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FSS2021-0238
ADDITIONAL SITES CHRONOLOGY CHRONOLOGY TYPE STAFF NAME ACTION DATE COMPLETION DATE NOTES E-MAIL AARON HICKSON 9/30/2021 9/30/2021 SENT PASSWORD AND BL RENEWAL TO CONTRACTOR NOTE JOSE DELGADO 7/21/2022 7/22/2022 CONTRACTOR REQUESTED FINAL INSPECTION. PERMIT EXPIRED AS OF 6/27/22 (6 MOS FROM DATE OF LAST APPROVED INSPECTION). ADDED EXTENSION FEE OF $83 AND EXTENDED PERMIT TO 7/22/22 SO CONTRACTOR CAN PAY FEE VIA ETRAKIT. WILL ALSO REQUIRE AN EXTENSION REQUEST LETTER FROM CONTRACTOR. OK TO EXTEND PER KOHL. EXTENSION LETTER SUBMITTED AND EXTENSION FEE PAID. EXTENDING PERMIT TO EXPIRE ON 1/18/23 CONDITIONS Description: SCHILLING / FIRE SPRINKLERS / BRES2019-0332 Type: FIRE SPRINKLER (WEB)Subtype: RESIDENTIAL - CUSTOM HOMES Status: FINALED Applied: 9/29/2021 ECON Parcel No: 646070012 Site Address: 78755 SAGEBRUSH AVE LA QUINTA,CA 92253 Approved: 11/16/2021 KHET Subdivision: PM 27681 Block: Lot: 4 Issued: 11/17/2021 JLIM Lot Sq Ft: 0 Building Sq Ft: 0 Zoning: Finaled: 7/28/2022 KHET Valuation: $7,000.00 Occupancy Type: Construction Type: Expired: No. Buildings: 0 No. Stories: 0 No. Unites: 0 Details: Printed: Friday, March 03, 2023 8:58:16 AM 1 of 5 Permit Details City of La Quinta PERMIT NUMBER FSS2021-0238 CONTACTS NAME TYPE NAME ADDRESS1 CITY STATE ZIP PHONE FAX EMAIL APPLICANT HAYNES FIRE SYSTEMS P O BOX 265 Nuevo CA 92567 (195)131-2323 jerrypaulhaynes@aol.c om CONTRACTOR jerry PAUL haynes P O BOX 265 NUEVO CA 92567 (195)131-2323 jerrypaulhaynes@aol.c om OWNER SHANNON SCHILLING 1161 W HEWETT RD Nuevo CA 92567925 6 (195)131-2323 jerrypaulhaynes@aol.c om FINANCIAL INFORMATION DESCRIPTION ACCOUNT QTY AMOUNT PAID PAID DATE RECEIPT #CHECK #METHOD PAID BY CLTD BY FIRE SPRINKLER SYSTEMS - SINGLE FAMILY DETACHED 101-0000-42421 0 $6.00 $6.00 11/17/21 R67875 CASH HAYNES FIRE SYSTEMS JLIM FIRE SPRINKLER SYSTEMS - SINGLE FAMILY DETACHED 101-0000-42421 0 $161.00 $161.00 11/17/21 MR980 0001 DEBIT HAYNES FIRE SYSTEMS JLIM FIRE SPRINKLER SYSTEMS - SINGLE FAMILY DETACHED PC 101-0000-42420 0 $8.00 $8.00 11/17/21 R67875 CASH HAYNES FIRE SYSTEMS JLIM FIRE SPRINKLER SYSTEMS - SINGLE FAMILY DETACHED PC 101-0000-42420 0 $242.00 $242.00 11/17/21 MR980 0001 DEBIT HAYNES FIRE SYSTEMS JLIM FIRE STAFF - PER HOUR 101-0000-42420 1 $83.00 $83.00 7/22/22 WEB12568 672338327 CREDIT 307848 ECON Total Paid for FIRE FEES: $500.00 $500.00 RECORDS MANAGEMENT FEE 101-0000-42416 0 $10.00 $10.00 11/17/21 MR980 0001 DEBIT HAYNES FIRE SYSTEMS JLIM Total Paid for RECORDS MANAGEMENT FEE: $10.00 $10.00 TECHNOLOGY ENHANCEMENT FEE 502-0000-43611 0 $5.00 $5.00 11/17/21 MR980 0001 DEBIT HAYNES FIRE SYSTEMS JLIM Total Paid for TECHNOLOGY ENHANCEMENT FEE: $5.00 $5.00 Printed: Friday, March 03, 2023 8:58:16 AM 2 of 5 Permit Details City of La Quinta PERMIT NUMBER FSS2021-0238 ATTACHMENTS Attachment Type CREATED OWNER DESCRIPTION PATHNAME SUBDIR ETRAKIT ENABLED DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL ACCESSORIES 21280 CUT SHEET Cement and Accessories (2).pdf 1 BOND INFORMATION INSPECTIONS SEQID INSPECTION TYPE INSPECTOR SCHEDULED DATE COMPLETED DATE RESULT REMARKS NOTES OVERHEAD ROUGH PIPING KHET 12/29/2021 12/29/2021 APPROVED OVERHEAD HYRO KHET 12/29/2021 12/29/2021 APPROVED FIRE FINAL**KHET 7/28/2022 7/28/2022 APPROVED REVIEWS REVIEW TYPE REVIEWER SENT DATE DUE DATE RETURNED DATE STATUS REMARKS NOTES 1ST FIRE - ETRAKIT (2 WK) KOHL HETRICK 9/29/2021 10/13/2021 10/20/2021 REVISIONS REQUIRED PLANS ARE NOT LEGIBLE Emailed Jerry about issue with the plan not being fully legible. He is working on it. Going to wait 1 day to give him time to replace it. 1ST PERMIT TECH – ETRAKIT (1 DAY) PERMIT TECH BUCKET 9/29/2021 9/30/2021 9/30/2021 COMPLETE 1ST FIRE (1 WK)KOHL HETRICK 10/21/2021 10/28/2021 11/2/2021 REVISIONS REQUIRED SEE ATTACHMENTS LETTER OF CORRECTIONS AND PLAN COMMENTS PROVIDED IN ATTACHMENTS 2ND FIRE (1 WK)KOHL HETRICK 11/4/2021 11/11/2021 11/16/2021 APPROVED SEE ATTACHMENTS PARENT PROJECTS TOTALS:$515.00 $515.00 Printed: Friday, March 03, 2023 8:58:16 AM 3 of 5 Permit Details City of La Quinta PERMIT NUMBER FSS2021-0238 ATTACHMENTS Attachment Type CREATED OWNER DESCRIPTION PATHNAME SUBDIR ETRAKIT ENABLED DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL OFFSET HANGER 21280 CUT SHEET cpvc- offset-hanger-restrainer - Copy.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL GLOBE 21280 CUT SHEET globe 49006 SPRINKLER HEAD.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL HANGER 21280 CUT SHEET HANGER.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL SPRINKLER HEAD GL 21280 CUT SHEET SPRINKLER HEAD 175 degree sprinkler.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL SPRINKLER PLAN Knall with calc.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL CVWD water flow 78755 sagebrush.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL HYDRAULIC CALCS 78-755 Sagebrush Ave calculation (previously mislabeled Knall) (1).pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL BLAZE MASTER blazemaster five star.pdf 1 DOC 9/29/2021 Etrakit Contractor 1ST SUBMITTAL PIPE CLAMP pc-cpvc-stand-off.pdf 1 DOC 11/3/2021 Etrakit Contractor criss la quinta for submittal 11-3-2021.pdf 1 DOC 11/3/2021 Etrakit Contractor reflective ceiling plan piping plan criss la quinta for submittal 11-3- 2021_1.pdf 1 DOC 7/21/2022 JOSE DELGADO FSS2021-O238.pdf FSS2021-O238.pdf 0 DOC 10/21/2021 KOHL HETRICK 1.5 Submittal - Legible Plans 78755 Sagebrush Ave RESUBMITED 10-20- 2021.pdf 1 Printed: Friday, March 03, 2023 8:58:16 AM 4 of 5 Permit Details City of La Quinta PERMIT NUMBER FSS2021-0238 ATTACHMENTS Attachment Type CREATED OWNER DESCRIPTION PATHNAME SUBDIR ETRAKIT ENABLED DOC 11/2/2021 KOHL HETRICK FSS2021-0238 - 2ND REVIEW - CORRECTIONS LETTER.pdf FSS2021-0238 - 2ND REVIEW - CORRECTIONS LETTER.pdf 1 DOC 11/2/2021 KOHL HETRICK FSS2021-0238 - 2ND REVIEW - FIRE PLAN CORRECTIONS.pdf FSS2021-0238 - 2ND REVIEW - FIRE PLAN CORRECTIONS.pdf 1 DOC 11/16/2021 KOHL HETRICK 78755 Sagebrush Ave (v2) hydraulic calculation.pdf 78755 Sagebrush Ave (v2) hydraulic calculation.pdf 1 DOC 11/16/2021 KOHL HETRICK 78755 Sagebrush Ave (v2) with calc.pdf 78755 Sagebrush Ave (v2) with calc.pdf 1 DOC 11/16/2021 KOHL HETRICK FSS2021-0238 - APPROVED PLANS AND CALCS.pdf FSS2021-0238 - APPROVED PLANS AND CALCS.pdf 1 DOC 11/16/2021 KOHL HETRICK FSS2021-0238 - COA AND JOB CARD.pdf FSS2021-0238 - COA AND JOB CARD.pdf 1 Printed: Friday, March 03, 2023 8:58:16 AM 5 of 5 Permit Details City of La Quinta PERMIT NUMBER FSS2021-0238 FSS2021-0238 Fire - Fire Sprinkler Hydraulics Calculation Program Elite Software Development, Inc. Chandler Fire Safety Sagebrush Ave (v2) Cleveland, TX 77327 Page 1 General Project Data Report General Data Project Title:Sagebrush Ave (v2) Project File Name: 78755 Sagebrush Ave (v2) calculation..fiw Designed By: dc Date: 11/16/21 Code Reference:Approving Agency: "T" RUNS SHOWN AS 1 EXTRA FT OF PIPE / B = ANGLE VALVE Client Name:Phone: Address:City, State Zip Code: Company Name:Representative: Company Address:City And State: Phone: Building Name: Kitchen: 2-head calc (16 x 16) Building Owner: Contact at Building: Jerry Haynes Phone at Building: (951) 312-2323 Address Of Building: 78755 Sagebrush Ave City, State Zip Code: La Quinta, CA Project Data Description Of Hazard: Residential Sprinkler System Type: Wet Design Area Of Water Application: 512 ft² Maximum Area Per Sprinkler: 256 ft² Default Sprinkler K-Factor: 0.00 K Default Pipe Material: CPVC Inside Hose Stream Allowance: 0.00 gpm Outside Hose Stream Allowance: 0.00 gpm In Rack Sprinkler Allowance: 0.00 gpm Sprinkler Specifications Make: GLOBE Model:4906 Size:7/16 Temperature Rating: 155 F Water Supply Test Data Source Of Information: Test Hydrant ID:Date Of Test: Hydrant Elevation: 0 ft Static Pressure: 85.00 psi Test Flow Rate: 0.00 gpm Test Residual Pressure: 0.00 psi Calculated System Flow Rate: 31.07 gpm Calculated Inflow Residual Pressure: 52.24 psi Calculation Project Data Calculation Mode: Demand HMD Minimum Residual Pressure: 7.05 psi Minimum Desired Flow Density: 0.05 gpm/ft² Maximum Water Velocity: 0.00 ft/s Maximum Frictional Loss / 100 feet: 20.00 psi Number Of Active Nodes: 19 Number Of Active Pipes: 21 Number Of Inactive Pipes: 29 Number Of Active Sprinklers: 2 Number Of Inactive Sprinklers: 0 D:\ ...\78755 Sagebrush Ave (v2) calculation.fiw Tuesday, November 16, 2021, 12:47 PM Fire - Fire Sprinkler Hydraulics Calculation Program Elite Software Development, Inc. Chandler Fire Safety Sagebrush Ave (v2) Cleveland, TX 77327 Page 2 Fire Sprinkler Output Data Overall Pipe Output Data Beg. End. Node Nodal KFactor (K) Elevation (feet) Spk/Hose Discharge (gpm) Residual Pressure (psi) Nom. Dia. Inside Dia. C-Value q (gpm) Q (gpm) Velocity (fps) F. L./ft (psi/ft) Fittings Type-Grp Pipe-Len. Fit-Len. Tot-Len. (ft) PF-(psi) PE-(psi) PT-(psi) 1 4.90 12.00 13.01 7.05 1.00 13.01 0.03072 0.50 0.230 2 0.00 12.50 0.00 7.06 1.101 13.01 E 7.00 -0.217 CPVC 150 4.38 0 7.50 0.014 3 4.90 12.00 13.06 7.11 1.00 13.06 0.03095 0.50 0.232 4 0.00 12.50 0.00 7.12 1.101 13.06 E 7.00 -0.217 CPVC 150 4.40 0 7.50 0.016 2 0.00 12.50 0.00 7.06 1.00 0.00 0.03072 7.00 0.369 5 0.00 12.50 0.00 7.43 1.101 13.01 T 5.00 0.000 CPVC 150 4.38 0 12.00 0.369 4 0.00 12.50 0.00 7.12 1.00 0.00 0.03095 5.00 0.310 5 0.00 12.50 0.00 7.43 1.101 13.06 T 5.00 0.000 CPVC 150 4.40 0 10.00 0.310 5 0.00 12.50 0.00 7.43 1.00 0.00 0.11118 14.00 2.224 6 0.00 12.50 0.00 9.66 1.101 26.07 T 6.00 0.000 CPVC 150 8.79 0 20.00 2.224 6 0.00 12.50 0.00 9.66 1.00 14.01 0.03523 50.00 2.607 7 0.00 10.50 0.00 13.13 1.101 14.01 2ET 24.00 0.866 CPVC 150 4.72 0 74.00 3.473 7 0.00 10.50 0.00 13.13 1.00 6.80 0.00924 7.00 0.111 8 0.00 10.50 0.00 13.24 1.101 6.80 T 5.00 0.000 CPVC 150 2.29 0 12.00 0.111 8 0.00 10.50 0.00 13.24 1.00 2.85 0.00185 29.00 0.076 9 0.00 10.50 0.00 13.32 1.101 2.85 2T 12.00 0.000 CPVC 150 0.96 0 41.00 0.076 8 0.00 10.50 0.00 13.24 1.00 3.94 0.00338 21.00 0.095 10 0.00 10.50 0.00 13.33 1.101 3.94 T 7.00 0.000 CPVC 150 1.33 0 28.00 0.095 9 0.00 10.50 0.00 13.32 1.00 0.00 0.00185 8.00 0.019 10 0.00 10.50 0.00 13.33 1.101 2.85 ----- 2.00 0.000 CPVC 150 0.96 0 10.00 0.019 7 0.00 10.50 0.00 13.13 1.00 7.21 0.01031 21.00 0.289 11 0.00 10.50 0.00 13.42 1.101 7.21 T 7.00 0.000 CPVC 150 2.43 0 28.00 0.289 10 0.00 10.50 0.00 13.33 1.00 0.00 0.00924 7.00 0.083 11 0.00 10.50 0.00 13.42 1.101 6.80 ----- 2.00 0.000 CPVC 150 2.29 0 9.00 0.083 D:\ ...\78755 Sagebrush Ave (v2) calculation.fiw Tuesday, November 16, 2021, 12:47 PM Fire - Fire Sprinkler Hydraulics Calculation Program Elite Software Development, Inc. Chandler Fire Safety Sagebrush Ave (v2) Cleveland, TX 77327 Page 3 Fire Sprinkler Output Data Overall Pipe Output Data (cont'd) Beg. End. Node Nodal KFactor (K) Elevation (feet) Spk/Hose Discharge (gpm) Residual Pressure (psi) Nom. Dia. Inside Dia. C-Value q (gpm) Q (gpm) Velocity (fps) F. L./ft (psi/ft) Fittings Type-Grp Pipe-Len. Fit-Len. Tot-Len. (ft) PF-(psi) PE-(psi) PT-(psi) 6 0.00 12.50 0.00 9.66 1.00 12.06 0.02672 25.00 1.630 12 0.00 10.50 0.00 12.15 1.101 12.06 5E 36.00 0.866 CPVC 150 4.07 0 61.00 2.496 11 0.00 10.50 0.00 13.42 1.00 0.00 0.03523 20.00 0.845 13 0.00 10.50 0.00 14.26 1.101 14.01 ----- 4.00 0.000 CPVC 150 4.72 0 24.00 0.845 12 0.00 10.50 0.00 12.15 1.00 0.00 0.02672 63.00 2.111 13 0.00 10.50 0.00 14.26 1.101 12.06 T 16.00 0.000 CPVC 150 4.07 0 79.00 2.111 13 0.00 10.50 0.00 14.26 1.00 0.00 0.11118 15.00 2.668 60 0.00 10.50 0.00 16.93 1.101 26.07 E 9.00 0.000 CPVC 150 8.79 0 24.00 2.668 60 0.00 10.50 0.00 16.93 1.00 0.00 0.15751 12.50 4.017 100 0.00 -2.00 0.00 26.36 1.025 26.07 EC 13.00 5.413 TYPE L COPPER TUBE 150 10.14 0 25.50 9.429 100 0.00 -2.00 0.00 26.36 1.00 0.00 0.15455 5.00 0.927 120 0.00 -2.00 5.00 27.29 1.029 26.07 ----- 1.00 0.000 SCHEDULE 40 PVC 150 10.06 0 6.00 0.927 120 0.00 -2.00 5.00 27.29 1.00 5.00 0.21382 50.00 11.054 140 0.00 -2.00 0.00 38.34 1.029 31.07 F 1.70 0.000 SCHEDULE 40 PVC 150 11.99 0 51.70 11.054 140 Meter -2.00 38.34 31.07 150 8.00 psi -2.00 46.35 150 0.00 -2.00 0.00 46.35 1.00 0.00 0.21791 15.00 5.884 160 0.00 -2.00 0.00 52.24 1.025 31.07 TB 12.00 0.000 TYPE L COPPER TUBE 150 12.08 0 27.00 5.884 D:\ ...\78755 Sagebrush Ave (v2) calculation.fiw Tuesday, November 16, 2021, 12:47 PM Fire - Fire Sprinkler Hydraulics Calculation Program Elite Software Development, Inc. Chandler Fire Safety Sagebrush Ave (v2) Cleveland, TX 77327 Page 4 Fire Sprinkler Output Data Overall Sprinkler Output Data Flowing Sprinkler Node No. Area Group Code Sprinkler KFactor (K) Sprinkler Elevation (feet) Residual Pressure (psi) Flowing Area (ft²) Flowing Density (gpm/ft²) Sprinkler Discharge (gpm) 1 4.90 12.00 7.05 256.00 0.051 13.01 Sub Totals For Non-Group 256.00 0.051 13.01 3 4.90 12.00 7.11 256.00 0.051 13.06 Sub Totals For Non-Group 256.00 0.051 13.06 Totals For All Groups 512.00 0.051 26.07 D:\ ...\78755 Sagebrush Ave (v2) calculation.fiw Tuesday, November 16, 2021, 12:47 PM Fire - Fire Sprinkler Hydraulics Calculation Program Elite Software Development, Inc. Chandler Fire Safety Sagebrush Ave (v2) Cleveland, TX 77327 Page 5 Fire Sprinkler Output Summary Hydraulically Most Demanding Sprinkler Node HMD Sprinkler Node Number:1 HMD Actual Residual Pressure:7.05 psi HMD Actual Flow:13.01 gpm Sprinkler Summary Sprinkler System Type:Wet Specified Area Of Application: 512.00 ft² Minimum Desired Density:0.050 gpm/ft² Application Average Density:0.051 gpm/ft² Application Average Area Per Sprinkler: 256.00 ft² Sprinkler Flow:26.07 gpm Average Sprinkler Flow:13.04 gpm Flow Velocity And Imbalance Summary Maximum Flow Velocity ( In Pipe 150 - 160 ) 12.08 ft/sec Maximum Velocity Pressure ( In Pipe 150 - 160 ) 0.98 psi Allowable Maximum Nodal Pressure Imbalance: 0.0100 psi Actual Maximum Nodal Pressure Imbalance: 0.0000 psi Actual Average Nodal Pressure Imbalance: 0.0000 psi Actual Maximum Nodal Flow Imbalance: 0.0000 gpm Actual Average Nodal Flow Imbalance: 0.0000 gpm Overall Network Summary Number Of Unique Pipe Sections: 21 Number Of Flowing Sprinklers:2 Pipe System Water Volume:14.49 gal Sprinkler Flow:26.07 gpm Non-Sprinkler Flow:5.00 gpm Minimum Required Residual Pressure At System Inflow Node:52.24 psi Demand Flow At System Inflow Node: 31.07 gpm D:\ ...\78755 Sagebrush Ave (v2) calculation.fiw Tuesday, November 16, 2021, 12:47 PM Fire - Fire Sprinkler Hydraulics Calculation Program Elite Software Development, Inc. Chandler Fire Safety Sagebrush Ave (v2) Cleveland, TX 77327 Page 6 Fire Sprinkler Output Data Hydraulic Supply/Demand Graph Pressure psiFlowrate(x100) gpm 525252 0 10 20 30 40 50 60 70 80 90 100 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 Demand Curve Data Calculated Residual Pressure: 52.24 psi Calculated Flow Rate: 31.07 gpm Pressure Required For First Sprinkler Downstream From Inflow Node To Flow: 0.00 psi D:\ ...\78755 Sagebrush Ave (v2) calculation.fiw Tuesday, November 16, 2021, 12:47 PM TOLCO™Fig. 28M - Offset Hanger & Restrainer for CPVC Plastic Pipe Size Range:3/4"(20mm)thru 2"(32mm) Material:Steel, Pre-Galvanized Function:Designed to be used as a hanger and restrainer for CPVC piping where the “stand-off” design will ease installation by eliminating the need for wood blocking. Features: • Flared edge design protects CPVC pipe from any rough or abrasive surfaces • Unique snap-on design holds pipe firmly in place and allows retrofit type of installation • The “Stand-Off” design eliminates the need for wood block extension • Can be installed on horizontal or vertical piping regardless of mounting surface orientation • Attaches easily to wood structure with two hex head self-threading screws furnished with product • Installs easily using rechargeable electrical driver with 5/16”(7.9mm)extension socket eliminating impact tool damage to pipe • Attaches easily to steel, minimum 18 gauge (1.024mm)with (2) 1/4” x 1” tek type self drilling tapping screws • cULus Listed as a hanger and a restrainer for fire sprinkler piping Installation Note:When installed in wood structural members and threads from the #10 x 1" screws are exposed, use Fig. 27B speed nut to secure Approvals:Underwriters Laboratory Listed in the USA (UL)and Canada (cUL) to support automatic fire sprinkler systems. May be installed into wood using fasteners screws. Meets and exceeds the requirements of NFPA 13, 13R and 13D. Fig. 28M satisfies the UL vertical restraint requirements where needed. Order By:Part number and pipe size Patent #7,744,042 C A B Pipe Size A Hole Dia. B C Max Spacing* Approx. Wt./100 Part No.in. (mm) in. (mm) in. (mm) in. (mm)in. (mm)lbs. (kg) 28M-3/4 3/4"(20)2"(50.8)3/16"(4.8)35/16"(84.1)5’-6”(1676)9 (4.1) 28M-1 1"(25)21/8"(54.0)3/16"(4.8)31/2"(88.9)6’-0”(1829)12 (5.4) 28M-11/4 11/4"(32)25/16"(58.7)3/16"(4.8)31/2"(88.9)6’-6”(1981)13 (5.9) 28M-11/2 11/2"(49)27/16"(61.9)3/16"(4.8)37/8"(98.4)7’-0”(2133)14 (6.3) 28M-2 2"(50)25/8"(66.7)3/16"(4.8)47/16"(112.7)8’-0”(2438)15 (6.8) * Required per NFPA 13 for CPVC plastic pipe Hanger and Restraint Application Restraint Restraint Detail A Hanger Application Fig. 27B (2) Required Fig. 27B (1) Required High Side of Hanger Pipe Clamps Pipe Clamps 102 Eaton All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line series Pipe Hangers & Supports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™Fig. 28M - Offset Hanger & Restrainer for CPVC Plastic Pipe Size Range:3/4"(20mm)thru 2"(32mm) Material:Steel, Pre-Galvanized Function:Designed to be used as a hanger and restrainer for CPVC piping where the “stand-off” design will ease installation by eliminating the need for wood blocking. Features: • Flared edge design protects CPVC pipe from any rough or abrasive surfaces • Unique snap-on design holds pipe firmly in place and allows retrofit type of installation • The “Stand-Off” design eliminates the need for wood block extension • Can be installed on horizontal or vertical piping regardless of mounting surface orientation • Attaches easily to wood structure with two hex head self-threading screws furnished with product • Installs easily using rechargeable electrical driver with 5/16”(7.9mm)extension socket eliminating impact tool damage to pipe • Attaches easily to steel, minimum 18 gauge (1.024mm)with (2) 1/4” x 1” tek type self drilling tapping screws • cULus Listed as a hanger and a restrainer for fire sprinkler piping Installation Note:When installed in wood structural members and threads from the #10 x 1" screws are exposed, use Fig. 27B speed nut to secure Approvals:Underwriters Laboratory Listed in the USA (UL)and Canada (cUL) to support automatic fire sprinkler systems. May be installed into wood using fasteners screws. Meets and exceeds the requirements of NFPA 13, 13R and 13D. Fig. 28M satisfies the UL vertical restraint requirements where needed. Order By:Part number and pipe size Patent #7,744,042 C A B Pipe Size A Hole Dia. B C Max Spacing* Approx. Wt./100 Part No.in. (mm) in. (mm) in. (mm) in. (mm)in. (mm)lbs. (kg) 28M-3/4 3/4"(20)2"(50.8)3/16"(4.8)35/16"(84.1)5’-6”(1676)9 (4.1) 28M-1 1"(25)21/8"(54.0)3/16"(4.8)31/2"(88.9)6’-0”(1829)12 (5.4) 28M-11/4 11/4"(32)25/16"(58.7)3/16"(4.8)31/2"(88.9)6’-6”(1981)13 (5.9) 28M-11/2 11/2"(49)27/16"(61.9)3/16"(4.8)37/8"(98.4)7’-0”(2133)14 (6.3) 28M-2 2"(50)25/8"(66.7)3/16"(4.8)47/16"(112.7)8’-0”(2438)15 (6.8) * Required per NFPA 13 for CPVC plastic pipe Hanger and Restraint Application Restraint Restraint Detail A Hanger Application Fig. 27B (2) Required Fig. 27B (1) Required High Side of Hanger Pipe Clamps Pipe Clamps 102 Eaton All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. B-Line series Pipe Hangers & Supports NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.888.336.4226 • INTERNATIONAL OFFICE PH: +1/574.295.3327 • FAX: +1/574.295.3455 www.nibco.com 19 AHEAD OF THE FLOW ® www.nibco.com Revised 6/7/2012 BlazeMaster ® is a registered trademark of The Lubrizol Corporation. CeMeNT aNd aCCessORies solvent Cement Fig. NO. siZe desCRiPTiON LBs./Case 5097Q Quart NIBCO FP-1000 One Step Cement 27 5097P Pint NIBCO FP-1000 One Step Cement 14 C5097Q Quart NIBCO FP-1000 One Step Cement 27 Canada compliant label C5097P Pint NIBCO FP-1000 One Step Cement 14 Canada compliant label BlazeMaster® Fire Protection Fittings – aCCessORies empty Can Fig. NO. siZe desCRiPTiON LBs./Case 5098Q Quart Empty Can Quart 3 5098P Pint Empty Can Pint 2 5098G Gallon Empty Can Gallon 5 Brush Fig. NO. siZe desCRiPTiON LBs./Case 5096 NA Brush BP-1 11 Roller Fig. NO. siZe desCRiPTiON LBs./Case 5097 NA Roller 6020 4 dauber Fig. NO. siZe desCRiPTiON LBs./Case 5093S Small Dauber CM-75 (for pipe sizes 3/4" - 1-1/4") 2 5093L Large Dauber CM-150 (for pipe sizes 1-1/4" - 3") 2 Note: Pint can lid is the correct size dauber for 3/4" through 1-1/4" pipe and fitting assembly; quart can lid is the correct size dauber for 1-1/2" through 3" pipe and fittings. NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.888.336.4226 • INTERNATIONAL OFFICE PH: +1/574.295.3327 • FAX: +1/574.295.3455 www.nibco.com 23 AHEAD OF THE FLOW ® www.nibco.com Revised 6/7/2012 BlazeMaster ® is a registered trademark of The Lubrizol Corporation. Review – do's & don'ts do’s • Installation should be made only by a qualified installer or contractor in accordance with all applicable codes and requirements. • Read and follow the installation instructions. • Follow recommended safe work practices. • Make certain that thread sealants, gasket lubricants, or firestop materials are compatible with CPVC. • Keep pipe and fittings in original packaging until needed. • Cover pipe and fittings with an opaque tarp if stored outdoors. • Follow proper handling procedures. • Use tools specifically designed for use with plastic pipe and fittings. • Use the proper solvent cement and follow application instructions. • Use a drop cloth to protect interior finishes. • Cut the pipe ends square. • Deburr and bevel the pipe end with a chamfering tool. • Rotate the pipe 1/4 turn when bottoming pipe in fitting socket. • Make certain no solvent cement is on sprinkler head and adapter threads. • Make certain that solvent cement does not run and plug the sprinkler head orifice. • Follow the manufacturer’s recommended cure times prior to pressure testing. • Fill lines slowly and only at a proper pressure. • Bleed the air from the system prior to pressure testing. • Support sprinkler head properly to prevent lift up of the head through the ceiling when activated. • Keep threaded rod within 1/16” of the pipe or use a surge arrestor. • Install NIBCO® BlazeMaster ® CPVC Fire Sprinkler Products in wet systems only. • Use only insulation and/or glycerin and water solutions for freeze protection. • Allow for movement due to expansion and contraction. • Ensure installers have been properly trained per the NIBCO BlazeMaster ® CPVC Fire Sprinkler System Installation and Design Manual and renew your training every three years at a minimum. don’ts • Do not use edible oils as a gasket lubricant. • Do not use petroleum or solvent-based sealants, lubricants, or fire stop materials. • Do not use any glycol-based solutions as an anti-freeze. • Do not contaminate the CPVC system with cutting oils or compressor oils. • Do not mix glycerin and water solutions in contaminated containers. • Do not use solvent cement that exceeds its shelf life or has become discolored or jellied. • Do not allow solvent cement to plug the sprinkler head orifice. • Do not connect rigid metal couplers to CPVC grooved adapters. • Do not thread or groove CPVC pipe. • Do not use solvent cement near sources of heat, open flame, or when smoking. • Do not pressure test with air. • Do not pressure test until recommended cure times are met. • Do not exceed proper pressure for testing. • Do not use ratchet cutters below 50°F. • Do not use CPVC pipe that has been stored outdoors, unprotected and is faded in color. • Do not allow threaded rod to come in contact with the pipe. • Do not install NIBCO BlazeMaster ® CPVC Fire Sprinkler Products in cold weather without allowing for expansion. • Do not install NIBCO BlazeMaster ® CPVC Fire Sprinkler Products in dry systems. • Do not allow puddling of cement in fittings and pipe. • Do not use dull or broken cutting tool blades when cutting pipe. NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.888.336.4226 • INTERNATIONAL OFFICE PH: +1/574.295.3327 • FAX: +1/574.295.3455 www.nibco.com 24 AHEAD OF THE FLOW ® www.nibco.com Revised 6/7/2012 BlazeMaster® is a registered trademark of The Lubrizol Corporation. NiBCO sPeaRs TYCO Fig. NO. siZe Fig. NO. Fig. NO. NiBCO sPeaRs TYCO Fig. NO. siZe Fig. NO. Fig. NO. 5001-G 1-1/4" 4233-012 80160 5001-G 1-1/2" 4233-015 80161 5001-G 2" 4233-020 80162 5001-G 2-1/2" 4233-025 80163 5001-G 3" 4233-030 80164 5018 1"x3/4" 4237-131 80200 5018 1-1/4"x1" 4237-168 80202 5018 1-1/4"x3/4" 4237-167 80201 5018 1-1/2"x1-1/4" 4237-212 80205 5018 1-1/2"x1" 4237-211 80204 5018 1-1/2"x3/4" 4237-210 80203 5018 2"x1-1/2" 4237-251 80209 5018 2"x1-1/4" 4237-250 80208 5018 2"x1" 4237-249 80207 5018 2"x3/4" 4237-248 80206 5018 2-1/2"x2" 4237-292 80211 5018 2-1/2"x1-1/2" 4237-291 80213 5018 2-1/2"x1-1/4" 4237-290 80214 5018 2-1/2"x1" N/A 80215 5018 3"x2-1/2" 4237-339 80212 5018 3”x2” 4237-338 80210 5018 3"x1-1/2" N/A N/A 5017 3/4" 4247-007 80100 5017 1" 4247-010 80101 5017 1-1/4" 4247-012 80102 5017 1-1/2" 4247-015 80103 5017 2" 4247-020 80104 5017 2-1/2" 4247-025 80105 5017 3" 4247-030 80106 5001 3/4" 4229-007 80075 5001 1" 4229-010 80076 5001 1-1/4" 4229-012 80077 5001 1-1/2" 4229-015 80078 5001 2" 4229-020 80079 5001 2-1/2" 4229-025 80080 5001 3" 4229-030 80081 5001-R 1"x3/4" 4229-131 80220 5001-R 1-1/4"x1" 4229-168 N/A 5001-R 1-1/2"x3/4" 4229-210 N/A 5001-R 1-1/2"x1" 4229-211 N/A 5001-R 1-1/2"x1-1/4" 4229-212 N/A 5001-R 2"x1" 4229-249 N/A 5001-R 2"x1-1/2" 4229-251 N/A 5035 3/4" 4220-007 80009 5035 1" 4220-010 80010 5035 1-1/4" 4220-012 80011 5035 1-1/2" 4220-015 80012 5035 2" 4220-020 80013 5035 2-1/2" 4220-025 80014 5035 3" 4220-030 80008 5035-R 1"x3/4"x1"x3/4" 4220-131 80015 5006 3/4" 4217-007 80050 5006 1" 4217-010 80051 5006 1-1/4" 4217-012 80052 5006 1-1/2" 4217-015 80053 5006 2" 4217-020 80054 5006 2-1/2" 4217-025 80055 5006 3" 4217-030 80056 5007 3/4" 4206-007 80025 5007 1" 4206-010 80026 5007 1-1/4" 4206-012 80027 5007 1-1/2" 4206-015 80028 5007 2" 4206-020 80039 5007 2-1/2" 4206-025 80030 5007 3" 4206-030 80031 5007-R 1"x3/4" 4206-131 80032 5019-H 3/4" 4253-007 N/A 5019-H 1" 4253-010 N/A 5019-H 1-1/4" 4253-012 N/A 5019-H 1-1/2" 4253-015 N/A 5019-H 2" 4253-020 N/A 5019-H 2-1/2" 4253-025 N/A 5019-H 3" 4253-030 N/A 5051-A 3" 4254-030 N/A 5051-2-A 3" 4256-030 N/A 5051-H 3/4" 4251-007 N/A 5051-H 1" 4251-010 N/A 5051-H 1-1/4" 4251-012 N/A 5051-H 1-1/2" 4251-015 N/A 5051-H 2" 4251-020 N/A 5051-H 2-1/2" 4251-025 N/A 5051-H 3" N/A N/A 5011 3/4" 4201-007 8000 5011 1" 4201-010 8001 5011 1-1/4" 4201-012 8002 5011 1-1/2" 4201-015 8003 5011 2" 4201-020 80004 5011 2-1/2" 4201-025 8005 5011 3" 4201-030 80006 5011-R 3/4"x3/4"x1" 4201-102 80132 5011-R 1"x1"x3/4" 4201-131 80260 5011-R 1"x3/4"x1" 4201-126 80134 CPVC Cross Reference sheet sTaNdaRd FiTTiNgs sTaNdaRd FiTTiNgs adaPTeRBUshiNgsCaPsCOUPLiNgsCROssesCROsseseLBOWsFLaNgesTees NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.888.336.4226 • INTERNATIONAL OFFICE PH: +1/574.295.3327 • FAX: +1/574.295.3455 www.nibco.com 25 AHEAD OF THE FLOW ® www.nibco.com Revised 6/7/2012 BlazeMaster ® is a registered trademark of The Lubrizol Corporation. 