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13-0759 (AR)P.O. BOX 1504 78-495 CALLE TAMPICO LA QUINTA, CALIFORNIA 92253 Application Number: 13-00000759 Property Address: 77511 CALLE ARROBA APN: 774-155-022-2 -000000- Application description: ADDITION - RESIDENTIAL Property Zoning: COVE RESIDENTIAL Application valuation: 170000 Tiht-4 4Q" BUILDING & SAFETY DEPARTMENT BUILDING PERMIT Applicant: Architect or Engineer: CON RA CTO Ik - LICENSED CONTRACTOR'S DECLARATION I hereby affirm under penalty of perjury thatll am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professionals Code, and my License is in full`force and effect. Licens Class: B LicenseNo.: 728335 r Date:. � l� �. Contractor: WNER-BUILDER DECLARATION I hereby affirm under penalty of perjury that I am exempt from the Contractor's State License Law for the following reason (Sec. 7031 .5, Business and rofessions Code: Any city or county that requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for the permit to file a signed statement that he or she is licensed pursuant to the provisions of the Contractor's State License Law (Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code) or that he or she is exempt therefrom and the basis for the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars ($500).: (_ 1 1, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code: The Contractors' State License Law does not apply to an owner of property who builds or improves thereon, and who does the work himself or herself through his or her own employees, provided that the improvements are not intended or offered for sale. If, however, the building or improvement is sold within one year of completion, the owner -builder will have the burden of proving that he or she did not build or improve for the purpose of sale.). 1 _ 1 I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code: The Contractors' State License Law does not apply to an owner of property who builds or improves thereon, and who contracts for the projects with a contractor(s) licensed pursuant to the Contractors' State License Law.). (_ 1 I am exempt under Sec. , B.&P.C. for this reason Date: Owner: CONSTRUCTION LENDING AGENCY I hereby affirm under penalty of perjury that there is a construction lending agency for the performance of the work for which this permit is issued (Sec. 3097, Civ. C.). Lender's Name: _ Lender's Address: -I,QPERMIT Owner: RICHARD D & JANET SHIRK 1180 BROOKGATE WAY ATLANTA, GA 30319 (847)312-4661 Contractor: 11D ALL SHAPES & SIZES 72892 SIERRA VISTA ROAD PALM DESERT, CA 92260 (760)345-0309 Lic. No.: 728335 VOICE (760) 777-7012 FAX (760) 777-7011 INSPECTIONS (760) 777-7153 Date: 10/28/13 n62013 No CITY OF LA QUINTA WORKER'S COMPENSATION DECLARATION I hereby affirm under penalty of perjury one of the following declarations: I have and will maintain a certificate of consent to self -insure for workers' compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. I have and will maintain workers' compensation insurance, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. My workers' compensation insurance carrier and policy number are: Carrier STATE FUND Policy Number 713-05055094 I certify that, in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to ecome subject to the workers' compensation laws of California, and agree that, if I should bJco a subject to the workers' compensation provisions of Section Date:3700 of the Labor Code, I hal fo hwith comply with those provisions. Applicant: WARNING: FAILURE TO SECURE WORKE MPENSATION COVERAGE IS UNLAWFUL, AND SHALL SUBJECT AN EMPLOYER TO CRIMINAL PE LTIES AND CIVIL FINES UP TO ONE HUNDRED THOUSAND DOLLARS ($100,000). IN ADDITION TO T COST OF COMPENSATION, DAMAGES AS PROVIDED FOR IN SECTION 3706 OF THE LABOR CODE, INT EST, AND ATTORNEY'S FEES. APPLICANT ACKNOWLEDGEMENT IMPORTANT Application is hereby made to the Director of Building and *Safety for a permit subject to the conditions and restrictions set forth on this application. 1 . Each person upon whose behalf this application is made, each person at whose request and for whose benefit work is performed under or pursuant to any permit issued as a result of this application, the owner, and the applicant, each agrees to, and shall defend, indemnify and hold harmless the City of La Quinta, its officers, agents and employees for any act or omission related to the work being performed under or following issuance of this permit. 2. Any permit issued as a result of this application becomes null and void if work is not commenced within 180 days from date of issuance A'din8r or cessation of work for 180 days will subject permit to cancellation. certify that I have read this application and state thormation is correct. I agree to comply with all city and county ordinances and state laws relating tou tion, and hereby authorize representatives of this ? untyto enter upon the above-mentioned prct on purposes. Date:IL' Signature (Applicant or Agent):r Application Number . . . . . 13-00000759 Permit . . . ROOM ADDITION 2013 Additional desc . . Permit Fee . . . . 181.61 Plan Check Fee .00 Issue Date . . . . Valuation . . . . 0 Expiration Date 4/26/14 Qty Unit Charge Per Extension 1.00 120.1200 LS MISC ROOM ADDN, IST 100 SF 120.12 1.00 ---------------------------------------------------------------------------- 61.4900 EA MISC ROOM ADDN, ADDL 500 SF 61.49 Permit . . . ELECTRICAL 2013 Additional desc . . Permit Fee . . . . 23.83 Plan Check Fee .00 Issue Date . . . . Valuation . . . . 0 Expiration Date 4/26/14 Qty Unit Charge Per Extension 1.00 ---------------------------------------------------------------------------- 23.8300 LS ELEC FIXTURES, FIRST 20 23.83 Permit . . . MECHANICAL 2013 Additional desc . Permit Fee . . . . 131.10 Plan Check Fee .00 Issue Date . . . . Valuation . . . . 0 Expiration Date 4/26/14 Qty Unit Charge Per Extension 1.00 35.7500 EA MECH FURNACE 35.75 1.00 11.9200 EA MECH APPL REP/ALT 11.92 1.00 35.7500 EA MECH CONDENSER/COMP 35.75 3.00 11.9200 EA MECH VENT FAN 35.76 1.00 ---------------------------------------------------------------------------- 11.9200 EA MECH EXHAUST HOOD 11.92 Permit . . . PLUMBING 2013 Additional desc . . Permit Fee . . . . 226.48 Plan Check Fee .00 Issue Date . . . . Valuation . . . . 0 Expiration Date . . 4/26/14 Qty Unit Charge Per Extension 12.00 11.9200 EA PLBG FIXTURE/TRAP 143.04 4.00 11.9200 EA PLBG ROOF DRAIN 47.68 1.00 11.9200 EA PLBG WATER HEATER/VENT 11.92 1.00 11.9200 EA PLBG WATER INST/ALT/REP 11.92 1.00 11.9200 LS PLBG GAS SYS, 1-4 OUTLETS 11.92 LQPERMIT Application Number . . 13-00000759 Permit . . . REMODEL 2013 Additional desc . Permit Fee 112.97 Plan Check Fee .00 Issue Date Valuation . . . . 0 Expiration Date 4/26/14 Qty Unit Charge Per Extension 1.00 48.6200 LS MISC REMODEL, 1ST 100 SF 48.62 3.00 21.4500 EA MISC REMODEL, ADDL 500 SF 64.35 --------------- ------------------------------------------------------------ Special Notes and Comments REM / ADD CONVERTING PATIO TO NEW LIVING SPACE AND ADDING NEW SQ. FTS. ADDITION OF 55 SQ. FT. DECK WITH SPIRAL STAIRS. TOTAL 732 SQ. FT. ADITION , 200 SQ. FT. IS CONVERTED PATIO. October 28, 2013 1:26:13 PM jjohnson. ---------------------------------------------------------------------------- Other Fees . . . . . . . . . ART IN PUBLIC PLACES -RES 20.00 BLDG STDS ADMIN (SB1473) 7.00 HOURLY PLAN CHECK 343.00 PLAN CHECK, ELECTRICAL 23.83 PLAN CHECK, REMODEL 184.47 PLAN CHECK, ROOM ADDITION 203.06 PLAN CHECK, MECHANICAL 71.51 PLAN CHECK, PLUMBING 126.34 STRONG MOTION (SMI) - RES 17.00 Fee summary Charged Paid Credited ----------------------------------------------- Due ---------- Permit Fee Total 675.99 .00 .00 675.99 Plan Check Total .00 .00 .00 .00 Other Fee Total 996.21 .00 .00 996.21 Grand Total 1672.20 .00 .00 1672.20 LQPERMIT Bin : --� ve T1, City of La Quin to Building &r Safety Division P.O. Box 1504, 78-495 Calle Tampico . La Quinta,CA 92253 - (760) 777-7012 Permit Application and Tracking Sheet Permit # 3Building Project Address: Owner's Nae: je �� rJ = SN 1 R K A. P. Number: Address: / J b o /32 d o !<&P1 (JA' y 10.0 Legal Description: City, ST, Zip: t}TL Anl r.4 6.3-A 3031 9 Contractor: or: ,L0 telephone: 'T 5 is 9 b P D / Address: Project Description: �� V S ( O �if }-� LC - LCity, City, ST, Zip: U N b e K C,0 N S *T r<_LJ0i _r 1 U AJ , Telephone: ^^.<..:....:.......,...,,....:...:...: i State Lic. #: City Lic. #.. 0&1 tJ Ce O F 0610 0 D Arch., Engr., Designer. Address: City., ST, Zip: Telephone: ':<:;>;z:>..::: :::.;.;<.;>::.>:.::h <:;;.:;»::»:r:,:;- Construction Type: Occupancy: a one : New Add Alter Repair Demo Pro'e circ P State Lic. #: Name of Contact Person: -73 R JL}VY1 104, 0 N Sq. FL: # Stories: # Units: i Telephone # of Contact Person: — 3 1 ;, — . 6 Estimated Value of Project: APPLICANT: DO NOT WRITE BELOW THIS LINE if Submittal Req'd Recd TRACKING PERMIT FEES Plan Sets 1:5? Plan Check submitted Item Amount Structural Cala. RevicNved, ready for corrections Plan Check Deposit Truss Calcs. Called Contact Person Plan Check Balance. Title 24 Calcs. Plans picked up Construction Flood plain plan Plans resubmitted Mechanical Grading plan 2°" Review, ready for correctionsrssue Electrical Subcontactor List Called Contact Person Plumbing Grant Deed Plans picked up S.M.I. H.O.A. Approval Plans resubmitted Grading IN HOUSE:- 3" Review, ready for correctionsrissue Developer Impact Fee Planning Approval Called Contact Person A.I.P.P. Pub. Wks. Appr Date of permit issue f School Fees tov Total Permit Fees U Ofi,+ N -Cp ISSN—' J -V (U F+ CITY OF to QUINTA COMMUNITY DEVELOPMENT BUILDING ENERGY ANALYSIS REPORT PROJECT: SHIRK's Residence 77511 CALLE ARROBA LA QUINTA, CA 92253 Project Designer: GLS Architecture Group 74991 Joni Dr. # 9 Palm Desert, Ca 92211 760.340.3528 Report Prepared by: ARMANDO CHAVEZ GLS Architecture Group 74991 JONI DR SUITE #9 PALM DESERT, CA 92260 760 340-3528 r— Vp_ Job Number: V A0G2820, cq'V.Cnz 0 FS3 �Y�FVQ�DIlTq P�,jF�I' 2013 -GLS -24 Date: 8/9/2013 CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED The EnergyPro computer program has been used to perform the calculations summarized in tli rpRibl l'$q . LiGSTRYEWrn has pproval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 20 8 Buil -gEnergy fficienc Standards. This program developed by EnergySoft, LLC uvgvfvl f i EnergyPro 5.1 by EnergySoft User Number 5553 RunCode: 2013-08-09', 1 BUILDING ENERGY ANALYSIS REPORT PROJECT: SHIRK's Residence 77511 CALLE ARROBA LA QUINTA, CA 92253 Project Designer: GLS Architecture Group 74991 Joni Dr. # 9 Palm Desert, Ca 92211 760.340.3528 Report Prepared by: ARMANDO CHAVEZ GLS Architecture Group 74991 JONI DR SUITE #9 PALM DESERT, CA 92260 760 340-3528 r— Vp_ Job Number: V A0G2820, cq'V.Cnz 0 FS3 �Y�FVQ�DIlTq P�,jF�I' 2013 -GLS -24 Date: 8/9/2013 CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED The EnergyPro computer program has been used to perform the calculations summarized in tli rpRibl l'$q . LiGSTRYEWrn has pproval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 20 8 Buil -gEnergy fficienc Standards. This program developed by EnergySoft, LLC uvgvfvl f i EnergyPro 5.1 by EnergySoft User Number 5553 RunCode: 2013-08-09', TABLE OF CONTENTS Cover Page 1 Table of Contents 2 Form CF -1 R Certificate of Compliance 3 Form MF -1 R Mandatory Measures Summary. 10 CITE( OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION DATE BY EnergyPro 5.1 by EnergySoft Job Number: ID: 2013 -GLS -24 I User Number: 5553 PERFORMANCE CERTIFICATE: Residential Part 1 of 5 CF-1 R Project Name SHIRK'S Residence Building Type 10 Single Family ❑ Addition Alone ❑ Multi Family ® Existing+ Addition/Alteration Date 8/9/2013 Project Address 77511 CALLE ARROBA LA QUINTA California Energy Climate Zone CA Climate Zone 15 Total Cond. Floor Area 2,243 Addition 732 # of Stories 1 FIELD INSPECTION ENERGY CHECKLIST ❑ Yes © No HERS Measures -- If Yes, A CF-4R must be provided per Part 2 of 5 of this form. El Yes ❑ No Special Features -- If Yes, see Part 2 of 5 of this form for details. INSULATION Construction Type Area Special Cavity (fe) Features (see Part 2 of 5) Status Slab Unheated Slab-on-Grade None 1,683 Perim = 0' Existing Roof Wood Framed Attic R-19 978 Existing Wall Wood Framed None 405 Existing Door Opaque Door Insul 18 Existing Door Opaque Door None 40 Existing Roof Wood Framed Rafter R-19 362 Altered Roof Wood Framed Attic R-30 86 Altered Wall Wood Framed R-13 194 Altered FENESTRATION U- Exterior Orientation Area(fe) Factor SHGC Overhang Sidefins Shades Status Front (N) 40.0 0.710 0.73 none none Bug Screen Existing Left (E) 20.0 0.710 0.73 none none Bug Screen Existing Rear (S) 40.0 0.710 0.73 none none Bug Screen Existing Rear (S) 18.0 0.710 0.73 none none Bug Screen Removed Right (1A0 62.0 0.710 0.73 none none Bug Screen Removed Front (N) 20.0 0.400 0.35 none none Bug Screen New Front (NE) 13.3 0.400 0.35 none none Bug Screen New Left (E) 23.3 0.400 0.35 none none Bug Screen New Left (SE) 13.3 0.400 0.35 none none Bug Screen New Left (E) 16.0 0.400 0.35 10.0 none Bug Screen New Rear (S) 80.0 0.400 0.35 10.0 none Roll-down Blind or Slats New HVAC SYSTEMS Qty. Heating Min. Eff Cooling Min. Eff Thermostat Status 1 Split Heat Pump 5.60 HSPF Split Heat Pump 8.9 SEER Setback Existing 1 Split Heat Pump 8.00 HSPF Split Heat Pump 13.0 SEER Setback New HVAC DISTRIBUTION Location Heating Duct Cooling Duct Location R-Value Status EXISTING Ducted Ducted Attic, Roof Ins 4.2 Existing NEW Ducted Ducted Attic, Roof Irls 8.0 ------------ N Il Y UF LA UUMM WATER HEATING BUILDING & SAFETY DEPT. Qty. Type Gallons Min. Eff Distribution?PROVED St 3tUS 1 Small Elec. 50 0.90 No Pipe Insulat�on1 CONSTRUCTION Altered I DATE BY Energ Pro 5.1 by Energ Soft User Number: 5553 RunCode: 2013-08-09715:52:44 ID: 2013-GLS-24 Page 3 of 12 PERFORMANCE CERTIFICATE: Residential Part 1 of 5 CF -1 R Project Name SHIRK'S Residence Building Type @ Single Family ❑ Addition Alone ❑ Multi Family ® Existing+ Addition/Alteration Date 8/9/2013 Project Address 77511 CALLEARROBA LA QUINTA California Energy Climate Zone CA Climate Zone 15 Total Cond. Floor Area 2,243 Addition 732 # of Stories 1 FIELD INSPECTION ENERGY CHECKLIST ❑ Yes El No HERS Measures -- If Yes, A CF -4R must be provided per Part 2 of 5 of this form. © Yes ❑ No Special Features -- If Yes, see Part 2 of 5 of this form for details. INSULATION Area Special Construction Type Cavity (ft`) Features (see Part 2 of 5) Status Wall Wood Framed R-19 726 New Roof Wood Framed Rafter R-30 177 New Roof Wood Framed Attic R-38 244 New Slab Unheated Slab -on -Grade None 560 Perim = 0' New FENESTRATION U- Exterior Orientation Area(ft) Factor SHGC Overhang Sidefins Shades Status Rear (S) 21.0 0.400 0.35 6.0 none Bug Screen New Right (W) 58.0 0.400 0.35 none none Roll -down Blind or Slats New HVAC SYSTEMS Qty. Heating Min. Eff Cooling Min. Eff Thermostat Status HVAC DISTRIBUTION Duct Location Heating Cooling Duct Location R -Value Status CIP(OF LA I WATER HEATING BUILDING & SAFETY DEPT. Qty. Type Gallons Min. Eff Distribution . _ 1DoQ n, /r7tatu C ... FORICTION DATE Fly EnergyPro 5.1 by EnergySoft User Number., 5553 RunCode: 2013-08-09715:52:44 ID: 2013 -GLS -24 Page 4 of 12 PERFORMANCE CERTIFICATE: Residential (Part 2 of 5) CF -1 R Project Name Building Type ® Single Family ❑ Addition Alone Date SHIRK's Residence ❑ Multi Family 2 Existing+ Addition/Alteration $/9/2013 SPECIAL FEATURES INSPECTION CHECKLIST The enforcement agency should pay special attention to the items specified in this checklist. These items require special written justification and documentation, and special verification to be used with the performance approach. The enforcement agency determines the adequacy of the justification, and may reject a building or design that otherwise complies based on the adequacy of the special justification and documentation submitted. The Existing Wall N-76 has a U -Factor greater than the Vintage Defaults. Field verification is required. the txisnng wan tvt-su has a u -factor greater than the vintage uetautts. t-wia vermcauon is requirea. The Existing Wall E-60 has a U -Factor greater than the Vintage Defaults. Field verification is required. The Existing Wall SE -30 has a U -Factor greater than the Vintage Defaults. Field verification is required. The Existinq Roof 311 has a U -Factor greater than the Vintaqe Defaults. Field verification is required. HERS REQUIRED VERIFICATION Items in this section require field testing and/or verification by a certified HERS Rater. The inspector must receive a completed CF -413 form for each of the measures listed below for final to be given. 