shutoff valves and contain four (4) properly located resilient seated test cocks as specified by AWWA Standard C510. The auxiliary bypass line contains a 5⁄8"x 3⁄4" (16 x 19mm) Water Meter that complies with ANSI/AWWA Standard C700 coupled with an approved check assembly. The bypass line is designed to detect leaks or unauthorized water usage of the water system while protecting against possible backpressure and backsiphonage conditions for non-health hazard (i.e., pollutant) application. The valve body shall utilize a coating system with built in electrochemical corrosion inhibitor and microbial inhibitor. Flow and pressure loss performance parameters shall meet the require- ments of AWWA Standard C510. NOTICE The information contained herein is not intended to replace the full product installation and safety information available or the experience of a trained product installer. You are required to thoroughly read all installation instructions and product safety information before beginning the installation of this product. * The wetted surface of this product contacted by consumable water contains less than 0.25% of lead by weight. Approvals • Approved by the Foundation for Cross-Connection Control and Hydraulic Research at The University of Southern California (FCCCHR-USC) • ASSE 1048 Listed • **UL Classified (US & Canada) • **FM Approved • IAPMO • AWWA Standard C510 Compliant • End Connections: Compliant to ASME B16.1 Class 125 & AWWA Class D Flange **Assembly configured with UL/FM Approved OS&Y RW Gate Valves. Less gate valve assemblies are not UL/FM approved configurations. Pressure - Temperature Max. Working Pressure: 175 psi (12.1 bar) Min. Working Pressure: 10 psi (0.7 bar) Hydrostatic Test Pressure: 350 psi (24.1 bar) Hydrostatic Safety Pressure: 700 psi (48.3 bar) Temperature Range: 33°F - 140°F (0.5°C- 60°C) Continuous Options - Suffix OSY: UL/FM Approved OS&Y Gate Valves (ANSI/AWWA C515 Compliant) CFM: Totalizing Cubic feet/min 5/8" x 3/4" Water Meter (ANSI/AWWA C700 Compliant) GPM: Totalizing Gallons/min 5/8"x 3/4" Water Meter (ANSI/AWWA C700 Compliant) LG: Less Shutoff valves; This is NOT an APPROVED ASSEMBLY Example Ordering Descriptions: 4" LF856-OSY-GPM - Valve Assembly fitted with OS&Y Shutoff Valves & Gallon Feet per Minute Water Meter 4" LF856-OSY-CFM - Valve Assembly fitted with OS&Y Shutoff Valves, Cubic feet per Minute Water Meter Assembly Flow Orientation: • Horizontal & Vertical Up (21⁄2" – 10") - Approved by FCCCHR- USC, ASSE, cULus, FM, IAPMO Materials Below is a general material list of the Model LF856. All assemblies’ size 21⁄2" through 10" is similar in materials and construction. Please contact your local FEBCO Representative if you require further information. Main Valve Body: Ductile iron Grade 65-45-12 Coating: Fusion epoxy coated internal and external AWWA C550 Shutoff Valves: OS&Y resilient wedge gate valves AWWA C515 (UL/FM) Check Seats: Stainless Steel Disc Holder: Stainless Steel Elastomer Disc Silicone Spring: Stainless Steel Clamp: AWWA C606 (10" Only) ** 1048 ** Test Cock #4 Second Spring Assembly Second Check Assembly Test Cock #3 First Spring Assembly First Check Assembly Shutoff Valve #2Shutoff Valve #1 Test Cock #1 Test Cock #2 A 42 43 41 40 H F E* B C G Dimensions & Weights Below are the nominal dimensions and physical weights for the Model LF856 size 21⁄2" through 10". Allowances must be made for normal manufacturing tolerances. Please visit our website to download a copy of this product’s installation instructions, or contact your local FEBCO Representative for more information. Model LF856 Assemblies SIZE DIMENSIONS WEIGHT*** A B C E**F G H OSY in. in. mm in. mm in. mm in. mm in. mm in. mm in. mm lbs. kg. 21⁄2 403⁄4 1035 25 1⁄2 648 10 254 16 3⁄8 416 41⁄2 114 71⁄8 181 13 3⁄8 340 245 111 3 417⁄8 1064 25 5⁄8 651 10 254 22 1⁄7 565 41⁄2 114 73⁄8 187 13 3⁄8 340 271 123 4 461⁄4 1175 28 711 10 1⁄8 257 23 1⁄4 591 51⁄2 140 81⁄8 206 14 356 338 153 6 56 1422 34 3⁄4 883 12 3⁄4 324 30 1⁄8 765 61⁄2 165 97⁄8 251 15 381 515 234 8 