5003-S-BT 1”x1/2” N/A N/A 5003-BI-BSP 1” N/A N/A 5003-BI-BSP 1-1/4” N/A N/A 5003-BI-BSP 1-1/2” N/A N/A 5003-BI-BSP 2” N/A N/A 5004-BI 3/4" N/A 80157 5004-BI 1" N/A 80158 5004-BI 1-1/4" N/A N/A 5004-BI 1-1/2" N/A N/A 5004-BI 2" N/A N/A 5018-S-BI 1”x1/2” 4238-130BR N/A 5035-3-S-BI-S 1"x1"x1/2"x1/2" N/A 80462 5035-3-S-BI-L 1"x1"x1/2"x1/2" N/A 80463 5007-3-S-BI 3/4"x1/2" 4207-101 80199 5007-3-S-BI 1"x1/2" 4207-130 80198 5007-3-S-BI 1"x3/4" 4207-131 N/A 5007-3-S-BI 1-1/4"x1/2" 4207-166 N/A 5011-3-3-S-BI-S 1/2"x1/2"x1" N/A 80460 5011-3-3-S-BI-L 1/2"x1/2"x1" N/A 80459 5012-S-BI 1" 4202-010 N/A 5012-S-BI 3/4"x3/4"x1/2" 4202-101 80250 5012-R-S-BI 1"x3/4"x1/2" 4202-124 N/A 5012-S-BI 1"x1"x1/2" 4202-130 80251 5012-R-S-BI 1"x1/2"x1" 4203-122 N/A 5012-R-S-BI 1-1/4"x1"x1/2" 4202-156 80256 5012-S-BI 1-1/4"x1-1/4"x1/2" 4202-166 80252 5012-R-S-BI 1-1/2"x1-1/4"x1/2" 4202-199 80257 5012-S-BI 1-1/2"x1-1/2"x1/2" 4202-209 80254 5012-S-BI 2"x2"x1/2" 4202-247 80253 5012-R-S-BI 2"x1-1/2"x1/2" 4202-237 80258 450-005 1/2" 4250-005 N/A Revised 7/1/2010AHEAD OF THE FLOW ® www.nibco.com Revised 6/7/2012 5011-R 1"x3/4"x3/4" 4201-125 80133 5011-R 1-1/4"x1-1/4"x1" 4201-168 80262 5011-R 1-1/4"x1-1/4"x3/4" 4201-167 80261 5011-R 1-1/4"x1"x1-1/4" 4201-159 80137 5011-R 1-1/4"x1"x1" 4201-158 80136 5011-R 1-1/4"x1"x3/4" 4201-157 80135 5011-R 1-1/4"x1-1/4"x1-1/2" 4201-169 80138 5011-R 1-1/2"x1-1/2"x1-1/4" 4201-212 80275 5011-R 1-1/2"x1-1/2"x1" 4201-211 80264 5011-R 1-1/2"x1-1/2"x3/4" 4201-210 80263 5011-R 1-1/2"x1-1/4"x1" 4201-202 80140 5011-R 1-1/2"x1-1/4"x3/4" 4201-201 80140 5011-R 1-1/2"x1-1/2"x2" 4201-213 N/A 5011-R 2"x2"x1-1/2" 4201-251 80274 5011-R 2"x2"x1-1/4" 4201-250 80267 5011-R 2"x2"x1" 4201-249 80266 5011-R 2"x2"x3/4" 4201-248 80265 5011-R 2-1/2"x2-1/2"x2" 4201-292 80276 5011-R 2-1/2"x2-1/2"x1-1/2" 4201-291 80273 5011-R 2-1/2"x2-1/2"x1-1/4" 4201-290 80272 5011-R 2-1/2"x2-1/2"x1" 4201-289 80271 5011-R 3"x3"x2-1/2" 4201-339 80269 5011-R 3"x3"x2" 4201-338 80268 5011-R 3"x3"x1-1/2" 4201-337 80270 5033-E 3/4" 4257-007 N/A 5033-E 1" 4257-010 N/A 5033-E 1-1/4" 4257-012 N/A 5033-E 1-1/2" 4257-015 N/A 5033-E 2" 4257-020 N/A 5003-BI 3/4" 4235-007 80142 5003-BI 1" 4235-010 80145 5003-BI 1-1/4" 4235-012 80146 5003-BI 1-1/2" 4235-015 80147 5003-BI 2" 4235-020 80148 5003-2-BI 3/4" 4278-007 N/A 5003-2-BI 1" 4278-010 N/A 5003-S-BI 3/4"x1/2" 4235-101 80175E or 80175W 5003-S-BI 1"x1/2" 4235-130 80176E or 80175W 5003-S-BI 1"x3/4" 4235-131 80179 5003-2-S-BI 3/4"x1/2" 4238-101 N/A 5003-2-S-BI 1"x1/2" 4238-130 N/A 5003-S-BT 3/4”x1/2” N/A N/A NiBCO sPeaRs TYCO Fig. NO. siZe Fig. NO. Fig. NO. NiBCO sPeaRs TYCO Fig. NO. siZe Fig. NO. Fig. NO. NiBCO sPeaRs TYCO Fig. NO. siZe Fig. NO. Fig. NO. CPVC Cross Reference sheet sTaNdaRd FiTTiNgs ThReaded FiTTiNgs ThReaded FiTTiNgsTeesUNiONs adaPTeRsadaPTeRseLBOWsCROssesTeesTesTPLUg NIBCO INC. WORLD HEADQUARTERS • 1516 MIDDLEBURY ST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECH SERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONAL OFFICE PH: +1.219.295.3221 • FAX: +1.219.295.3455 www.nibco.com 26 www.nibco.com AHEAD OF THE FLOW ®Revised 6/7/2012 NIBCO INC. LIMITED WARRANTY Applicable to NIBCO INC. CPVC Fire Protection Plastic Fittings NIBCO INC. warrants each NIBCO ® BlazeMaster® Fire Protection CPVC plastic fitting to be free from defects in materials and workmanship under normal use and service for a period of ten (10) years from date of purchase. In the event any defect occurs which the owner believes is covered by this warranty, the owner should immediately contact NIBCO Technical Services, either in writing or by telephone at 1.888.446.4226 or 1.574.295.3000. The owner will be instructed to return said product, at the owner’s expense, to NIBCO INC., or an authorized representative for inspection. In the event said inspection discloses to the satisfaction of NIBCO INC. that said fitting or valve is defective, a replacement shall be mailed free of charge to the owner, and NIBCO INC. shall further pay the installing contractor the sum of ten ($10.00) dollars to apply on the cost of installation of said replacement fitting. TO THE EXTENT PERMITTED BY LAW, THIS WARRANTY SPECIFICALLY EXCLUDES INCIDENTAL AND CONSEQUENTIAL DAMAGES OF EVERY TYPE AND DESCRIPTION RESULTING FROM ANY CLAIMED DEFECT IN MATERIAL OR WORKMANSHIP, INCLUDING BUT NOT LIMITED TO, PERSONAL INJURIES AND PROPERTY DAMAGES. Some states or countries do not allow the exclusion or limitation of incidental or consequential damages so these limitations may not apply to you. TO THE EXTENT PERMITTED BY LAW, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE LIMITED IN DURATION. This warranty gives you specific legal rights, and you may also have other rights which vary from state to state and country to country. BlazeMaster ® is a registered trademark of The Lubrizol Corporation. To the best of our knowledge, the information contained in this publication is accurate. However, NIBCO does not assume any liability whatsoever for the accuracy or completeness of such information. Final determinations of the suitability of any information or product for the use to be contemplated is the sole responsibility of the user. The manner of that use, and whether there is any infringement of patents, is also the sole responsibility of the user. 10years State quantity, figure number and size for each valve or fitting you wish to order. See individual catalog pages for specific or special product designations. HOW MANY TO ORDER NIBCO ® valves and fittings are decimal packed for your convenience in handling, shipping and stock- keeping. Number in master carton varies with item. POLICY ON RETURNS TO FACTORY No NIBCO valves and fittings are to be returned with- out prior written agreement. Transportation must be prepaid. A 20% charge will be made to cover cost of rehandling and reinspection. TECHNICAL ASSISTANCE Engineers, contractors, wholesalers or manufacturers may obtain special or technical assistance from any factory representative of NIBCO. Write, fax or phone. NIBCO INC. World Headquarters 1516 Middlebury Street Elkhart, IN 46516-4740 USA PH: 1.574.295.3000 or 1.888.446.4226 FAX: 1.574.295.3307 or 1.888.336.4226 How to Order NIBCO ® BlazeMaster ® Warranty www.Tyco-Fire.com Installation Instructions & Technical Handbook IH-1900APRIL 2016 Copyright © 2016 Tyco Fire Products, LP. All rights reserved. 2 TABLE OF CONTENTS GENERAL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Advantages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Training and Demonstration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 TRADEMARKS APPEARING IN THIS MANUAL . . . . . . . . . . . . . . . . . . .5 LISTINGS/APPROVALS (WHERE TO USE) . . . . . . . . . . . . . . . . . . . . . . .7 Underwriters Laboratories Inc . (UL) and Underwriters Laboratories Inc . (C-UL) For Use In Canada . . . . . . .7 Concealed Installations (UL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Concealed Installations (C-UL) . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Exposed Installation - General (UL & C-UL) . . . . . . . . . . . . . . . . . .8 Smooth, Flat, Horizontal, Fixed Ceilings - Exposed Installations (UL & C-UL) . . . . . . . . . . . . . . . . . . . . . . . . .8 Unfinished Basements - Exposed Installations . . . . . . . . . . . . . .10 Residential Dry Pipe Systems (UL) . . . . . . . . . . . . . . . . . . . . . . . .15 Air Plenums (UL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Garage Installations (UL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 System Risers (UL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Underground Water Pressure Service (UL & C-UL) . . . . . . . . . .19 Outdoor Installations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Concealed Installations (FM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Exposed Installations - Smooth, Flat, Horizontal Ceilings (FM) . . . . . . . . . . . . . . . . . . . . .23 System Risers (FM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24 Additional Approvals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 Ordinary Hazard Installations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 TECHNICAL DATA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27 TYCO CPVC Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27 Pipe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27 Fittings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28 Solvent Cement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28 Product Ratings and Capabilities . . . . . . . . . . . . . . . . . . . . . . . . . . .28 Ambient Temperature and Heat Sources . . . . . . . . . . . . . . . . . . .28 Pressure Rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28 Friction Loss . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29 Thermal Expansion – U .S . Units . . . . . . . . . . . . . . . . . . . . . . . . . . .30 Thermal Expansion – Metric Units . . . . . . . . . . . . . . . . . . . . . . . . .32 Physical and Thermal Properties . . . . . . . . . . . . . . . . . . . . . . . . . . .43 Permissible Bending Deflections . . . . . . . . . . . . . . . . . . . . . . . . . .43 Support and Hanger Requirements . . . . . . . . . . . . . . . . . . . . . . . . .48 Pipe Bracing with Standard Band Hanger . . . . . . . . . . . . . . . . . .49 Hanger/Support Spacing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .49 Vertical Restraint . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50 Chemical Compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52 Paint . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52 3TABLE OF CONTENTS Handling & Storage of TYCO CPVC . . . . . . . . . . . . . . . . . . . . . . . . . .54 Handling - Pipe and Fittings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54 Storage - Pipe & Fittings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54 Handling - Solvent Cements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55 Storage - Solvent Cements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55 Solvent - Cement Spills . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55 Joining CPVC Pipe and Fittings with One-Step Solvent Cement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Estimating Cement Requirements . . . . . . . . . . . . . . . . . . . . . . . . .56 De-burring and Beveling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .57 Solvent Cement Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .57 Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59 Set and Cure Times . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59 System Acceptance Testing (Hydrostatic Pressure Test) . . . . .61 Limited Pressurized Air or Nitrogen Testing Allowance . . . . . . .61 Joining Pipe and Fittings in Adverse Conditions . . . . . . . . . . . . . .62 In Cold Weather . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62 Transition to Other Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .63 Threaded Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .64 Grooved Coupling Adapter Connections . . . . . . . . . . . . . . . . . . .64 Penetrating Fire Rated Walls & Partitions . . . . . . . . . . . . . . . . . . . .65 Freeze Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .66 Use of Dry Type Sprinklers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .66 Use and Cautions with Glycerin Antifreeze . . . . . . . . . . . . . . . . .66 Batt Insulation Requirements and Suggestions . . . . . . . . . . . . .67 Batt Insulation Installation Recommendations . . . . . . . . . . . . . .67 Cut-in Procedure for System Modification and Repair . . . . . . . . . 68 VISIT WWW .TYCO-FIRE .COM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .71 APPENDIX A - PIPE FITTINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72 APPENDIX A - PIPE FITTINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73 APPENDIX B - DO’S AND DON’TS . . . . . . . . . . . . . . . . . . . . . . . . . . . . .88 IMPORTANT INFORMATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .90 Important Information with Regards to Your TYCO CPVC Fire Sprinkler System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .90 Notification to Jobsite Building Trades . . . . . . . . . . . . . . . . . . . . . .91 4 GENERAL DESCRIPTION INTRODUCTION This Installation Handbook refers to TYCO CPVC Pipe and Fittings produced by TYCO Fire Protection Products (TFPP). TYCO CPVC Pipe and Fittings are produced using BlazeMaster CPVC compound. When reference to NFPA Standards is made in this Installation Handbook, the current edition of the relevant code is used. This Installation Handbook contains the criteria for installation (including system design, handling, and storage) of BlazeMaster CPVC piping systems in accordance with the applicable Listing/Approval agencies . Additionally, this handbook contains general piping practices and other installation suggestions that may not be required to satisfy the applicable Listing/Approval agencies. To differentiate between a requirement and a suggestion, use the following definitions: SHALL or MUST – The use of the words “shall” or “must” indicates a mandatory requirement of the Listings/Approvals. SHOULD or MAY – The use of the words “should” or “may” indicates a recommendation that is strongly advised, but not required to meet the Listings/Approvals. This handbook is intended as a supplement to basic, fundamental knowledge relating to the installation and/or repair of CPVC fire sprinkler systems. Before commencing installation, a user should understand this Installation Handbook and confirm applicable National Fire Protection Association (NFPA) standards, the National Building Code of Canada (as applicable), and local approval and installation requirements for CPVC fire sprinkler systems. NOTICE The TYCO CPVC Pipe and Fittings described herein must be installed and maintained in compliance with this Installation Handbook and with the applicable standards of the National Fire Protection Association, in addition to the standards of any authorities having jurisdiction. Failure to do so may impair the performance of the TYCO CPVC Pipe and Fittings. The owner is responsible for maintaining their fire protection system and devices in proper operating condition. The installing contractor or product manufacturer should be contacted with any questions. It is the designer’s responsibility to select products suitable for the intended service and to ensure that pressure ratings and performance data are not exceeded. Material selection should be verified to be compatible for the specific application. Designers and Installers must read and understand the installation instructions in this handbook. Never remove any piping component or modify any piping deficiencies without first depressurizing and draining the system. WARNING Never use compressed air or nitrogen in lieu of or to replace the required hydrostatic system acceptance testing. Any pre-testing performed with low pressure air or nitrogen should follow the recommendations on p. 61. System failure when using high-pressure compressed air or nitrogen may result in property damage, serious injury, or death. 5GENERAL DESCRIPTION ADVANTAGES TYCO CPVC Pipe and Fittings are designed specifically for fire sprinkler systems and provide the following advantages over traditional sprinkler piping systems: • Increased hydraulic capabilities (C-Factor =150) • No pre-cutting and expensive fabrication required • Pipe/Fittings (slip style only) - NSF-pw listed for use in pressure rated potable water piping systems • Can easily be connected to other sprinkler piping systems • Flexibility in the piping for greater ease of installation • Resistant to rust, scale, and foreign contaminant build up • Inexpensive tools required for installation • Easily repaired or modified on site • Easily transported and handled • Resists sweating and condensation TRAINING AND DEMONSTRATION TYCO Fire Protection Products (TFPP) strongly recommends that installers receive hands on demonstration in the proper procedure(s) for installation of BlazeMaster fire sprinkler systems. On-site demonstration in proper pipe preparation, solvent cementing, proper handling of CPVC and installation instruction are available from TFPP at no charge. Upon completion of the TYCO demonstration program, TFPP will issue a completion card to the persons successfully finishing the required subject matter. This card is to be carried when working on TYCO CPVC systems. For information about on-site demonstration, contact your local TFPP Distribution Center or your TFPP sales representative. TRADEMARKS APPEARING IN THIS MANUAL TYCO ...............registered trademark of Tyco Fire Protection Products HEAD SET ...........registered trademark of Tyco Fire ProtectionProducts BlazeMaster ..............registered trademark of The Lubrizol Corporation Caulk and Walk . . . . . . . . . . .registered trademark of The Lubrizol Corporation SOFFI-STEEL . . . . . . . . . . . . . . . . . . registered trademark of Grice Engineering TEFLON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . registered trademark of Dupont OATEY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . registered trademark of Oatey GREAT WHITE . . . . . . . . . . . . . . . . . . . . . . . . . . . registered trademark of Oatey CRISCO . . . . . . . . . . . . . . . . . . . . . . registered trademark of J.M. Smucker Co. FBC System Compatible Program . . . . . . . . . . . . . . . . .registered trademark of The Lubrizol Corporation General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 6 GENERAL DESCRIPTION THIS PAGE INTENTIONALLY LEFT BLANK 7LISTINGS AND APPROVALS LISTINGS/APPROVALS (WHERE TO USE) For verification of Listings and Approvals, consult the current UL Fire Protection Equipment Directory, C-UL Products Certified for Canada Directory, Factory Mutual Research Approval Guide, or LPCB List of Approved Fire Security Products and Services Guide. TYCO Fire Protection Products manufactures CPVC pipe and fittings using Lubrizol’s BlazeMaster compound as a licensee of The Lubrizol Corporation. UNDERWRITERS LABORATORIES INC . (UL) AND UNDERWRITERS LABORATORIES INC . (C-UL) FOR USE IN CANADA TYCO CPVC Pipe and Fittings are UL and C-UL Listed for use in: • Light Hazard and residential occupancies as defined in the Standard for Installation of Sprinkler Systems, NFPA 13 • Residential occupancies as defined in the Standard for the Installation of Sprinkler Systems in Low-Rise Residential Occupancies up to Four Stories in Height, NFPA 13R • Residential occupancies as defined in the Standard for Installation of Sprinkler Systems in One and Two Family Dwellings and Manufactured Homes, NFPA 13D • Air plenums, as defined by the Installation of Air Conditioning and Ventilating Systems, NFPA 90A • Underground Water Pressure Service, NFPA 24 • System risers in accordance with NFPA 13, 13R, and 13D • See UL Fire Protection Equipment Directory, categories VIWT and HFYH. • See C-UL Products Certified for Canada Directory, categories VIWT7 and HFYH7. TYCO Fire Sprinkler Systems shall be employed in wet-pipe systems only. (A wet pipe system contains water or water and glycerin (anti-freeze solution) and is connected to a water supply so that the water or water and glycerin (anti-freeze solution) will discharge immediately when a sprinkler is opened.) National Fire Protection Association Standards 13, 13R, 13D and NFPA 24, in addition to the standards of any other authorities having jurisdiction, must be referenced and followed for design and installation requirements in conjunction with this installation handbook. Concealed Installations (UL) • In accordance with the UL Listing, protection shall be provided for TYCO CPVC Pipe and Fittings. The minimum protection shall consist of either one layer of 3/8 inch (9,5 mm) thick gypsum wallboard, 1/2 inch (12,7 mm) plywood soffits, or a suspended membrane ceiling with lay-in panels or tiles having a weight of 0.35 pounds per sq. ft. (1,7 kg per sq. meter) when installed with metallic grids. For residential occupancies defined in NFPA 13D and 13R, the minimum protection may consist of one layer of 1/2 inch (12,7 mm) plywood.