5_1 CITY OF LA QUI NTA BUILDING & SAFETY DEPT. 117y t-11ri U V FOR CONSTRUCTION I DA ,8.1 -3 -GL -S 24 -tea e PERFORMANCE CERTIFICATE: Residential (Part 3 of 5) CF -1 R Project Name Building Type © Single Family ❑ Addition Alone Date SHIRK'S Residence 1 ❑ Multi Family 12 Existing+ Addition/Alteration $/g/2013 ANNUAL ENERGY USE SUMMARY Standard Proposed Margin TDV kBtu/ft2- r Space Heating 11.59 6.52 5.07 Space Cooling 157.08 123.44 33.64 Fans 25.04 21.32 3.72 Domestic Hot Water 30.03 26.52 3.51 Pumps 0.00 0.00 0.00 Totals 223.74 177.80 45.94 Percent Better Than Standard: 20.5% BUILDING COMPLIES - NO HERS VERIFICATION REQUIRED Fenestration Building Front Orientation: (N) 0deg Ext. Walls/Roof Wall Area Area Number of Dwelling Units: 1.00 (N) 475 73 Fuel Available at Site: Propane (E) 349 73 Raised Floor Area: 0 (S) 572 141 Slab on Grade Area: 2,243 (149 332 58 Average Ceiling Height: 8.0 Roof 1,847 0 Fenestration Average U -Factor: 0.49 TOTAL: 345 Average SHGC: 0.46 Fenestration/CFA Ratio: 15.4% REMARKS ALL PROPOSED INPUT DATA USED IN THIS CALCULATION WAS PROVIDED BY THE PLANS PREPARER. ANY ALTERATION OR DEVIATION FROM THIS CALCULATION WILL BE GENERAL CONTRACTOR RESPONSABILITY. STATEMENT OF COMPLIANCE This certificate of compliance lists the building features and specifications needed to comply with Title 24, Parts 1 the Administrative Regulations and Part 6 the Efficiency Standards of the California Code of Regulations. The documentation author hereby certifies that the documentation is accurate and complete. Documentation Author Company GLS Architecture Group 8/9/2013 Address 74991 JONI DR SUITE #9 Name ARMANDO CHAVEZ City/State/ZipCity/State/Zip PALM DESERT, CA 92260 Phone 760 340-3528 Signed Date The individual with overall design responsibility hereby certifies that the proposed building design represented in this set of construction documents is consistent with the other compliance forms and worksheets, with the specifications, and with any other calculations submitted with this permit application, and recognizes that compliance using duct design, duct sealing, verification of refrigerant charge, insulation installation quality, and building envelope sealinc recuire installe testing and certification and field verification by an approved HE S rale 0F LA QUINTA EPT. D er or Owner (per Business & Professions Code) BUIL44E Company GLS Architecture Group Address 74991 Joni Dr. # 9 Name F (7 City/State/Zip Palm Desert, Ca 92211 Phone 760.340.3528 Signed License # Date I DAT Ener Pro 5.1 by Ener Soft User Number 5553 RunCode: 2013-08-09715:52:44 ID: 2013 -GLS -24 Page 6 of 12 CERTIFICATE OF COMPLIANCE: Residential (Part 4 of 5) CF -1 R Project Name SHIRK's Residence Building Type ® Single Family ❑ Addition Alone ❑ Multi Family 2 Existing+ Addition/Alteration Date 8/9/2013 OPAQUE SURFACE DETAILS Surface Type Area U- Insulation Joint Appendix I Factor Cavity Exterior Frame Interior Frame Azm Tilt Status 4 Location/Comments Slab 1,511 0.730 None 0 180 Existing 4.4.7-A1 Roof 978 0.049 R-19 0 0 Existing 4.2.1-A4 Wall 271 0.356 None 0 90 Existing 4.3.1-A1 Door 18 0.500 Insul 0 90 Existing 4.5.1-A3 Door 40 0.500 None 0 90 1 Existing 4.5.1-A4 Wall 76 0.356 None 90 90 Existing 4.3.1-A1 Wall 58 0.356 None 180 90 Existing 4.3.1-A1 Wall 70 0.356 None 90 90 Remove 4.3.1-A1 Wall 254 0.356 None 1601 90 Remove 4.3.1-A1 Wall 222 0.356 None 270 90 Remove 4.3.1-A1 Roof 51 0.051 R-19 0 0 Altered 4.2.2-A 12 (E=4.2.1 -A4) Roof 86 0.031 R-30 0 0 Altered 4.2.1-A20 (E=4.2.1 -A4) Wall 56 0.102 R-13 0 90 Altered 4.3.1-A3 (E=4.3. 1-A 1) Wall 17 0.102 R-13 45 90 Altered 4.3.1-A3 (E=4.3. 1 -A 1) Wall 105 0.102 R-13 901 90 Altered 4.3.1-A3 E=4.3.1 -A1 Wall 17 0.102 R-13 1351 90 1 Altered 4.3.1-A3 (E=4.3.1 -A1) FENESTRATION SURFACE DETAILS ID Type I Area U -Factor SHGC2 Azm Status Glazing Type Location/Comments 1 Window 20.0 0.710 1 Default 0.73 Default 0 Existing Double Metal Clear 2 Window 20.0 0.710 Default 0.73 Default 0 Existing Double Metal Clear 3 Window 20.0 0.710 Default 0.73 Default 90 Existing Double Metal Clear 4 Window 40.0 0.710 Default 0.73 Default 180 Existing Double Metal Clear 5 Window 9.0 0.710 Default 0.73 Default 180 Removed Double Metal Clear 6 Window 9.0 0.710 Default 0.73 Default 180 Removed Double Metal Clear 7 Window 30.0 0.710 1 Default 0.73 Default 270 Removed Double Metal Clear 8 Window 8.0 0.710 Default 0.73 Default 270 Removed Double Metal Clear 9 Window 24.0 0.710 Default 0.73 Default 270 Removed Double Metal Clear 10 Window 20.0 0.400 NFRC 0.35 NFRC 0 New U 0.40 / S 0.35 Z15 11 Window 13.3 0.400 NFRC 0.35 NFRC 45 New U 0.40 / S 0.35 Z15 12 Window 23.3 0.400 NFRC 0.35 NFRC 90 New 1U0.401S0.35Zl5 13 Window 13.3 0.400 1 NFRC 0.35 NFRC 135 New U 0.40 / S 0.35 Z15 14 Window 16.0 0.400 NFRC 0.35 NFRC 90 New U 0.40 / S 0.35 Z15 15 Window 40.0 0.400 NFRC 0.35 NFRC 180 New U 0.401S 0.35 Z15 16 Window 16.0 0.400 NFRC 0.35 NFRC 180 New U 0.40 / S 0.35 Z15 (1) U -Factor Type: 116-A = Default Table from Standards, NFRC = Labeled Value 2 SHGC Type: 116-B = Default Table from Standards, NFRC = Labeled Value EXTERIOR SHADING DETAILS ID Exterior Shade Type SHGC Window H t Wd Ove hang Left Fin Right Fin Len H t LExt RExt Dist Len H t Dist Len H t 1 Bug Screen 0.76 2 Bug Screen 0.76 3 Bug Screen 0.76 4 Bug Screen 0.76 5 Bug Screen 0.76 6 Bug Screen 0.76 7 Bug Screen 0.76 8 Bug Screen 0.76 9 Bug Screen 0.76 10 Bug Screen 0.76 �- 11 Bug Screen 0.76 U 12 Bug Screen 0.76 rhi iiiy-. C A G 13 Bug Screen 0.76 14 Bug Screen 0.76 3.5 3.5 10.0 0.1 10.0 19.0 15 Roll -down Blind or Slats 1 0.13 6.5 5.5 10.0 0.1 10.0 ti9.0 16 JBug Screen 0.76 3.5 3.5 6.0 0.1 6.0 6.0 DATE 13Y- L7of EnergyPro 5.1 by Ener Soft User Number: 5553 RunCode: 2013-08-09T15:52: a 2 CERTIFICATE OF COMPLIANCE: Residential (Part 4 of 5) CF -1 R Project Name SHIRK'S Residence Building Type © Single Family ❑ Addition Alone ❑ Multi Family 2 Existing+ Addition/Alteration Date 8/9/2013 OPAQUE SURFACE DETAILS Surface U- Insulation Joint Appendix Type Area Factor Cavity Exterior Frame Interiorl Frame Azm Tilt Status 4 Location/Comments Wall 79 0.074 R-19 901 90 New 4.3.1-A5 Wall 373 0.074 R-19 1801 90 New 4.3.1-A5 Wall 274 0.074 R-19 270 90 New 4.3.1-A5 Roof 311 0.051 R-19 0 0 Altered 4.2.2-A 12 (E=4.2.1 -A1 Roof 177 0.035 R-30 0 0 New 4.2.2-A 17 Roof 244 0.025 R-38 0 0 New 4.2.1-A21 Slab 560 0.730 None 0 180 New 4.4.7-A1 Slab 172 0.730 None 0 180 Existing 4.4.7-A 1 FENESTRATION SURFACE DETAILS ID Type Area U -Factor SHGC2 Azm GlazingType Location/Comments 17 Window 2.0 0.400 NFRC 0.35 NFRC 180 U 0.401S 0.35 Z15 18 Window 3.0 0.400 NFRC 0.35 NFRC 180 U 0.401S 0.35 Z15 qNew 19 Window 40.0 0.400 NFRC 0.35 NFRC 180 U 0.40/S 0.35 Z15 20 Window 2.0 0.400 NFRC 0.35 NFRC 270 U 0.40/S 0.35 Z15 21 Window 4.0 0.400 NFRC 0.35 NFRC 270 U 0.401S 0.35 Z15 22 Window 40.0 0.400 NFRC 0.35 NFRC 270 New U 0.401S 0.35 Z15 23 Window 1 6.0 0.400 1 NFRC 0.35 NFRC 270 New U 0.40 / S 0.35 Z15 24 Window 6.0 0.400 NFRC 0.35 NFRC 270 New U 0.40/S 0.35 Z15 (1) U -Factor Type: 116-A = Default Table from Standards, NFRC = Labeled Value 2 SHGC Type: 116-B = Default Table from Standards, NFRC = Labeled Value EXTERIOR SHADING DETAILS ID Window Exterior Shade Type SHGC -Hqt FWd Ove hang Left Fin Right Fin Len H t LExt RExt Dist Len H t Dist Len H t 17 Bug Screen 0.76 3.5 3.5 6.0 0.1 6.0 6.0 18 Bug Screen 0.76 3.5 3.5 6.0 0.1 6.0 6.0 19 Roll -down Blind or Slats 0.13 6.5 5.5 10.0 0.1 10.0 10.0 , 20 Roll -down Blind or Slats 0.13 21 Roll -down Blind or Slats 0.13 22 Roll -down Blind or Slats 0.13 23 Roll -down Blind or Slats 0.13 24 Roll -down Blind or Slats 0.13 - I A ME v� r � - , 13 � 1 V "- i Ener Pro 5.1 by EnergySoft User Number., 5553 RunCode: 2013-08-09715:52:44 ID: 2013 -GLS -24 Pa e 8 of 12 CERTIFICATE OF COMPLIANCE: Residential (Part 5 of 5) CF-1 R Project Name SHIRK'S Residence Building Type 2 Single Family ❑ Addition Alone ❑ Multi Family [21 Existing+ Addition/Alteration Date $/9/2013 BUILDING ZONE INFORMATION System Name Zone Name Floor Area New Existing Altered Removed Volume Year Built EXISTING EXISTING 1,511 12,088 1978 NEW ADDITION 732 5,856 Totals 7321 1,511 0 0 HVAC SYSTEMS System Name Qty. Heating T pe Min. Eff. Cooling Type Min. Eff. Thermostat Type Status EXISTING 1 Split Heat Pump 5.60 HSPF Split Heat Pump 8.9 SEER Setback Existing NEW 1 Split Heat Pump 8.00 HSPF Split Heat Pump 13.0 SEER Setback New HVAC DISTRIBUTION System Name Heating Duct Ducts Cooling Duct Location R-Value Tested? Status EXISTING Ducted Ducted Attic, Roof Ins 4.2 ❑ Existing NEW Ducted Ducted Attic, Roof Ins 8.0 ❑ New El WATER HEATING SYSTEMS S stem Name Qty. Type Distribution Rated Input Btuh Tank Cap. al Energy Factor or RE Standby Loss or Pilot Ext. Tank Insul. R- Value Status WHIRPOOL 50 GAL. ES5 1 Small Elec. No Pipe Insulation 15,500 50 0.90 Na n/a Altered 50 Gallon Electric 1 Small Elec. pre-altered for Above 15,359 50 0.75 n/a n/a MULTI-FAMILY WATER HEATING DETAILS HYDRONIC HEATING SYSTEM PIPING Control Hot Water Piping Length (ft) c 0 N Q CITY FP,0 S ste IA-DIN e°n to QPIN A �pr ns I. ��arteF hi Ot . HP Plenum Outside Buried ❑ /C ❑ i ❑ DATE 13 EnergyPro 5.1 by Ener Soft User Number.' 5553 RunCode: 2013-08-09715:52:44 ID: 2013-GLS-24 Page 9 of 12 • MANDATORY MEASURES SUMMARY: Residential Pae 1 of 3 MF-1 R Project Name SHIRK's Residence Date 8/9/2013 NOTE: Low-rise residential buildings subject to the Standards must comply with all applicable mandatory measures listed, regardless of the compliance approach used. More stringent energy measures listed on the Certificate of Compliance (CF-1 R, CF-1 R-ADD, or CF- 1 R-ALT Form) shall supersede the items marked with an asterisk (*) below. This Mandatory Measures Summary shall be incorporated into the permit documents, and the applicable features shall be considered by all parties as minimum component performance specifications whether they are shown elsewhere in the documents or in this summary. Submit all applicable sections of the MF-1 R Form with plans. Building Envelope Measures: 116(a)l: Doors and windows between conditioned and unconditioned spaces are manufactured to limit air leakage. §116(a)4: Fenestration products (except field-fabricated windows) have a label listing the certified LI-Factor, certified Solar Heat Gain Coefficient SHGC , and infiltration that meets the requirements of 10-111 (a). 117: Exterior doors and windows are weather-stripped; all joints and penetrations are caulked and sealed. 118(a): Insulationspecified or installed meets Standards for Insulating Material. Indicate type and include on CF-6R Form. §118(i): The thermal emittance and solar reflectance values of the cool roofing material meets the requirements of §118(1) when the installation of a Cool Roof is specified on the CF-1 R Form. *§150(a): Minimum R-19 insulation in wood-frame ceiling orequivalent LI-factor. 150(b): Loose fill insulation shall conform with manufacturer's installed design labeled R-Value. *§1 50c : Minimum R-13 insulation in wood-frame wall orequivalent LI-factor. *§150(d): Minimum R-13 insulation in raised wood-frame floor orequivalent U-factor. §150(f): Air retarding wrap is tested, labeled, and installed according to ASTM E1677-95(2000) when specified on the CF-1R Form. 150 : Mandatory Vapor barrier installed in Climate Zones 14 or 16. §150(1): Water absorption rate for slab edge insulation material alone without facings is no greater than 0.3%; water vapor permeance rate is no greater than 2.0perm/inch and shall be protected from physical damage and UV light deterioration. Fireplaces, Decorative Gas Appliances and Gas Log Measures: 150(e)IA: Masonry or factory-built fireplaces have a closable metal or glass door covering the entire opening of the firebox. §150(e)1 B: Masonry or factory-built fireplaces have a combustion outside air intake, which is at least six square inches in area and is equipped with a with a readily accessible, operable, and tight-fitting damper and or a combustion-air control device. §150(e)2: Continuous burning pilot lights and the use of indoor air for cooling a firebox jacket, when that indoor air is vented to the outside of the building, are prohibited. Space Conditioning, Water Heating and Plumbing System Measures: §110-§113: HVAC equipment, water heaters, showerheads, faucets and all other regulated appliances are certified by the Energy Commission. §113(c)5: Water heating recirculation loops serving multiple dwelling units and High-Rise residential occupancies meet the air release valve, backflow prevention, pump isolation valve, and recirculation loop connection requirements of §113(c)5. §115: Continuously burning pilot lights are prohibited for natural gas: fan-type central furnaces, household cooking appliances (appliances with an electrical supply voltage connection with pilot lights that consume less than 150 Btu/hr are exempt), and pool and spa heaters. 150(h): Heating and/or cooling loads are calculated in accordance with ASHRAE, SMACNA or ACCA. 150(i): Heating systems are equipped with thermostats that meet the setback requirements of Section 112(c). §1500)1 A: Storage gas water heaters rated with an Energy Factor no greater than the federal minimal standard are externally wrapped with insulation having an installed thermal resistance of R-12 or greater. §1500)1 B: Unfired storage tanks, such as storage tanks or backup tanks for solar water-heating system, or other indirect hot water tanks have R-12 external insulation or R-16 internal insulation where the internal insulation R-value is indicated on the exterior of the tank. §1500)2: First 5 feet of hot and cold water pipes closest to water heater tank, non-recirculating systems, and entire length of recirculating sections of hot water pipes are insulated per Standards Table 150-13. §1500)2: Cooling system piping (suction, chilled water, or brine lines),and piping insulated between heating source and indirect hot water tank shall be insulated to Table 150-B and Equation 150-A. §1500)2: Pipe insulation for steam hydronic heating systems or hot water systems>� 123-A. p T, m 'etsathe-require - rds Table 150(j)3A: Insulation is protected from damage, including that due to sunli ht, moist a 4JJ4._ uibryie airytOFAqW, ' d d. §1500)3A: Insulation for chilled water piping and refrigerant suction lines includesr conditioned space. a vaporbraet�d�t� i�,c sekntirely in //``�'� �/ ((,„,JJ 150 ' 4: Solar water-heatin s stems and/or collectors are certified b the Solar Ratin a � '��a%ThPCWQr . DATE By EnergyPro 5.1 by EnergySoft User Number: 5553 RunCode: 2013-08-09T1 .5 : - - ge 10 of 12 -MANDATORY MEASURES SUMMARY: Residential (Page 2 of 3 MF-1R Project Name Date SHIRK's Residence 8/9/2013 §150(m)1: All air-distribution system ducts and plenums installed, are sealed and insulated to meet the requirements of CMC Sections 601, 602, 603, 604, 605 and Standard 6-5; supply-air and return-air ducts and plenums are insulated to a minimum installed level of R- 4.2 or enclosed entirely in conditioned space. Openings shall be sealed with mastic, tape or other duct-closure system that meets the applicable requirements of UL 181, UL 181 A, or UL 181 B or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings reater than 1/4 inch, the combination of mastic and either mesh or tape shall be used §150(m)1: Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than sealed sheet metal, duct board or flexible duct shall not be used for conveying conditioned air. Building cavities and support platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause reductions in the cross-sectional area of the ducts. §150(m)2D: Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive duct tapes unless such tape is used in combination with mastic and draw bands. 