65 1651 41 3⁄4 1061 15 5⁄8 397 37 3⁄4 959 7 178 11 1⁄8 283 15 3⁄4 400 826 375 10 72 5⁄8 1845 46 3⁄8 1178 15 5⁄8 397 48 1219 9 229 12 3⁄8 314 15 3⁄4 400 1234 560 ** Indicates nominal dimensions with OSY Gate Valves (Full Open Position) *** Indicates weight of complete Backflow Assemblies with specified Gate Valves E* A H F G B C ES-F-LF856 1944 © 2019 FEBCO USA: Tel: (800) 767-1234 • Fax: (800) 788-4491 • FEBCOonline.com Canada: Tel: (905) 332-4090 • Fax: (905) 332-7068 • FEBCOonline.ca Latin America: (52) 55-4122-0138 • FEBCOonline.com Performance Flow capacity chart identifies valve performance based upon rated water Velocity up to 20fps. • Maximum service flow rate is determined by maximum rated Velocity of 7.5fps. • AWWA Manual M-22 (Appendix C) recommends that the maximum water Velocity in the services be not more than 10fps. • UL flow rate is determined by typically rated Velocity of 15 feet/sec. 21⁄2" (LF856) 3" (LF856) 22 20 18 16 14 12 10 8 6 4 2 0 22 20 18 16 14 12 10 8 6 4 2 0 18 16 14 12 10 8 6 4 2 0 0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 GPM 284 568 852 1136 lpm 7.5 14.7 22.0 fps 0 50 100 150 200 250 300 350 400 450 500 GPM 379 757 1136 1514 lpm 7.5 14.7 22.0 fps 0 100 200 300 400 500 600 700 800 GPM 379 1136 1893 2650 lpm 7.5 12.8 19.1 fps psi drop (*Friction loss) psi drop (*Friction loss) psi drop (*Friction loss)Service Flow Rated Flow *UL Rated Flow Service Flow Rated Flow *UL Rated Flow 4" (LF856) Service Flow Rated Flow *UL Rated Flow 18 16 14 12 10 8 6 4 2 0 18 16 14 12 10 8 6 4 2 0 18 16 14 12 10 8 6 4 2 0 0 200 400 600 800 1000 1200 1400 1600 GPM 757 2271 3785 5300 lpm 7.5 11.4 17.0 fps 0 400 800 1200 1600 2000 2400 GPM 1514 3028 4543 6057 7571 9085 lpm 7.5 10.5 15.3 fps 0 600 1200 1800 2400 3000 3600 GPM 2271 4543 6814 9085 11356 13627 lpm 7.5 9.4 14.1 fps psi drop (*Friction loss) psi drop (*Friction loss) psi drop (*Friction loss)6" (LF856) 8" (LF856) 10" (LF856) Service Flow Rated Flow *UL Rated Flow Service Flow Rated Flow *UL Rated Flow Service Flow Rated Flow *UL Rated Flow FIRE SPRINKLERS – FIRE ALARMS – FIRE EXTINGUISHERS – EMERGENCY LIGHTING – SAFETY & FIRST AID SUPPLIES Page 7 of 7 6438 Arville St. Las Vegas, NV 89118 (702) 966-8021 Tel (702) 987-1174 Fax www.onguardfp.com License #: NV-61307 CA-950378 Bid Limit $4.5 M 5. Accessories & Caulking OFFICE OF THE FIRE MARSHAL – LA QUINTA 78495 Calle Tampico, La Quinta, CA 92253 • Phone (760) 777-7074 • www.rvcfire.org September 15, 2022 On Guard Re: Residential Fire Sprinkler Plan Review – Centre @ La Quinta Rec Bldg FSS2022-0298 (47470 Aloe) The sprinkler plans you submitted for the above referenced project have been reviewed by Riverside County Fire Department - Office of the Fire Marshal personnel and are approved with the following conditions. Permanently marked identification signs shall be attached to all control valves. The following inspections/tests are required to be witnessed by Office of the Fire Marshal Staff: (a) Overhead Rough and Hydro static test: All piping shall be visible and pumped at normal operating pressure. *No jacketed electrical and data wiring shall be in contact with, nor have the potential to contact CPVC piping once insulation is installed. (b) Final inspection The Fire Department approved plans and conditions letter must be at the job site. Applicant/installer shall be responsible to contact the Fire Department to schedule inspections. Requests for inspections are to be made at least 48 hours in advance and may be arranged by calling (760)777-7131. All questions regarding the meaning of these conditions should be referred to the Office of the Fire Marshal staff at (760)777-7074. Rebecca Winscott - Fire Safety Specialist 78495 CALLE TAMPICO, LA QUINTA, CA 92253 / 760-777-7000 / INSPECTION HOTLINE: 760-777-7131 RIVERSIDE COUNTY FIRE PROTECTION PLANNING RECORD OF INSPECTIONS / PERMIT CARD THIS CARD IS TO REMAIN ON SITE AT ALL TIMES. INSTALLING CONTRACTOR MUST BE PRESENT FOR ALL INSPECTIONS. SEE NOTES ON REVERSE SIDE. JOB ADDRESS: 47470 Aloe