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 8 LISTINGS AND APPROVALS Listed Quick Response, standard or extended coverage, 225°F (107°C) maximum temperature rated sprinkler or Listed Residential 225°F (107°C) maximum temperature rated sprinkler located in accordance with its Listing may be used. Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. Concealed Installations (C-UL) • In accordance with the C-UL Listing, protection shall be provided for TYCO CPVC Pipe and Fittings. The minimum protection shall consist of either one layer of 9,5 mm thick gypsum wallboard, one layer of 13 mm plywood, or a suspended membrane ceiling with lay-in panels or tiles classified with respect to surface burning characteristics having a mass of not less than 1,7 kg/m2 when installed with metallic grids. The effectiveness of this protection can be impaired if penetrated by large openings such as ventilation grills, exhaust fans connected to metal ducts serving washrooms excepted. Where such penetration is present, individual openings exceeding 0,03 m2 but not exceeding 0,71 m2 in area must be located such that the distance from the edge of the opening to the nearest sprinkler does not exceed 300 mm. In these cases any Quick or Standard Response, 107°C maximum temperature rated sprinkler or Listed Residential 107°C maximum temperature rated sprinkler located in accordance with its Listing may be used. TYCO CPVC Pipe and Fittings shall not be used where such openings exceed 0.71 m2 in area. Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. Exposed Installation - General (UL & C-UL) In accordance with the UL and C-UL Listings, TYCO CPVC Pipe and Fittings may be installed without protection (exposed), subject to the following additional limitations: Note: NFPA standards permit the omission of automatic sprinklers in ar- eas such as small closets and bathrooms. Where sprinklers are not re- quired, and when approved by the authority having jurisdiction, it is ac- ceptable to install BlazeMaster® products exposed in these areas. Note: Where piping is required to be mounted directly to the ceiling/wall, the use of listed hangers for thermoplastic sprinkler piping mounted di- rectly to the ceiling/wall is permitted. The resulting clearance between the pipe and the ceiling/wall as a function of using the listed hanger is acceptable. Smooth, Flat, Horizontal, Fixed Ceilings - Exposed Installations (UL & C-UL) • Standard Coverage Sprinklers - Pendent Sprinklers shall be Listed, Quick Response, 170°F (77°C) maximum temperature rated, sprinklers having deflectors installed within 8 inches (203,2 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 15 feet (4,6 m). Piping shall be mounted directly to the ceiling. 9LISTINGS AND APPROVALS - Upright Sprinklers shall be Listed, Quick Response, 155°F (68°C) maximum temperature rated, installed within 4 inches (101,6 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 15 feet (4,6 m). The maximum distance from the ceiling to the centerline of the main run of pipe shall not exceed 7-1/2 inches (190,5 mm). The distance from the centerline of the sprinkler to the closest hanger shall be 3 inches (76,2 mm). - Horizontal Sidewall Sprinklers shall be Listed, Quick Response, 200°F (93°C) maximum temperature rated, having deflectors within 12 inches (305,0 mm) of the ceiling and within 6 inches (152,4 mm) of the side wall. The maximum distance between sprinklers shall not exceed 14 feet (4,3 m). Piping shall be mounted directly to the side wall. - Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. • Extended Coverage Sprinklers - Pendent Sprinklers shall be Listed, Quick Response, 155°F (68°C) maximum temperature rated, having deflectors installed within 8 inches (203,2 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 20 feet (6,1 m) with an application density of at least 0.1 gpm/sq.ft (4,1 mm/min). Piping shall be mounted directly to the ceiling. - Horizontal Sidewall Sprinklers shall be Listed, Quick Response, 165°F (74°C) maximum temperature rated, having deflectors within 12 inches (305,0 mm) of the ceiling and within 6 inches (152,4 mm) of the side wall. The maximum lateral distance between sprinklers shall not exceed 18 feet (5,5 m) with an application density of at least 0.1 gpm/ft2 (4,1 mm/ min). Piping shall be mounted directly to the side wall. - Horizontal Sidewall Sprinklers shall be Listed, Quick Response, 175°F (79°C) maximum temperature rated, having deflectors within 12 inches (305,0 mm) of the ceiling and within 6 inches (152,4 mm) of the side wall. The maximum lateral distance between sprinklers shall not exceed 16 feet (4,9 m) with an application density of at least 0.1 gpm/ft2 (4,1 mm/ min). Piping shall be mounted directly to the side wall. - When using fittings 1-1/2 inches (DN40) and larger only Schedule 80 fittings may be used. - Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. • Residential Sprinklers - Pendent Sprinklers when the maximum lateral distance between sprinklers is 15 feet (4,6 m) or less. Sprinklers shall be Listed 170°F (77°C) maximum temperature rated, having deflectors located in accordance with their Listing and not exceeding 8 inches (203,2 mm) from ceiling. The demand for the sprinklers shall be the minimum flow rates indicated in individual listing. Piping shall be mounted directly to the ceiling. - Pendent Sprinklers when the maximum lateral distance between sprinklers exceeds 15 feet (4,6 m) but does not exceed 20 feet (6,1 m). Sprinklers shall be Listed 155°F (68°C) maximum temperature rated, having deflectors located in accordance with their Listing and General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 10 LISTINGS AND APPROVALS not exceeding 8 inches (203,2 mm) from ceiling. The demand for the sprinklers shall be the greater of either the minimum flow rates indicated in individual listing or calculated based on delivering a minimum of 0.1 gpm/sq.ft. (4,1 mm/min) over the design area in accordance with the provisions of NFPA 13:(2007) Section 11.3.1.2. Piping shall be mounted directly to the ceiling. - Horizontal Sidewall Sprinklers when the maximum lateral distance between sprinklers is 14 feet (4,3 m) or less. Sprinklers shall be Listed 200°F (93°C) maximum temperature rated having deflectors located in accordance with their Listing. The demand for the sprinklers shall be the minimum flow rates indicated in individual listing. Piping shall be mounted directly to the side wall. - Horizontal Sidewall Sprinklers when the maximum lateral distance between sprinklers exceeds 14 feet (4,3 m) but does not exceed 18 feet (5,5 m). Sprinklers shall be Listed 165°F (74°C) maximum temperature rated having deflectors 12 inches (305,0 mm) from ceiling and within 6 inches (152,4 mm) of the wall. The demand for the sprinklers shall be the greater of the minimum flow rates indicated in individual listing or calculated based on delivering a minimum of 0.1 gpm/sq.ft (4,1 mm/ min) over the design area in accordance with the provisions of NFPA 13:(2007) Section 11.3.1.2. The maximum sprinkler area of coverage shall not exceed 18 x 18 feet (5,5 m x 5,5 m). Piping shall be mounted directly to the side wall. - When applying criteria having a minimum 0.1 gpm/sq.ft (4,1 mm/min), Schedule 80 fittings must be used when sizes are 1-1/2 inch (DN40) and larger. - Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. Unfinished Basements - Exposed Installations Solid and Composite Wood Joists (UL and C-UL) TYCO CPVC Pipe and Fittings may be installed without protection (exposed) in unfinished basements in accordance with NFPA 13D when subject to the following additional limitations: • The ceiling shall be horizontal and constructed utilizing solid wood joists or composite wood joists with a nominal depth of 12 inches (305,0 mm) or less on maximum 24 inch (609,6 mm) centers. • The distance from the floor to the bottom of the joists shall be between 7 and 10 feet (2,1 m and 3,0 m). • Listed residential pendent sprinklers with a maximum temperature rating of 155°F (68°C) and a minimum K-factor of 4.9 are to be used for this type of installation. The maximum sprinkler spacing shall not exceed 16 feet (4,9 m). The maximum sprinkler coverage area is to be 16 feet (4,9 m) by 14 feet (4,3 m) spaced with the 16 foot (4,9 m) dimension along the joists and the 14 foot (4,3 m) dimension across the joists. Lesser areas are also permitted. The system is to be designed based upon the Listed flows for the sprinkler selected except that the flow for a single sprinkler or for multiple sprinklers flowing is to be not less than 13 gpm (49,2 lpm) per sprinkler. The 11LISTINGS AND APPROVALS sprinklers are to be installed with their deflectors a maximum of 1-3/4 inch below the bottom of the solid wood joists in anticipation of future installation of a finished ceiling. (reference NFPA 13D, Section 8.2.4, 2010 Edition) • All system mains shall be run perpendicular to the joists. All branch lines shall be run parallel to the joists. Schedule 80 fittings in the 1-1/2 inch and larger sizes shall be used. • All solvent cement joints shall be made with One Step Solvent Cement (TFP-500, BM-5, FP-1000, or TFP-401). • The maximum length along the joist shall not exceed 32 feet (9,8 m). When the length exceeds 32 feet (9,8 m), blocking shall be utilized. The blocking shall be constructed of minimum 1/2 inch (12,7 mm) plywood, minimum 3/8 inch (9,5 mm) gypsum wallboard or batt insulation with a minimum thickness of 3-1/2 inches (89 mm). These blocking materials shall be the full depth of the joists. When batt insulation is used as blocking, it must be a single piece of insulation. The insulation must be secured in place with metal wire netting which must encase the insulation on both of the exposed sides. The metal wire netting is required to hold the insulation in place and prevent it from being dislodged or repositioned over time. It is acceptable for items such as piping, wires, ducts, etc. to penetrate the blocking. The gap between the item penetrating the blocking and the blocking should be minimized. For installations where the gap exceeds 1/4 inch (6,4 mm), the gap shall be filled with insulation, caulking, or other suitable material. • When installing TYCO CPVC Pipe and Fittings perpendicular (system mains) to the joists, listed support devices for thermoplastic sprinkler piping or other listed support devices shall be used which mount the piping directly to the bottom of the joists. As an alternative to mounting the pipe and fittings below the joists, it may be acceptable to cut holes in the joists at or below the center of the depth of the joist for support. The holes should be oversized to allow for movement and located as to not impair the structural integrity of the joists. NOTICE When drilling holes in the joists, the structural integrity must be main- tained. Consult the authority having jurisdiction (AHJ) or building code for requirements. • When installing TYCO CPVC pipe and fittings parallel (branch lines) to the joists, the pipe and fittings shall be installed in the cavity below the bottom of the ceiling and above the bottom of the joist. The branch lines shall be located at or below the center of the depth of the joist. The pipe shall be installed utilizing listed support devices for thermoplastic sprinkler piping or other listed support devices which mount the piping directly to nominal 2 inch (50,8 mm) wood blocking or listed support devices for thermoplastic sprinkler piping that offset the pipe a nominal distance of 1-1/2 inches (38,1 mm) from the joists. Use of TYCO CPVC pipe and fittings is limited to basements where the quantity and combustibility of contents is low and fires with relatively low rates of heat release are expected. For additional information regarding the assembly and installation of TYCO CPVC pipe and fittings refer to the manufacturer’s installation instructions.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 12 LISTINGS AND APPROVALS 8'-0" (2,4 m) TO WALL OR BLOCKING (9,8 m) MAX. TO CENTER OF RISER (304,8 mm) TO PIPE (609,6 mm) FROM WALL TO EDGE OF (38,1 mm) 1" MIN. TO 2" MAX. RISER BRANCH MAIN (44,5 mm) MAX. or 2x12 2x10 MAX. 16'-0" (4,9 m) MAX. 14'-0" (4,3 m) MAX. 7'-0" (2,1 m) MAX. 1-3/4" 12" MAX. 2'-0" MAX. 1-1/2" MAX.32'-0" RISER SUPPORT 16" (406,4 mm) CENTERS Figure 1 - Unfinished Basement, Soild Wood Joists, Center Wall Riser with Center Room Main MAIN 8'-0" (2,4 m) BRANCH MAX.16'-0" (4,9 m) MAX. 14'-0" (4,3 m) MAX. 7'-0" (2,1 m) MAX. (44,5 mm) MAX. 1-3/4" FROM WALL TO EDGE OF (38,1 mm) 1-1/2" MAX. RISER 16" (406,4 mm) CENTERS 1" MIN. TO 2" MAX. RISER TO WALL OR BLOCKING (9,8 m) MAX. 32'-0" MAX. TO CENTER 12" (304,8 mm) OF RISER or 2x12 2x10 TO PIPE (609,6 mm) 2'-0" MAX. SUPPORT Figure 2 - Unfinished Basement, Soild Wood Joists, Center Wall Riser with Main at Wall 13LISTINGS AND APPROVALS Branches Supported with Blocking Branches Supported with Hangers DEPTH MAX. 1/2 JOIST 1-3/4" MAX. DEPTH MAX. 1/2 JOIST 1-3/4" MAX. Figure 5 - Unfinished Basement, Branch Line Support MAIN FROM WALL TO EDGE OF RISER 1-1/2" (38,1 mm) MAX. 1" MIN. TO 2" MAX. RISER BRANCH 16'-0" (4,9 m) MAX. 14'-0" (4,3 m) MAX. 7'-0" (2,1 m) MAX. (44,5 mm) MAX. 1-3/4" 16" (406,4 mm) CENTERS or 2x12 2x10 8'-0" (2,4 m) MAX. MAX. TO CENTER 12" (304,8 mm) OF RISER TO WALL OR BLOCKING (9,8 m) MAX. 32'-0" MAX. TO PIPE 2'-0" (609,6 mm) SUPPORT Figure 3 - Unfinished Basement, Soild Wood Joists, Riser in Corner 16" CENTERS JOIST CEILINGBLOCKING TO FULL DEPTH OF JOIST BLOCKING Figure 4 - Unfinished Basement, Soild Wood Joists, Blocking General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 14 LISTINGS AND APPROVALS • The instructions shown here for Unfinished Basements with Exposed Solid Wood Joists require the use of Schedule 80 fittings when sizes are 1-1/2 inches (DN40) and larger. Use of TYCO CPVC pipe and fittings is limited to basements where the quantity and combustibility of contents is low and fires with relatively low rates of heat release are expected. Combustible Concealed Spaces (UL) TYCO CPVC Pipe and Fittings are not approved for installation in combustible concealed spaces requiring sprinklers, as referenced in NFPA 13 unless protected by sprinklers specifically Listed for this application. Although NFPA 13R and 13D permit the omission of sprinklers from combustible concealed spaces, Tyco CPVC Pipe and Fittings can be installed in these areas when protecting residential occupancies according to these standards. For installations where sprinkler pipe runs through an attic space that requires sprinklers per NFPA, CPVC piping shall be protected in order to meet the requirements of its UL and C-UL Listings. Additionally, the authority having jurisdiction shall be consulted prior to any installation of CPVC in attic spaces requiring sprinklers. Protection methods and requirements may vary by jurisdiction and are subject to interpretation. • Special Use Sprinklers - Tyco Fire & Building Products Specific Application Attic Sprinklers - Product Description - In accordance with the UL Listing, the Tyco Fire & Building Products, Specific Application Sprinklers for Protecting Attics are designed to provide protection of specific light hazard combustible, as well as non-combustible, attic spaces requiring sprinkler protection. The Specific Application Sprinklers for Protecting Attics allow for the use of Tyco CPVC Pipe and Fittings within the attic space and to supply the wet system sprinklers below the ceiling provided the attic space is protected with Specific Application Sprinklers for Protecting Attics. - Installation Requirements - When using the Specific Application Sprinklers for Protecting Attics, reference Technical Data Sheet TFP610. • Special Use Sprinklers - Tyco Fire & Building Products Specific Application Model CC1, CC2, and CC3 Combustible Concealed Space Sprinklers - Product Description - In accordance with the UL Listing, the Tyco Fire Products Specific Application Model CC1, CC2 and CC3 Combustible Concealed Space Sprinklers are specific application sprinklers designed to provide protection of specific light hazard combustible, as well as non-combustible, concealed spaces requiring sprinkler protection. The Model CC1, CC2 and CC3 Sprinklers in some cases allow for the use of Tyco CPVC Pipe and Fittings within concealed spaces requiring automatic sprinkler protection. - Installation Requirements - When using the Model CC1, CC2, and CC3 Sprinklers, reference Technical Data Sheet TFP630, TFP632, and TFP633 respectively. 15LISTINGS AND APPROVALS Residential Dry Pipe Systems (UL) In accordance with the Underwriters Laboratories Inc. (UL) Listing, TYCO CPVC Fire Sprinkler Pipe and Fittings made with BlazeMaster® compound may be installed in Dry Pipe Systems for Residential Occupancies when subject to the additional limitations listed in this section. • Acceptable Residential Occupancies are defined as follows: - Concealed (protected) installations in residential sprinkler systems for one- and two- family dwellings and manufactured homes per NFPA 13D. - Residential sprinkler systems for residential occupancies up to and including four stories in height per NFPA 13R. - Residential portions of any occupancy per NFPA 13 where calculations for Dry Pipe System water delivery are based on the hazard shown in Table A using a calculation program listed by a nationally recognized laboratory or obtained where the system design specifies that water is delivered to the system test connection in not more than 15 seconds for Residential Occupancies, starting at normal air pressure on the system. • Residential sprinklers used in conjunction with TYCO CPVC Fire Sprinkler Pipe and Fittings in Dry Pipe Systems shall be specifically listed for such use. • The TYCO CPVC Sprinkler Head Adapter Tee (P/N 80259) is to be used with dry-type residential pendent sprinklers in dry pipe system installations. • Dry Pipe Systems in areas subject to freezing shall be pitched at least 1/4 or 1/2 inch per 10 feet (2 mm/m) in accordance with the appropriate NFPA standard being utilized. • Upon completion of the assembly and cure, the system shall by hydrostatically tested in accordance with the procedures described in the CPVC Installation Handbook (IH-1900). • TYCO CPVC Fire Sprinkler pipe and fittings used in Dry Pipe Systems may not be used in combination with other thermoplastic piping systems unless specifically listed for use in Dry Pipe Systems. Combining with steel or copper piping systems is permitted, where applicable. • The pipe and fittings shall be protected (concealed) in accordance with the specifications outlined in the CPVC Installation Handbook (IH-1900). • Exposed pipe and fittings have not been evaluated. • Minimum use temperature shall be -20°F (-29°C). • 3/4 to 3 inch pipe and fittings are listed for these applications and are to be assembled with TFP-500 One Step Solvent Cement. • In-service system Air Pressure shall be maintained at a maximum of 15 psi (1 bar). • Pipe friction loss shall be calculated in accordance with the Hazen-Williams formula using a C value of 150. • Air supply to the TYCO CPVC Pipe and Fittings shall be free of oil and oil vapor. Automatic air compressors shall be of an oil-less type or the air shall be treated to assure oil or oil vapor is not introduced into the piping.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 16 LISTINGS AND APPROVALS Table A Residential Dry Pipe System Water Delivery Hazard Residential Number of Most Remote Sprinklers Initially Open 1 Maximum Time of Water Delivery 15 Seconds Air Plenums (UL) TYCO CPVC Pipe and Fittings are UL Listed for use in air plenums. TYCO CPVC Pipe and Fittings comply with UL1887 combustibility requirements for thermoplastic sprinkler pipe as described in the Standard for Installation of Air Conditioning and Ventilating Systems, NFPA 90A, and various model mechanical codes. TYCO CPVC Pipe and Fittings may be installed in the plenum adjacent to, but not over, an opening in the ceiling such as ventilation grills. Return Air Plenum installations may only be made with UL Listed TYCO CPVC Pipe and Fittings and require the use of Schedule 80 fittings when sizes are 1-1/2 inch (DN40) and larger. Garage Installations (UL) Garage Installation Specifications shall only apply for the installation of UL Listed TYCO CPVC Pipe and Fittings in garages requiring sprinkler protection per NFPA 13D and NFPA 13R. These Standards are defined in NFPA codes entitled “One and Two Family Dwellings and Mobile Homes” and in “Residential Occupancies up to Four Stories in Height”. As referenced in NFPA 13D:(2007) Section 8.6.4, “Sprinklers are not required in garages, open attached porches, carports or similar structures.” The installation of TYCO CPVC Pipe and Fittings for use in garages requiring sprinkler protection per NFPA 13R is only applicable to the UL Listing of this product. Requirements for Pipe, Fittings, Solvent Cement Systems, System Design, Installation, Freeze Protection, and Penetrating Fire Related Walls and Partitions are covered in this Installation Handbook. Read these sections carefully prior to designing or installing TYCO CPVC Pipe and Fittings for garage installations. • Installation Requirements - Protection: TYCO CPVC Pipe and Fittings shall be installed concealed behind protection consisting of a minimum of one layer of 3/8 inch (9,5 mm) thick gypsum wallboard or 1/2 inch (13 mm) thick plywood. - Sprinkler Requirements: UL Listed, quick response, standard coverage, pendent or sidewall sprinklers with a 225°F (107°C) maximum temperature rating shall be utilized. All sprinklers shall be installed per the manufacturer’s published installation instructions. - Installation Standard: The Listing for Garage Installations shall pertain to those occupancies defined by NFPA 13R. 17LISTINGS AND APPROVALS System Risers (UL) In accordance with the UL Listing, TYCO CPVC Pipe and Fittings may be used as system risers in accordance with NFPA 13, 13D, and 13R when subject to the following additional limitations: 1. When installed protected (concealed) in accordance with NFPA 13, 13D, and 13R, the minimum protection shall consist of either one layer of 3/8 inch (9,5 mm) thick gypsum wallboard or 1/2 inch (12,7 mm) thick plywood. 2. When installed without protection (exposed) in accordance with NFPA 13D and 13R, the following limitations shall apply: - The riser shall be installed below a smooth, flat, horizontal ceiling construction. A Listed residential pendent sprinkler is to be installed with its deflector at the distance from the ceiling specified in the sprinkler Listing. or The riser shall be installed below a horizontal unfinished basement ceiling (in accordance with NFPA 13D) constructed utilizing nominal 2” x 10” (50 x 250) exposed wood joists on maximum 16 inch (406,4 mm) centers; nominal 2” x 12” (50 x 300) exposed solid wood joists on 16 inch (406,4 mm) centers; or, composite wood I-joists with a nominal depth of 12 inch (304,8 mm) on maximum 24 inch (609,6 mm) on center. A Listed residential pendent sprinkler is to be installed with its deflector a maximum of 1-3/4 inches (44,5 mm) below the bottom of the solid wood joist in anticipation of the future installation of a finished ceiling. When installing TYCO CPVC Pipe and Fittings in conjunction with 2” x 12” (50 x 300) solid wood joists, the maximum system working pressure under flowing conditions shall not exceed 100 psi (6,9 bar) and the maximum system working pressure under static (non flowing) conditions shall not exceed 175 psi (12,1 bar). - The Listed residential pendent sprinkler is to have 155°F (68°C) maximum temperature rating and a minimum K-factor of 3.0, and is to be installed at a maximum horizontal distance of 12 inches (305,0 mm) from the center line of the riser. The system is to be designed based upon the Listed flows for the sprinkler selected except that the flow for a single sprinkler or multiple sprinklers shall not be less than 11 gpm (41,6 lpm) per sprinkler. - The riser shall be supported vertically within 2 feet (610 mm) of the ceiling or bottom of the joist. - The minimum riser diameter shall be 1 inch (DN25) and the maximum riser diameter shall be 2 inches (DN50). - The maximum distance between the wall(s) and the outside surface of the riser pipe shall be 1-1/2 inches (38,1 mm). - All solvent cement joints shall be made with TFP-500 One Step Solvent Cement. - The instructions shown here for Exposed System Risers require the use of Schedule 80 fittings when riser sizes are 1-1/2 inches (38,1 mm) and larger.