150(m)7: Exhaust fans stems have back draft or automatic dampers. §150(m)8: Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated dampers. §150(m)9: Insulation shall be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind. Cellular foam insulation shall be protected as above or painted with a coating that is water retardant and provides shielding from solar radiation that can cause degradation of the material. 150 m 10: Flexible ducts cannot have porous inner cores. §150(o): All dwelling units shall meet the requirements of ANSI/ASHRAE Standard 62.2-2007 Ventilation and Acceptable Indoor Air Quality in Low-Rise Residential Buildings. Window operation is not a permissible method of providing the Whole Building Ventilation required in Section 4 of that Standard. Pool and Spa Heating Systems and Equipment Measures: §114(a): Any pool or spa heating system shall be certified to have: a thermal efficiency that complies with the Appliance Efficiency Regulations; an on-off switch mounted outside of the heater; a permanent weatherproof plate or card with operating instructions; and shall not use electric resistance heating ora pilot light. §114(b)1: Any pool or spa heating equipment shall be installed with at least 36" of pipe between filter and heater, or dedicated suction and return lines, or built-up connections for future solar heating. 114(b)2: Outdoor pools ors as that have a heat pump or gas heater shall have a cover. §114(b)3: Pools shall have directional inlets that adequately mix the pool water, and a time switch that will allow all pumps to be set or programmed to run only during off-peak electric demand periods. §150 : Residential pool systems orequipment meet the pump sizing, flow rate, piping, filters, and valve requirements of §150 Residential Lighting Measures: §150(k)1: High efficacy luminaires or LED Light Engine with Integral Heat Sink has an efficacy that is no lower than the efficacies contained in Table 150-C and is not a low eff icacy luminaire asspecified by §150(k)2. 150(k)3: The wattage of permanently installed luminaires shall be determined asspecified by §130(d). §150(k)4: Ballasts for fluorescent lamps rated 13 Watts or greater shall be electronic and shall have an output frequency no less than 20 kHz. §150(k)5: Permanently installed night lights and night lights integral to a permanently installed luminaire or exhaust fan shall contain only high efficacy lamps meeting the minimum efficacies contained in Table 150-C and shall not contain a line-voltage socket or line- voltage lamp holder; OR shall be rated to consume no more than five watts of power as determined by §130(d), and shall not contain a medium screw-base socket. 150(k)6: Lighting integral to exhaust fans, in rooms other than kitchens, shall meet the applicable requirements of §150(k). 150(k)7: All switching devices and controls shall meet the requirements of §150(k)7. §150(k)8: A minimum of 50 percent of the total rated wattage of permanently installed lighting in kitchens shall be high efficacy. EXCEPTION: Up to 50 watts for dwelling units less than or equal to 2,500 ft2 or 100 watts for dwelling units larger than 2,500 ft2 may be exempt from the 50% high efficacy requirement when: all low efficacy luminaires in the kitchen are controlled by a manual on occupant sensor, dimmer, energy management system (EMCS), or a multi-scene programmable control system; and all permanently installed luminaries in garages, laundry rooms, closets greater than 70 square feet, and utility rooms are high efficacy and controlled b manual-on occupant sensor.paw IT §150(k)9: Permanently installed lighting that is internal to cabinets shall use no more tha 2f�;,_its°b _ger er=lin of illuminated cabinet. ,-., is, r,in�r it SAFETY DEPT. APPROVED FOR CONSTRUCT EnergyPro 5.1 by EnergySoft User Number: 5553 RunCode: 2013-08-09T15:52:44 DAA 2943-G&s-24— age 11 0 12 •MANDATORY MEASURES SUMMARY: Residential (Page 3 of 3 MF-1 R Project Name Date SHIRK's Residence 8/9/2013 §150(k)10: Permanently installed luminaires in bathrooms, attached and detached garages, laundry rooms, closets and utility rooms shall be high efficacy. EXCEPTION 1: Permanently installed low efficacy luminaires shall be allowed provided that they are controlled by a manual-on occupant sensor certified to comply with the applicable requirements of §119. EXCEPTION 2: Permanently installed low efficacy luminaires in closets less than 70 square feet are not required to be controlled by a manual-on occupancy sensor. §150(k)11: Permanently installed luminaires located in rooms or areas other than in kitchens, bathrooms, garages, laundry rooms, closets, and utility rooms shall be high efficacy luimnaires. EXCEPTION 1: Permanently installed low efficacy luminaires shall be allowed provided they are controlled by either a dimmer switch that complies with the applicable requirements of §119, or by a manual- on occupant sensor that complies with the applicable requirements of §119. EXCEPTION 2: Lighting in detached storage building less than 1000 square feet located on a residential site is not required to comply with §150 k 11. §150(k)12: Luminaires recessed into insulated ceilings shall be listed for zero clearance insulation contact (IC) by Underwriters Laboratories or other nationally recognized testing/rating laboratory; and have a label that certifies the lumiunaire is airtight with air leakage less then 2.0 CFM at 75 Pascals when tested in accordance with ASTM E283; and be sealed with a gasket or caulk between the luminaire housing and ceiling. §150(k)13: Luminaires providing outdoor lighting, including lighting for private patios in low-rise residential buildings with four or more dwelling units, entrances, balconies, and porches, which are permanently mounted to a residential building or to other buildings on the same lot shall be high efficacy. EXCEPTION 1: Permanently installed outdoor low efficacy luminaires shall be allowed provided that they are controlled by a manual on/off switch, a motion sensor not having an override or bypass switch that disables the motion sensor, and one of the following controls: a photocontrol not having an override or bypass switch that disables the photocontrol; OR an astronomical time clock not having an override or bypass switch that disables the astronomical time clock; OR an energy management control system (EMCS) not having an override or bypass switch that allows the luminaire to be always on EXCEPTION 2: Outdoor luminaires used to comply with Exceptions to §150(k)13 may be controlled by a temporary override switch which bypasses the motion sensing function provided that the motion sensor is automatically reactivated within. six hours. EXCEPTION 3: Permanently installed luminaires in or around swimming pool, water features, or other location subject to Article 680 of the California Electric Code need not be high efficacy luminaires. §150(k)14: Internally illuminated address signs shall comply with Section 148; OR not contain a screw-base socket, and consume no more than five watts of power as determined according to §130(d). §150(k)15: Lighting for parking lots and carports with a total of for 8 or more vehicles per site shall comply with the applicable requirements in Sections 130, 132, 134, and 147. Lighting for parking garages for 8 or more vehicles shall comply with the applicable requirements of Sections 130, 131, 134, and 146. §150(k)16: Permanently installed lighting in the enclosed, non-dwelling spaces of low-rise residential buildings with four or more dwelling units shall be high efficacy luminaires. EXCEPTION: Permanently installed low efficacy luminaires shall be allowed provided that they are controlled by an occupant sensors certified to comply with the applicable requirements of 119. CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION DATE BY EnergyPro 5.1 by EnergySoft User Number: 5553 RunCode: 2013-08-09715:52:44 ID: 2013-GLS-24 Page 12 of 12 OMNI -Test Laboratories, Inc. 13327 NE Airport Way Portland, Oregon 97230 Phone (503) 643-3788 FAX (503) 643-3799 Product Testing and Certification Program Accreditations Product Categories OMNI -Test Laboratories, Inc. (O -TL) is accredited to evaluate the following types of products for conformance with the applicable safety, emissions, and efficiency standards: • Gas -Fuel Fired Appliances (Boilers, Room Heaters, Wall and Floor Furnaces, Fireplaces, Cooking, and Decorative); • Oil -Fuel Fired Appliances (Boilers, Room Heaters, Stoves, and Furnaces); • Solid -Fuel Fired Appliances (Boilers, Room Heaters, Furnaces, Fireplaces, Stoves, And Cooking); • Electric Heaters And Other Electrical Standards Related To Fuel Burning Equipment; • Flue Gas Venting Equipment; • Heat Shields And Wall Protectors, Hearth Extensions And Floor Protectors; • Fireplace Accessories; • Processed Fuel Firelogs. Accreaitation/Certification Bodies The following organizations recognize O -TL's testing and/or certification programs. Please contact O -TL to additional details Wood Emissions • The U.S. Environmental Protection Agency accredits O -TL's permanent laboratory and mobile laboratory for conducting tests under the New Source Performance Standards for Residential Wood Heaters. • The Washington State Department of Ecology accredits O -TL as a fireplace testing laboratory. • The State of Colorado accredits 0 -TL as a woodstove testing laboratory. Safety Testing • The Standards Council of Canada (SCC) accredits O -TL as a Certification Organization in the fields of fuel burning and venting equipment. O -TL's accreditation from SCC is recognized by all Canadian Provinces and Territories. • Th American -Nations Stan ardsln�sEifUte (ANSI) =accredits O- i as a Third Party Product Certification Agency forifue burning -equipment and accessories Control No. A-SFA-0005.doc. Effective date: 09/03/2005 ",VI • The International Accreditation Service Inc. (IAS) (formerly International Conference of Building Officials Evaluation Services, Inc. (ICBG ES)) accredits O -TL as a testing laboratory (TL -130). • The Commonwealth of Massachusetts accredits 0 -TL as a testing facility, Approval No. L3-07-98- 16. • The New York City Department of Buildings, Materials and Equipment Acceptance Division accepted O -TL as a laboratory for fuel fired equipment (registration number 101-00-L). • The State of North Carolina accredits O -TL as a third party agency to label electrical and mechanical equipment. • The State of Ohio has approved O -TL as a testing laboratory. • The State of Oregon Electrical and Elevator Board approved 0 -TL to perform product certification. • The State of Washington Department of Labor and Industries accredits O -TL as an electrical product testing laboratory. Efficiency • Natural Resources Canada (NRC) recognizes O -TL as an administrator of an energy performance verification program for gas fired appliances. • The State of California Appliance Efficiency Program has approved O -TL as a testing laboratory. 69 CITYOCT 0, 7 2013 coyy�N 4ljINT D,cV 6t0PMFNT Page I of I .1 i' V LE --7 NNOX HEARTH PRODUCTS P/N 850018M Rev. H 01/2011 This manual is one of a set of two supporting this product. Refer to P/N 875022M for Care and Operation Instructions. Ce manuel est disponible en francals, simplement on faire la demande. Numero de la piece 850018CF. INSTALLER: Leave this manual with the appliance. CONSUMER: Retain this manual for future reference. INSTALLATEUR : Laissez cette notice avec I'appareil. CONSOMMATEUR : Conservez cette notice pour consultation ulterieure. INSTALLATION INSTRUCTIONS 'DV DirecNvent E L I T E�" Gasp Fireplaces S E R I E S MODELS MILLIVOLT: ELECTRONIC: EDUSTNM-B ) EDVCRNM B EDUSTNE-B EDVSTPIVI-B EDVCRPM-B EDVPFNE-B EDVPFNM-B EDVCLNM-B EDVCRNE-B EDVPFPM-B EDVCLPM-B EDVCLNE-B rast.e� ,aani.na FVita�e By` � OrepyrcUSA �C US/ OMNFTeat L`oratorie0. the t-- —OTL.Repod_No.116� F-04-5 This appliance may be installed in an aftermarket permanently located, manufactured home (USA only) or mobile home, where not prohibited by local codes. This appliance is only for use with the type of gas indicated on the rating plate. This appliance is not convertible for use with other gases unless a certified kit is used. 4AWIMNING/AVERTISSEMENT/AVISO- • HOT GLASS WILL CAUSE ....... ..._..._....... ....-r..,. • UNE SURFACE VITREE CHAUDE • EL VIDRIO CALIENTE BURNS. PEUT CAUSER DES BROLURES. CAUSARA QUEMADURAS. • DO NOT TOUCH GLASS • LAISSER REFROIDIR LA SURFACE • USTED DEBE NUNCA UNTIL COOLED. VITREE AVANT D'Y TOUCHER. TOCAR EL VIDRIO CALIENTE. • NEVER ALLOW CHILDREN • NE PERMETTEZ JAMAIS A UN ENFANT • LOS NINOS DEBEN NUNCA TO TOUCH GLASS. DE TOUCHER LA SURFACE VITREE. TOCAR EL VIDRIO. WARNING: If the information in these instructions is not followed exactly, a fire or explosion may result, causing property damage, personal injury, or death. - Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this or any other appliance. - WHAT TO DO IF YOU SMELL GAS: • Do not try to light any appliance. • Do not touch any electrical switch; do not use any phone in your building. • Immediately call your gas supplier from a neighbor's phone. Follow the gas supplier's instructions. • If you cannot reach your gas supplier, call the fire department. - Installation and service must be performed by a qualified installer, service agency or the gas supplier AVERTISSEMENT : Assurez-vous de bien suivre les instructions donnees dans cette notice pour reduire au minimum le risque d'incindie ou d'explosion ou pour eviter tout dommage materiel, toute blessure ou la mort. - Ne pas entreposer ni utilizer d'essence ni d'autres vapeurs ou liquides inflammables dans le voisinage de cet appareil ou de tout autre appareil. - DUE FAIRE SI VOUS SENTEZ UNE ODEUR DE GAZ : • Ne pas tenter d'allumer d'appareil. • Ne touchez a aucan interrupteur. Ne pas vous servir des telephones se trouvant dans le batiment ou vous trouvez. • Appelez immediatement votre fournisseur de gaz depuis un voisin. Suivez les instructions du fournisseur. • Si vous ne pouvez rejoindre le fournisseur de gaz, appelez le service des incindies. - L'installation et 1'entretien doivent etre assures par un installateur ou un service d'entretien qualifie ou par le fournisseur de gaz. TABLE OF CONTENTS Packaging.........................................Page 2 Introduction......................................Page 2 General Information ..........................Page 2 Requirements for the Commonwealth of Massachusetts. Page 4 New York City Approval ..................... Page 4 Cold Climate Insulation .....................Page 5 Manufactured Home Requirements ..Page 5 Location............................................Page 5 Vent Termination Clearances ............Page 6 Appliance and Vent Clearances ......... Page 8 Detailed Installation Steps.................Page 9 Typical Installation Sequence ...........Page 10 Step 1. Framing.................................Page 10 Fireplace and Framing Specifications. Page 11 Step 2. Routing Gas Line..................Page 14 Step 3. Appliance Vent Collar ............ Page 14 Step 4. Install The Venting System ...Page 15 Vertical Termination Systems............ Page 16 Vent Section Length Charts...............Page 16 Vertical Vent Tables and Figures ........ Page 19 Horizontal Termination System ......... Page 21 Horizontal Vent Tables and Figures... Page 23 Venting Using Flexible Vent Pipe....... Page 26 Step 5. Field Wiring .........................Page 27 Step 6. Optional Blower Kit Wiring.. Page 28 Step 7. Connecting Gas Line ........... Page 28 Step 8. Verifying Appliance Operation Page 29 Step 9. Installing Logs ...................Page 30 Step 10. Remove/Install Glass Door.Page 34 Step 11. Burner Adjustments ............ Page 34 Step 12. Hood Installation .................Page 36 Finishing Requirements ....................Page 36 Step 13. Attaching Safety -in - Operation Warnings .......................Page 37 Installation Accessories ....................Page 38 Gas Conversion Kits .........................Page 40 Please read and understand these instructions before beginning your installation. NATIONAL FIREPLACE We recommend that our gas INSTITUTE hearth products be installed and serviced by profes- sionals who are certified in the U.S. by the National Fireplace Institute® (NFI) as CERTIFIED 6-Mfid.— NFI Gas Specialists. Id PACKAGING The assembled vented gas fireplace heater is packaged with: 1 - one log set located within the firebox. 2- one plastic bag containing the literature package, which consists of the care and operation manual, installation instructions, warning labels and warranty, 8 (EDVST), 4 (EDVPF, EDVCR, EDVCL). 3- two hoods (EDVST), orthree hoods (EDVPF) taped to rthe top of the firepacce. 4- one plastic bag of glowing embers, one plastic bag of decorative volcanic stone and one bag of vermiculate is located in the bottom compartment. 5- one vent restrictor to be applied as shown on page 14 ; restrictor is taped to the envelope. INTRODUCTION The Millivolt appliances have a millivolt gas control valve with piezo ignition system. If any optional accessories that will require electrical power are to be installed, the electrical power must be provided at the time of appliance installation. The Electronic appliances are designed to op- erate on natural or propane gas. An electronic intermittent pilot ignition system provides safe, efficient operation. External electrical power is required to operate these units. These vented gas fireplace heaters are sealed combustion, air -circulating gas fireplaces de- signed for residential applications. Approved Vent Components -These fireplaces are designed, tested and listed for operation and installation with the following vent com- ponents only: Secure VentTm Direct -Vent System Compo- nents manufactured by Security Chimneys International, Secure Flefm Flexible Vent Components manufactured by Security Chimneys Inter- national and Z-FLEXTm Model GA Venting Systems listed to UL1777 and ULCS635 manufactured by Flexmaster Canada Limited. Use only the correct size venting (4-1/2" inner and 7-1/2° outer). These approved vent system components are labeled for identification. DO NOT use any other manufacturer's vent components with these appliances. GENERAL INFORMATION Children and adults should be alerted to the hazards of high surface temperature and should stay away to avoid burns or clothing ignition. Les entants et les adultes devraient etre intor- mes des dangers que posent les temperatures de surface the vies et se tenir a distance atin d'dviter des brulures ou que /eurs vetements no s'enflamment. DO NOT ATTEMPT TO ALTER OR MODIFY THE CONSTRUCTION OF THE APPLIANCE OR ITS COMPONENTS. ANY MODIFICATION OR ALTERATION MAY VOID THE WARRANTY, CER- TIFICATION AND LISTINGS OF THIS UNIT. Clothing or other flammable material should not be placed on or near the appliance. v 4 Note: Installation and repair should be by a qualified service person. The apph should be inspected before use and at annually by a professional service pe More frequent cleaning may be reqs due to excessive lint from carpeting, ding material, etcetera. It is imper that control compartments, burners circulating air passageways of the apph be kept clean. Remarque: L'installation et la rdparatiod devrait etre confiees a un technicien quafilid.� L'appareil devrait faire ('objet dune inspection par on technicien professionnel avant d'etre utilise et au moins une Lois Pan par la suite. Des nettoyages plus frdquents peuvent etre necessaires si les tapis, la fiterie, et cetera produisent one quantite importante de pous- sidre. l/ est essentie/ que les compartiments abritant les commander, les bruleurs et les conduits de circulation d'air de Pappareil soient tens propres. Do not use these appliances if any part has been under water. Immediately call a qualified, professional service technician to inspect the appliance and to replace any parts of the control system and any gas control which have been under water. Ne pas utilisercetappareils'iladid plonge, meme partiellement, dans 1'eau. Ap- peler un technicien qualifie pour inspecter I'appareil et remplacer toute partie du systeme de commande ettoute commande qui a did plongee dans I'eau. AwaRwibc I Only trim kit(s) supplied by the manufacturer shall be used in the installation of this ap- pliance. Seules les trousses de garniture fournies par le fabricant doivent etre utilisdes pour Pinstallation de cet appareil. These-appliances-comply�with,NationahSafety Standardsandaretest d:listed:byOMNI;Test t aboratories`lnc:_(Report-No:116-F=04-5) to ANSI Z21 88,(in-Canada�CSA--2-33)., and_CAN/ SCG-72:17:M91-iri=loth�U�SA and -Canada;, as vented -,gas -.fireplace -,heaters.. Both millivolt and electronic versions of these appliances are listed by OMNI -Test Laboratories for installation in bedrooms and Manufactured Homes. Misc. Codes / Standards - The Installation must conform to local codes or, in the absence of local codes, with the National Fuel Gas Code, ANSI Z223.1/NFPA 54 - latest edition (In Canada, the current CAN/CSA-B149.1 installation code). The appliance, when installed, must be electri- cally grounded and wired in accordance with local codes or, in the absence of local codes, with the National Electrical Code, ANSI/NFPA 70 - latest edition, or the Canadian Electrical Code, CSA C22.1- latest edition. Provide adequate clearances around air open- ings and adequate accessibility clearance for service and proper operation. Never obstruct the front or back openings of the appliance. iese appliances are designed to operate on itural or propane gas only. The use of other els or combination of fuels will degrade e performance of this system and may be innerous. ese fireplaces are designed as supplemental aters. Therefore, it is advisable to have an ernate primary heat source when installed a dwelling. Millivolt Models - The millivolt appliances are manually controlled and feature a spark igniter (piezo) that allows the appliance's pilot gas to be lit without the use of matches or batteries. This system provides continued service in the event of a power outage. Millivolt models come standard with a manually - modulated gas valve; flame appearance and heat output can be controlled at the gas valve. The BTU Input for these appliances is shown in Table 1. Electronic Models - Electronic models have a fixed rate gas valve. Input of electronic models is shown in Table 1. Input (BTU) Gas Valves (all models) All Models Fuel Input Rate Type (BTU / HR) Millivolt Natural 39,000 high 31,000 low Millivolt Propane 39,000 high 31,000 low Electronic Natural 39,000 Electronic Propane 39,000 Table 1 r K Gas Pressure - All Models Tables 2 and 3 show the appliances' inlet and manifold gas pressure requirements: Inlet Gas Supply Pressure (all models) Fuel # I Minimum Maximum Natural Gas 4.5" WC 10.5" WC Gas (1.12 kPa) (2.61 kPa) Propane 11.0" WC 13.0" WC #41(0.0981* (2.74 kPa) 1 (3.23 kPa) Table 2 Manifold Gas Supply Pressure (all models) Fuel If Low High Natural (Lo) 2.2" WC (Hi) 3.5" WC Gas (0.55 kPa) (0.87 kPa) Propane (Lo) 6.3" WC (Hi)10.0" WC #41(0.0981* (1.57 kPa) (2.49 kPa) Table 3 Test gauge connections are provided on the front of the millivolt and electronic gas control valve (identified IN for the inlet and OUT forthe manifold side). The control valves have a 3/8" (10mm) NPT thread inlet and outlet side of the valve (refer to Figures 1 and 2). Propane tanks are at pressures that will cause damage to valve components. Verify that the tanks have step down regulators to reduce the pressure to safe levels. These appliances must be isolated from the gas supply piping system (by closing their individual manual shut-off valve) during any pressure testing of the gas supply piping system at test pressures equal to or less than 1/2 psig (3.5 kPa). These appliances and their individual shut-off valves must be disconnected from the gas supply piping system during any pressure testing of that system at pressuresrg eater than 1/2 psig (3.5 kPa). These appliances must not be connected to a chimney or flue serving a separate solid fuel burning appliance. Orifice Sizes - Sea Level to High Altitude (All Models) These appliances are tested and approved for installation at elevations of 0-4500 feet (0-1372 meters) above sea level using the standard burner orifice sizes (marked with an — in Table 4 ). For elevations above 4500 feet, contactyour gas supplier or qualified service technician. Deration - At higher elevations, the amount of BTU fuel value delivered must be reduced by either: • Using gas that has been derated by the gas company. • By changing the burner orifice to a smaller size as regulated by the local authorities having jurisdiction and by the (USA) National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition or, in Canada, the CAN/CSA-8149.1 codes -latest edition. Install the appliance according to the regulations of the local authorities having jurisdiction and, in the USA, the National Fuel Gas Code NFPA 54 / ANSI Z223.1 - latest edition or, in Canada, the CAN/CSA-8149.1 -latest edition. Flame breadth, height and width will diminish 4% for every 1,000 feet of altitude. Burner Orifice Sizes (all models) Natural Propane Elevation Gas Gas Feet (meters) drill sae (inches) drill sae (inches) 0-4500 (0.125')' #41(0.0981* (0-1372) 21 L81 • 21 L82 Table 4 - Standard sire installed at factory • PartlCat. Number Gas Valve Diagrams See Figure 1 for Millivolt models and Figure 2 For Electronic Models. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Manifold Pressure Part ON/OFF Switch • Q ae 0 O a Z ^ p z I Inlet Pressure O - Port �o Electronic Gas Control Valve Honeywell Electronic Figure 2 Gas Valve REQUIREMENTS FOR THE COMMON- WEALTH OF MASSACHUSETTS These fireplaces are approved for installation in the US state of Massachusetts if the following additional requirements are met: • Install this appliance in accordance with Massachusetts Rules and Regulations 248 C. M. R. • Installation and repair must be done by a plumber or gas fitter licensed in the Com- monwealth of Massachusetts. • The flexible gas line connector used shall not exceed 36 inches (92 centimeters) in length. • The individual manual shut-off must be a T -handle type valve. Massachusetts Horizontal Vent Requirements Inthe Commonwealth of Massachusetts, hori- zontal terminations installed less than seven (7) feet above the finished grade must comply with the following additional requirements: • A hard wired carbon monoxide detector with an alarm and battery back-up must be installed on the floor level where the gas fireplace is installed. The carbon monoxide detector must comply with NFPA 720, be ANSI/UL 2034 listed and be ISA certified. • A metal or plastic identification plate must be permanently mounted to the exterior of the building ata minimum height of eight (8) feet above grade and be directly in line with the horizontal termination. The sign must read, in print size no less than one-half (1/2) inch in size, GAS VENT DIRECTLY BELOW. KEEP CLEAR OF ALL OBSTRUCTIONS. NEW YORK CITY, NEW YORK (MEA) Installation of these fireplaces are approved for installation in New York City in the US state of New York. COLD CLIMATE INSULATION For cold climate installations, seal all cracks around your appliance with noncombustible material and wherever cold air could enter the room. It is especially important to insulate !outside chase cavity between studs and under floor on which appliance rests, if floor is above ground level. Gas line holes and other open- ings should be caulked or stuffed with unfaced fiberglass insulation. If the fireplace is being installed on a cement slab in cold climates, a sheet of plywood or other raised plafform can be placed underneath to prevent cold transfer to the fireplace and into the room. It also helps to sheetrock inside surfaces and tape for maximum air tightness and caulk firestops. MANUFACTURED HOME REQUIREMENTS This appliance maybe installed in an aftermarket permanently located, manufactured home and must be installed in accordance with the manu- facturer's instructions and the Manufactured Home Construction and Safety Standard, Title 24 CFR, Part 3280, in the United States, or the Standard for Installation in Mobile Homes, CAN/ CSA Z240 MH Series, in Canada. Cetappareil peutWe installe comme du materi- el d'origine dans une maison prefabriquee (LU. seulement) ou mobile et Boit etre installe selon les instructions du fabricant et conformement A la norme Manufactured Home Constructions and Safety, Title 24 CFR, Part 3200 aux Unis ou A la norme Can/CSA-Z240 Serie MM, Maisons mobiles au Canada. This appliance is onlyforuse with thetype of gas indicated on the rating plate. This appliance is not convertible for use with other gases, unless a certified kit is used. Cet appareil doit etre utilise uniquement avec le type de gaz indique sur la plaque signaletique. Cetappareil ne peut etre converti a d'autres gaz, sauf si une trousse de conversion est utilisee. CAUTION: Ensure that the cross mem- bers are not cut or weakened during installation. The structural integrity of the manufactured home floor, wall, and ceiling / roof must be maintained. CAUTION: This appliance must be ground- ed to the chassis of the manufactured home in accordance with local codes or in the absence of local codes, with the National Electrical Code ANSI / NFPA 70 - latest edition or the Canadian Electrical Code CSA C22.1 - latest edition. I II r i VERTICAL VENT HORIZONTAL VENT REAR I i t I HORIZONTAL VENT TOP When the unit is installed with one side flush with a wall, (See Through Model Shown) the wall on the other side of the unit must not extend beyond the front edge of the unit. Corner - Right QCorner - Left (EDVCR) (EDVCL) See -Through (EDVST) ?Peninsula VPF) • See -Through (EDVST) - one side flush with a wall Figure 3 TYPICAL LOCATION LOCATION In selecting the location, the aesthetic and functional use of the appliance are primary concerns. However, vent system routing to the exterior and access to the fuel supply are also important. Due to high temperatures, the appliance should be located out of traffic and away from furniture and draperies (Figure 3). En raison des temperatures dle0es, ('appareil devrait etre installd dans an endroit oo it y a peu de circulation et loin du mobilier et des tentures (Figure 3). The location should also be free of electrical, plumbing or other heating/air conditioning ducting. These direct -vent appliances are uniquely suited for installations requiring a utility shelf positioned directly above the fireplace. Utility shelves like these are commonly used for locat-ing television sets and decorative plants. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Be aware that this is a heat producing ap- pliance. Objects placed above the unit are exposed to elevated temperatures. Do not insulate the space between the appli- ance and the area above it (see Figure 8). The minimum height from the base of the appli- ance to the underside of combustible materials used to construct a utility shelf in this fashion is shown in Figure 8. The appliance should be mounted on a fully supported base extending the full width and depth of the unit. The appliance may be located on or near conventional construction materials. However, if installed on combustible materials, such as carpeting, vinyl tile, etc., a metal or wood barrier covering the entire bottom surface must be used. VENT TERMINATION CLEARANCES These instructions should be used as a guideline and do not supersede local codes in any way. Install venting according to local codes, these instructions, the current National Fuel Gas Code (ANSI -Z223.1) in the USA or the current standards of CAN/CSA-B149.1 in Canada. Vertical Vent Termination Clearances Terminate multiple vent terminations according to the installation codes listed above and Figures 4 and 5. 