PERMIT#: FSS2022-0298 DATE ISSUED: 9-15-22 DESCRIPTION: Centre @ La Quinta Rec Bldg CONTRACTOR: On Guard HYDRANT SYSTEM DATE INITIALS SPECIAL SUPPRESSION DATE INITIALS Thrust block pre-pour Door fan test UG rough piping Abort test UG hydro Mechanical shutdown Flush Detector test Final E F Deluge/pre-action SPRINKLER U.G. Final E F Thrust block pre-pour UST/AST TANK UG rough piping Installation UG hydro Removal Flush Emergency shut off Final E F Primary piping FIRE SPRINKLER Secondary piping Weld inspection Dispensers & shear valves Overhead rough piping Final E F Overhead hydro MISC. INSPECTIONS UG flush / OK to connect Spray booths Main drain/inspectors’ test Hood/duct extinguishing High pile storage High pile rack storage In-rack sprinklers H.P. vents/access/corridors Hose racks Tract access/hydrant verification Final E F Access & Address verification HOOD EXTINGUISHING OTHER CONST. PERMIT Detection system Function test Gas/electrical shut-off Nozzle model/placement Fire alarm connection Final E F SPRAY BOOTHS FIRE CODE PERMIT(S) Installation Air flow test Mechanical interlock Extinguishing system Fire alarm connection Final E F FIRE ALARM KNOX SYSTEM Rough-wire inspection Building Knox box Function test Gate access Knox box/padlock Duct detectors/velocity BUILDING INSPECTIONS 24 hr. battery test T/I final Sprinkler monitoring Shell final Final E F Final for occupancy FINAL INSPECTION DATE: INSPECTORS SIGNATURE: **WHEN CALLING FOR AN INSPECTION PLEASE HAVE PERMIT NUMBER READY. SEE NOTES ON REVERSE SIDE** 78495 CALLE TAMPICO, LA QUINTA, CA 92253 / 760-777-7000 / INSPECTION HOTLINE: 760-777-7131 INSPECTION NOTES 1. Sway bracing and hangers will be inspected at the time of rough piping inspection. 2. All required hydrostatic pressure tests shall maintain 200 psi for a 2-hour duration. (EX: Residential Fire Sprinkler Systems) 3. Fire sprinkler system remodels: if indicated on plans or this card, a hydrostatic pressure test shall be required. 4. All underground joints and thrusts blocks shall be exposed and readily visible during the hydrostatic test. 5. Contractor shall supply all testing equipment, access and operating instructions at time of test. 6. All systems shall be inspected, tested, and approved by a Fire Inspector before any work is started that may cause the affected system to be covered or hidden. POLICIES ON FIELD INSPECTIONS A. INSPECTION REQUESTS: Inspections are made subject to availability. Please have the permit number available when scheduling inspections. For City of La Quinta inspections call: (760) 777-7131. B. APPROVED PLANS: Shall be kept on the job site at all times that work is in progress. Work shall NOT commence without approved plans. C. INSPECTION REQUESTS: As required by the California Fire Code, the appropriate installing contractor shall be required to schedule the necessary inspections and be present on site for inspections. D. RE-INSPECTIONS: Will be charged against a permit when an inspection has failed, is not ready, the responsible party not on site or where previously noted corrections have not been completed. E. COMMODITIES: Unless otherwise noted on approved plans or letter of conditions, no commodities shall be entered into the structure until clearance has been granted by the Fire Dept and Building Official. F. OCCUPANCY: Buildings shall NOT be occupied by persons other than construction workers until a Final Fire Clearance has been granted by the Fire Dept and a Certificate for Occupancy has been issued by the Building Official. INSPECTION NOTES: THIS CARD IS REQURIED TO BE POSTED AT THE CONSTRUCTION SITE. THIS CARD AND APPROVED PLANS MUST BE AVAILABLE AT THE CONSTRUCTION SITE FOR ALL INSPECTIONS. THIS PERMIT SHALL EXPIRE AND BECOME NULL AND VOID IF THE WORK AUTHORIZED IS NOT COMMENCED WITHIN 180 DAYS OR IF THE WORK IS SUSPENDED OR ABANDONED FOR A PERIOD OF 180 DAYS OR MORE. THIS PERMIT IS FOR FIRE DEPARTMENT APPROVAL ONLY AND DOES NOT INTEND TO ABROGATE MORE RESTRICTIVE REQUIREMENTS OF OTHER AGENCIES HAVING RESPONSIBILITY.