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 18 LISTINGS AND APPROVALS 3. The system shall be installed per the requirements of NFPA 13:(2010) Section 9.2.5, Support of Risers. 4. TYCO CPVC Pipe and Fittings shall be installed per the manufacturer’s Installation Instruction and Technical Handbook. 5. Risers shall be supported by pipe clamps or by hangers located on the horizontal connection closest to the riser. Only Listed hangers and clamps shall be used. 6. Vertical lines must be supported at intervals, described in Paragraphs 9 and 10 below to avoid placing excessive load on a fitting at the lower end. Do this by using riser clamps or double bolt pipe clamps Listed for this service. The clamps must not exert compressive stresses on the pipe. If possible, the clamps should be located just below a fitting so that the shoulder of the fitting rests against the clamp. If necessary, a coupling can be modified and adhered to the pipe as a bearing support (modified riser collar) such that the shoulder of the fitting rests on the clamp (Ref. Figure 6). Follow the cure times in Tables U, V, and W. Note: A modified riser collar shall only be used to provide support to the riser and shall not be used to join two pieces of pipe. 7. Do not use riser clamps that squeeze the pipe and depend on compression of the pipe to support the weight. 8. Hangers and straps shall not compress, distort, cut or abrade the piping and shall allow for free movement of the pipe to permit thermal expansion and contraction. The pipe can be damaged, and compression increases the likelihood of stress cracking. 9. Maintain vertical piping in straight alignment with supports at each floor level, or at 10 feet (3,1 m) intervals, whichever is less. . TYCO CPVC risers in vertical shafts or in buildings with ceilings over 25 feet (7,6 m), shall be aligned straightly and supported at each floor level, or at 10 feet (3,1 m) intervals, whichever is less. Figure 6 - Riser Collar Parallel to Seat Cut Above and Seat Portion Discard This Seat as Collar Coupling Without Rests on Support Shoulder of Collar Collar Adhered to Pipe Not Tight on Pipe Support is Snug But Support Retain Portion of Pipe CollarModify Coupling 10 19LISTINGS AND APPROVALS Underground Water Pressure Service (UL & C-UL) • Pipe - TYCO CPVC Pipe complies with the requirements of ASTM F442 and standard dimension ratio (SDR) 13.5. TYCO pipe is UL Listed and C-UL Listed for a rated pressure of 175 psi (12,1 bar) for underground service. • Fittings - TYCO CPVC Fittings comply with the requirements of ASTM F438 (Schedule 40 socket), ASTM F439 (Schedule 80 socket) and ASTM F1970 (Transition fittings). • Solvent Cement - All socket type joints shall be made in accordance with TFPP’s Installation Instructions using the TFP-500 One Step Solvent Cement. Note: When using TYCO CPVC Pipe and Fittings, pipe and fittings must be installed in accordance with ASTM D2774, the standard recom- mended practice for underground installation of thermoplastic pres- sure piping and ASTM F645, the standard guide for selection, design, and installation of thermoplastic water pressure piping systems, and all TFPP installation instructions contained within this Installation Hand- book. • System Design - A TYCO CPVC underground system shall be hydrauli- cally calculated using a Hazen-Williams C-Factor of 150, and designed and installed in accordance with the “Installation of Sprinkler Systems,” NFPA 13, 2007 edition, and where appropriate the “Standard for Instal- lation of Private Fire Service Mains and Their Appurtenances,” NFPA 24. • Installation Procedures - The installation procedures detailed within apply to TYCO CPVC Pipe that has solvent cemented joints in sizes ranging from 3/4 to 3 inch (DN20 to DN80). • Inspection - Before installation, TYCO CPVC Pipe and Fittings should be thoroughly inspected for cuts, scratches, gouges, or split ends. Discard damaged pipe. • Trenching - The trench should be of adequate width to allow convenient installation, while at the same time being as narrow as possible. Minimum trench widths may be utilized by joining pipe outside of the trench and lowering it into the trench after adequate joint strength has been achieved. Note: Refer to TFPP’s instructions for recommended set and cure times for solvent cemented joints as found in Tables U, V, and W. Where pipe is joined in the trench, or where thermal expansion and contraction are factors, trench widths may have to be widened. For additional details on expansion and contraction, see thermal expansion characteristics in Tables H1 and H2. Table B shows the trench width and minimum ground cover required for underground installation. All TYCO CPVC Pipe that is water filled should be buried at least 12 inches (304,8 mm) below the maximum expected frost line. It is recommended that TYCO piping be run within a metal or concrete casing when it is installed beneath surfaces that are subject to heavy-weight or constant traffic such as roadways and railroad tracks. The trench bottom should be continuous, relatively smooth and free General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 20 LISTINGS AND APPROVALS of rocks. Where ledge rock, hardpan or boulders are encountered, it is necessary to pad the trench bottom using a minimum of 4 inches (102,0 mm) of tamped earth or sand beneath the pipe as a cushion and to protect the pipe from damage. Sufficient cover must be maintained to keep external stress levels below maximum design stress. Reliability and safety of service is of major importance in determining minimum cover. Local, state and national codes may also govern. • Maintenance - Maintenance of TYCO CPVC Pipe and Fittings for underground water service shall be in accordance with the Standard for Inspection, Testing and Maintenance of Water Based Extinguishing Systems as defined by NFPA 25. • Snaking of Pipe - After TYCO CPVC pipe has been solvent cemented, it is advisable to snake the pipe according to the following recommendations beside the trench during its required drying time. BE ESPECIALLY CAREFUL NOT TO APPLY ANY STRESS THAT WILL DISTURB THE UNDRIED JOINT. Snaking is necessary to allow for any anticipated thermal contraction that will take place in the newly joined pipe line. Snaking is particularly necessary on the lengths of pipe that have been solvent cemented during the afternoon hours of a hot summer day because the drying time will extend through the cool of the night when thermal contraction of the pipe could stress the joints to the point of pull out. This snaking is also especially necessary with pipe that is laid in its trench (necessitating wider trenches than recommended) and is back-filled with cool earth before the joints are thoroughly dry. Tables C1 and C2 show the Pipe Snaking and the Loop Offset dimensions to compensate for contraction. • Back-Filling - Ideally, back-filling should only be done early in the morning during hot weather when the line is fully contracted so that there is no chance of insufficiently dried joints being subject to contraction stresses. The pipe should be uniformly and continuously supported over its entire length with firm, stable material. Blocking should not be used to change pipe grade or to intermittently support pipe across excavated sections. Pipe is installed in a wide range of sub soils. These soils should not only be stable, but applied in such a manner so as to physically shield the pipe from damage. Attention should be given to local pipe laying experience that may indicate particular bedding problems. Back-filled material free of rocks with a size of 1/2 inch (12,7 mm) or less should be used to surround the pipe with 6-8 inches (152,4 mm - 203,2 mm) of cover. The back-filled material should be placed in layers. Each soil layer should be sufficiently compacted uniformly to develop laterally passive soil forces during the back-fill operation. It may be advisable to have the pipe under water pressure, 15-25 psi (1,0-1,7 bar) during the back-filling. Vibratory methods are preferred when compacting sand or gravel. Best results are obtained when the soils are in a nearly saturated condition. Where water flooding is used, the initial back-fill should be sufficient to ensure complete coverage of the pipe. Additional material should not be added until the water flooded back-fill is firm enough to walk on. Care should be taken to avoid floating the pipe. Sand and gravel containing a significant portion of fine-grained material 21LISTINGS AND APPROVALS Table C1 - U .S . Units Maximum Temperature Variation, °F Between Time of Solvent Welding and Final Use 2 LOOP LENGTHS LOOP LENGTH OFFSET OFFSET DEFLECTED PIPE Loop Length Feet Temperature Variation, °F 10°20°30°40°50°60°70°80°90°100° Offset- Inches 20 3 4 5 5 6 6 7 7 8 8 50 7 9 11 13 14 16 17 18 19 20 100 18 18 22 26 29 32 35 37 40 42 Table C2 - Metric Units Maximum Temperature Variation, °C Between Time of Solvent Welding and Final Use 2 LOOP LENGTHS LOOP LENGTH OFFSET OFFSET DEFLECTED PIPE Loop Length Meters Temperature Variation, °C 5°10°15°20°25°30°35°40°45°50° Offset- Millimeters 5 65 83 95 105 114 123 133 143 154 164 15 164 219 266 307 343 377 409 440 469 498 30 314 424 522 609 687 758 823 884 943 999 Table B - Ground Cover Nominal Pipe Size ANSI Inches DN Trench Width Inches (mm) Ground Cover Minimum Inches (mm) Light Traffic Heavy Traffic 3 DN80 and Under 8 (203,2) 12 - 18 (305,0 - 457,2) 30 - 36 (762,0 - 914,4)General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 22 LISTINGS AND APPROVALS such as silt and clay should be compacted by hand or preferably by a mechanical tamper. The remainder of the back-fill should be placed and spread in uniform layers in such a manner as to fill the trench completely so that there will be no unfilled spaces under or about rocks or lumps of earth in the back-fill. Large or sharp rocks, frozen clods and other debris greater than 3 inches (76,2 mm) in diameter should be removed. Rolling equipment or heavy tampers should only be used to consolidate the final back-fill. Outdoor Installations TYCO CPVC Pipe and Fittings are not listed for outdoor applications other than underground. FACTORY MUTUAL (FM) TYCO CPVC Pipe and Fittings are FM Approved for use in: • Miscellaneous non-manufacturing occupancies as described in FM Loss Prevention Data Sheet 3-26, “Fire Protection Water Demand for Non- storage Sprinklered Properties”, Table 2, Section L. • Residential occupancies as described in FM Loss Prevention Data Sheet 3-26, “Installation of Sprinkler Systems”. TYCO Fire Sprinkler Systems shall be employed in wet pipe systems only. (A wet pipe system contains water or water and glycerin [anti-freeze solution] and is connected to a water supply so that the water or water and glycerin [anti-freeze solution] will discharge immediately when the sprinkler is opened.) Concealed Installations (FM) In accordance with the FM Approval, protection shall be provided for TYCO CPVC Pipe and Fittings as follows: • The minimum protection shall consist of either a permanently installed non-combustible barrier from any area protected by the system. Note: A permanently installed barrier is one that cannot be removed without substantial cosmetic damage. Drop in ceiling tiles, as used in suspended ceilings are specifically considered not be permanently in- stalled for the purposes of this definition. Non-combustible is defined as having a minimum finish fire rating of 15 minutes when tested per ASTM E119. • As an alternative to the protection of a permanently installed non- combustible barrier, FM has approved the use of TYCO CPVC with the SOFFI-STEELTM covering system manufactured by Grice Engineering. • FM Approved quick response, standard or extended coverage, or FM Approved residential sprinklers installed in accordance with their approval limitations may be used. • Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. 23LISTINGS AND APPROVALS Exposed Installations - Smooth, Flat, Horizontal Ceilings (FM) In accordance with the FM Approval, TYCO CPVC Pipe and Fittings may be installed without protection (exposed), subject to the following additional limitations: Note: Where piping is installed above drop-in ceiling tiles, the piping shall be considered exposed. Ceilings may be combustible, or non permanently installed. • Standard Coverage Sprinklers - Pendent sprinklers shall be FM Approved, quick response sprinklers having deflectors installed within 8 inches (203,2 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 15 feet (4,6 m). The maximum ceiling height shall not exceed 10 feet (3,0 m). - Upright sprinklers shall be FM Approved, quick response sprinklers having deflectors installed within 4 inches (101,6 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 15 feet (4,6 m). The maximum distance from the ceiling to the centerline of the main run of pipe shall not exceed 7-1/2 inch (191 mm). The distance from the centerline of the sprinkler to the closest hanger shall be 3 inches (76,2 mm). The maximum ceiling height shall not exceed 10 feet (3,0 m). - Horizontal Sidewall Sprinklers shall be FM Approved, quick response sprinklers having deflectors installed within 12 inches (304,8 mm) of the ceiling and within 6 inches (152,4 mm) of the side wall. The maximum distance between sprinklers shall not exceed 14 feet (4,3 m). The maximum ceiling height shall not exceed 10 feet (3,0 m). - Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. • Extended Coverage Sprinklers - Pendent sprinklers shall be FM Approved, quick response sprinklers having deflectors installed within 8 inches (203,2 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 20 feet (6,1 m). When the sprinklers are not on square spacings, the flow for a sprinkler should be based on the density applied over the square area calculated for the largest dimension of the sprinkler spacing. The maximum ceiling height shall not exceed 10 feet (3,0 m). - Horizontal Sidewall Sprinklers shall be FM Approved, quick response sprinklers having deflectors installed within 12 inches (304,8 mm) of the ceiling and within 6 inches (152,4 mm) of the side wall. The maximum lateral distance between sprinklers shall not exceed 16 feet (4,9 m). The maximum ceiling height shall not exceed 10 feet (3,0 m). - The minimum flow or pressure established for Extended Coverage Systems shall be per FM Loss Prevention Data Sheet 2-0 and 3-26. - Solvent cement joints shall be made with TFP-500 One Step Solvent Cement.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 24 LISTINGS AND APPROVALS • Residential Sprinklers - Pendent sprinklers shall be FM Approved, residential sprinklers having deflectors installed within 8 inches (203,2 mm) of the ceiling. The maximum distance between sprinklers shall not exceed 20 feet (6,1 m). The minimum required discharge from each sprinkler is to be the greater of either the approved flow rate applied over the square area calculated for the largest dimension of the sprinkler spacing or a minimum discharge of 0.1 gpm/sq.ft. (4,1 mm/min) over the actual area (S x L) covered by the sprinkler. The maximum ceiling height shall not exceed 10 feet (3,0 m). - Horizontal Sidewall Sprinklers shall be FM Approved, quick response sprinklers having deflectors installed within 12 inches (304,8 mm) of the ceiling and within 6 inches (152,4 mm) of the side wall. The maximum lateral distance between sprinklers shall not exceed 16 feet (4,9 m). The minimum required discharge from each sprinkler is to be the greater of either the approved flow rate applied over the area calculated for the largest dimension of the sprinkler spacing or a minimum discharge of 0.1 gpm/sq.ft. (4,1 mm/min) over the actual area (S x L) covered by the sprinkler. The maximum ceiling height shall not exceed 10 feet (3,0 m). - The minimum flow or pressure established for Residential Sprinkler Systems shall be per FM Loss Prevention Data Sheet 2-0 and 3-26. - Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. System Risers (FM) In accordance with the FM Approval, TYCO CPVC Pipe and Fittings may be installed without protection (exposed) as a vertical riser when subject to the following additional limitations: • An automatic sprinkler (of the same type as in the area being protected) shall be located adjacent to and no further than 1 foot (0,3 m) from the riser. • The automatic sprinkler protecting the riser shall not be considered when determining protection criteria for the floor area. The design flow for the sprinkler protecting the riser must be the same as for the other sprinklers, and must be added to the hydraulic calculation. • Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. THE LOSS PREVENTION COUNCIL (LPCB) Use of TYCO CPVC Fire Sprinkler Systems in Accordance with The Loss Prevention Council (LPCB) “List of Approved Products and Services”, Part 5, “Automatic Sprinkler, Water Spray, and Deluge Systems” Section 21.1 “Plastic Pipes and Fittings” and Section 5 of BS 5306: Part 2. The Loss Prevention Certification Board Listing is as follows: 1. The ‘scope of use’ of plastic pipe should be agreed upon between the purchaser, authority having jurisdiction, and/or insurer. 2. Use of plastic pipe and fittings is subject to water authority agreement for the territory concerned. 3. LPCB Approved quick response sprinklers shall be used with exposed (i.e., fire exposure) plastic pipe and fittings. 25LISTINGS AND APPROVALS 4. Plastic pipe and fittings are suitable for use only with wet pipe systems. 5. Care should be exercised to ensure that joints are adequately cured, in accordance with the manufacturer’s installation instruction, prior to pressurization. 6. Plastic pipe and fittings shall not be installed outdoors. 7. Where plastic pipe and fittings are exposed (i.e. fire exposure), the system shall be installed close to a flat ceiling construction. 8. Sprinkler systems that employ plastic pipe and fittings shall be designed where possible to ensure no “no flow” sections of pipe work in the event of sprinkler operation. 9. LPCB maximum ambient temperature of 50°C. The Loss Prevention Certification Board listing applies to Light Hazard Classifications BS 5306: Part 2, Section 5.2 fall within the scope of NFPA 13, 13R and 13D. In addition, TYCO Fire Sprinkler Systems can be installed in certain ordinary classification (BS 5306: Part 2, Section 5.3) such as offices, retail shops and department stores when installed in accordance with Section 22 of LPCB “List of Approved Products and Services”. TYCO CPVC Pipe and Fittings should not be used in high hazard applications (BS 5306: Part 2, Section 5.4) and ordinary hazard applications where the fuel load or rate of heat release is high, such as boiler rooms, kitchens, manufacturing areas, and certain warehouse applications. Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. ADDITIONAL APPROVALS (MEA and NSF) • TYCO CPVC Pipe and Fittings are Listed by MEA in Residential buildings as defined by NFPA 13D and 13R. The MEA listing number is 434-88-M, Vol. 2. • TYCO CPVC Pipe and Fittings (slip style only) are tested by NSF for chemical extraction to Standard 61 and carry the NSF-pw Listing. Solvent cement joints shall be made with TFP-500 One Step Solvent Cement. ORDINARY HAZARD INSTALLATIONS NFPA 13:(2007) Section 6.3.6.2 permits the use of pipe or tube listed for light hazard occupancies to be installed in ordinary hazard rooms of otherwise light hazard occupancies where the room does not exceed 400 sq. ft. (37 sq. m). TYCO CPVC sprinkler pipe and fittings can be installed in these installations in accordance with the manufacturer’s Installation Instructions and Technical Handbook. The local authority having jurisdiction should be consulted for additional information in regards to a specific situation. Solvent cement joints shall be made with TFP-500 One Step Solvent Cement.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 26 LISTINGS AND APPROVALS THIS PAGE INTENTIONALLY LEFT BLANK 27TECHNICAL DATA TECHNICAL DATA TYCO CPVC SPECIFICATIONS Pipe TYCO CPVC sprinkler pipe conforms to the requirements of ASTM F442 and is produced to SDR 13.5. SDR (Standard Dimension Ratio) is the ratio of the outside pipe diameter to the wall thickness of the pipe. The pipe carries the NSF International (NSF-pw) mark for use in potable water systems. See Tables D1 and D2 for dimensions of pipe. Table D1 - U .S . Units Dimensions for TYCO CPVC Pipe Nominal Pipe Size ANSI Inches Nominal O .D . Inches Nominal I .D . Inches Empty Weight Water Filled Weight Volume Gallons / FootPounds / Foot Pounds / Foot 3/4 1.050 0.874 0.168 0.428 0.031 1 1.315 1.101 0.262 0.675 0.049 1-1/4 1.660 1.394 0.418 1.079 0.079 1-1/2 1.900 1.598 0.548 1.417 0.104 2 2.375 2.003 0.859 2.224 0.164 2-1/2 2.875 2.423 1.257 3.255 0.239 3 3.500 2.950 1.867 4.829 0.355 Table D2 - Metric Units Dimensions for TYCO CPVC Pipe Nominal Pipe Size DN Nominal O .D . Millimeters Nominal I .D . Millimeters Empty Weight Water Filled Weight Volume Liters / MeterKilograms/ Meter Kilograms/ Meter DN20 26,7 22,0 0,250 0,637 0,102 DN25 33,4 28,0 0,390 1,000 0,161 DN32 42,4 35,4 0,622 1,606 0,260 DN40 48,3 40,6 0,816 2,109 0,342 DN50 60,3 50,9 1,278 3,310 0,538 DN65 73,0 61,5 1,871 4,844 0,786 DN80 88,9 75,0 2,778 7,186 1,166 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 28 TECHNICAL DATA Fittings TYCO CPVC sprinkler fittings conform to the requirements of ASTM F438 (Schedule 40 dimensions from 3/4 to 1-1/2 inches, DN20 to DN32), ASTM F439 (Schedule 80 dimensions for 1-1/2 to 3 inches, DN40 to DN80) and ASTM F1970 (Transition Fittings). Female threaded adapters for sprinkler connections contain brass inserts. Slip style fittings carry the NSF International (NSF-pw) mark for use in potable water systems. See Appendix A for sprinkler fittings types, sizes, socket and take-out dimensions. Solvent Cement TYCO CPVC socket connections shall be joined using TFP-500 One Step Solvent Cement as indicated in the “Listing and Approvals” section. TFP-500 One Step Solvent Cement meets ASTM F493 and NSF requirements. Review solvent cementing instructions within this handbook prior to installation. PRODUCT RATINGS AND CAPABILITIES Ambient Temperature and Heat Sources TYCO CPVC Pipe and Fittings shall be installed in areas where the ambient temperature does not exceed 150°F (65°C). (LPCB maximum ambient temperature of 50°C) Before penetrating fire rated walls and partitions, consult building codes and authorities having jurisdiction in your area. TYCO CPVC systems should be designed and installed so that the piping is not closely exposed to high heat producing sources, such as incandescent light, ballasts, and steam lines. Pressure Rating TYCO CPVC Pipe and Fittings are Listed/Approved for a rated pressure of 175 psi (12,1 bar) and a maximum ambient temperature of 150°F (65°C). (LPCB maximum ambient temperature of 50°C) 29TECHNICAL DATA Friction Loss TYCO CPVC Pipe has a Hazen-Williams C-Value of 150. Pipe friction loss calculations shall be made according to NFPA Standards. Tables F1 and F2 show the allowance of friction loss for fittings, expressed in equivalent feet of pipe. Table F1 Allowance for Friction Loss in Fittings*** Fitting Size ANSI Inches 3⁄4 1 1-1⁄4 1-1⁄2 2 2-1⁄2 3 Tee Branch- ft .3 5 6 8 10 12 15 Elbow 90°*- ft .4 5 6 7 9 12 13 Elbow 45°- ft .1 1 2 2 2 3 4 Coupling- ft .1 1 1 1 1 2 2 Tee Run**- ft .1 1 1 1 1 2 2 Table F2 Allowance for Friction Loss in Fittings*** Fitting Size DN DN20 DN25 DN32 DN40 DN50 DN65 DN80 Tee Branch- m 0,9 1,5 1,8 2,4 3,1 3,7 4,6 Elbow 90°*- m 1,2 1,5 1,8 2,1 2,7 3,7 4,0 Elbow 45°- m 0,3 0,3 0,6 0,6 0,6 0,9 1,2 Coupling- m 0,3 0,3 0,3 0,3 0,3 0,6 0,6 Tee Run**- m 0,3 0,3 0,3 0,3 0,3 0,6 0,6 * The above stated friction loss values are for TYCO fittings only. When using other Listed TYCO CPVC 90° elbows with BlazeMaster products, consult the fitting manufacturer’s installation and design manuals. ** The need for friction loss for a tee run is only referenced in NFPA 13D under the General Pipe Sizing Method section. *** Per manufacturer’s test.