6 R Vertical Vent Termination Clearances TERMINATION HEIGHTS FOR VENTS ABOVE FLAT OR SLOPED ROOFS Horizontal Overhang Flat to 6/12 1 2 FT Vertical 2 FT MIN. Mm. Wall r 0.38 Lowest 1.5 Discharge Vent Opening Termination 9/12 to 10/12 2.5 H• Storm Collar �12 Flashing 4.0 Roof Pitch is X/12 1 Inch (25.4 Minimum Clearance to Combustibles Concentric •H = MINIMUM HEIGHT FROM ROOF TO Vent Pipe LOWEST DISCHARGE OPENING OF VENT The vent / air intake termination clearances above the high side of an angled roof is as shown in the following chart: Figure 5 Horizontal Vent Termination Clearances Termination Heights For Vents Above Flat Or Sloped Roofs Ref. NFPA 54 /ANSI 2223.1 Roof Pitch • Feet •Meters Flat to 6/12 1.0 0.3 6/12 to 7/12 1.25 0.38 7/12 to 8/12 1.5 0.46 8/12 to 9/12 2.0 0.61 9/12 to 10/12 2.5 0.76 10/12 to 11/12 3.25 0.99 11/12 to 12/12 4.0 1.22 12/12 to 14/12 5.0 1.52 14/12 to 16/12 6.0 1.83 16/12 to 18/12 7.0 2.13 18/12 to 20/12 7.5 2.29 20/12 to 21/12 8.0 2.44 The horizontal vent termination must have a minimum of 6" (152 mm) clearance to any overhead combustible projection of 2-1/2" (64 mm) or less (see Figure 6). For projections exceeding 2-1/2" (64 mm), see Figure 6. For additional vent location restrictions refer to Page 7. Horizontal Vent Termination Clearances Combustible Projection 2-1/2 inches or less in length Combustible Projection greater than 2-1/2 inches in length-? 1 Ventilated Soffit Unventilated Soffit 6" 18" 12" 6,52 mm) (457 mm) (305 mm) Side Elevation View Termination Kit Figure 6 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. All horizontal terminations may be located as close as 6" (152mm) to any (non-combustible and combustible) exterior sidewall. This distance maybe decreased to 2" (51 mm) for non- combustible exterior sidewalls only, if the SV4.5HT-2 termination is used. Termination Kit Note - See Figure 42 on Page 22 for the exterior wall recess allowances or the square horizontal termination. EXTERIOR HORIZONTAL VENT TERMINATION CLEARANCE REQUIREMENTS NOTE: Location Of The Vent Termination Must Not Interfere With Access To The Electrical Service. ®= Air Supply Inlet 13= Vent Termination S'= Area where Termination is not Permitted NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. 4. y. Canadian Installation* US Installation" A = Clearance above grade, veranda, porch, deck, or balcony. 12 inches (30cm)* 12 inches (30cm)** B = Clearance to window or door that may be opened. 6 inches (15cm) for appliances 6 inches (15cm) for appliances < 10,000 Btuh (3kW), 12 inches (30cm) < 10,000 Btuh (3kW), 9 inches (23cm) for appliances > 10,000 Btuh (3kW) for appliances > 10,000 Btuh (3kW) and < 50,000 Btuh (15kW), 12 inches (30cm) for appliances > 50,000 Btuh (15kW)*' C = Clearance to permanently closed window 12 inches (305mm) recommended to 9 inches (229mm) recommended to prevent window condensation prevent window condensation D = Vertical clearance to ventilated soffit located above the 18 inches (458mm) 18 inches (458mm) termination within a horizontal distance of 18 inches (458mm) from the center line of the termination E = Clearance to unventilated soffit 12 inches (305mm) 12 inches (305mm) F = Clearance to outside corner 5 inches (12.7cm) minimum 5 inches (12.7cm) minimum G = Clearance to inside corner 2 inches (5.08cm) minimum - SV4.5HT-2 2 inches (5.08cm) minimum - SV4.5HT-2 H = Clearance to each inside of center line extended above 3 feet (91cm) within a height of 15 feet 3 feet (91cm) within a height of 15 feet meter/regulator assembly above the meter/regulator assembly* above the meter/regulator assembly'* I = Clearance to service regulator vent outlet 3 feet (91cm)* 3 feet (91cm)** J = Clearance to nonmechanical air supply inlet to building or 5 inches (15cm) for appliances 6 inches (15cm) for appliances the combustion air inlet to any other appliance < 10,000 Btuh (3kW), 12 inches (30cm) < 10,000 Btuh (3kW), 9 inches (23cm) for appliances > 10,000 8tuh (3kW) for appliances > 10,000 Btuh (3kW) and < 50,000 Btuh (15kW), 12 inches (30cm) for appliances > 50,000 Btuh (15kW)** K = Clearance to a mechanical air supply inlet 6 feet (1.83m)' 3 feet (91cm) above if within 10 feet (3m) horizontally'* L = Clearance above paved sidewalk or paved diveway located 7 feet (2.13m)$ 7 feet (2.13m)$ an public property M = Clearance under veranda, porch, deck or balcony 12 inches (30cm)*$ 12 inches (30cm)$ N = Depth of Alcove (Maximum) 6 feet (1.83m)* 6 feet (1.83m)** 0 = Clearance to Termination (Alcove) 6 inches (15.2mm)* 6 inches (15.2mm)** P = Width of Alcove (Minimum) 3 feet (91cm)* 3 feet (91cm)* O = Clearance to Combustible Above (Alcove) 18 inches (457mm)* 18 inches (457mm)*' ' In accordance with the current CSA -B149.1 National Gas And Propane Installation Code. *' In accordance with the curent ANSI SZ223.1/NFPA 54 National Fuel Gas Codes. $ A vent shall not terminate directly above a sidewalk or paved driveway which is located between two single family dwellings and serves both dwellings. '$ Only permitted if veranda, porch, deck or balcony is fully open on a minimum 2 sides beneath the floor: NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. 4. y. 8 MINIMUM CLEARANCES TO COMBUSTIBLES Appliance And Vent Clearances The appliance is approved with zero clearance to combustible materials on all sides (as detailed in Table 5), with the following exception: When the unit is installed with one side flush with a wall, the wall on the other side of the unit must not extend beyond the front edge of the unit. In addition, when the unit is recessed, the side walls surrounding the unit must not extend beyond the front edge of the unit (see Figure 3). *Note: 3 in. (75 mm) above any horizontal/inclined vent component. * *Note: See Page 10, Step 1 and Figure 12 for clearance requirements to the nailing flange located at each side of the unit and any screw heads adjacent to it. Hearth Extension - A hearth extension is not required with this appliance. If a hearth exten- sion is used, do not block the lower control compartment door. Any hearth extension used is for appearance only and does not have to conform to standard heart �— Mantel Depth Model No. inches (millimeters) 14 (356) -- 12 (305) Secure Vent 10 (254) Secure Vent Secure Flex 8 (203) 6(152) Top of EDUPF Appliance 4 (102) 41 1/8 (1045) 41 i/8 (1045) EDVCR 12 10 8 5 4 2 (305) (254) (201) (152) (102) (51) EDVCL Front or Rear Face of Appliance Figure 7 - Minimum Mantel Clearances Hearth Extension - A hearth extension is not required with this appliance. If a hearth exten- sion is used, do not block the lower control compartment door. Any hearth extension used is for appearance only and does not have to conform to standard heart Shelf Height inches (mm) Model No. Top Vent -with One 90 Degree Elbow Rear Vent -Straight Out the Back Secure Vent Secure Flex Secure Vent Secure Flex EDVST EDUPF 53 7/8 (1368) 55 5/8 (1413) 41 1/8 (1045) 41 i/8 (1045) EDVCR EDVCL Do not Insulate the space between the Do not insulate the space between the appliance and the area above it. appliance and the area above it. I Shelf Height II (see table) aShelf Shelf Helght (see table) Above Fireplace Shelf Above Fireplace With Rear Venting With Top Venting Figure 8 - Shelf Height Minimum Clearances Hearth Extension - A hearth extension is not required with this appliance. If a hearth exten- sion is used, do not block the lower control compartment door. Any hearth extension used is for appearance only and does not have to conform to standard heart Shelf Height inches (mm) Model No. Top Vent -with One 90 Degree Elbow Rear Vent -Straight Out the Back Secure Vent Secure Flex Secure Vent Secure Flex EDVST EDUPF 53 7/8 (1368) 55 5/8 (1413) 41 1/8 (1045) 41 i/8 (1045) EDVCR EDVCL NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. h extension instal- lation requirements. Shelf Height - To provide for the lowest pos- sible shelf surface, use the alternate rear vent outlet, the venting attached to the top vent should be routed in a way to minimize obstructions to the space above the appliance. Do not insulate the space between the appliance and the area above it (see Figure 8). The minimum height from the base of the appliance to the underside of combustible materials used to constructs utility shelf in this fashion is shown in figure 8. The appliance should be mounted on a fully supported base extending the full width and depth of the unit. The appliance may be located on or near conventional construction materials. However, if installed on combustible materials, such as carpeting, vinyl tile, etc., a metal or wood barrier covering the entire bott om surface must be used. Wall Finishes /Surrounds /Mantels Note: Combustible wall finish materials and/ or surround materials must not be allowed to encroach the area defined by the appliance front face (black sheet metal). Never allow combus- tible materials to be positioned in front of or overlapping the appliance /ace (see Figure 66 on Page 36) and Figure 9 on page 9. Non-combustible materials, such as surrounds and other appliance trim, may be installed on the appliance face with these exceptions: they must not cover any portion of the removable glass panel or control compart ment. Vert ical installation clearances to combustible mantels vary according to the depth of the mantel. See Figure 7. Mantels constructed of non-combustible materials may be installed at any height above the appliance opening; however, do not allow anything to hang below the fireplace hood. Note: We recommend the use of high tem- perature paint (rated 175° f or higher) on the underside of the mantel. MINIMUM CLEARANCES* Inches (millimeters) Back and Sides 1/2 in. (13) 0 (0) from Spacers Or Dimples ** Top Spacers 0(c) Floor 0 (0) From Bottom of Unit To Ceiling 64 (1626) Vent 3 (76) Top* / 1(25.4) Sides & Bottom SERVICE CLEARANCES Feet (meters) Front, Back, Sides 3 feet (0.9 meters) Table 5 Combustible Materials Allowed In Shaded Top View Of Area Sate Zone Fireplace 12" T45" 5., 17' Min. Distance 8114" To Protected Side Side Wall Wall Side Wall Min. Distance To 14" Unprotected Side Wall Figure 9 Top Radiant Panel Top Bustle Bottom Bustle Control Compartment Access Panel Figure 10 Unit Parts Identification NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. DETAILED INSTALLATION STEPS The appliance is shipped with all gas controls and components installed and pre -wired. 1 - Remove the shipping carton. 2 - Remove the top radiant panel (refer to Figure 11). 3 - Liftthe pressure relief platesand remove the cardboard from underneath each of them. 4 - Open the control compartment access panel, by actuating the spring-loaded magnetic catches securing the panel, gently depressing the outer top corners of the panel until the catches "pop" the panel free and allowing it to swing out and down to open. 5 - Remove the bottom control compartment access panel by compressing the spring- loaded hinge pin on the left side until it disengages from the left cabinet panel hole. Pull the panel away from the fireplace. See Figure 56 on page 30. 6 - Remove the modesty panel by pulling the bottom right corner of the modesty panel out slightlyto disengage the snap-fitfeature; liftthe modesty panel by the tab on the panel's right end, pull the right end of the panel away from the cabinet and then pull the panel diagonally out of the left side cabinet panel slots. (In the above procedure, reverse the words "left" and "right" for EDVCR models). Remove the modesty panel carefully, so that none of the wires become loose or disconnected. 7 - Open the two latches (located under the firebox floor) securing the glass enclosure panel. Remove the panel by tilting it outward at the bottom and lifting it up. Set the door aside protecting it from inadvertent damage. See Figure 63 on page 34. 9 TYPICAL INSTALLATION SEQUENCE The typical sequence of installation is outlined below., However, each installation is unique and may result in variations to the steps described. See the page numbers references in the follow- ing steps for detailed procedures. Step 1. (Page 10) Construct the appliance framing. Position the appliance within the framing and securewith nailing brackets (refer to Figure 12). EDVST SHOWN (EDVPF FLANGES ON END WITH GLASS PANEL d Nailing Flanges Step 2. (Page 14) Route gas supply line to appliance location. Step 3. Preparing the appliance vent collar (Page 14). Step 4. (Page 15) Install the vent system and exterior termination. Step 5. (Page 27) Field Wiring a. Millivolt Appliances — Install the operating control switch (not factory, provided) and bring in electrical service lineforforced air -circulating blower (optional equipment). b. Electronic Appliances—Field wire and install operating control switch. Step 6. (Page 28) Install blower kit (optional equipment). Step 7. (Page 28) Make connection to gas supply. Step 8. (Page 29) Verifying appliance opera- tion. Step 9. (Page 30) Install the logs, decorative volcanic stone and glowing embers. EDVCL SHOWN (FOR EDVCR VIEW, INTERCHANGE SIDES) Remove these two screws and use them when installing the nailing flanges. Turn tabs down and secure to the floor with Sd nails or other appropriate fasteners on all sides of the unit which do not have viewing glass panels. Note: The nailing flanges, combustible members and screw heads located in areas directly adjacent to the nailing flanges, are EXEMPT from the 1/2" clearance to combustible requirements for the firebox outer wrapper. Combustible framing may be in direct contact with the nailing flanges and may be located closer than 1/2" from screw heads and the firebox wrapper in areas adjacent to the nailing flanges. Frame the opening to the exact dimensions specified in the framing details of this manual. Figure 12 - Nailing Flanges 10 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Step 10. (Page 34) Install glass door as- sembly. Step 11. (Page 34) Adjust burner to ensure proper flame appearance. Step 12. (Page 36) Install the hoods. Step 13. (Page 37) Attach Safety in Operation Warnings. Before proceeding it may be helpful to remove the log set form the firebox and remove the embers and volcanic stone from the control compartment. Refer to the following steps: 1. Remove the front glass enclosure panel (see Removing and Installing Glass Enclosure Panels on Page 34). 2. Remove log set box from firebox. Next, remove embers and volcanic stone from con- trol compartment. Handle logs carefully to prevent breakage. Step 1. FRAMING Frame these appliances as illustrated in Figures 13 (EDVST), 14 (EDVPF), 15 (EDVCL) or 16 (EDVCR). All framing details must allow for a minimum clearance to combustible framing members as shown in Table 5 on page 9. If the appliance is to be elevated above floor level, a solid continuous platform must be constructed. Headers may be in direct contact with the appliance top spacers but must not be sup- ported by them or notched to fit around them. All construction above the appliance must be self supporting, DO NOT use the appliance for structural support. Side Nailing Flanges The fireplace should be secured to the framing at the side(s) and/or rear of the unit using the factory -provided nailing flanges. Install the nailing flanges - 8 (EDVST), 4 (EDVPF, EDVCL and EDVCR) - as shown in Figure 12 using the existing screws. Position the fireplace within the framing. When required, the flanges maybe bent90 degrees by hand or with the assistance of a hammer. Use wood screws to secure the nailing flanges to the framing. See Table 5 on page 9 for clear ances of framing members to cabinet parts in the nailing flange area. The nailing flange itself is exempt from these clearances. Floor Nailing Tabs Secure the fireplace to the floor as shown in Figure 12. • nl FIREPLACE FRAMING SPECIFICATIONS EDVST _j 11.3/8 Ir inches (millimeters) (See -Through) Framing inches (millimeters) [-T(0;1/2 67) SMinimum tud Size Is 2x4 10-12 12-1R (267) (318)-► VENT FRAMING - Stud Size is 2x4 VENT FRAMING - 5.1/4(133) NO ELBOWS TOP VENT WITH 10.12 TOP VENT WITH ONE 90° ELBOW ONE 90° ELBOW NO ELBOWS r VENT FRAMING - 5.1/4 7 REAR VENT WITH 7 (1 78) NO ELBOWS r I I 12 I I I I (308) (3 08) 12-1/8 f 12-1/8 7 1 I I 5-1/8 26.3/4 5.1/8 (176) I I 26-3/4 (130) I 1 I I Center of gas line A 1 I Gas Line 12.1/8 Center of gas line Di mension A (308) A X up from floor. 