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 30 TECHNICAL DATA Thermal Expansion – U .S . Units TYCO CPVC Pipe, like all piping materials, expands and contracts with changes in temperature. The coefficient of linear expansion for TYCO CPVC Pipe is: 0.000034 inch/inch /°F. The coefficient of linear expansion TYCO CPVC Pipe is the same for all pipe sizes. To determine the linear expansion of the pipe due to thermal changes use the following formula: ∆L = 12eL (∆T) Where: e = 0.000034 in/in/°F (coefficient of linear expansion) L = Length of run in feet ∆T = Temperature change in °F ∆L = Inches Example: How much will a 40 foot run of 3/4 inch TYCO CPVC Pipe increase in length (or expand) if the expected ambient temperature ranges from 35°F to 85°F? Changes in length due to fittings are insignificant relative to the pipe. ∆L = 12eL (∆T) ∆L = 12 (0.000034) x 40 x 50 ∆L = 0.82 inch or approximately 13/16 inch TYCO CPVC exhibits a relatively high coefficient of thermal expansion. When designing TYCO sprinkler systems, expansion of long runs must be considered if temperature variations will be encountered (i.e.; summer to winter extremes). Methods of compensating for thermal expansion are expansion loops, offsets and change of direction of the pipe run shown in Figure 7. Loop Lengths “L” for use in Figure 7 are shown in Tables H1, J1, and K1. If the change in temperature and the maximum working temperature are lower than those used to derive the tables, the numbers will be conservative in nature. For example, for a temperature change from 60°F to 125°F use Table J1 because the maximum temperature is greater than those shown in Tables G1 and H1. For conditions that are not covered in the Loop Length Tables, use the following formula: Where: L = Length of loop, offset, or charge of direction in inches E = Modulus of elasticity at the maximum temperature (Table L1) in psi D = Nominal outside diameter of pipe (Table D1) in inches ∆L = Change in length of pipe due to change in temperature in inches S = Working stress at the maximum temperature (Table L1) in psi 31TECHNICAL DATA Example: How much expansion can be expected in a 240 foot run of 2 inch TYCO CPVC Pipe installed in 40°F given a maximum temperature change to 100°F? Additionally, how long should the expansion loop be to compensate for this expansion? Step 1. Find the temperature change expressed as ∆T. ∆T = 100°F – 40°F ∆T = 60°F Step 2. Calculate the change in length expressed as ∆L. ∆L = 12 e L (∆T) ∆L = 12 (0.000034) x 240 x 60 ∆L = 5.88 inches Step 3. Find the length of the expansion loop or offset in inches L = Length of loop, offset, or charge of direction in inches E = Modulus of elasticity at maximum temperature (Table L1) in psi D = Nominal outside diameter of pipe (Table D1) in inches S = Working stress at maximum temperature (Table L1) psi ∆L = Change in length of pipe due to a change in temperature from Step 2 in inches L =71.90 inches Step 4. Refer to Figure 7. a- For loop length: 1/5 L = 1⁄5 x 71.90 = 14.38 inches 2⁄5 L = 2⁄5 x 71.90 = 28.76 inches b- For offset length: 1⁄4 L = 1⁄4 x 71.90 = 17.98 inches 1⁄2 L = 1⁄2 x 71.90 = 35.95 inches c- For change of direction length: L= 71.90 inches General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 32 TECHNICAL DATA Thermal Expansion – Metric Units TYCO CPVC Pipe, like all piping materials, expands and contracts with changes in temperature. The coefficient of linear expansions TYCO CPVC Pipe is: 0,062 mm/m/°C. The coefficient of linear expansion TYCO CPVC Pipe is the same for all pipe sizes. To determine the linear expansion of the pipe due to thermal changes use the following formula: ∆L = eL (∆T) Where: e = 0,061 mm/m C° (coefficient of linear expansion) L = Length of run in meters ∆T = Temperature change in °C Example: How much will a 12 m run of DN20 TYCO CPVC Pipe increase in length (or expand) if the expected ambient temperature ranges from 2°C to 32°C? Changes in length due to fittings are insignificant relative to the pipe. ∆L = eL (∆T) ∆L = (0,061) x 12 x 30 ∆L = 22,0 mm TYCO CPVC exhibits a relatively high coefficient of thermal expansion (see Table H2). When designing TYCO sprinkler systems, expansion of long runs must be considered if temperature variations will be encountered (i.e.; summer to winter extremes). Methods of compensating for thermal expansion are expansion loops, offsets and change of direction of the pipe run shown in Figure 7. Loop Lengths “L” for use in Figure 7 are shown in Tables H2, J2, and K2. If the change in temperature and the maximum working temperature are lower than those used to derive the tables, the numbers will be conservative in nature. For example, for a temperature change from 16°C to 52°C use Table J2 because the maximum temperature is greater than those shown in Tables G2 and H2. For conditions that are not covered in the Loop Length Tables, use the following formula: Where: L = Length of loop, offset, or charge of direction in millimeters E = Modulus of elasticity at the maximum temperature (Table L2) in bar D = Nominal outside diameter of pipe (Table D2) in millimeters ∆L = Change in length of pipe due to change in temperature in millimeters S = Working stress at the maximum temperature (Table L2) in bar 33TECHNICAL DATA Example: How much expansion can be expected in a 73 m run of DN50 TYCO CPVC Pipe installed in 4°C given a maximum temperature change to 38°C? Additionally, how long should the expansion loop be to compensate for this expansion? Step 1. Find the temperature change expressed as ∆T. ∆T = 38°C – 4°C ∆T = 34°C Step 2. Calculate the change in length expressed as ∆L. ∆L = e L (∆T) ∆L = 0,061 x 73 x 34 ∆L = 151,4 mm Step 3. Find the length of the expansion loop or offset in millimeters L = Length of loop, offset, or charge of direction in millimeters E = Modulus of elasticity at the maximum temperature (Table L2) in bar D = Average outside diameter of pipe (Table D2) in millimeters S = Working stress at the maximum temperature (Table L2) in bar ∆L = Change in length of pipe due to a change in temperature from Step 2 in millimeters L =1838 mm Step 4. Refer to Figure 7. a- For loop length: 1/5 L = 1⁄5 x 1838 mm = 368 mm 2⁄5 L = 2⁄5 x 1838 mm = 735 mm b- For offset length: 1⁄4 L = 1⁄4 x 1838 mm = 460 mm 1⁄2 L = 1⁄2 x 1838 mm = 919 mm c- For change of direction length: L= 1838 mm General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 34 TECHNICAL DATA Table G1 - Thermal Expansion U .S . Units Length of Run Feet Temperature Change ∆T °F 20 30 40 50 60 70 80 90 100 Thermal Expansion, ∆L Inches 5 0.04 0.06 0.08 0.10 0.12 0.14 0.16 0.18 0.20 10 0.08 0.12 0.16 0.20 0.24 0.29 0.33 0.37 0.41 15 0.12 0.18 0.24 0.31 0.37 0.43 0.49 0.55 0.61 20 0.16 0.24 0.33 0.41 0.49 0.57 0.65 0.73 0.82 25 0.20 0.31 0.41 0.51 0.61 0.71 0.82 0.92 1.02 30 0.24 0.37 0.49 0.61 0.73 0.86 0.98 1.10 1.22 35 0.29 0.43 0.57 0.71 0.86 1.00 1.14 1.29 1.43 40 0.33 0.49 0.65 0.82 0.98 1.14 1.31 1.47 1.63 45 0.37 0.55 0.73 0.92 1.10 1.29 1.47 1.65 1.84 50 0.41 0.61 0.82 1.02 1.22 1.43 1.63 1.84 2.04 70 0.57 0.86 1.14 1.43 1.71 2.00 2.28 2.57 2.86 90 0.73 1.10 1.47 1.84 2.20 2.57 2.94 3.30 3.67 120 0.98 1.47 1.96 2.45 2.94 3.43 3.92 4.41 4.90 160 1.31 1.96 2.61 3.26 3.92 4.57 5.22 5.88 6.53 35TECHNICAL DATA Table G2 - Thermal Expansion Metric Units Length of Run Meters Temperature Change ∆T °C 10 15 20 25 30 35 40 50 55 Thermal Expansion, ∆L Millimeters 1 0,6 0,9 1,2 1,5 1,8 2,1 2,4 3,1 3,4 2 1,2 1,8 2,4 3,1 3,7 4,3 4,9 6,1 6,7 3 1,8 2,7 3,7 4,6 5,5 6,4 7,3 9,2 10,1 4 2,4 3,7 4,9 6,1 7,3 8,5 9,8 12,2 13,4 5 3,1 4,6 6,1 7,6 9,2 10,7 12,2 15,3 16,8 7 4,3 6,4 8,5 10,7 12,8 14,9 17,1 21,4 23,5 9 5,5 8,2 11,0 13,7 16,5 19,2 22,0 27,5 30,2 12 7,3 11,0 14,6 18,3 22,0 25,6 29,3 36,6 40,3 15 9,2 13,7 18,3 22,9 27,5 32,0 36,6 45,8 50,3 20 12,2 18,3 24,4 30,5 36,6 42,7 48,8 61,0 67,1 25 15,3 22,9 30,5 38,1 45,8 53,4 61,0 76,3 83,9 30 18,3 27,5 36,6 45,8 54,9 64,1 73,2 91,5 100,7 40 24,4 36,6 48,8 61,0 73,2 85,4 97,6 122,0 134,2 50 30,5 45,8 61,0 76,3 91,5 106,8 122,0 152,5 167,8 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 36 TECHNICAL DATA Table H1 - U .S . Units Loop Length (30°F to 100°F) ∆T = 70°F Length of Run Feet Nominal Pipe Size – O .D . & ANSI Inches 3/4 1.050 1 1.315 1-1/4 1.660 1-1/2 1.900 2 2.375 2-1/2 2.875 3 3.500 Length of Loop - Inches 10 11 12 13 14 16 18 19 20 15 17 19 20 22 25 27 30 18 20 23 25 27 30 33 40 21 24 26 28 32 35 38 50 24 26 30 32 35 39 43 60 26 29 32 35 39 43 47 70 28 31 35 38 42 46 51 80 30 33 37 40 45 49 54 90 32 35 40 43 48 52 58 100 33 37 42 45 50 55 61 120 37 41 46 49 55 60 67 140 39 44 50 53 59 65 72 160 42 47 53 57 63 70 77 Note: Table based on Stress and Modulus of Elasticity at 100°F. Refer to Table K1. ∆T = 70°F, S = 1560 psi, E = 3.85 x 105 psi 37TECHNICAL DATA Table H2 - Metric Units Loop Length (0°C to 40°C) ∆T = 40°C Length of Run Meters Nominal Pipe Size – O .D . & DN, mm DN20 26,7 DN25 33,4 DN32 42,2 DN40 48,3 DN50 60,3 DN65 73,0 DN80 88,9 Length of Loop - Meters 3 0,3 0,3 0,3 0,4 0,4 0,4 0,5 5 0,3 0,4 0,4 0,5 0,5 0,6 0,6 10 0,5 0,5 0,6 0,7 0,7 0,8 0,9 15 0,6 0,7 0,8 0,8 0,9 1,0 1,1 20 0,7 0,8 0,9 0,9 1,0 1,1 1,3 25 0,8 0,9 1,0 1,0 1,2 1,3 1,4 30 0,9 1,0 1,1 1,1 1,3 1,4 1,6 35 0,9 1,0 1,2 1,2 1,4 1,5 1,7 40 1,0 1,1 1,2 1,3 1,5 1,6 1,8 45 1,0 1,2 1,3 1,4 1,6 1,7 1,9 50 1,1 1,2 1,4 1,5 1,6 1,8 2,0 55 1,2 1,3 1,5 1,5 1,7 1,9 2,1 60 1,2 1,3 1,5 1,6 1,8 2,0 2,2 Note: Table based on Stress and Modulus of Elasticity at 40°C. Refer to Table K2. ∆T = 38,9°C, S = 107,6 bar, E = 26546 bar General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 38 TECHNICAL DATA Table J1 - U .S . Units Loop Length (60°F to 120°F) ∆T = 60°F Length of Run Feet Nominal Pipe Size – O .D . & ANSI Inches 3/4 1.050 1 1.315 1-1/4 1.660 1-1/2 1.900 2 2.375 2-1/2 2.875 3 3.500 Length of Loop - Inches 10 10 12 13 14 16 17 19 20 15 16 18 20 22 24 27 30 18 20 22 25 27 30 33 40 21 23 26 28 31 34 38 50 23 26 29 31 35 38 42 60 25 28 32 34 38 42 46 70 27 31 34 37 41 45 50 80 29 33 37 39 44 48 54 90 31 35 39 42 47 51 57 100 33 37 41 44 49 54 60 120 36 40 45 48 54 59 66 140 39 43 49 52 58 64 71 160 41 46 52 56 62 69 76 Note: Table based on Stress and Modulus of Elasticity at 120°F. Refer to Table K1. ∆T = 60°F, S = 1275 psi, E = 3.55 x 105 psi 39TECHNICAL DATA Table J2 - Metric Units Loop Length (15°C to 50°C) ∆T = 35°C Length of Run Meters Nominal Pipe Size – O .D . & DN, mm DN20 26,7 DN25 33,4 DN32 42,2 DN40 48,3 DN50 60,3 DN65 73,0 DN80 88,9 Length of Loop - Meters 3 0,3 0,3 0,3 0,4 0,4 0,4 0,5 5 0,3 0,4 0,4 0,5 0,5 0,6 0,6 10 0,5 0,5 0,6 0,7 0,7 0,8 0,9 15 0,6 0,7 0,8 0,8 0,9 1,0 1,1 20 0,7 0,8 0,9 0,9 1,0 1,1 1,3 25 0,8 0,9 1,0 1,0 1,2 1,3 1,4 30 0,8 0,9 1,1 1,1 1,3 1,4 1,5 35 0,9 1,0 1,2 1,2 1,4 1,5 1,7 40 1,0 1,1 1,2 1,3 1,5 1,6 1,8 45 1,0 1,2 1,3 1,4 1,6 1,7 1,9 50 1,1 1,2 1,4 1,5 1,6 1,8 2,0 55 1,1 1,3 1,4 1,5 1,7 1,9 2,1 60 1,2 1,3 1,5 1,6 1,8 2,0 2,2 Note: Table based on Stress and Modulus of Elasticity at 50°C. Refer to Table K2. ∆T = 33,4°C, S = 87,9 bar, E = 24477 bar General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 40 TECHNICAL DATA Table K1 - U .S . Units Loop Length (70°F to 150°F) ∆T = 80°F Length of Run Feet Nominal Pipe Size – O .D . & ANSI Inches 3/4 1.050 1 1.315 1-1/4 1.660 1-1/2 1.900 2 2.375 2-1/2 2.875 3 3.500 Length of Loop - Inches 10 14 15 17 18 20 22 25 20 19 21 24 26 29 31 35 30 23 26 29 31 35 39 43 40 27 30 34 36 41 45 49 50 30 34 38 40 45 50 55 60 33 37 41 44 50 55 60 70 36 40 45 48 53 59 65 80 38 43 48 51 57 63 69 90 40 45 51 54 61 67 74 100 43 48 53 57 64 70 78 120 47 52 59 63 70 77 85 140 50 56 63 68 76 83 92 160 54 60 68 72 81 89 98 Note: Table based on Stress and Modulus of Elasticity at 150°F. Refer to Table K1. ∆T = 80°F, S = 875 psi, E = 3.08 x 10 5 psi 41TECHNICAL DATA Table K2 - Metric Units Loop Length (20°C to 65°C) ∆T = 45°C Length of Run Meters Nominal Pipe Size – O .D . & DN, mm DN20 26,7 DN25 33,4 DN32 42,2 DN40 48,3 DN50 60,3 DN65 73,0 DN80 88,9 Length of Loop - Meters 3 0,3 0,4 0,4 0,5 0,5 0,6 0,6 5 0,4 0,5 0,6 0,6 0,7 0,7 0,8 10 0,6 0,7 0,8 0,8 0,9 1,0 1,1 15 0,8 0,9 1,0 1,0 1,1 1,3 1,4 20 0,9 1,0 1,1 1,2 1,3 1,5 1,6 25 1,0 1,1 1,2 1,3 1,5 1,6 1,8 30 1,1 1,2 1,4 1,4 1,6 1,8 2,0 35 1,2 1,3 1,5 1,6 1,7 1,9 2,1 40 1,2 1,4 1,6 1,7 1,9 2,1 2,3 45 1,3 1,5 1,7 1,8 2,0 2,2 2,4 50 1,4 1,6 1,8 1,9 2,1 2,3 2,5 55 1,5 1,6 1,8 2,0 2,2 2,4 2,7 60 1,5 1,7 1,9 2,1 2,3 2,5 2,8 Note: Table based on Stress and Modulus of Elasticity at 65°C. Refer to Table K2. ∆T = 44,5°C, S = 60,3 bar, E = 21237 bar General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 42 TECHNICAL DATA Table L1 Modulus of Elasticity & Stress vs Temperature – U .S . Units Temperature °F 73°80°90°100°110°120°140°150° Modulus of Elasticity “E ” x 10 5 (psi) 4.23 4.14 3.99 3.85 3.70 3.55 3.23 3.08 Working Stress “S ” (psi) 2,000 1,875 1,715 1,560 1,415 1,275 1,000 875 Table L2 Modulus of Elasticity & Stress vs Temperature – Metric Units Temperature °C 25°30°35°40°45°50°60°65° Modulus of Elasticity (bar) 29166 28545 27511 26546 25512 24477 22271 21237 Working Stress “S” (bar) 137,9 129,3 118,2 107,6 97,6 87,9 69,0 60,3 Figure 7 Loop Offset Change of Direction Expansion Loop and Offset Configurations 6" Min. (150 mm) 2/5 L L 1/2 L L Long Run L 6" Min. (150 mm)1/4 L 1/4 L of Pipe Restraint*Hanger or Guide*Expansion 1/5 L * Hangers should only be placed in the loop, offset, or change of direction as indicated. Piping supports should restrict lateral movement and shall direct axial movement into the expansion loop. 43TECHNICAL DATA PHYSICAL AND THERMAL PROPERTIES Permissible Bending Deflections TYCO CPVC fire sprinkler piping while classified as a rigid piping material is inherently flexible. This flexibility allows piping to be deflected within permissible limits around or away from objects during installation. The maximum allowable deflections for TYCO CPVC piping can be found in Tables N1 and N2 and Table P1 and P2. Table M - Physical and Thermal Properties Property CPVC ASTM Specific Gravity “Sp.Gr.”1.53 D792 IZOD Impact Strength (ft.lbs./inch, notched)3.0 D256A Modulus of Elasticity, @73°F, psi “E”4.23 x 105 D638 Ultimate Tensile Strength, psi 8,000 D638 Compressive Strength, psi “o”9,600 D695 Poisson’s Ratio “n”.35 -.38 – Working Stress @ 73°F, psi “S”2,000 D1598 Hazen Williams “C” Factor “C”150 – Coefficient of Linear Expansion in/(in °F)“e”3.4 x 10-5 D696 Thermal Conductivity BTU/hr/ft2 /°F/in “k”0.95 C177 Flash Ignition Temperature °F 900 D1929 Limiting Oxygen Index “LOI”60%D2863 Electrical Conductivity Non Conductor General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information L = ft. D = in. DEFLECTED PIPE 44 TECHNICAL DATA Table N1 - U .S . Units (1 of 2) Permissible Bending Deflections SDR 13 .5 at 73°F “Bending ” (One End Restrained) (L) Length of Run Feet Nominal Pipe Size – ANSI Inches 3/4 1 1-1/4 1-1/2 2 2-1/2 3 (D) Deflection - Inches 2 1.3 1.0 0.8 0.7 0.6 0.5 0.4 5 7.8 6.3 5.0 4.3 3.5 2.9 2.4 7 15.4 12.3 9.7 8.5 6.8 5.6 4.6 10 31.3 25.0 19.8 17.3 13.9 11.4 9.4 12 45.1 36.0 28.5 24.9 20.0 16.5 13.5 15 70.5 56.3 44.6 39.0 31.2 25.8 21.2 17 90.6 72.3 57.3 50.1 40.0 33.1 27.2 20 125.4 100.1 79.3 69.3 55.4 45.8 37.6 25 195.9 156.4 123.9 108.2 86.6 71.5 58.8 30 282.1 225.2 178.4 155.9 124.7 103.0 84.6 35 383.9 306.6 242.8 212.2 169.7 140.2 115.2 40 -400.4 317.2 277.1 221.7 183.1 150.4 45 --401.4 350.7 280.6 231.8 190.4 50 ---433.0 346.4 286.2 235.1 L = m D = mm DEFLECTED PIPE 45TECHNICAL DATA Table N2 - Metric Units Permissible Bending Deflections SDR 13 .5 at 23°C “Bending ” (One End Restrained) (L) Length of Run Meters Nominal Pipe Size – DN DN20 DN25 DN32 DN40 DN50 DN65 DN80 (D) Deflection - Meters 0 .5 0,02 0,02 0,01 0,01 0,01 0,01 0,01 1 0,09 0,07 0,05 0,05 0,04 0,03 0,03 2 0,34 0,27 0,22 0,19 0,15 0,13 0,10 3 0,77 0,62 0,49 0,43 0,34 0,28 0,23 4 1,37 1,10 0,87 0,76 0,61 0,50 0,41 5 2,15 1,71 1,36 1,19 0,95 0,78 0,64 6 3,09 2,47 1,96 1,71 1,37 1,13 0,93 7 4,21 3,36 2,66 2,33 1,86 1,54 1,26 8 5,50 4,39 3,48 3,04 2,43 2,01 1,65 9 6,96 5,55 4,40 3,84 3,08 2,54 2,09 10 8,59 6,86 5,43 4,75 3,80 3,14 2,58 11 -8,30 6,57 5,74 4,59 3,80 3,12 13 --9,18 8,02 6,42 5,30 4,35 15 ---10,68 8,54 7,06 5,80 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information L = ft. D = in.DEFLECTED PIPE 46 TECHNICAL DATA Table P1 - U .S . Units (1 of 2) Permissible Bending Deflections SDR 13 .5 at 73°F “Snaking” (Both Ends Restrained) (L) Length of Run Feet Nominal Pipe Size – ANSI Inches 3/4 1 1-1/4 1-1/2 2 2-1/2 3 (D) Deflection - Inches 2 0.3 0.3 0.2 0.2 0.1 0.1 0.1 5 2.0 1.6 1.2 1.1 0.9 0.7 0.6 7 3.8 3.1 2.4 2.1 1.7 1.4 1.2 10 7.8 6.3 5.0 4.3 3.5 2.9 2.4 12 11.3 9.0 7.1 6.2 5.0 4.1 3.4 15 17.6 14.1 11.2 9.7 7.8 6.4 5.3 17 22.6 18.1 14.3 12.5 10.0 8.3 6.8 20 31.3 25.0 19.8 17.3 13.9 11.4 9.4 25 49.0 39.1 31.0 27.1 21.6 17.9 14.7 30 70.5 56.3 44.6 39.0 31.2 25.8 21.2 35 96.0 76.6 60.7 53.0 42.4 35.1 28.2 40 125.4 100.1 79.3 69.3 55.4 45.8 37.6 45 158.7 126.7 100.4 87.7 70.1 57.9 47.6 50 195.9 156.4 123.9 108.2 86.6 71.5 58.8 L = m D = mmDEFLECTED PIPE 47TECHNICAL DATA Table P2 - Metric Units Permissible Bending Deflections SDR 13 .5 at 23°C “Snaking” (Both Ends Restrained) (L) Length of Run Meters Nominal Pipe Size – DN DN20 DN25 DN32 DN40 DN50 DN65 DN80 (D) Deflection - Meters 0 .61 0,008 0,006 0,005 0,004 0,004 0,003 0,002 1 0,022 0,017 0,014 0,012 0,010 0,008 0,006 2 0,086 0,069 0,054 0,048 0,038 0,031 0,026 3 0,194 0,155 0,122 0,107 0,086 0,071 0,058 4 0,344 0,275 0,218 0,190 0,152 0,126 0,103 5 0,538 0,429 0,340 0,297 0,238 0,196 0,161 6 0,774 0,618 0,490 0,428 0,342 0,283 0,232 7 1,054 0,842 0,667 0,582 0,466 0,385 0,316 8 1,377 1,099 0,871 0,761 0,609 0,503 0,413 9 1,742 1,391 1,102 0,963 0,770 0,636 0,523 10 2,151 1,718 1,361 1,189 0,951 0,786 0,645 11 -2,078 1,646 1,438 1,151 0,951 0,781 13 --2,299 2,009 1,607 1,328 1,091 15 ---2,675 2,140 1,768 1,452 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 48 TECHNICAL DATA SUPPORT AND HANGER REQUIREMENTS Special care must be exercised when selecting the appropriate hanger or support method for TYCO CPVC Fire Sprinkler Systems. TYCO CPVC Fire Sprinkler Systems may be supported as follows: • Using the same hangers as metal piping systems that meet the requirements of this section • Using hangers specifically listed for thermoplastic sprinkler piping • Using any other support method acceptable to the local authority having jurisdiction When using hangers/restraining devices, ensure that the hangers are clean, free of burrs, and free of all surface oils. Any foreign substance must be removed from the hanger. When plumbers tape or J hooks are permitted by the authority having jurisdiction, for example NFPA 13D applications, rough edges are to be shielded. Avoid using hangers of the incorrect size for the pipe being fastened/hung as the hanger can pinch, crush, and damage the piping system causing it to leak or crack under pressure. Leaks may not appear until after the pipe is in service. The pipe size of the hanger shall be the same size as the supported pipe, and the hanger shall be applied to the pipe (i.e., not the fittings). Horizontal runs of piping must be braced so that stress loads (caused by bending or snaking the pipe) will not be placed on a fitting or joint. In jurisdictions that do not allow plastic to metal contact, rigid plastic sleeves should be used to isolate the materials. Strapping pipe overly tight to a structural member may cause damage to the pipe when pressurized. The pipe should be held snugly by the hanger, but cannot be pinched or crushed in any way. Pipe hangers must comply NFPA 13, NFPA 13D, NFPA 13R, or the standard recognized by the applicable Approval Agency, as appropriate. Exception: In installations where TYCO CPVC Pipe is attached tight to a continuous ceiling with a “strap” style hanger, undue stress may be placed on the pipe. The outside dimension of the fitting is greater than that of the pipe and this size difference can create an unacceptable deflection of the pipe when the strap is located directly adjacent to the fitting. In this case only, and when the fitting is tight to the ceiling, it would be acceptable to use a hanger that is one size larger than the pipe. The use of such an oversized hanger would avoid the stress on the pipe. Some hangers designed for metal pipe are suitable for use with TYCO CPVC Fire Sprinklers Systems. Hangers must not have rough or sharp edges that can come in contact with the pipe. Pipe hangers must have a load bearing surface at least 1/2 inch (12,7 mm) wide. There are several types of hangers, that have been specifically listed as “Support Devices For Thermoplastic Piping,” such as Tolco (Model 22, 23, 24), Afcon (# 510, 511, 512) and Erico (No. 107, 108, 109). Consult the specific manufacturer SHB1 Head Set 49TECHNICAL DATA for information on the appropriateness of these devices as hangers and/ or vertical restraining devices for use with TYCO CPVC Pipe and Fittings. For complete installation and positioning requirements for the TYCO HEAD SET hangers refer to Technical Data Sheet TFP1920. They are designed for direct attachment to the side of a structural wood joist or structural composite wood joist Oriented Strand Board (OSB) web member or equivalent so as to provide accurate placement of sprinklers. Pipe Bracing with Standard Band Hanger Tolco, Inc., Afcon and Erico make hanger/restraining devices that are available for use with TYCO CPVC Pipe and Fittings. A One Hole Strap, shown below, can function as a hanger and as a restraining device. As a restraining device, invert the hanger so that the fastener is downward. Installation in this manner will prevent upward movement of the sprinkler during activation. A Two Hole Strap, shown below, can function as a hanger and as a restraining strap. UL Listed CPVC hangers incorporate features that protect the pipe from sharp edges and ease installation. The hex head self-threading screw (furnished with most UL Listed CPVC hangers) is easily installed using a rechargeable electric drill and a 5/8 inch (8,0 mm) socket attachment. No pre-drilling of a pilot hole is required. Local codes have final authority on which types of hangers may be used. Hanger/Support Spacing Because TYCO pipe is more rigid than other types of plastic pipe systems, the support spacing shown in Table R shall be adhered to when installing the system. For exposed installations, Listed support devices shall be used that mount piping directly to the ceiling or side wall, except when using upright sprinklers per the installation information in the Listings & Approvals Section of this handbook. When the piping is supported by wood joists or trusses by laying the pipe directly on top of the structural members, the structure provides the support, assuming that the center spacing of the structural member does not exceed the requirements of Table Q. One Hole Strap Two Hole Strap Table Q Maximum Support Spacing “L ” (Feet) CPVC SDR 13 .5 Nominal Pipe Size ANSI Inches (DN) 3⁄4 DN20 1 DN25 1-1⁄4 DN32 1-1⁄2 DN40 2 DN50 2-1⁄2 DN65 3 DN80 Support Spacing in Feet (m) 5-1⁄2 (1,7) 6 (1,8) 6-1⁄2 (2,0) 7 (2,1) 8 (2,4) 9 (2,7) 10 (3,0)General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 50 TECHNICAL DATATECHNICAL DATA Vertical Restraint When a sprinkler activates, a significant reactive force is exerted on the pipe, especially at system static pressures greater than 100 psi (6,9 bar). The reactive force will cause the pipe to lift vertically if it is not properly secured, especially if the sprinkler drop is from a small diameter pipe. When a sprinkler drop is 3/4 (DN19) to 1-1/4 inch (DN32) pipe, the closest hanger should brace the pipe against vertical lift. A number of techniques can be used to brace the pipe such as a standard band hanger positioning the threaded support rod to 1/16 inch (1,6 mm) above the pipe or using a split ring or a wrap-around hanger for restraint. Note: Threaded rod shall not come in contact with CPVC when installed. It is advisable to use lift restraint devices such as those produced by Tolco and Afcon that prevent the threaded rod from coming in contact with the CPVC pipe (as shown above). Branch lines shall be braced at a distance from a tee or elbow to prevent lift of sprinklers as shown in Tables R or S. The hangers used for vertical restraint can also serve as the hangers for “Hanger/Support Spacing.” 