5-118 26.3 9.314 fr1A ••• Provide Additional Space For Side Vent (130) (679) Seal Cap If Installing Against A Solid Wall ••This "43-5/8 Gas Line—___594) (1108) (1054) Center of gas line is 3 in. (76 mm) r Center of gas line is 3 in. (76 mm) up from floor. j up from or. �,/ Dimension A 22 -ala Seal Cap If Installing Against A Solid Wall Secure Vent- 47-1/8 (1197) ... 48-1/2 (578) installation, it unit is installed after framing is erected.) Secure Flex - 47-3/4 (1213) (1232) —Provide Additional Space For Side Vent Seal Cap If Installing Against A Solid Wall **This dimension based on 518" drywall. For 12" drywall use 23". *This dimension can be reduced to 41 inches (1041 mm). This results In 0 In. (0 mm) clearance between framing and unit framing spacers. (The 41.12 in. dimension permits easier fireplace installation, it unit is Installed after framing is erected.) Figure 13 EDVCL (Corner -Left) 10.3/8 Dimension A (269) (Peninsula) (254) Secure Vent- 47-1/8 1197) inches (millimeters) Secure Flex -47-3/41213) Minimum Framing 10-12 12-1R (267) (318)-► VENT FRAMING - Stud Size is 2x4 Ar REAR VENT WITH 5.1/4(133) NO ELBOWS VENT FRAMING - 10.12 TOP VENT WITH (267) ONE 90° ELBOW NO ELBOWS r 12.1/8 5.1/4 (308) (133) 7 I I (178) I I 12-1/8 5.1/8 (130 I I I I (308) ii 7 I I (178)11 12-1/8 f 12-1/8 (308) 5.1/8 (308) 5-1/8 26.3/4 (130) (130) (679) 26-3/4 Gas Line I (679) Center of gas line A •41-12 Gas Line (1054) Center of gas line Di mension A Is 3 in. (76 mm) Secure Vent -47-1/811197) •••43-5/i X up from floor. Secure Flex - 47-3/4 (1213) (1108) 9.314 fr1A ••• Provide Additional Space For Side Vent (248) (159)1,44— 159).44—••43-5/8 Seal Cap If Installing Against A Solid Wall ••This "43-5/8 dimension based on 5/8" drywall. For 12" drywall use 23". (1108) 'This dimension can be reduced to 41 Inches (1041 mm). This results In 0 In. (0 mm) Optional Gas Line Location easier fireplace installation, If unit is Installed alter framing is erected.) Center of gas line is 3 in. (76 mm) 24 (610) j up from or. �,/ "Provide Additional Spacepace For Side Vent Seal Cap If Installing Against A Solid Wall This dimension can be reduced to 41 Inches (1041 mm). This results In 0 in. (0 mm) clearance between framing and unit framing spacers. (The 4-12 In. dimension permits easier Ilreplace installation, it unit is installed after framing is erected.) Figure 15 EDVPF 11.3/8 inches (millimeters) (269) (Peninsula) Minimum Framing 10.1/2 (267) Stud Size is 20 Minimum Framing VENT FRAMING - Stud Size is 20 TOP VENT WITH VENT FRAMING - 12-1/2,► ONE 90° ELBOW REAR VENT WITH Ir1318) VENT FRAMING - 7 REAR VENT WITH (178) NO ELBOWS r 12.1/8 1 (308) I I 7 I (178) I I 5-1/B I I (130) I I I I 1 I 12-1/8 f 11/8(308) I � (308) , I 5-1/8 26.3/4 A (130) (679) Gas Line I 6.114 '41-12 Center of gas line (159) (1054) is 3 In. (76 mm) A up from floor. '~ • •41-12 Di mension A • 223/a/� Secure Vent -47-1/811197) •••43-5/i `—(578) Secure Flex - 47-3/4 (1213) (1108) 9-7/6 - ••• Provide Additional Space For Side Vent ..(251)1, Seal Cap If Installing Against A Solid Wall ••This dimension based on 5/8" drywall. For 12" drywall use 23". 24 (610) 'This dimension can be reduced to 41 Inches (1041 mm). This results In 0 In. (0 mm) clearance between framing and unit framing spacers. (The 41-1/2 in. dimension permits easier fireplace installation, If unit is Installed alter framing is erected.) Figure 14 *This dimension can he reduced to 41 inches1041 mm). This results in 0 in. (0 mm) clearance EDVCR (Corner -Right) 10-3/8 Dimension A (264) Secure Vent- 47-1/8 (1197) Inches (millimeters) R Secure Flex - 47-3/4(1213) Minimum Framing 10-12 Stud Size is 20 (267) VENT FRAMING - 12-1/2,► VENT FRAMING - 511!4 REAR VENT WITH Ir1318) (133) TOP VENT WITH NO ELBOWS ONE 90' ELBOW 10.1/2 (267) 5-1/4-4- -1/4-4'(133) (133) 7 (178) 12-1/8 1 l 5.1 7 11/8(308) I � (178) , I 12-118 (308) 5-1/8� (130) 26.314 (679) A •41-12 (1054) ••43.5/8 •• (1108) 9-7/6 - Gas line ..(251)1, Center o1 gas line is 3 in. from floor. (76 mm) up 24 (610) —Provide Additional Space For Side Vent Seal Cap 11 Installing Against A Solid Wall *This dimension can he reduced to 41 inches1041 mm). This results in 0 in. (0 mm) clearance between framing and unit framing spacers. (he 41-12 in. dimension permits easier fireplace Installation, If unit is installed after framing is erected.) Figure 16 NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 11 1 12 Y FIREPLACE SPECIFICATIONS EDVST(See-Through) Figure 17 01/2 — (13)L T I DETAIL OF FINISH WALL BRACKET 24 (610) FINISH WALL BRACKET . (Top and Side) 10 (Front and back edge of unit top) I (254) �I DETAIL OF FINISH WALL BRACKET (161 12 (305) FRAMING SPACERS 40-1/8 LP (1019) 3.1/2 (89) (Top and Both Sides) TOP VIEW 43-518 (1108) 1/2(13) -- ' NOTE - Unit has a factory -installed vent seal \`\ (260) � cap and vent cover plate (see Figures 22 and 41 (1041) FLUE 23 on page 15) in each flue outlet. The vent 10.1/4 (TC Or Side) i —'L 5/8 seat cap is not shown in this figure. _► (260) 40-1/8 (16) 1 N_ (1019) Stepped to Accept Drywall 3-12(89) ELECTRICAL 3-1/2(89) on All 4 Corners TOP VIEW 1/2(13) 1/2(13) 2-1/2 Provide(Addit anal Space For Side (op or Side) 47-1/8 (1197) �I _ (63.5)_ 12 _ .1(305) EDVPF (Peninsula) FINISH WALL BRACKET 10_�/ Stepped to Accept Drywall on Two Corners Figure 18 (Front, back, and left edge of unit top) (254) FRAMING SPACERS NOTE - Unit has a factory -installed vent seal cap and vent cover plate (see figures 22 and 23 on page 15) in each flue outlet. The vent seal cap is not shown in this figure. LEFT SIDE VIEW % . (Top and Side) 4 (102) T— �I DETAIL OF FINISH WALL BRACKET (161 3) I10-1/4 40-1/8 LP (1019) 3.1/2 (89) TOP VIEW 43-518 (1108) 1/2(13) -- ' 2-1/2 — 12 (6 i5) (305) (260) 41 (1041) I 10.1/4 2-1/2 1.-1-2-1/2 mo— -1/2 i I 1 (260) 37 FLUE ELECTRICAL (940) Provide(Addit anal Space For Side (op or Side) ,3.5) INLETS Venf Seal Cap If GAS INLET Installing Against / i GAS INLET \� I A Solid Wall i ELECTRICAL ELECTRICAL INLETS — 0 3 (76) �_ / 3 (76) ct o G _ INLETS _► 10-1/2 L� \ CONTROL 6-7/8 (267) I_ COMPARTMENT (175) FRONT VIEW ACCESS PANEL LEFT SIDE VIEW RIGHT SIDE VIEW EDVPF (Peninsula) FINISH WALL BRACKET 10_�/ Stepped to Accept Drywall on Two Corners Figure 18 (Front, back, and left edge of unit top) (254) FRAMING SPACERS NOTE - Unit has a factory -installed vent seal cap and vent cover plate (see figures 22 and 23 on page 15) in each flue outlet. The vent seal cap is not shown in this figure. LEFT SIDE VIEW % . (Top and Side) 12 (305) DETAIL OF FINISH WALL BRACKET (161 3) 40-1/8 LP (1019) 3.1/2 (89) TOP VIEW 43-518 (1108) 1/2(13) -- ' 2-1/2 — 12 (6 i5) (305) 4 (102) I 10.1/4 37 (940) 1 (260) Provide Additional 2-1/2 S ace For Side — JentSeat Cap ll (63.5) Installing Against A Selid Wall FLUE V (Top or Side) ELECTRICAL, INLETS I ,GAS INLET � 31761 ° o'.. CONTROL COMPARTMENT A 6-7/8 RIGHT SIDE VIEW FRONT VIEW ACCESS PANEL —► (175) -e— NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. a FIREPLACE SPECIFICATIONS CONTINUED EDVCL (Corner -Left) Figure 19 NOT,- Unit has a factory -Installed vent seal cap and vent cover plate (see Figures 22 and 23 on page 15) in each flue outlet. The vent seal cap is not shown in this figure. • FINISH WALL BRACKET (Front and len edge of unit top) LEFT SIDE VIEW 9-1/4 OPTIONAL GAS INLET 10 _� (235) (254) FRAMING SPACERS �— (Top, Side and Back) FLUE I � •�12 (305) (Top or Side) DETAIL OF FINISH WALL BRACKET �,n I 1_ � 5/8 C (16) 40-1/8 (1019) Stepped to 3-1/2 Accept Drywall TOP VIEW (89) 2-1/2 — 12 _ 1/2 43-5/8 I (63.6) (305) (13) (1108) 1/213) —► �— T 4 (102) = I Provide Additional 2 1/2 sppace For Side Venl Seal Cap If (63.6) Installing Against A Solid Wail CONTROL COMPARTMENT it 6-7/8 FRONT VIEW ACCESS PANEL (175) RIGHT SIDE VIEW EDVCR (Corner-Right)� Gas Line Location —' (254) r— _. 9-7/8 Figure 20 FRAMING SPACERS \ TOP VIEW (251) (Tap, Side and Back) NOTE - Unit has a factory -installed vent seal cap and vent cover plate (see Figures 22and FLUE 12 (305)\� To or Side) 23 on page 15) in each flue outlet. The vent Stepped to Accept Drywall 1 (Top seal cap Is not shown In this figure. �- DETAIL OF FINISH WALL BRACKET FINISH WALL BRACKET 1 (Front and right edge of unit top) 5/8 T— (16) — I 40-1 /8 P'3 (8 (69)2.1/2 I10-1/4 1/2 (63.5) (13)1 1/2 (13)�I 43.5/8 (1108) (260) 37 (940) FLUE (Top or Side) OPTIONAL GAS INLET AT ELECTRICAL CABINET REAR /INLETSGAS I NLET b 31;7671 ° 3(76) CONTROL COMPARTMENT it 6-7/8 FRONT VIEW ACCESS PANEL (175) RIGHT SIDE VIEW EDVCR (Corner-Right)� Gas Line Location —' (254) r— _. 9-7/8 Figure 20 FRAMING SPACERS \ TOP VIEW (251) (Tap, Side and Back) NOTE - Unit has a factory -installed vent seal cap and vent cover plate (see Figures 22and FLUE 12 (305)\� To or Side) 23 on page 15) in each flue outlet. The vent Stepped to Accept Drywall 1 (Top seal cap Is not shown In this figure. �- DETAIL OF FINISH WALL BRACKET FINISH WALL BRACKET 1 (Front and right edge of unit top) I 1 (260) Provide Additional Sppace For Side Venf Seal Cap If 7,Installing Against A Solid at 2-1/2-0 FLUE (63.5) GAS INLET (Top or Side) AT REAR ELECTRICAL OF UNIT � INLETS 0 3 (76) 0 0 � (175) LEFT SIDE VIEW I 4 (102) • 41 (1041) 37 (940) \ CONTROL COMPARTMENT FRONT VIEW ACCESS PANEL NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. RIGHT SIDE VIEW 13 5/8 T— (16) — I 40-1 /8 P'3 (8 (69)2.1/2 (1019) 1/2 (63.5) (13)1 1/2 (13)�I 43.5/8 (1108) I 1 (260) Provide Additional Sppace For Side Venf Seal Cap If 7,Installing Against A Solid at 2-1/2-0 FLUE (63.5) GAS INLET (Top or Side) AT REAR ELECTRICAL OF UNIT � INLETS 0 3 (76) 0 0 � (175) LEFT SIDE VIEW I 4 (102) • 41 (1041) 37 (940) \ CONTROL COMPARTMENT FRONT VIEW ACCESS PANEL NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. RIGHT SIDE VIEW 13 Step 2. ROUTING GAS LINE Route a 1/2" (13 mm) gas line to the left side of the appliance as shown in Figure 21. Gas lines must be routed, constructed and made of materials that are in strict accordance with local codes and regulations. All appliances are factory -equipped with a flexible gas line connector and 1/2 inch shutoff valve. (See Step 7 on Page 28). Proper Sizing of Gas Line Properly size and route the gas supply line from the supply regulator to the area where the appliance is to be installed per requirements outlined in the National Fuel Gas Code, NFPA 54 - latest edition (USA) or CAN/CSA-8149.1 - latest edition (Canada). Never use galvanized or plastic pipe. Refer to Table 6 for proper sizing of the gas supply line, if black iron pipe is being used. Gas lines must be routed, constructed and made of materials that are in strict accordance with local codes and regulations. We recommend thata qualified individual such as a plumber or gas fitter be hired to correctly size and route the gas supply line to the appliance. Installing a gas supply line fTom the fuel supplyto the appliance involves numerous considerations of materials, protection, sizing, locations, con- trols, pressure, sediment, and more. Certainly no one unfamiliar and unqualified should attempt sizing or installing gas piping. Schedule 40 Black Iron Pipe Inside Diameter (Inches) Schedule 40 Pipe Length (feet) Natural Gas Propane Gas 0-10 1/2 3/8 10-40 1/2 1/2 40-100 1/2 1/2 100-150 3/4 1/2 150-200 3/4 1/2 Table 6 Notes: • All appliances are factory -equipped with a flexible gas line connector and 1/2 inch shutoff valve. • See Massachusetts Requirements on Page 4foradditional requirements for installations in the state of Massachusetts in the USA. • The gas supply line should Not be connected to the appliance until Step 7 (Page 28). • Apipe joint compound rated forgasshouldbe used onthethreaded joints. Ensure propane resistant compounds are used in propane applications. Be very careful that the pipe compound does not get inside the pipe. • It is recommended to install a sediment trap in the supply line as close as possible to the appliance. Appliances using Propane should have a sediment trap at the base of the tank. • Check with local building official for local code requirements (i.e. are below grade penetrations of the gas line allowed?, etc). 14 1 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. IMPORTANT. If propane is used, be aware that if tank size is too small (i.e. under 100 -lbs, if this is the only gas appliance in the dwelling. Rel. NPFA 58), there may be loss of pressure, resulting in insufficient fuel delivery (which can result in sooting, severe delayed ignition or other malfunctions). Any damage resulting from an improper installation, such as this, is not covered under the limited warranty. Step 3. PREPARING THE APPLIANCE VENT COLLAR Q WARNING REMOVE VENT SEAL CAP (From the vent that will be used only) Top Vent Installations - See Figure 22 Side Vent Installations - See Figure 23 Preparing the Appliance Vent Collar Each of the appliances' two vent collars are sealed with a seal cap which must be removed from the vent collar being used. Referto Figure 22 for top vent installations and Figure 23 for side vent installations and the following steps to prepare the appropriate collar for use. From the vent collar being used, remove the two screws securing the vent seal cap. Twist the cap counterclockwise. Pull it away from the appliance and discard, along with the piece of insulation. C Securing Screws Top Vent Vent Seal Cap (OUTSIDE \ Appliance)) \'1 Insulation Cabinet Top CROSS SECTION Firebox Top (INSIDE of Appliance) TOP VENT SEAL CAP REMOVAL Figure 22 - (TOP VENT INSTALLATIONS ONLY) Insulation VentSeal Cap \' I . (INSIDE of CROSS SECTION Appliance) Side Vent Cabinet Bad( SIDE VENT SEAL CAP REMOVAL Figure 23 - (SIDE VENT INSTALLATIONS ONLY) (OUTSIDE of Appliance) Securing Screws VENT RESTRICTOR INSTALLATION A vent restrictor may be needed when vertically terminating the vent system above the roof (when using the appliance top vent), install a vent restrictor in the top vent of the fireplace outlet. If needed, install the restrictor as shown, either from inside or outside the unit, in the inner fireplace collar. Restrictor i Inner Fireplace Collar Appliance Vent Outlet Figure 24 Top Shown - Rear Similar Step 4. INSTALL THE VENT SYSTEM General Information These instructions should be used as a guideline and do not supersede local codes in any way. Install venting according to local codes, these instructions, the current National Fuel Gas Code (ANSI -Z223.1) in the USA or the current standards of CAN/CSA-B149.1 in Canada. Ensure clearances are in accordance with local installation codes and the requirements of the gas supplier. Degagement conforme aux codes d'installation locaux et aux exigences du foumisseunde gaz. Use only approved venting components. See Approved Vent Components on Page 2. These fireplaces must be vented directly to the outside. The vent system may not service multiple appliances, and must never be connected to a flue serving a solid fuel burning appliance. The vent pipe is tested to be run inside an enclosed wall (such as a chase). There is no requirement for inspection openings in the enclosing wall at any of the joints in the vent pipe. Installation of Vent Restrictor A vent restrictor may be needed with this appliance. The restrictor is installed in the appliance top flue outlet as shown in Figure 24, either before adding vent, from above, or after installation of vent from below, within the firebox. The restrictor is self securing through a positive friction fit. Determine the venting for the appliance. If the vent run will include at least 8 feet of vertical rise, then install the restrictor in the appliance collar before connecting any vent (Refer to Figure 24 ). Place the restrictor inside the appliance vent collar and press in place. Note: The restrictor is included within the firebox. Select Venting System - Horizontal or Vertical With the appliance secured in framing, determine vent routing and identify the exterior termination location. The following sections describe vertical (roof) and horizontal (exterior wall) vent applications. Refer to the section relating to your installation. A list of approved venting components are shown on Pages 38 and 39. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. 15 VERTICAL TERMINATION SYSTEMS (ROOF) See Figure 25 and Figures 35 through 39 on Pages 19 and 20 and their associated Vertical Vent Tables which illustrate the various vertical venting configurations thatare possible for use with these appliances. Secure VentTm pipe applications are shown in these Figures; Secure Flefm pipe may also be used. AVertical VentTable summarizes each system's minimum and maximum vertical and horizontal length values that can be used to design and install the vent components in a variety of applications. Both these vertical vent systems terminate through the roof. The minimum vent height above the roof and/or adjacent walls is speci- fied in ANSI Z223.1 -(latest edition) (In Canada, the current CAN/CSA-B149.1 installation code) by major building codes. Always consult your local codes for specific requirements. Ageneral guide to follow is the Gas Vent Rule (refer to Figure 5 on Page 6). Vertical (Straight) Installation (Figure 25) Determine the number of straight vent sec- tions required. 4-1/2" (114 mm), 10-1/2" (267 mm), 22-1/2" (572 mm), 34-1/2" (876 mm) and 46-1/2° (1181 mm) net section lengths are available (see Tables on this page and Page 38 - Rigid Vent Sections). Plan the vent lengths so that a joint does not occur at the intersection of ceiling or roof joists. Refer to the Vent Section Length Chart. SV4.5CGV-1 SV4.SFA OR Termination SV4.5F8 Flashing AND SV4.5SC STORM COLLAR 1" (25.4 mm) Minimum Clearance to Combustibles •SV4.5VF Firestop/Spacer 40' Max SV4.5L6/12/24/36/48 (12.2 M) Vent Sections 'When using Secure Flex, use Firestop/Spacer SF4.5VF Figure 25 16 i. VENT SECTION LENGTH CHART Model Section Length inches 6 12 24 36 48 0 T et Section Len th Inches 4-1/2 10-1/2 22-1R 34-1/2 46-1/2 Height of Vent Number of Vent Sections 0 inches N 0 0 150 12.5 y 4.5 0.375 1 0 0 0 0 1 9 0.75 2 0 0 0 0 2 10.5 0.875 0 1 0 0 0 1 15 1.25 1 1 0 0 0 2 19.5 1.625 2 1 0 1 0 0 3 21 1.75 0 2 0 0 0 2 22.5 1.875 0 0 1 0 0 1 25.5 2.125 1 2 0 0 0 3 31.5 2.625 0 3 0 0 1 0 13 34.5 1 2.875 1 0 0 0 1 0 1 37.5 3.125 1 1 1 0 0 3 43.5 3.625 0 2 1 0 0 3 45 3.75 0 0 2 0 0 2 46.5 3.875 0 0 0 0 1 1 49.5 4.125 1 0 2 0 0 3 51 4.25 1 0 0 0 1 2 55.5 4.625 0 1 2 0 0 3 57 4.75 0 0 1 1 0 2 66 5.25 0 2 2 0 0 4 67.5 5.625 0 0 3 0 0 3 69 5.75 0 0 0 2 0 2 72 6 1 0 3 0 0 4 73.5 6.125 1 0 0 2 0 3 79.5 6.625 0 1 0 1 2 1 0 3 81 6.75 0 0 0 1 1 2 90 7.5 1 0 2 1 0 1 4 91.5 7.625 0 0 2 0 1 3 93 7.75 0 0 0 0 2 2 96 8 1 0 1 2 0 4 97.5 8.125 1 1 0 0 1 0 2 3 102 8.5 2 0 0 0 2 4 103.5 8.625 0 0 0 3 0 3 108 9 1 0 0 3 0 4 114 9.5 0 2 0 0 2 4 117 9.75 1 0 5 0 0 6 118.5 9.875 1 1 0 3 0 5 126 10.5 0 0 1 3 0 4 130.5 10.875 1 0 1 3 0 5 135 11.25 0 0 6 0 0 6 138 11.5 0 0 0 4 0 4 139.5 11.625 0 0 0 0 3 3 142.5 11.875 1 0 0 4 0 5 Note: Convert inches into metric equivalent measurement, as follows: Millimeters (mm) = Inches x 25.4 Centimeters (cm) = Inches x 2.54 Meters (M) = Inches x .0254 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. VENT SECTION LENGTH CHART :`tion 6 1 12 1 24 1 36 1 48 r4-1/2110-1/2122-1/2134-1/2 Length Inches Model 11 Height of Vent 4-1/2" Number of Vent Sections inches If 22-1/2" SV4.5L36 34-1/2" SV4.5L48 144 12 1 0 0 0 150 12.5 0 1 0 0 154.5 12.875 1 1 0 0 160.5 13.375 0 2 0 0 172.5 14.375 0 0 0 5 177 14.75 1 0 0 5 183 15.25 0 1 0 5 186 15.5 0 0 0 0 190.5 .15.875 1 0 0 0 196.5 16.375 0 1 0 0 205.5 17.125 0 1 1 5 207 17.25 0 0 0 6 211.5 17.625 1 0 0 6 217.5 18.125 0 1 0 6 229.5 19.125 0 0 1 6 232.5 19.375 0 0 0 0 237 19.75 1 0 0 0 241.5 20.125 0 0 0 7 246 20.5 1 0 0 7 252 21 0 1 0 7 264 22 0 0 1 7 276 23 0 0 0 8 279 23.25 0 0 0 0 280.5 23.375 1 0 0 8 283.5 23.625 1 0 0 0 289.5 24.125 0 1 0 0 301.5 25.125 0 0 1 0 310.5 25.875 0 0 0 9 315 26.5 1 0 0 9 325.5 27.125 0 0 0 0 330 27.5 1 0 0 0 336 28 0 1 0 0 345 28.75 0 0 0 10 349.5 29.125 1 0 0 10 372 31 0 0 0 0 376.5 31.375 1 0 0 0 379.5 31.625 0 0 0 11 418.5 34.875 0 0 0 0 423 35.25 1 0 0 0 465 38.75 0 0 0 0 Effective Vent Length Model Effective Length SV4.5L6 4-1/2" SV4.5L12 10-1/2" SV4.5L24 22-1/2" SV4.5L36 34-1/2" SV4.5L48 46-1/2" Table 7 Vertical (Offset) Installation Analyze the vent routing and determine the quantities of vent sections and number of elbows required. Referto Vertical Vent Figures and Tables on page 16 to select the type of vertical installation desired. Vent sections are available in net lengths of 4-1/2" (114 mm), 10-1/2" (267 mm), 22-1/2" (572 mm), 34-1/2" (876 mm) and 46-1/2" (1181 mm). Referto the Effective Vent Length Chart Table 7 on page 16 for an aid in selecting length combinations. Elbows are available in 90° and 45° configura- tions. Refer to Figure 30for the SV4.5E45 and SV4.5E90 elbow dimensional specifications. Where required, a telescopic vent section (SV4.5LA) may be used to provide the installer with an option in installing in tight and confined spaces or where'the vent run made up of fixed length pieces develops a joint in a undesirable location, or will not build up to the required length. The SV4.5LA Telescopic Vent Section has an effective length of from 1-1/2" (38 mm) to 7-1/2" (191 mm). The SV4.5LA is fitted with a locking inclined channel end (identical to a normal vent section component) and a plain end with 3 pilot holes. Slip the plain end over the locking channel end of a standard SV4.5 vent component the required distance and secure with three screws. Maintain a minimum 1" (25 mm) clearance to combustible materialsfor all vertical elements. Clearances for all horizontal elements are 3" (76 mm) on top, 1" (25 mm) on sides and 1" (25 mm) on the bottom. A. Frame ceiling opening - Use a plumb line from the ceiling above the appliance to locate center of the vertical run. Cut and/or frame an opening, 10-1/2" x 10-1/2" (267mm x 267mm) inside dimensions, about this center mark (Figure 26). 10-1/7' Min. (267 mm) \cam, 10-1/Z" Min. B. Attach vent components to appliance - Secure Vent SV4.5 direct vent system compo- nents are unitized concentric pipe components featuring positive twist lock connections (see Figures 27 and 28). All of the appliances covered in this document are fitted with collars having locking inclined channels. The dimpled end of the vent com- ponents fit over the appliance collar to create the positive twist lock connection. First Vent Component Align the dimple (four places) with the opening of the locking incline channel on appliance collar. Twist vent component clockwise to engage and seal. Dimple I Locking Incline Channel 1!1�Appllance collar Vent / Appliance Collar Connection Figure 27 Arrow Align the dimple (four places) of the upper vent section with the opening of the locking incline channel on the lower vent section. Twist vent component clockwise to engage and seal until arrow and dimple align. Dimple Locking Incline Channel Connected t Vent Sections Arrow Arrow Vent / Vent Section Connection Figure 28 To attach a vent component to the appliance collar, align the dimpled end over the collar, adjusting the radial alignment until the four locking dimples are aligned with the inlet of the four inclined channels on the collar (referto Figure 27). Push the vent component against the collar until it fully engages, then twist the component clockwise, running the dimples down and along the incline channels until they seat at the end of the channels. The unitized design of the Secure Vent components will Pnnage and seal both the inner and outer pipe out the need for sealant or screws. If desired x 1/2" screw may be used at the joint, but not required as the pipe will securely lock n twisted. e: An elbow may also be attached to the fiance collar. Attach in the same manner 'ou would a vent section. OTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. C. Attach vent components to each other - Other vent sections may be added to the previously installed section in accordance with the requirements of the vertical vent figures and tables. To add another vent component to a length of vent run, align the dimpled end over the inclined channel end of the previously installed section, adjustingthe radial alignment until the four locking dimples are aligned with the inlets of the four incline channels of the previous section. Push the vent component against the previous section until it fully engages, then twist the component clockwise running the dimples down and along the incline channels until they seat at the end of the channels.This seating position is indicated bythe alignment of the arrow and dimple as shown in Figure 28. 0. Install firestop/spacer at ceiling (Figure 29) - When using Secure Vent, use SV4.5VF firestop/spacer at ceiling joists; when using Secure Flex, use SF4.5VF firestop/spacer. If there is living space above the ceiling level, the firestop/spacer must be installed on the bottom side of the ceiling. If attic space is above the ceiling, the firestop/spacer must be installed on the top side of the joist. Route the vent sections through the framed opening and secure the firestop/spacer with 8d nails or other appropriate fasteners at each corner. Remember to maintain 1" (25 mm) clearance to combustibles, framing members, and attic or ceiling insulation when running vertical chimney sections. Attic insulation shield' (96K94) may be used to obtain the required clearances indicated here. See installation accessories tables on pages 38 and 39. SV4.5FA or SW 5CGV-1 SV4.5FB Flashing Termination and SV4.5SC Maximum Storm Collar OSecured 1" (25.4 mm) Optional Radiant En Minimum @When Clearance to using Combustibles secure Flex, use Ceiling @ SV4.5VF Flrestop/ Framing Firestop/spacer Spacer SF4.5VF J OSV4.5SP / Support Plate a ft, (2.4 M) OSV4.5SU Maximum Support Strap OSecured Shown With Optional Radiant En t0 Vent with Panels Appropriate Fasteners Figure 29 17 F. Ch angevent direction to horizontal/inclined run - At transition from or to a horizontal/in- clined run, install the SV4.5E45 and SV4.5E90 elbows in the same manner as the straight vent sections. The elbows feature a twist section to allow them to be routed about the center axis of their initial collar section to align with the required direction of the next vent run element. Twist elbow sections in a clockwise direction only so as to avoid the possiblity of unlocking anyof the previously connected ventsections. See Figure 30. E. Support the vertical vent run sections - Note -Proper venting support is very important. The weight of the vent must not be supported by the fireplace in any degree. Support the vertical portion of the venting system every 8 feet (2.4m) above the fireplace vent outlet. One method of support is by utiliz- ing field provided support straps (conventional plumber's tape). Secure the plumber's tape to the framing members with nails or screws. Loop the tape around the vent, securing the ends of the tape to the framing. If desired, sheet metal screws #6 x 1/2" length may be used to secure the support straps to the vent pipe. Refer to Figure 29. 4-13/16" (122 mm) M) (122 Swivel Joint—� Swivel Joint (360° swiveq (360° swivel) SV4.5E45 SV4.5E90 (45' Elbow) (90° Elbow) Figure 30 G. Continue installation of horizontal/inclined sections - Continue with the installation of the straight vent sections in horizontal/inclined run as described in Step C. Install support straps every 5' (1.52 m) along horizontal/inclined vent runs using conventional plumber's tape. It is very important that the horizontal/inclined run be maintained in a straight (no dips) and slightly elevated plane in a direction away from the fireplace 1/4" per foot (20 mm per meter) of horizontal vent. Use a carpenter's level to measure from a constant surface and adjust the support straps as necessary. It is important to maintain the required clear- ancesto combustibles: 1" (25 mm) at all sides for all vertical runs; and 3" (76 mm) atthe top, 1" (25 mm) at sides, and 1" (25 mm) at the bottom for all horizontal/inclined runs. H. Frame roof opening - Identify location for vent at the roof. Cut and/or frame opening per Roof Framing Chart and Figure 31. Framing Dimensions for Roof Pitch C D 0/12 10-1/2 in. 10-1/2 in. (267 mm) (267 mm) 6/12 10-1/2 in. 12 in. (267 mm) (305 mm) 12/12 10-1/2 in. 17-3/4 in. (267 mm) (451 mm) Figure 31 I. Install the roof flashing - Extend the vent sections through the roof structure. Install the roof flashing over the vent section and posi- tion such that the vent column rises vertically (use carpenters level) (Figure 32). Nail along perimeter to secure flashing or adjust roofing to overlap the flashing edges at top and sides only and trim where necessary. Seal the top and both sides of the flashing with waterproof caulking. Figure 32 J. Install the storm collar - Install the storm collar, supplied with theflashing, overthevent/ flashing joint. See Figure33. Loosen the storm collar screw. Slide collar down until it meets the top of the flashing. Tighten the adjusting screw. Apply non-combustible caulking or mastic around the circumference of the joint to provide a water tight seal. 18 1 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Figure 33 K. Install the vertical termination - The final step involves installation of the SV4.5CGV-1 Vertical Termination. Extend the vent sections to the height as shown in the "Vertical vent ter- mination section' on page 6. The SV4.5CGV-1 Vertical Termination (Figure 34) installs in the exact same fashion as any other Secure Vent section. Align the termination over the end of the previously installed section, adjusting the radial alignment until the four locking dimples of the termination are aligned with the inlets of the four incline channels of the last vent section. Push the termination down until itfully engages, then twistthe termination clockwise running the dimples down and along the incline channels until they seat at the end of the channels. Figure 34 If the vent system extends more than 5' (1.5 m) above the roof flashing, stabilizers may be necessary. Additional screws may be used at section joints for added stability. Guide wires may be attached to the joint for additional sup- port on multiple joint configurations. VERTICAL VENT FIGURES/TABLES Note: Secure Vent (rigid vent pipe) is shown in the figures; Secure Flex (flexible vent pipe) may also be used. Note: It is very important that the horizontal/ inclined run be maintained in a straight (no dips) and recommended to be in a slightly elevated plane, in a direction away from the fireplace of1 /4" rise perfoot (20 mm per meter) which is ideal, though rise per foot run ratios that are smaller are acceptable all the way down to at or near level. Note: SV4.5VF(Secure Vent), SF4.5VF(Secure Flex) firestop/spacermustbe usedanytime vent pipepasses througha combustible floororceil- ing. SV4.5HF (Secure Vent), SF4.5HF (Secure Flex) fires top/spacermust be used anytime vent pipe passes through a combustible wall. Note: Two 45 degree elbows may be used in place of one 90 degree elbow. The same rise to run ratios, as shown in the venting figures for 90 elbows, must be followed if 45 degree elbows are used. Note: An elbow is acceptable as 1 foot of vertical rise, except where an elbow is the only vertical component in the system. (See Figure 44 on page 23). Under no circumstances, may sepa- rate sections of concentric flexible vent pipe be joined together. I OCacer V4.5op/ Spacer(SV4.5VF) O I 40 feet I (12.2 meters) i Maximum A Vent Restrictor as shown in Figure 24, must he used in this I application. Q�MOWhen using Secure Flex, use Firestop/Spacer SF4.5VF Figure 35 - Top Vent - STRAIGHT OWhen using Secure Flex, use Firestop / Spacer SF4.5VF. 0 Ceiling Firestop /Spacer (SV4.5VF) o'A V i �• I I I� H Example: If 8 feet of (H) horizontal vent run is needed, then 4 feet minimum (V) vertical vent will be required. This table shows a 1(V) to 2(H) ratio. For every 1 foot of (V) vertical, you are allowed 2 feet of (H) horizontal run, up to a maximum horizontal run of 8 feet. Figure 36 - Side Vent - ONE 90 DEGREE ELBOW �I / f �H � I O Ceiling Firestop / Spacer(SV4.5VF) ® A On I I O D I Table B Table A H Maximum V Minimum feet (meter) feet (meter) 2 (0.610) 1 (0.305) 4 (1.219) 2 (0.610) 6 (1.829) 3 (0.914) 8 1 (2.438) 1 4 1 (1.219) V + H = 40 feet (12.2 meters) Max. H = 8 feet (2.4 meters) Max. Ratio V to H ratio is 1:2 OWhen using Secure Flex, use Firestop / Spacer SF4.5VF. 0 Ceiling Firestop /Spacer (SV4.5VF) o'A V i �• I I I� H Example: If 8 feet of (H) horizontal vent run is needed, then 4 feet minimum (V) vertical vent will be required. This table shows a 1(V) to 2(H) ratio. For every 1 foot of (V) vertical, you are allowed 2 feet of (H) horizontal run, up to a maximum horizontal run of 8 feet. Figure 36 - Side Vent - ONE 90 DEGREE ELBOW �I / f �H � I O Ceiling Firestop / Spacer(SV4.5VF) ® A On I I O D I Table B H Maximum V Minimum feet (meter) feet (meter) 5 (1.524) Elbow Only 5 (1.524) 1 (0.305) 10 (3.048) 2 (0.610) 15 (4.572) 3 (0.914) 20 (6.096) 4 (1.219) V + V1 + H = 40 feet (12.2 m) Max. H = 20 feet (6.096 meters) Max. V ®Wall Firestop/ Spacer(SV4.5HF) OWhen using Secure Flex, use Firestop / Spacer SF4.5VF. @When using Secure Flex, use Firestop / Spacer SF4.5HF. Figure 37 - Top Vent - TWO 90 DEGREE ELBOWS NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Example: If 20 feet of (H) hori- zontal vent run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. Forevery1 footof(V) verti- cal, you are allowed 5 feet of (H) horizontal run, up to a maximum horizontal run of 20 feet. An elbow is acceptable as 1 foot of vertical rise except where an elbow is the only vertical component in the system. See Figure 44. 