51TECHNICAL DATA Table R - One Point of Restraint Nominal Pipe Size ANSI Inches DN “N” Less than 100 psi (6,9 bar) “N” Greater than 100 psi (6,9 bar) 3⁄4 DN20 0’-9” (0,23 m) 0’-6” (0,15 m) 1 DN25 1’-0” (0,30 m) 0’-9” (0,23 m) 1-1⁄4 DN32 1’-4” (0,41 m) 1’-0” (0,30 m) 1-1⁄2 - 3 DN40 - DN80 2’-0” (0,61 m) 1’-0” (0,30 m) One-Point Vertical Restraint MAX. N RESTRAINT ONE-POINT Table S - Two Points of Restraint Nominal Pipe Size ANSI Inches DN “M” Less than 100 psi (6,9 bar) “M” Greater than 100 psi (6,9 bar) 3⁄4 DN20 4’-0” (1,22 m) 3’-0” (0,91 m) 1 DN25 5’-0” (1,52 m) 4’-0” (1,22 m) 1-1⁄4 DN32 6’-0” (1,83 m) 5’-0” (1,52 m) 1-1⁄2 - 3 DN40 - DN80 7’-0” (2,13 m) 7’-0” (2,13 m) MAX. TWO-POINT RESTRAINT ANY DISTANCE M Two-Point Vertical Restraint ONE-POINT RESTRAINT MAX. N General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 52 TECHNICAL DATA CHEMICAL COMPATIBILITY NOTICE Products coming in contact with CPVC systems must be chemically compatible. Products commonly used in construction, including materials ancillary to the assembly of fire sprinkler systems, may contain chemicals that are incompatible with CPVC, including but not limited to: hydrocarbons (for example, such as non-CPVC compatible cutting oils), termiticides and insecticides, surfactants, cooking oils, plasticizers (for example, such as in flexible wire or hose), building caulks, and certain paints. This list is not meant to be exhaustive. Contact between CPVC and incompatible chemicals should be avoided; failure to avoid contact with incompatible chemicals may cause damage to/failure of the system. Consult The Lubrizol Corporation’s FBC System Compatible Program at www.fbcsystemcompatible.com. If the product in question is not identified in the FBC System Compatible Program, Lubrizol recommends, as does TYCO, that the chemical compatibility be confirmed with the manufacturer of the product in question. As set forth in TYCO’s Limited Warranty, TYCO does not provide a warranty for products or components which have been subject to deterioration from exposure to incompatible chemicals/materials. NOTICE PAINT The Listings and Approvals do not cover any (to be installed or existing) painted CPVC fire sprinkler products. Water-based acrylic latex paint is the preferred and recommended paint to be used on TYCO CPVC Pipe and Fittings. OIL OR SOLVENT-BASED PAINTS MAY BE CHEMICALLY INCOMPATIBLE WITH TYCO CPVC. The installation contractor must take responsibility for obtaining approval from the authority having jurisdiction to cover the markings on the product (i.e. product identification, listing marks, etc.) and to change color of the pipe and fittings from its identifiable orange. Application of oil or solvent-based paints must be individually reviewed, as there are certain types of paints and stains that contain drying oils and should not be used at all on CPVC. Contact the manufacturer of the paint for verification of compatibility of paints other than water-based acrylic latex. 53 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION INSTALLATION NOTICE The “Notification to Jobsite Building Trades” placard (Page 91) is to be posted from start to finish of a TYCO CPVC Fire Sprinkler System installation in a location where building trades can take notice. Upon completion of a TYCO CPVC fire sprinkler installation, the placard is to be posted in a conspicuous space adjacent to the water supply to the sprinkler system. Sprinklers shall be installed only after all the CPVC pipe and fittings, including the sprinkler adapters, are solvent welded to the piping and allowed to cure for a minimum of 30 minutes. Sprinkler fittings should be visually inspected and probed with a wooden dowel to ensure that the water way and threads are clear of any excess cement that may restrict the flow of water before installing the sprinkler. Once installation is complete and cured per Tables U, V and W, the system shall be hydrostatically tested. It is an unacceptable practice to install sprinklers into the sprinkler adapter fittings and then solvent cement to the drop. Failure to allow sprinkler fitting joint to cure before installing sprinklers may result in cement in sprinkler waterway. Assembly or disassembly of a threaded connection requires extreme care to avoid twisting of the CPVC pipe (for example, removal of a sprinkler from a CPVC pipe drop). A hold back device, approved for use with CPVC pipe and fittings, must be used on the threaded adapter to prevent damage to the CPVC piping. 54 INSTALLATION HANDLING & STORAGE OF TYCO CPVC Handling - Pipe and Fittings TYCO CPVC Pipe is protectively wrapped and fittings are packaged for ease of handling and storage, minimizing the potential damage of pipe and fittings due to transit handling and storage. NOTICE CPVC piping products have a lower impact strength as compared to metal piping products. Pipe fittings, packaged or loose, should never be tossed or thrown to the ground. Pipe should never be dropped or dragged on the ground (e.g., when unloaded from a truck) and should remain boxed until ready for use. Impact cracks, splits or scratches can weaken or damage the pipe and fittings. Heavy or sharp objects should not be thrown into or against CPVC pipe or fittings. When handling CPVC pipe, ensure that the pipe is well supported and sagging is minimized. Failure to comply could result in damage of the CPVC pipe and in property damage due to leaks. Very cold weather will make plastic pipe and fittings brittle. Extra care during handling should be taken to prevent damage. TYCO CPVC Pipe and Fittings should always be inspected for damage before actual installation. Pipe or fittings with cuts, gouges, scratches, splits or other signs of damage from improper handling or storage should not be used. Damaged sections on lengths of pipe can easily be cut out using proper techniques for cutting TYCO CPVC Pipe. Storage - Pipe & Fittings TYCO CPVC Pipe and Fittings can be stored in their original packaging to keep them free from dirt and reduce the possibility of damage. TYCO pipe (un-packaged) must be covered with a non-transparent material when stored outdoors for extended periods of time. Brief exposure to direct sunlight on the job site may result in color fade, but will not affect physical properties. Long term exposure to direct sunlight will increase color fading and can make the pipe and fittings more brittle. Avoid long term exposure to ultra-violet light and/or direct sun exposure. When storing inside, TYCO CPVC Pipe and Fittings should be kept in a well ventilated area, away from steam-lines or other types of heat sources. TYCO CPVC Pipe and Fittings should always be stored in the original packaging until needed for use to keep them free from dirt and other contaminants, eliminate color fading, and reduce the possibility of damage. Pipe should be stored on a clean, flat surface that provides an even support for the entire length of the pipe. When palletized pipe is stored, ensure that the wooden pallet bracings are in full contact with each other. Loose pipe should be stored in original packaging. When storing pipe on racks, the racks should have continuous or close support arms to prevent the pipe from sagging. Pipe racks should be free of oil/dirt and sharp edges that can damage the pipe when stored. Plastic pipe fittings should be stored on pallets in their original cartons. The cartons should then be wrapped with thin plastic sheeting to prevent moisture from causing the packaging to collapse. To avoid hydrocarbon contamination and failure of the CPVC fittings under pressure, TYCO CPVC Fittings should never be stored with metal fittings. 55 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION Special care shall be taken to avoid contamination of TYCO CPVC Pipe and Fittings. (Refer to the Notice located on page 52, Chemical Compatibility section) Handling - Solvent Cements Prior to using CPVC solvent cements, review and follow all precautions found on the container labels, material safety data sheet, and Standard Practice for Safe Handling ASTM F 402. Failure to follow precautions may result in injury. Cements contain volatile solvents that evaporate rapidly. Avoid breathing the vapors and provide ventilation. If necessary, use a fan to keep the work area clear of fumes. Avoid skin contact. Keep the cement can closed when not in use. If the cement thickens beyond its original consistency, discard it. Do not attempt to dilute it with primer or thinner, as this may change the character of the cement and make it ineffective. Primers and thinners may also not be compatible with the TYCO CPVC and could cause failures. (Refer to the Notice located on page 52, Chemical Compatibility section) Before applying solvent cement, appropriate safety precautions should be taken. Cement must be stored between 40°F (4,4°C) and 90°F (32,2°C) and should be kept in the shade. Eliminate all ignition sources and do not smoke when using. Explosion proof general mechanical ventilation or local exhaust is recommended to maintain vapor concentrations below recommended exposure limits. In confined of partially enclosed areas, a NIOSH approved organic vapor cartridge respirator with full face piece is recommended. Containers of solvent cement should be closed when not in use. Wearing PVA coated protection gloves and an impervious apron are recommended. Splash proof chemical goggles are recommended. For further information refer to Technical Data Sheet TFP1990 that provides the MSDS (Material Safety Data Sheet) for TFP-500 Solvent Cement. Note: TYCO’s CPVC solvent cement has a shelf life of approximately one to two years. Storage - Solvent Cements Cement must be stored between 40°F (4,4°C) and 90°F (32,2°C) and should be kept in the shade. Eliminate all ignition sources. Solvent - Cement Spills The best protection from accidental spills of cement is to protect the work area with drop cloths. If cement comes in contact with fiberglass tub/ shower enclosures, carpet or furniture, the excess cement must be wiped up immediately. Once the cement is dry, it is almost impossible to remove. The use of solvents such as alcohol, M.E.K. or acetone will usually work on tile sinks or floors but can do more damage than good on some synthetic materials. Care should be used when trying any solvent to remove cement from any surface. Always protect the work area before starting, both under and around where cement spills can cause irreparable damage. Whatever method is used, it should first be tested on a small hidden area, if it removes the shine or color or softens the surface, do not use. 56 INSTALLATIONINSTALLATION JOINING CPVC PIPE AND FITTINGS WITH ONE-STEP SOLVENT CEMENT NOTICE Read and understand all instructions prior to assembly. Follow all instruc- tions. Failure to follow instructions during joining and testing may result in pipe failure, clogged waterways, or leakage. Solvent cementing is the only method of joining rigid CPVC pipe and fittings that provides a chemically fused joint. Solvent cementing procedures must be carefully followed. Field experience has shown that problems can occur with improperly solvent cemented joints. Follow the instructions presented below carefully. Do not omit any steps and ensure that all facets of installation are fully understood prior to commencing work. Note the specific instructions and cure times for the TFP-500 One Step Solvent Cement provided within this handbook. These instructions and cure times must be carefully followed. TFPP offers a demonstration program for installers that is described on Page 5 of this handbook. NOTICE Use of solvent cement products other than TFP-500 One Step Solvent Ce- ment will void TYCO’s warranty on TYCO CPVC Pipe and Fittings. Avoid applying too much cement. Do not allow the cement to drip be- yond the bottom of fitting socket. Do not allow the cement to puddle in the pipe and fitting assembly. Excessive cement on the pipe and/or fit- ting can weaken the wall of the pipe and/or fitting and may cause cracks when pressure is applied. Failure to comply could result in property dam- age due to leaks. Leaks may not appear until after the pipe and/or fitting is in service. Estimating Cement Requirements Guidelines to allow estimation of TYCO CPVC Cement quantities needed are provided in Table T. Table T - Estimated Cement Requirements Fitting Size ANSI Inch DN 3/4 DN20 1 DN25 1-1/4 DN32 1-1/2 DN40 2 DN50 2-1/2 DN65 3 DN80 One Step Solvent Cemented Joints per Quart 260 170 125 95 65 40 30 57 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION Cutting CPVC can easily be cut with a ratchet cutter, a wheel-type plastic tubing cutter, a power saw or a fine toothed saw. Tools used to cut CPVC must be designed for plastic use and must be in good condition in accordance with the tool manufacturer’s recommendations. It is important to cut the pipe square. A square cut provides the surface of the pipe with maximum bonding area. NOTICE Avoid splitting the pipe when using ratchet cutters. Failure to do so may result in pipe failure or leakage. • Only use ratchet cutters that contain a sharp blade (blades dull quickly). • Only use ratchet cutters at temperatures of 50°F (10°C) or warmer. • Only use well-maintained, good quality ratchet cutters capable of consistently cutting the pipe squarely. If any indication of damage or cracking is evident at the pipe end, cut off at least 2 inches (50 mm) beyond any visible crack. De-burring and Beveling Burrs and filings can prevent proper contact between pipe and fitting during assembly, and must be removed from the outside and the inside of the pipe. A chamfering/reaming tool or a file is suitable for this purpose. A slight bevel (approximately 10° to 15°) shall be placed at the end of the pipe to ease entry of the pipe into the socket. This will also minimize the chance that the edges of the pipe will wipe solvent cement from the fitting socket during the insertion of the pipe. Solvent Cement Application Prior to using TFP-500 One Step Solvent Cement, review and follow all precautions found on the container labels, material safe- ty data sheet, and Standard Practice for Safe Handling ASTM F 402. Failure to follow pre- cautions may result in injury. INSTALLATION 58 INSTALLATION Using a clean, dry rag, wipe loose dirt and moisture from the fitting socket and pipe end. Moisture can slow the cure time and at this stage of assembly, and excessive water can reduce joint strength. The pipe should easily enter the fitting socket one-third to two-thirds of the way. Contact between the pipe and fitting is essential in making a good joint. This contact allows the solvent cement (which is applied in the next step) to effectively join the pipe and fitting. Use a dauber that is properly sized for the pipe. For 3/4 inch (DN20) and 1 inch (DN25) pipe, use a dauber that is 3/4 inch (19,1 mm) in size. For 1-1/4 inch (DN32) through 3 inch (DN80) pipe, use a dauber that is 1-1/2 inch (12,7 mm) in size. Pint cans are furnished with 3/4 inch (DN20) daubers. Quart cans are furnished with 1-1/2 inch daubers. Additional daubers can be obtained through Customer Service. All solvent cement joints shall be made with TFP-500 One Step Solvent Cement, as applicable (refer to LISTINGS/APPROVALS). Apply a heavy, even coat of cement to the outer wall of the pipe end. Apply a medium coat to the inside of the fitting socket. Pipe sizes 1-1/4 inch (DN32) and above shall always receive a second cement application. FIRST APPLY CEMENT ON THE PIPE END, THEN IN THE FITTING SOCKET, AND, FINALLY, ON THE PIPE END AGAIN. NOTICE Too much solvent cement can cause clogged waterways or weaken the wall of the pipe or fitting and result in pipe failure or leakage, which may not appear until after the pipe and/or fitting is in service. • Do not allow excess cement to puddle in the pipe and fitting assembly. To prevent this puddling, apply a lighter coating of solvent cement to the inside of the fitting socket than the outside of the pipe. • Wipe off excess cement on the outside of the joint. The solvents will evaporate, but the solvent cement inside the fitting will stay there. Special care shall be exercised when assembling CPVC fire sprinkler systems in temperatures below 40°F (4°C). In colder temperatures extra time must be allowed for the solvent cement to set and cure. Extra care should be taken to prevent damaging the pipe during handling. (Refer to the Notice located on page 54, Handling - Pipe and Fittings section.) When solvent cementing pipe and fittings in colder temperatures, make certain that the cement has not become lumpy or has not “gelled”. Gelled cement must be discarded. At temperatures above 80°F (27°C) make sure both surfaces to be joined are still wet with cement during assembly. Higher temperatures and/or wind accelerate the evaporation of the volatile solvents in the cement. Pipe stored in direct sunlight may have surface temperatures 20°F to 30°F above the air temperature. If possible, store the pipe and fittings, or, at least the ends to be solvent welded, out of the direct sunlight prior to cementing. The solvents will penetrate hot surfaces more deeply. In such conditions, it is very important to avoid puddling the solvent cement inside the fitting socket. 59 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION Assembly After applying cement, immediately insert the pipe into the fitting socket, while rotating the pipe one-quarter turn until the pipe bottoms out at the fitting stop. Rotate the pipe as it is inserted into the fitting, not after it has bottomed out in the fitting. Properly align the fitting for the installation at this time. Pipe must bottom to the stop. Hold the assembly for 30 seconds to ensure initial bonding. A bead of solvent cement should be evident around the pipe and fitting juncture . If this bead is not continuous around the socket shoulder, it may indicate that insufficient cement was applied . If insufficient cement is applied, the fitting must be cut out and discarded. Cement in excess of the bead should be wiped off with a clean, dry rag. NOTICE Failure to allow sprinkler fitting joints to cure before installing sprinklers may result in cement in the sprinkler waterway. • Install sprinklers only after all the CPVC pipe and fittings, including the sprinkler adapters, are solvent cemented and allowed to cure for a minimum of 30 minutes. • Do not install sprinklers in the fittings prior to the fittings being cemented in place. Exercise care when installing sprinklers. Allow sprinkler head fittings and previously joined fittings to cure for a minimum of 30 minutes prior to installing the sprinkler. When installing sprinklers, be sure to anchor or hold the pipe drop securely to avoid rotating the pipe in previously cemented connections. NOTICE Too much solvent cement can cause clogged waterways. • Visually inspect sprinkler fittings to ensure that the waterway and threads are clear of any excess cement. • Once the installation is complete and cured per Table U, V or W, hydrostatically test the system. Set and Cure Times NOTICE Inadequate curing of solvent cement joints may cause pipe failure or leakage. Solvent cement set and cure times are a function of pipe size, temperature, relative humidity, and tightness of fit. Cure times should be increased when moisture is present, such as during cut-ins to live sprinkler lines. (NOTE: A specific procedure for modifications or repairs to existing CPVC fire sprinkler lines is included in this manual.) The assembly must be allowed to set, without any stress on the joint, for 1 to 5 minutes, depending on pipe size and temperature. Following the initial set period, the assembly can be handled carefully, avoiding significant stresses to the joint . Refer to Tables U, V, and W for minimum cure times prior to pressure testing. 60 INSTALLATION Table U Nominal Pipe Size ANSI Inches DN Minimum Cure Time Table for Pressure Test up to 100 psi (6,9 bar) Ambient Temperature During Cure Period 60°F to 120°F (16°C to 49°C) 40°F to 59°F (4°C to 15°C) 0°F to 39°F (-18°C to 3°C) 3/4 / DN20 15 minutes 15 minutes 30 minutes 1 / DN25 15 minutes 30 minutes 30 minutes 1-1/4 / DN32 15 minutes 30 minutes 2 hours Table V Nominal Pipe Size ANSI Inches DN Minimum Cure Time Table for Pressure Test up to 200 psi (13,8 bar) Ambient Temperature During Cure Period 60°F to 120°F (16°C to 49°C) 40°F to 59°F (4°C to 15°C) 0°F to 39°F (-18°C to 3°C) 3/4 / DN20 45 minutes 1-1/2 hours 24 hours 1 / DN25 45 minutes 1-1/2 hours 24 hours 1-1/4 / DN32 1-1/2 hours 16 hours 120 hours 1-1/2 / DN40 1-1/2 hours 16 hours 120 hours 2 / DN50 6 hours 36 hours * 2-1/2 / DN65 8 hours 72 hours * 3 / DN80 8 hours 72 hours * Table W Nominal Pipe Size ANSI Inches DN Minimum Cure Time Table for Pressure Test up to 225 psi (15,5 bar) Ambient Temperature During Cure Period 60°F to 120°F (16°C to 49°C) 40°F to 59°F (4°C to 15°C) 0°F to 39°F (-18°C to 3°C) 3/4 / DN20 1 hour 4 hours 48 hours 1 / DN25 1-1/2 hours 4 hours 48 hours 1-1/4 / DN32 3 hours 32 hours 10 days 1-1/2 / DN40 3 hours 32 hours 10 days 2 / DN50 8 hours 48 hours * 2-1/2 / DN65 24 hours 96 hours * 3 / DN80 24 hours 96 hours * * For this size pipe and fitting, the solvent cement can be applied at temperatures below 40°F (4,4°C), however, the sprinkler system temperature must be raised to a temperature of 40°F (4,4°C) or above and allowed to cure per the requirements listed above prior to pressure testing. TFP-500 Solvent Cement Cure Times 61 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION System Acceptance Testing (Hydrostatic Pressure Test) Never use compressed air or notrogen in lieu of or to replace the required hydrostatic system acceptance testing. Any pre-testing performed with low pressure air or nitrogen should follow the recommendations on p. 65. System failure when using high-pressure compressed air or nitrogen may result in property damage, serious injury, or death. Once an installation is completed and joints are properly cured per the above instructions, the system shall be pressure tested with water at 200 psi (13,8 bar) for 2 hours. See Table V for curing conditions at 200 psi (13,8 bar). The system shall be pressure tested with water at 50 psi (3,4 bar) in excess of maximum pressure when the maximum system pressure is to be maintained in excess of 150 psi (10,3 bar). See Table W for curing conditions at 225 psi (15,5 bar). This requirement is in accordance with the requirements established by NFPA Standard 13, Section 24.2.1 (2013 Edition). Sprinkler systems in one- and two-family dwellings and mobile homes may be pressure tested with water at line pressure, after following Table U curing conditions, in accordance with the requirements established by NFPA 13D, Section 4.3 (2013 Edition). When pressure testing, the sprinkler system shall be slowly filled with water and the air bled from the highest and farthest sprinklers before pressure testing begins. Air must be removed from piping systems (plastic or metal) to prevent it from being locked in the system when pressure is applied. Entrapped air can generate excessive surge pressures that can result in bodily injury and/or property damage, regardless of the piping materials used. If a leak is found, the leaking pipe and/or fitting must be cut out and discarded. A new section of piping can be installed using couplings or a union. Unions should be used in accessible areas only. Limited Pressurized Air or Nitrogen Testing Allowance Extreme caution must be exercised when applying pressurized air or nitro- gen to TYCO BlazeMaster CPVC systems. System failure caused by high- pressure compressed air or nitrogen can casue property damage, severe personal injury, or death. If it is necessary to pre-test a TYCO BlazeMaster CPVC piping system with air or nitrogen prior to the required hydrostatic test, the following recommendations must be followed: 1. Maximum pressure (air or nitrogen) must never exceed 15 psig and must be regulated using the appropriate air maintenance device. 2. Air or nitrogen introduced into the system must not contain oils, lubricants, or other chemicals. Use an oil-less compressor. (Information regarding chemical and substance compatibility with TYCO BlazeMaster CPVC can be found at www.fbcsystemcompatible.com.) 3. Proper use of Personal Protective Equipment (PPE), including but not limited to safety glasses, hard hats, and protective gloves, must be worn 62 INSTALLATION while performing any air test. Prior to pressurization and for the duration of the test, all personnel must be evacuated from the test area. Note: This recommendation applies only when the pre-testing of a sys- tem has been deemed necessary. Pre-testing with low pressure air or nitrogen is not a substitute for hydrostatic testing, which is required by the installation standard (i.e., NFPA). JOINING PIPE AND FITTINGS IN ADVERSE CONDITIONS In Cold Weather TFP-500 One Step Solvent Cement is suitable for cold weather usage down to 0°F (-18°C). (Assembly temperatures below 0°F (-18°C) are not permitted.) The bonding of TYCO CPVC Pipe and Fittings is a function of temperature and time; therefore, very cold weather requires extra time be taken in joining the pipe and fittings. Very cold weather will make TYCO CPVC Pipe and Fittings brittle. Extra care should be taken to prevent damage during handling, cutting, de-burring, beveling, and assembly. NOTICE Extra care must be exercised if using ratchet cutters as they may split the pipe if not properly used and maintained. Refer to the Cutting section on Page 57. When working in cold weather, take special note that solvents penetrate and soften the surfaces more slowly than in warm weather. Colder temperatures require greater cure times due to the slower evaporation of primer in solvent cements. Cure charts are found in Tables U, V and W. The following requirements should be followed when cementing during cold weather: 1. Carefully read and follow all instructions before installation. 2. Prefabricate as much of the system as possible in a heated working area. 3. Store cements in a warm area when not in use and make sure they remain fluid. Do not allow the cement to freeze or become “jelly-like.” Gelled cement shall be discarded. 4. Take special care to remove moisture, including ice and snow. 5. When using TFP-500 One Step Solvent Cement, primer shall never be used. 6. Allow a longer cure period before the system is used. In Hot Weather CPVC solvent cements contain volatile solvents. Higher temperatures and/ or wind accelerate evaporation. Pipe stored in direct sunlight may have surface temperatures of 20°F to 30°F (11°C to 17°C) above air temperatures. Solvents attack these hot surfaces deeper; therefore, it is very important to avoid puddling the cement inside the fitting socket. Always ensure that the excess cement is wiped from the outside of the joint. Follow the standard installation instructions and take special note of the tips and cautions below: 1. Refer to Tables G1 & G2 for the appropriate temperature related expansion and contraction information. 63 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION 2. Store solvent/cements and primers in a cool or shaded area prior to use. 3. If possible, store pipe and fittings, or at least the ends to be solvent welded, in a shady area before cementing. 4. Make sure both surfaces to be joined are still wet with cement when putting them together. With larger size pipe more people may be required to complete the application successfully. 5. Carefully read and follow all instructions before installation. TRANSITION TO OTHER MATERIALS Male and female brass insert thread adapters, grooved pipe adapters, or flanges shall be used when connecting a TYCO system to other piping materials. Special brass threaded adapters are used for connection to sprinklers. When TYCO CPVC Pipe and Fittings are used in combination systems with steel pipe, compliance with 2013 NFPA 13 sections 6.3.7 and 6.4.3, and 2013 NFPA 13R sections 5.2.3 and 5.2.12.2 is required. The instructions for transitioning to other materials are specifically for TYCO CPVC Fittings. Should other Listed BlazeMaster CPVC Fittings be used in conjunction with TYCO CPVC products, consult the fitting manufacturer’s installation and design manuals. NOTICE Care must be taken when transition is made to dissimilar materials. Brass inserts used in male and female threaded and grooved CPVC adapters may create galvanic reaction with steel and iron drop nipples, pipe, and cast fittings in certain water conditions. If you are unsure of the potential for galvanic reaction to occur, verify the water condition and conductivity of the water being used in the sprinkler system piping prior to installation. Brass threaded nipples are recommended when using brass inserted threaded TYCO CPVC Fittings to reduce the potential of galvanic reaction caused by dissimilar metals. Care must be taken when transition is made from metallic pipe, fittings and flanges. When transitioning from metallic pipe system to a TYCO CPVC piping system via grooved adapter, male or female thread adapter or flanges, caution must be taken to insure that all hydrocarbons and/or cutting oils are thoroughly removed from both inside and outside of the metallic pipe, fittings and flanges prior to assembly with TYCO CPVC Pipe and Fittings. (Refer to Notice located on page 52, Chemical Compatibility section.) 64 INSTALLATION Threaded Connections A thread sealant shall be used in making threaded connections. TEFLON thread tape is the recommended sealant. Some thread sealants other than TEFLON thread tape contain solvents or other materials that may be damaging to CPVC. For other types of thread sealants, which have been specifically investigated and confirmed to be “System Compatible,” refer to the FBC System Compatible Program at www.fbcsystemcompatible.com, Underwriters Laboratory and FM Global Approvals. Note: The use of any other thread sealant may result in damage to the TYCO CPVC and/or the brass insert. DO NOT use a combination of tape and thread sealant on the same joint. When using TEFLON thread tape, TFPP recommends a thickness of 0.003 inch (3 mils) ±0.005" and the tape must meet or exceed military specification MIL-T-27730A. The tape should be wrapped in the direction of the threads. Generally 2 to 3 wraps are sufficient to obtain a leak free seal. When using OATEY GREAT WHITE Thread Sealant, it should be applied to the male threads only. Make sure all the threads are covered and DO NOT clog the waterway with excess sealant. Care must be taken to avoid over-torquing - usually 1 to 2 turns beyond finger tight is all that is required to make up a threaded connection. For sprinkler torque requirements refer to the appropriate sprinkler technical data sheets. NOTICE A hold back device, approved for use with CPVC pipe and fittings, must be used when torquing the body of the sprinkler adapter. Failure to so may re- sult in damage to the brass threaded connector and void the TFPP warran- ty. Additionally, the CPVC system may also fail or leak, resulting in prop- erty damage. Grooved Coupling Adapter Connections The following procedures are recommended for proper assembly of the Grooved Coupling Adapter: Inspect the fittings and pipe to ensure that they are sufficiently free of indentations, projections or roll-marks on the gasket seating areas of the fitting and pipe. The pipe should be squarely cut. Any loose scale, paint and/or dirt must be removed from the groove and seating surfaces prior to assembly. Use a standard grade EPDM-A (See manufacturer for temperature ratings) gasket that is suitable for wet fire sprinkler service. A flexible coupling shall be used with grooved coupling adapters such as the Grinnell Figure 705 or 707 Grooved Flexible Coupling. NOTICE Products coming in contact with CPVC systems (e.g., coupling gaskets, coupling lubricants, etc.) must be chemically compatible. (Refer to the Notice located on Page 52, Chemical Compatibility section.) 65 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION Use of rigid style couplings may damage the grooved coupling adapter. Consult the grooved coupling manufacturer for proper selection and in- stallation instructions. Use of petroleum based lubricants will damage the gasket and may dam- age the adapter, resulting in stress failure of the CPVC housing that could cause property damage. PENETRATING FIRE RATED WALLS & PARTITIONS Consult the authority having jurisdiction and building codes prior to penetrating fire rated walls and partitions. Several through-penetration firestop systems are UL Classified for use with CPVC pipe. TFPP recommends the use of BlazeMaster Caulk and Walk for use with TYCO CPVC Pipe and Fittings, as this caulking product contains a water based intumescent that will not harm the CPVC compound as verified by The Lubrizol Corporation. The use of fire-stopping materials incompatible with TYCO CPVC Pipe and Fittings may cause damage to and/or failure of the CPVC system. (Refer to the Notice located on Page 52, Chemical Compatibility section.) TYCO CPVC piping systems shall be designed and installed so that the piping is not closely located to heat producing sources, such as light fixtures, ballasts and steam lines. Pipe must not be positioned directly over open ventilation grills. Finally, during periods of remodeling or ceiling repair, appropriate steps must be taken to shield the piping from the protected occupancy. Because TYCO CPVC Pipe is much more flexible than metallic sprinkler pipe, it has greater capacity to withstand earthquake damage. In areas subject to earthquakes, TYCO CPVC piping systems should be designed and braced in accordance with local codes and NFPA Standard 13. For information regarding Bending Deflections and Snaking Deflections for given lengths of CPVC SDR 13.5 pipe, refer to Tables N1, N2, P1, and P2. Use extreme care when passing TYCO CPVC Pipe and Fittings through metal studs, as the sharp cut edges of these studs can scar or puncture thermoplastic pipe. TFPP recommends the use of chemically compatible rubber or plastic grommets such as those commonly used in the plumbing industry for protection of the pipe when passing through such spaces. Consult your local authority having jurisdiction for additional information regarding the protection of thermoplastic pipe when passed through metal studs. (Refer to the Notice located on Page 52, Chemical Compatibility section.) 66 INSTALLATION FREEZE PROTECTION Use of Dry Type Sprinklers When dry type sprinklers are connected to a water filled TYCO CPVC piping system protecting areas subject to freezing temperature, consideration must be given to the appropriate length of the sprinkler that will prevent freezing of the water in the connecting pipes due to conduction, as well as the compatibility of the fitting to which the dry type sprinkler will be attached. Refer to the sprinkler manufacturers’ installation instructions for specific guidance on the minimum recommended lengths between the face of the sprinkler fitting and the outside surface of the protected area, as well as the appropriate fitting types for use with dry type sprinklers. Use and Cautions with Glycerin Antifreeze Whenever possible, TYCO CPVC systems are recommended to be protected by using batt insulation and building construction techniques that ensure adequate freeze protection and wind blocking. Batt insulation guidelines are provided by most local authorities having jurisdiction with recommendations for NFPA 13D installations provided in the Appendix of that Standard. Local building code and authorities having jurisdiction requirements must be followed carefully, as misplaced or inadequate insulation and wind blocking can create localized freeze of the system piping that can result in damage to the structure and piping system. When adequate insulation and wind blocking are not available, TYCO CPVC Pipe and other Listed TYCO CPVC Fittings can be protected with Glycerin antifreeze solutions only as outline by NFPA 13 in areas that are subject to freezing. The guidelines provided below must be followed when providing freeze protection for TYCO CPVC Pipe and Fittings. NOTICE Products coming in contact with CPVC systems (e.g., anti-freeze, alcohol based cleaners, etc.) must be chemically compatible. (Refer to the Notice located on Page 52, Chemical Compatibility section.) • The use of glycol based antifreeze solutions is specifically prohibited for use with TYCO CPVC systems . • Prior to using Glycerin Antifreeze, consult the local authority having jurisdiction on the use of antifreeze solutions in fire sprinkler applications. • Prior to using Glycerin antifreeze solutions, consult the NFPA 13 standard for rules and guidelines. • Do not hydro test Glycerin antifreeze designed sprinkler systems with water only prior to introducing Glycerin antifreeze as the potential for freezing in the drops is increased. The Glycerin solution will not fully mix with trapped water in sprinkler drops and sprinkler system low points. • A Glycerin antifreeze sprinkler system is more prone to leakage than a water only sprinkler system. Glycerin characteristics increase the capacity for leakage and can be successfully addressed by using care when making threaded connections by ensuring sufficient torque is applied to the male and female threads being mated. A thread sealant shall be used in making threaded connections. TEFLON thread tape is the recommended sealant. Some thread sealants other than TEFLON thread tape contain solvents or other materials that maybe damaging to CPVC. For other types of thread 67 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION sealants, which have been specifically investigated and confirmed to be “System Compatible,” refer to the FBC System Compatible Program at www.fbcsystemcompatible.com. TYCO recommends between 14 and 21 ft.-lbs. (19,0 - 28,5 Nm) of torque to achieve a leak free 1/2 inch (DN15) NPT seal. Do not use fittings or sprinklers with damaged threads in glycerin systems, as the damaged threads create increased leakage potential. • Glycerin antifreeze can be cleaned with alcohol based cleaners. Prior to using any cleaner on a surface, ensure compatibility with the surface material to be cleaned. If compatibility with the surface to be cleaned is questionable, a small section of the surface should be spot cleaned prior to wide spread application of the cleaner. Batt Insulation Requirements and Suggestions Many jurisdictions recommend the use of batt insulation for freeze protection in place of antifreeze solutions. These jurisdictions typically publish recommended batt insulation guidelines that provide the minimum thickness of insulation to be utilized. These minimum insulation recommendations should be followed. Insulation requirements may vary by geographic area given climate conditions. Batt insulation is used to maintain a minimum water temperature in the sprinkler piping of 40°F (4,4°C). The minimum insulation recommendations pictured in the Appendix of NFPA 13D are shown primarily for piping wood frame ceilings with an unheated attic or an un-insulated roof above. Many jurisdictions do not allow the installation of water filled sprinkler piping in unheated outside walls. Consult the local authority having jurisdiction prior to installing batt insulation for freeze protection with BlazeMaster CPVC products. NOTICE Products coming in contact with CPVC systems (e.g. insulation) must be chemically compatible. (Refer to the Notice located on Page 52, Chemical Compatibility section.) Batt Insulation Installation Recommendations The 2007 edition of NFPA 13D, The Standard for the Installation of Sprinkler Systems in One and Two-Family Dwellings and Manufactured Homes, Appendix A.8.3.1 recommends the following guidelines for use of batt insulation: In areas subject to freezing, care should be taken to cover sprinkler piping completely in unheated attic spaces with insulation. Installation should follow the guidelines of the insulation manufacturer. (Figures A.8.3.1 (a) through (e) show several installation methods that can be considered.) • A.8.3.1 (a) “It is important that the insulation be installed tight against the joists. In unheated areas, any spaces or voids between the insulation and the joists causes the water in the fire sprinkler piping to freeze” • A.8.3.1 (b) “For areas having temperatures of 0°F (-18°C) or lower, an additional batt of insulation covering the joist and the fire sprinkler piping should be used. If this is not done, localized freeze-ups can occur in the sprinkler piping.” • A.8.3.1 (c) “Boring holes in the joist is one of the methods for locating the fire sprinkler piping in the ceiling. As an alternative, when temperatures 68 INSTALLATION are expected to be 0°F (-18°C) or lower, loose pieces on insulation should be stuffed in the bored holes around the piping.” • A.8.3.1 (d) (e) ”Care should be taken to avoid compressing the insulation. This reduces its R value. To prevent potential freeze-ups of the sprinkler piping, the insulation should be tight against the joists.” Minimum insulation R value requirements are typically between R19 and R30; however, the minimum requirements must be verified with the authority having jurisdiction. CUT-IN PROCEDURE FOR SYSTEM MODIFICATION AND REPAIR At times it may become necessary to make modifications to existing CPVC fire sprinkler systems. Cut-ins can be done safely when the proper procedures are followed. The following procedure has been developed to assure that the modifications are done successfully. Prior to making cut-ins to existing systems, care should be used to review proper joining procedures and to follow cut-in cure schedules (Tables U, V and W) to ensure system integrity. Several methods can be utilized to tie into an existing system using a socket style tee fitting in combination with the use of socket unions, grooved coupling adapters, and flanges. Regardless of the method used, the following points must be followed to ensure system integrity: • Using proper tools, the cut-in should be made on the smallest diameter pipe section (that is capable of adequately supplying the system changes) in close proximity to the modification being made. This approach will expedite cure times prior to pressure testing. • The cut-in connection to the existing system should be made first, prior to proceeding with additional work. • Existing lines must be drained adequately prior to solvent cementing. Use a Drain Vac unit to be sure all water is removed from the system. Moisture can slow the cure time and will reduce joint strength. • Carefully review and follow the solvent cementing procedures for proper joining techniques prior to commencing the cut-in (pipe must be cut square to proper length, de-burred, beveled and dry to ensure proper insertion depth and system integrity). • Carefully measure and cut pipe to proper length to ensure complete insertion during assembly (first check the interference fit of the components being joined). Note: During assembly of the cut-in tee (and other components), it is important to make a one-quarter turn when inserting the pipe into the fitting per the installation instructions. This may require the use of sev- eral components assembled in combination with the cut-in tee to cre- ate a short spool piece assembly. This can be accomplished by using socket unions, flanges, or grooved coupling adapters that will ensure that a one-quarter turn can be obtained on all pipe connections being joined. • Prior to applying the solvent cement, use a clean dry rag to wipe moisture and dirt from the fitting socket and the pipe end (the presence of moisture on the joining surfaces will reduce joint integrity). • Use a new can of solvent cement when making cut-in connections (verify expiration dates stamped on can prior to use). 69 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationINSTALLATION • After all work is completed, the cut-in joints must be allowed to cure properly prior to pressure testing as shown in the Tables U, V, and W. • After work is completed and the cut-in cure times are met, inspect work for proper alignment and hanger placement prior to pressure testing. • After cut-in cure times are met, the system must be slowly filled with water and the air bled from the farthest and highest sprinklers before test pressure is applied. (Refer to instructions regarding pressure testing the system.) • After cut-in cure times are met and the air is bled from the system, pressure testing of the portion of the sprinkler system containing the cut-in tee is recommended. Prior to pressure testing, the system must be isolated off to its smallest area using floor valves, etc., to isolate the cut-in area. Additionally, the recommended test pressure to be applied is a maximum of 50 psi (3,4 bar) over the system operating pressure. Should a leak occur, this approach will minimize the potential for water damage. • When tying into a TYCO CPVC piping system that has been painted with water based latex paint, the paint on the end of the piping should be removed with a fine grain sand paper approximately 1/4 to 1/2 inches (6,4 to 12,7 mm) beyond the make-in of the fitting being added. Care should be exercised to assure that material is evenly removed from the entire circumference of the piping. The outside diameter of the piping should be measured and compared to Tables D1 and D2. If too much material is removed at one location along the circumference, it could result in a leak point once the fitting is solvent welded to the piping. Special care should be made when selecting the fitting that will be attached to the recently cleaned piping. Check the dry fit of the pipe and fitting. The pipe should enter the fitting socket easily 1/4 to 3/4 of the way. If the pipe bottoms in the fittings with little interference, select a different fitting. All other criteria outlined in “Installation- Cut-In Procedure for System Modification and Repair” on Page 69 should be followed to assure system integrity. 70 INSTALLATIONINSTALLATION THIS PAGE INTENTIONALLY LEFT BLANK 71 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationVISIT WWW.TYCO-FIRE.COM For more information about: • BlazeMaster CPVC and other TYCO products/services; and • The terms and conditions of sale including the BlazeMaster Limited Ten Year Warranty, Visit TYCO Fire Products website at http://www.tyco-fire.com. 72 APPENDIX A - PIPE FITTINGS ASTM CPVC Fitting Socket Dimensions U .S . Units C F E ABD Nominal Pipe Size ANSI Inches Nominal Inches A Socket Entrance Diameter B Socket Bottom Diameter C Minimum Socket Depth D Minimum Inside Diameter Minimum Wall Thicknesses E F 3/4 1.058 1.046 0.719 0.740 0.113 0.141 1 1.325 1.310 0.875 0.990 0.133 0.166 1-1/4 1.670 1.655 0.938 1.335 0.140 0.175 1-1/2 1.912 1.894 1.375 1.446 0.220 0.250 2 2.387 2.369 1.500 1.881 0.218 0.275 2-1/2 2.889 2.868 1.750 2.250 0.276 0.345 3 3.516 3.492 1.875 2.820 0.300 0.375 ASTM CPVC Fitting Socket Dimensions Metric Units C F E ABD Nominal Pipe Size DN Nominal Millimeters A Socket Entrance Diameter B Socket Bottom Diameter C Minimum Socket Depth D Minimum Inside Diameter Minimum Wall Thicknesses E F DN20 26,88 26,60 18,30 18,80 2,90 3,60 DN25 33,70 33,30 22,23 25,15 3,40 4,22 DN32 42,42 42,04 23,82 33,91 3,60 4,50 DN40 48,60 48,11 34,93 36,73 5,60 6,40 DN50 60,63 60,20 38,10 47,80 5,54 7,00 DN65 73,40 72,90 44,45 57,20 7,00 8,80 DN80 89,31 88,70 47,63 71,63 7,62 9,53 73APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 0.625 (15,9)40 0.11 (0,05)80000 1 DN25 0.687 (17,4)40 0.19 (0,09)80001 1-1/4 DN32 0.875 (22,2)40 0.26 (0,11)80002 1-1/2 DN40 1.062 (27,0)80 0.51 (0,23)80003 2 DN50 1.375 (34,9)80 0.90 (0,41)80004 2-1/2 DN65 1.562 (39,7)80 1.59 (0,72)80005 3 DN80 1.812 (46,0)80 2.41 (1,09)80006 T/O T/O T/O TEE 74 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm)Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z X Y Z 3/4 DN20 3/4 DN20 1 DN25 0.750 (19,0) 0.750 (19,0) 0.625 (15,9)40 0.14 (0.06)80132 1 DN25 3/4 DN20 3/4 DN20 0.562 (14,3) 0.562 (14,3) 0.750 (19,0)40 0.14 (0.06)80133 1 DN25 3/4 DN20 1 DN25 0.750 (19,0) 0.687 (17,4) 0.750 (19,0)40 0.17 (0,07)80134 1 DN25 1 DN25 3/4 DN20 0.625 (15,9) 0.625 (15,9) 0.812 (20,6)40 0.16 (0,07)80260 1-1/4 DN32 1 DN25 3/4 DN20 0.625 (15,9) 0.625 (15,9) 0.937 (23,8)40 0.21 (0,09)80135 1-1/4 DN32 1 DN25 1 DN25 0.750 (19,0) 0.750 (19,0) 0.937 (23,8)40 0.22 (0,09)80136 1-1/4 DN32 1 DN25 1-1/4 DN32 0.937 (23,8) 0.937 (23,8) 0.875 (22,2)40 0.26 (0,11)80137 1-1/4 DN32 1-1/4 DN32 3/4 DN20 0.625 (15,9) 0.625 (15,9) 0.875 (22,2)40 0.23 (0,10)80261 1-1/4 DN32 1-1/4 DN32 1 DN25 0.750 (19,0) 0.750 (19,0) 0.875 (22,2)40 0.26 (0,11)80262 1-1/4 DN32 1-1/4 DN32 1-1/2 DN40 1.000 (25,4) 1.000 (25,4) 1.000 (25,4)80 0.43 (0,19)80138 1-1/2 DN40 1-1/4 DN32 3/4 DN20 0.562 (14,3) 0.562 (14,3) 1.000 (25,4)80 0.36 (0,16)80140 1-1/2 DN40 1-1/4 DN32 1 DN25 0.562 (14,3) 0.562 (14,3) 1.062 (27,0)80 0.38 (0,17)80141 1-1/2 DN40 1-1/2 DN40 3/4 DN20 0.562 (14,3) 0.562 (14,3) 1.000 (25,4)80 0.36 (0,16)80263 T/O X T/O Y T/O Z Z X Y REDUCING TEE — 1 of 2 75 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationAPPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm)Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z X Y Z 1-1/2 DN40 1-1/2 DN40 1 DN25 0.562 (14,3) 0.562 (14,3) 1.062 (27,0)80 0.38 (0,17)80264 1-1/2 DN40 1-1/2 DN40 1-1/4 DN32 0.875 (22,2) 0.875 (22,2) 1.000 (25,4)80 0.45 (0,20)80275 2 DN50 2 DN50 3/4 DN2 0.750 (19,0) 0.750 (19,0) 1.375 (34,9)80 0.61 (0,28)80265 2 DN50 2 DN50 1 DN25 0.875 (22,2) 0.875 (22,2) 1.375 (34,9)80 0.66 (0,30)80266 2 DN50 2 DN50 1-1/4 DN32 1.125 (28,6) 1.125 (28,6) 1.375 (34,9)80 0.74 (0,33)80274 2 DN50 2 DN50 1-1/2 DN40 0.750 (19,0) 0.687 (17,4) 0.750 (19,0)80 0.78 (0,35)80267 2-1/2 DN65 2-1/2 DN65 1 DN25 1.562 (39,7) 1.562 (39,7) 1.562 (39,7)80 1.43 (0,65)80271 2-1/2 DN65 2-1/2 DN65 1-1/4 DN32 1.562 (39,7) 1.562 (39,7) 1.562 (39,7)80 1.46 (0,66)80272 2-1/2 DN65 2-1/2 DN65 1-1/2 DN40 1.562 (39,7) 1.562 (39,7) 1.562 (39,7)80 1.48 (0,67)80273 2-1/2 DN65 2-1/2 DN65 2 DN50 1.562 (39,7) 1.562 (39,7) 1.562 (39,7)80 1.50 (0,68)80276 3 DN80 3 DN80 1-1/2 DN40 1.812 (46,0) 1.812 (46,0) 1.812 (46,0)80 2.28 (1,03)80270 3 DN80 3 DN80 2 DN50 1.812 (46,0) 1.812 (46,0) 1.750 (44,4)80 2.25 (1,02)80268 3 DN80 3 DN80 2-1/2 DN65 1.812 (46,0) 1.812 (46,0) 1.812 (46,0)80 2.44 (1,11)80269 T/O X T/O Y T/O Z Z X Y REDUCING TEE — 2 of 2 76 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y X Y 1 DN25 3/4 DN20 0.875 (22,2) 0.875 (22,2)40 0.28 (0,13)80015 Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 0.562 (14,3)40 0.13 (0,06)80009 1 DN25 0.687 (17,4)40 0.23 (0,10)80010 1-1/4 DN32 0.937 (23,8)40 0.34 (0,15)80011 1-1/2 DN40 1.062 (27,0)80 0.67 (0,30)80012 2 DN50 1.312 (33,3)80 1.00 (0,45)80013 2-1/2 DN65 1.562 (39,7)80 1.91 (0,87)80014 3 DN80 1.812 (46,0)80 2.89 (1,31)80008 T/O T/O T/O T/O YT/O X T/O X T/O Y T/O Y X X Y CROSS REDUCING CROSS 77 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationAPPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 0.625 (15,9)40 0.09 (0,04)80025 1 DN25 0.750 (19,0)40 0.14 (0,06)80026 1-1/4 DN32 1.000 (25,4)40 0.21 (0,09)80027 1-1/2 DN40 1.062 (27,0)80 0.40 (0,18)80028 2 DN50 1.312 (33,3)80 0.79 (0,36)80029 2-1/2 DN65 1.562 (39,7)80 1.14 (0,52)80030 3 DN80 1.812 (46,0)80 1.82 (0,82)80031 Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y X Y 1 DN25 3/4 DN20 0.687 (17,4) 1.812 (46,0)40 0.16 (0,07)80032 T/O XY X T/O Y T/O T/O 90° ELBOW 90° REDUCING ELBOW 78 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 0.375 (9,5)40 0.08 (0,04)80050 1 DN25 0.375 (9,5)40 0.11 (0,05)80051 1-1/4 DN32 0.750 (19,0)40 0.20 (0,09)80052 1-1/2 DN40 0.500 (12,7)80 0.31 (0,14)80053 2 DN50 0.750 (19,0)80 0.56 (0,25)80054 2-1/2 DN65 1.812 (46,0)80 0.89 (0,40)90055 3 DN80 1.000 (25,4)80 1.19 (0,54)90056 T/O T/O 45° ELBOW 79 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationAPPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y 1 DN25 3/4 DN20 0.125 (3,2)40 0.08 (0,04)80220 Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 0.125 (3,2)40 0.08 (0,04)80075 1 DN25 0.125 (3,2)40 0.11 (0,05)80076 1-1/4 DN32 0.187 (4,7)40 0.20 (0,09)80077 1-1/2 DN40 0.500 (12,7)80 0.31 (0,14)80078 2 DN50 0.750 (19,0)80 0.56 (0,25)80079 2-1/2 DN65 0.812 (20,6)80 0.89 (0,40)80080 3 DN80 1.000 (25,4)80 1.19 (0,54)80081 T/O T/OX Y COUPLING REDUCING COUPLING 80 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y 1 DN25 3/4 DN20 0.437 (11,1)40 0.04 (0,06)80200 1-1/4 DN32 3/4 DN20 0.500 (12,7)40 0.11 (0,05)80201 1-1/4 DN32 1 DN25 0.312 (7,9)40 0.12 (0,05)80202 1-1/2 DN40 3/4 DN20 0.625 (15,9)80 0.16 (0,07)80203 1-1/2 DN40 1 DN25 0.500 (12,7)80 0.14 (0,06)80204 1-1/2 DN40 1-1/4 DN32 0.375 (9,5)80 0.17 (0,08)80205 2 DN50 3/4 DN20 0.812 (20,6)80 0.27 (0,12)80206 2 DN50 1 DN25 0.687 (17,4)80 0.26 (0,12)80207 2 DN50 1-1/4 DN32 0.562 (14,3)80 0.24 (0,11)80208 2 DN50 1-1/2 DN40 0.437 (11,1)80 0.19 (0,11)80209 2-1/2 DN65 1 DN25 0.937 (23,8)80 0.42 (0,19)80215 2-1/2 DN65 1-1/4 DN32 0.812 (20,6)80 0.45 (0,20)80214 2-1/2 DN65 1-1/2 DN40 0.687 (17,4)80 0.46 (0,21)80213 2-1/2 DN65 2 DN50 0.625 (15,9)80 0.29 (0,13)80211 3 DN80 2 DN50 0.750 (19,0)80 0.72 (0,33)80210 3 DN80 2-1/2 DN65 0.500 (12,7)80 0.47 (0,21)80212 T/OY X REDUCING BUSHING 81 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationAPPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 0.312 (7,9)40 0.04 (0,02)80100 1 DN25 0.375 (9,5)40 0.06 (0,03)80101 1-1/4 DN32 0.437 (11,1)40 0.10 (0,04)80102 1-1/2 DN40 0.687 (17,4)80 0.20 (0,09)80103 2 DN50 0.687 (17,4)80 0.31 (0,14)80104 2-1/2 DN65 0.875 (22,2)80 0.58 (0,26)80105 3 DN80 1.000 (25,4)80 0.88 (0,40)80106 Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y X Y 3/4 DN20 1/2 NPT 0.562 (14,3) 1.000 (25,4)40 0.20 (0,09)80199 1 DN25 1/2 NPT 0.750 (19,0) 1.250 (31,7)40 0.26 (0,12)80198 1 DN25 3/4 NPT 1.062 (27,0) 1.437 (36,5)40 0.26 (0,12)80196 T/O Y T/O X X T/O Y CAP SPRINKLER ADAPTER 90° ELBOW 82 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Nominal Take-Out & Pipe O .D . Inches (mm)Pipe Schd . Approx . Weight Lbs . (kg .) P/N T/O Pipe O .D . 1-1/4 DN32 1-1/4 Groove 0.875 (22,2) 1.660 (42,4)40 0.78 (0,35)80160 1-1/2 DN40 1-1/2 Groove 1.125 (28,6) 1.900 (48,3)80 0.95 (0,43)80161 2 DN50 2 Groove 0.750 (19,0) 2.375 (60,3)80 1.42 (0,64)80162 2-1/2 DN65 2-1/2 Groove 1.562 (39,7) 2.875 (73,0)80 2.28 (1,03)80163 2-1/2 DN65 76,1mm Groove 1.562 (39,7) 76,1mm 3.000 80 2.28 (1,03)80169 3 DN80 3 Groove 1.562 (39,7) 3.500 (88,9)80 3.00 (1,36)80164 O.D. PIPE T/O GROOVED COUPLING ADAPTER 83 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationAPPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 1/2 NPT 0.437 (11,1)80 0.20 (0,09)80175E 1 DN25 1/2 NPT 0.437 (11,1)80 0.22 (0,10)80176E 3/4 DN20 1/2 NPT 0.437 (11,1)40 0.16 (0,07)80175WL 1 DN25 3/4 NPT 0.812 (20,6)40 0.43 (0,19)80179 3/4 DN20 1/2 NPT 0.500 (12,7)40 0.19 (0,09)80175W 1 DN25 1/2 NPT 0.500 (12,7)40 0.18 (0,08)80176W Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 1/2 NPT 0.500 (12,7)40 0.16 (0,07)80177L 1 DN25 1/2 NPT 0.562 (14,3)40 0.20 (0,09)80178 1 DN25 3/4 NPT 0.875 (22,2)40 0.40 (0,18)80180 1 DN25 1/2 NPT 0.625 (15,9)40 0.20 (0,09)80178X T/O T/OT/O T/O T/O SPRINKLER ADAPTER WL W E SPRINKLER ADAPTER (SPIGOT) X (Not LPCB Approved) 84 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 3/4 NPT 0.812 (20,6)80 0.41 (0,19)80142 1 DN25 1 NPT 0.875 (22,2)80 0.63 (0,28)80145 1-1/4 DN32 1-1/4 NPT 1.125 (28,6)40 1.03 (0,47)80146 1-1/2 DN40 1-1/2 NPT 1.375 (34,9)80 1.42 (0,64)80147 2 DN50 2 NPT 1.687 (42,8)80 2.66 (1,18)80148 Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N 3/4 DN20 3/4 NPT 1.312 (33,3)40 0.33 (0,15)80157 1 DN25 1 NPT 1.375 (34,9)40 0.56 (0,25)80158 T/O T/O FEMALE ADAPTER MALE ADAPTER 85 General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant InformationAPPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z X Y Z 3/4 DN20 3/4 DN20 1/2 NPT 0.562 (14,3) 0.562 (14,3) 1.000 (25,4)40 0.22 (0,10)80250 1 DN25 1 DN25 1/2 NPT 0.687 (17,4) 0.687 (17,4) 1.187 (30,1)40 0.29 (0,13)80251 1 DN25 1 DN25 1 NPT 0.937 (23,8) 0.937 (23,8) 1.562 (39,7)40 0.73 (0,33)80249 1-1/4 DN32 1 DN25 1/2 NPT 0.437 (11,1) 0.562 (14,3) 1.312 (33,3)40 0.30 (0,14)80256 1-1/4 DN32 1-1/4 DN32 1/2 NPT 0.437 (11,1) 0.437 (11,1) 1.312 (33,3)40 0.31 (0,14)80252 1-1/2 DN40 1-1/4 DN32 1/2 NPT 0.500 (12,7) 0.687 (17,4) 1.437 (36,5)40 0.43 (0,19)80257 1-1/2 DN40 1-1/2 DN40 1/2 NPT 0.500 (12,7) 0.500 (12,7) 1.437 (36,5)80 0.46 (0,21)80254 2 DN50 1-1/2 DN40 1/2 NPT 0.500 (12,7) 0.625 (15,9) 1.687 (42,8)80 0.56 (0,25)80258 2 DN50 2 DN50 1/2 NPT 0.500 (12,7) 0.500 (12,7) 1.687 (42,8)80 0.62 (0,28)80253 Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z X Y Z 1 DN25 1 DN25 1 NPT 0.90 (22,9) 0.90 (22,9) 0.86 (21,8)40 0.71 (0,32)80259 ZT/O X T/O Y X T/O Z Y ZT/O X T/O Y X Y T/O Z SPRINKLER ADAPTER TEE DRY SPRINKLER ADAPTER TEE 86 APPENDIX A - PIPE FITTINGS Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z X Y Z 1 DN25 1/2 NPT 1/2 NPT 0.562 (14,3) 1.312 (33,3)40 0.48 (0,22)80459 1 DN25 1/2 NPT 1/2 NPT 0.687 (17,4) 1.187 (30,1)40 0.46 (0,21)80460 Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z W X Y Z W 1 DN25 1 DN25 1/2 NPT 1/2 NPT 0.625 (15,9) 1.187 (30,1)40 0.46 (0,21)80462 1 DN25 1 DN25 1/2 NPT 1/2 NPT 0.625 (15,9) 1.312 (33,3)40 0.47 (0,21)80463 YT/O Z T/O W Z T/O Y T/O X W X XT/O Y T/O Z Y Z T/O X BACK TO BACK TEE BACK TO BACK CROSS 87 Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y X Y 1 DN25 ISO 228 G3/8 0.750 (19,0) 1.750 (44,5)40 0.26 (0,12)82198 Nominal Pipe Size ANSI Inches DN Thread Size Nominal Take-Out Inches (mm) Pipe Schd . Approx . Weight Lbs . (kg .) P/N X Y Z X Y Z 1 DN25 1 DN25 ISO 228 G3/8 0.687 (17,4) 0.687 (17,4) 1.625 (41,3)40 0.29 (0,13)82251 Y T/O X X T/O Y T/O X X Z T/O Y T/O Z Y RAVEN STUDIO SPRINKLER ADAPTER 90º ELBOW RAVEN STUDIO SPRINKLER ADAPTER TEE 88 APPENDIX B - DO’S AND DON’TS DO’S • Install TYCO CPVC Pipe and Fittings according to this Installation Handbook. • Follow recommended safe work practices. • Make certain that any materials coming in contact with TYCO CPVC Pipe and Fittings are chemically compatible with BlazeMaster CPVC. (Refer to the Notice located on page 52, Chemical Compatibility section.) • If painting is required, use only latex based paints. • Keep pipe and fittings in original packaging until needed and away from sources of heat. • If stored outdoors, cover the pipe and fittings with an opaque tarp. • Follow proper handling procedures. • Inspect TYCO CPVC Pipe and Fittings for damage before installation. • Use tools specifically designed for use with CPVC pipe and fittings. • Use only TFP-500 One Step Solvent Cement and follow application instructions. • Use a drop cloth to protect interior finishes. • Cut the pipe ends square. • Before solvent cementing, de-burr and bevel the pipe end. • When solvent cementing, rotate the pipe 1/4 turn when bottoming pipe in fitting socket. • Carefully follow instructions for applying solvent cement. Do not apply too much cement. • Avoid puddling of solvent cement in pipe and fittings. Do not allow cement to plug the sprinkler adapter or sprinkler orifice. • Follow the recommended cure times prior to pressure testing. • Fill lines slowly and bleed the air from the system at the farthest sprinklers prior to pressure testing. • Use water to pressure test the CPVC system. If low-pressure air or nitrogen pre-testing is deemed necessary, guidelines can be found on p. 63 of this installation manual and must be followed. • Support sprinkler properly to prevent excessive movement of the sprinkler when activated. • Install TYCO CPVC Pipe and Fittings in wet systems only or specially listed dry systems. • Use only chemically compatible insulation and/or glycerin & water solutions for freeze protection. • When glycerine solutions are used, provide an expansion chamber or allow for thermal expansion of the solution. 89APPENDIX B - DO’S AND DON’TS • Allow for movement due to expansion and contraction. • Renew your TYCO CPVC Pipe and Fittings installation training every two years. DON’TS • Do not use cutting oils other than those represented by the cutting oil manufacturer as safe for use in conjunction with CPVC. (Refer to the Notice located on page 52, Chemical Compatibility section.) • Do not use edible oils such as CRISCO as a gasket lubricant. • Do not use petroleum or solvent-based paints, sealants, lubricants or fire stop materials that are chemically incompatible with TYCO CPVC Pipe and Fittings. • Do not use any glycol-based solutions as an antifreeze. • Do not use glycerin-based antifreeze solutions without consulting the rules and guidelines outlined in the NFPA 13 Standard. • Do not use both TEFLON tape and thread sealants simultaneously. • Do not use solvent cement that exceeds its shelf life or has become discolored or gelled. • Do not allow threaded rod within 1⁄16 inches of the pipe. • Do not allow solvent cement to plug the sprinkler orifice. • Do not connect rigid metal couplers to TYCO CPVC grooved adapters. • Do not thread or groove TYCO CPVC Pipe. • Do not use solvent cement near sources of heat, open flame, or when smoking. • Do not pressure test until recommended cure times are met. • Do not use dull or broken cutting tool blades when cutting pipe. • Do not use TYCO CPVC Pipe that has been stored outdoors, unprotected and is faded in color. • Do not install TYCO CPVC Pipe in cold weather without allowing for expansion. • Do not install TYCO CPVC Pipe and Fittings in dry systems, unless specifically listed for such use.General DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information 90 IMPORTANT INFORMATION IMPORTANT INFORMATION WITH REGARDS TO YOUR TYCO CPVC FIRE SPRINKLER SYSTEM CONGRATULATIONS, your building structure contains a state-of-the-art life safety system. Your TYCO CPVC fire sprinkler system will enhance the safety and security of your building when properly maintained. TYCO CPVC Fire Sprinkler Products resist attack from a wide range of chemicals that are corrosive to metallic piping. As with any piping material, there are, however, certain chemicals that can be detrimental to CPVC. Occasionally some of these chemicals may be found in some construction products, site preparations and building maintenance. There are certain things that you need to be mindful of in caring for or working around your TYCO CPVC fire sprinkler system. Keep your system clear from contact with the following products and chemicals unless product labels state materials are compatible with CPVC: NOTICE Ordinary considerations Property maintenance services Cleaning Products Detergents, Oils/Lubricants/ Greases, Rubbery Materials Fungicides, Mold Remediation Chemicals, Termiticides/Insecticides For hired contractors & do-it-yourselfers Corrosion Inhibitors, Glycol-based antifreezes, Solder Flux, Thread Sealants Flexible Cable/Wiring (especially communications cabling) Caulks/Mastics, Adhesive, Vinyl/Electrical Tape Non-Approved Spray Foam Insulation Non-Water Based Paint, Paint Thinners Wood Finishes / Varnishes You should also avoid the following: • Sitting, standing, hanging, leaning, or resting anything on the pipe, fittings, and sprinklers • Grounding electrical wiring to the pipe or fittings • Ambient temperatures below 40°F (4,4°C) where your fire sprinkler system is located. (Unless an approved compatible antifreeze or insulation method is installed.) • Hot work around the pipe, i.e. blow torches, soldering, etc. Be certain that this document is reviewed and understood by anyone working on or around your CPVC life safety system. If you have any questions or need assistance on chemical compatibility with your TYCO CPVC fire sprinkler system, contact the manufacturer of the chemical or non-CPVC product in question. Proper care will help your TYCO CPVC fire sprinkler system provide protection for years to come. FOR ADDITIONAL INFORMATION VISIT TYCO FIRE PROTECTION PRODUCTS AT WWW.TYCO-FIRE.COM 91 NOTIFICATION TO JOBSITE BUILDING TRADES IMPORTANT INFORMATION THIS BUILDING CONTAINS A CPVC FIRE SPRINKLER SYSTEM . THIS CPVC FIRE SPRINKLER SYSTEM IS A LIFE SAFETY ASSEMBLY AND MUST BE TREATED CAREFULLY . READ THE FOLLOWING BEFORE ANY ACTIVITY WHICH COULD CONTACT THIS SYSTEM:CPVC piping components may be damaged by certain substances and construction practices .• DO NOT stack, support, hang equipment, or hang flexible wire/cable, especially communications cable, or other material on the fire sprinkler system.• ONLY system compatible materials should be used in contact with this system. For a list of products that have been tested and verified as compatible, consult the FBC™ System Compatible Program information at www.fbcsystemcompatible.com. If the product in question is not identified in the System Compatibility Program, Lubrizol recommends, as does TYCO, that the chemical compatibility be verified with the manufacturer of the product in question.• DO NOT expose CPVC products to incompatible substances, such as cutting oils, non-water based paints, packing oils, tradi-tional pipe thread paste and dope, fungicides, termiticides, insecticides, detergents, building caulks, adhesive tape, solder flux, flexible wire/cable (with special consideration for communications cabling), and non-approved spray foam insulation materials.• DO NOT expose CPVC products to edible oils, solvents, or glycol-based anti-freeze fluids.• DO NOT expose CPVC products to open flame, solder, and soldering flux.• DO NOT drop, distort, or impact CPVC products or allow objects to be dropped on them.• DO NOT handle CPVC products with gloves contaminated with oils (hydrocarbons) or other incompatible materials.Failure to follow this notice may cause cracks or fractures to develop in CPVC products resulting in property damage due to leaks or flooding . The presence of any visible cracks may require partial or full system replacement . For ad-ditional information contact the general contractor or the fire sprinkler system installer .FOR ADDITIONAL INFORMATION CONTACT “TYCO FIRE PROTECTION PRODUCTS” AT 1-800-381-9312Rev 3.0 Jan 21, 2008_distribu1NOTICEGeneral DescriptionListings / ApprovalsTechnical DataInstallationVisit Tyco-Fire.comAppendix AAppendix BImportant Information TOLCO™Fig. 28 - “Stand-Off” Hanger & Restrainer for CPVC Plastic Pipe Size Range:— 3/4"(20mm)through 2"(50mm) Material:— Steel, Pre-Galvanized Function:— Designed to be used as a hanger and restrainer for CPVC piping where the "stand-off" design will ease installation by eliminating the need for wood blocking. Features: • Flared edge design protects CPVC pipe from any rough or abrasive surfaces. • Unique twist and lock design holds pipe firmly in place and allows retrofit type of installation. • The "Stand-Off" design eliminates the need for wood block extension. • Can be installed on horizontal or vertical piping regardless of mounting surface orientation. • Attaches easily to wood structure with two hex head self-threading screws furnished with product. • Installs easily using rechargeable electrical driver with 5/16"(7.9mm)extension socket eliminating impact tool damage to pipe. • Attaches easily to steel, minimum 18 gauge (1.024mm)with (2) 1/4" x 1" tek type self drilling tapping screws. • UL Listed as a hanger and a restrainer for fire sprinkler piping. Approvals:— Underwriters Laboratory Listed in the USA (UL)and Canada (cUL)to support automatic fire sprinkler systems. May be installed into wood using fasteners supplied with product, or into minimum 18 gauge steel using (2) 1/4" x 1" tek type screws. Meets and exceeds the requirements of NFPA 13, 13R and 13D. Fig. 28 satisfies the UL vertical restraint requirement where needed. UL Listed as a hanger and vertical restraint when installed on 3/8"(9.5mm)composite wood material. Use two Fig. 27B Speed Nuts when used as a hanger and restraint. Use one Fig. 27B Speed Nut on the upper installed screw when used as a hanger only. Order by:— Part number and pipe size. Pat. # 7,455,268, Pat. # 7,832,248 C A B Pipe Size ABCApprox. Wt./100 Part No.in. (mm) in. (mm) in. (mm) in. (mm)lbs. (kg) 28-3/4 3/4"(20)31/32"(77.0)2"(50.8)31/2"(88.9)18 (8.1) 28-1 1"(25)35/16"(84.1)23/16"(55.6)31/2"(88.9)21 (9.5) 28-11/4 11/4"(32)35/8"(92.1)23/8"(60.3)31/2"(88.9)23 (10.4) 28-11/2 11/2"(40)4"(101.6)21/2"(63.5)31/2"(88.9)31 (14.0) 28-2 2"(50)41/2"(114.3)211/16"(68.3)35/8"(92.1)34 (15.4) Hanger Application Hanger and Restraint Application Fig. 27B (2) Required Fig. 27B (1) Required High Side of Hanger ApplicationPipe Clamps Pipe Clamps All dimensions in charts and on drawings are in inches. Dimensions shown in parentheses are in millimeters unless otherwise specified. 101 B-Line series Pipe Hangers & SupportsEaton EEEEE4 E®DeleteSpam 1lJJ±:l±±±!±±±±Ii!±!JtJIS±f `l!1EIJE±E±i±:!±!Ilu±¥l!!±Z=E!±±±±!l±£±ii!=±~- t www.cvwd.org Haynes Fire Systems P.O. Box 265 Nuevo, CA 92567 Mobile (909) 312-2323 7-20-2022 LA QUITA FIRE INSPECTION EXPIRED PERMIT RENEW APPLICATION MR DELGADO PER TELEPHONE CONVERSATION MY PERMIT HAS EXPIRED NOW REQUIRED TO RENEWAND NEED TO PAY $83 NEW RESIDENCE 78-755 SAGEBRUSH LA QUINTA, CALIF PERMIT # FSS 2021-0238 NEED TO REQUEST A FINAL INSP ON THIS ONE I GUESS COVID IS PROBALY THE MAIN HOLD UP ON THE BUILDING OF THIS ONE THANKS FOR YOUR HELP JERRY HAYNES HAYNES FIRE SYSTEMS OFFICE OF THE FIRE MARSHAL – LA QUINTA 78495 Calle Tampico, La Quinta, CA 92253 • Phone (760) 777-7074 • www.rvcfire.org November 16, 2021 Haynes Fire Systems PO Box 265 Nuevo, Ca 92567 Re: Residential Fire Sprinkler Plan Review – SCHILLING RESIDENCE FSS2021-0238 / 78755 SAGEBRUSH AVE, LA QUINTA, CA 92253 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. Kohl Hetrick - 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: 78755 SAGEBRUSH AVE PERMIT#: FSS2021-0238 DATE ISSUED: 11/16/2021 DESCRIPTION: SCHILLING RESIDENCE CONTRACTOR: HAYNES FIRE SYSTEMS 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.