19 VERTICAL VENT FIGURES /TABLES (CONTINUED) Table C Table D �I H+Ht Maximum H Maximum V Minimum V Minimum / H1 feet (meter) feet (meter) feet (meter) F (meter) I� 5 (1.524) 2 (0.610) 1 (0.305) Elbow Only O Ceiling Firestop / I (1.524) 1 (0.305) Spacer (SV4.5VF) 10 (3.048) 4 (1.219) 2 (0.610) (0.610) 15 (4.572) 3 15 (4.572) 6 (1.829) 3 (0.914) 20 (6.096) 4 (1.219) 20 (6.096) 8 (2.438) 4 1 (1.219) H + Ht = 20 feet (6.096 m) Max. V+ VI + H + 111 = 40 H. (12.192 m) Max. v 11+111 +H+H1=40feet (12.2 m) Max BWall Firestop/ H = 8feet (2.438 meters) Max. Spacer(SV4.5HF) H + H1= 20 feet (6.096 meters) Max. V1 I O Ceiling Firestop / Spacer (SV4.5VF) O When using Secure Flex, use Firestop / Spacer SF4.5VF ©When using Secure Flex, use Firestop /Spacer SF4.5HF Example: If 20 feet horizontal is total (H+H) vent run needed, v v then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 foot of (V) V vertical, you are allowed 5 feet of (H+H ) horizontal run up to a maximum total horizontal run of 20 feel I � ��H Figure 38 - Side Vent - THREE ELBOWS OWhen using Secure Flex, use Firestop / Spacer SF4.5VF ©When using Secure Flex, use Firestop / Spacer SF4.5HF A Ceiling V1 Firestop/Spacer (SV4.5VF) e Wall Firestop/ Spacer(SV4.5HF) \ H V �H \� D 1 Example: If 20 feet total (H+H,) horizontal vent run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every l loot of (V) vertical, you are allowed 5 feet of (H+H,) horizontal run up to a maximum total horizontal run of 20 feet. An elbow is acceptable as 1 foot of vertical rise except where an elbow is the only vertical component in the system. See figure 44. Figure 39 -Top Vent - THREE ELBOWS 20 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Table D H + H1 Maximum V Minimum feet (meter) feet F (meter) 5 (1.524) Elbow Only 5 (1.524) 1 (0.305) 10 (3.048) 2 (0.610) 15 (4.572) 3 (0.914) 20 (6.096) 4 (1.219) H + Ht = 20 feet (6.096 m) Max. V+ VI + H + 111 = 40 H. (12.192 m) Max. OWhen using Secure Flex, use Firestop / Spacer SF4.5VF ©When using Secure Flex, use Firestop / Spacer SF4.5HF A Ceiling V1 Firestop/Spacer (SV4.5VF) e Wall Firestop/ Spacer(SV4.5HF) \ H V �H \� D 1 Example: If 20 feet total (H+H,) horizontal vent run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every l loot of (V) vertical, you are allowed 5 feet of (H+H,) horizontal run up to a maximum total horizontal run of 20 feet. An elbow is acceptable as 1 foot of vertical rise except where an elbow is the only vertical component in the system. See figure 44. Figure 39 -Top Vent - THREE ELBOWS 20 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. HORIZONTAL (OUTSIDE WALL) TERMINATION SYSTEM , Figures 40, and Figures 43 to 48 on pages 23 to 25 and their associated Horizontal Vent Table illustrate the various horizontal venting configurations that are possible for use with these appliances. Secure Vent pipe applications are shown in these figures; Secure Flex pipe may also be used. A Horizontal Vent Table sum- marizes each system's minimum and maximum vertical and horizontal length values that can be used to design and install the vent components in a variety of applications. Both of these horizontal vent systems terminate through an outside wall. Building Codes limit or prohibit terminating in specific areas. Refer to Figure 6 and page 7 for location guidelines. SecureVent SV4.5 directvent system components are unitized concentric pipe componentsfeaturing positive twist lock connection, (referto Figure 28 on page 17). All of the appliances covered in this document are fitted with collars having locking inclined channels. The dimpled end of the vent components fit over the appliance collar to create the positive twist lock connection. A. Plan the vent run - Analyze the vent routing and determine the types and quantities of sections required 4-1/2'(114 mm), 10-1/2" (267 mm), 22-1/2'(572 mm),34-1/2"(876mm) and 46-1/2"(1181 mm)net section lengths are available. It is recommended that you plan the venting so that a joint does not occur in the ceiling or roof joists. Allowforelbows as indicated in Figure 30on page 18. Maintain a minimum 1" (25 mm) clearance to combustibles on the vertical sections. Clearances forthe horizontal runsare; 3"(76 mm) ontop, l"(25 mm) on sides, and 1" (25 mm) at the bottom. B. Frame exterior wall opening - Locate the center of the vent outlet on the exterior wall according to the dimensions shown in Figures 13, through 16 on page 11. Cut and/or frame an opening, 10-1/2" x 12-1/8" (267 mm x 308mm) inside dimensions, about this center. C. Frame ceiling opening - If the vertical route is to penetrate a ceiling, use plumb line to locate the center above the appliance. Cut and/or frame an opening, 10-1/2" x 10-1/2" (267 mm x 267 mm) inside dimensions, aboutthis center (refer to Figure 26 on page 17 ). D. Attach vent components to appliance - To attach a vent component to the appliance collar, align the dimpled end overthe collar, adjusting the radial alignment until thefour locking dimples are aligned with the inlets of the four incline channels on the collar (refer to Figure 27 on page 17 ). Push the vent component against the collar until it fully engages, then twistthe component clockwise, running the dimples down and along the incline chan- nels until they seat at the end of the channels. BuildingSupport Brackets Horizontal /inclined Run Support Framing SV4.5Hr--2 Terrninallon SV4.5E90 Shown Elbow k SV4.51.6/121246/48 Ceiling O Firestop /Spacer Verd Sedans Wal r Vertical SV4.5VF Support Bracket Spacing Rise Every 5 ft (1.52 m) O When Using Secure Rex, Use Rrestop /Spacer SF4.5VF i\\nal SV4.514r•2 IL on See Figure 29 on age 17 for Shown vertical vent section support. - Fireplace Shawn With Optional Radiant Panels Figure 40 -TYPICAL HORIZONTAL VENT INSTALLATION The unitized design of the Secure Vent compo- nents will engage and seal both the inner and outer pipe elements with the same procedure. Sealant and securing screws are not required. (Vote: An elbow may also be attached to the appliance collar. Attach in the same manner as you would a vent section. E. Attach vent components to each other -Other vent sections may be added to the previously installed section in accordance with the require- ments of the vent tables. To add another vent component to a length of vent run, align the dimpled end of the component over the inclined channel end of the previously installed section, adjusting the radial alignment until the four lock- ing dimples are aligned with the inlets of thefour incline channels of the previous section. Push the vent component againstthe previous section until it fully engages, then twist the component clockwise running the dimples down and along the incline channels until they seat at the end of the channels.This seating position is indicated by the alignment of the arrow and dimple as shown in Figure 28 on page 17. F. Install firestop/spacer at ceiling - When using Secure Vent, use SV4.5VFfirestop/ spacer at ceiling joists; when using Secure Flex, use SF4.5VF firestop/spacer. If there is living space above the ceiling level, the firestop/ spacer must be installed on the bottom side of the ceiling. If attic space is above the ceiling, the firestop/ spacer must be installed on the top side of the joist. Route the vent sections through the framed opening and secure the firestop/spacer with 8d nails or other appropriate fasteners at each corner. Rememberto maintain 1" (25 mm) clearance to combustibles, framing members, and attic or ceiling insulation when running vertical chimney sections. NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. G. Support the vertical run sections - On the vertical run, support the venting sys- tem every 8 feet (2.4m) above the fireplace vent outlet with field provided support straps (Plumber's tape). Attach the straps to the vent pipe and secure to the framing members with nails or screws. See Figure 29 on page 17. H. Change vent direction - At transition from orto a horizontal/inclined run, install the SV4.5E45 and SV4.5E90 elbows in the same manner as the straight vent sections. The elbows feature a twist section to allow them to be routed about the center axis of their initial collar section to align with the required direction of the next vent run element. Twist elbow sections in a clockwise direction only so as to avoid the possiblity of unlocking any of the previously connected vent sections. See Figure 30 on page 18. I. Continue installation of horizontal/inclined sections - Continue with the installation of the straightvent sections in horizontal/inclined run as described in Step E. Install support straps every 5 ft. (1.52 m) along horizontal/inclined vent runs using conventional plumber's tape. See Figure 40, it is very important that the horizontal/inclined run be maintained in a straight (no dips) and recommended to be in a slightly elevated plane, in a direction away from the fireplace of 1/4" rise per foot (20 mm per meter) which is ideal, though rise per foot run ratios thatare smaller are acceptable allthe way down to at or near level. Use a carpenter's level to measure from a constant surface and adjust the support straps as necessary. It is important to maintain the required clear- ancesto combustibles: l"(25 mm) at all sides for all vertical runs; and 3" (76 mm) at the top, 1" (25 mm) at sides, and 1" (25 mm) at the bottom for all horizontal/inclined runs 21 J. Assemble vent run to exterior wall - If not previously measured, locate the center of the vent at the exterior wall. Prepare an opening as described in Step B. Assemble the vent system to point where the terminus of the last section is within 7 in. (178 mm) to 11-1/4 in. (286 mm) inboard of the exterior surface to which the SV4.5 HT termination is to be attached, see Figure 42. If the terminus of the last section is not within this distance, use the telescopic vent section SV4.5LA, as the last vent section. For wall thicknesses greater than that shown in Figure42, referto Table 8onpage 23. This table lists the additional venting components needed (in addition to the termination and adapter) for a particular range of wall thicknesses. K. Attach termination adapter - Attach the adapter (adapter - SV4.5RCH - provided with the termination) to the vent section or telescoping vent section), elbow orappliance collar as shown in Figure 41 in the same manner as any SV4.5 vent component (refer to Step E). L. Install Firestop/Spacer at exterior wall - When using the square termination, install SV4.5HF (Secure Vent), SF4.5HF (Secure Flex) Firestop/Spacer over the opening atthe exterior side of the framing, long side up, with the 3 inch spacer clearance at the top as shown in Figure 41, and nail into place. (The Firestop/Spacer may also be installed over the opening at the interior side of the framing.) M. Install the desired termination - 1. Installthe square termination (SV4.5HT-2)- For the last step, from outside the exteriorwall, slide the collars of the termination onto the adapter (the outer over the outer and the inner inside the inner) until the termination seats against the exterior wall surface to which it will be attached. Orient the housing of the termination with the arrow pointed upwards. Secure the termination to the exteriorwall. The horizontal termination must not be recessed into the exterior wall or siding by more than the 1-1/4° (32 mm) as shown in Figure 42. SVHRK Snorkel Cap —The snorkel cap is de- signed to befitted into a basementwindow box. The SVHRK cap is for use with flex vent The vertical distance between the inlet and outlet of the cap is 28 in. (711 mm). pipe. IMPORTANT: The vent term ination is hot while in operation and for a period of time following the use of the fireplace. To prevent contact with hot surfaces, we recommend the use of a Termina- tion Guard. See Page 39. This can be purchased at your local dealer. 22 Firestop/Spacer (SV4.5HF) shown on the exterior side of the wall. It may also be installed on the interior side. SV4.5HT-2 Termination 7' 12-1/8" If 78) 10.1/2 (308 mm) (26 mm) � 5-1/8' . (130 mm) 3. (76 mm) Adapter4 SV4.5RCH i (25.4 mm) Note: Centerline of Vent Piping is NOT the Same as the Centerline of the Framed Opening. See Figures 13 through 16 on 6 to 48 inch Vent Section, pages 11 for Min. Distance to Telescopic vent section, Base of Appliance. Elbow or Appliance Collar Base of Appliance 1 Figure 41 Installing the Square Horizontal Termination (SV4.5HT-2) 'Use silicone caulking to seal the top and sides of the Maximum wall thickness termination, up to the 10in.(254mm)" underlayment, stucco, or masonry wall surface. Interiorof Finishedished Wall Wal :: Exterior Surface of Siding Maximum Extent of Exterior Surface of Siding Vent Run Sections �/ Framing 'Caulk Relative to Exterior Surface of Framing 6 in. to 9-1/4 in. I (152 to 235 mm)" Last Vent Section. Use Telescopic Vent r Section (SV4.5LA), If of Necessary , SV4.5HT-2 — - Square Termination 'Caulk SV4.5HT-2 Square Termination Adapter SV4.5RCH .--1-1/4" Maximum Recess of Stucco **For thicknesses greater the Square Termination into 8. than 10 inches, see Tabl'I Exterior Finishing Material Venting Connection and Exterior Wall Recessing of the Horizontal Square Termination (SV4.5HT-2). Figure 42 Horizontal terminations have been designed to perform in a wide range of weather conditions. Our terminations meet or exceed industry standards. When selecting the locations of your horizontal terminations, do not place the termination where waterfrom eaves and adjoining rooflines may create a heavy flow of cascading water onto the termination cap. If the cap must be placed where the possibility of cascading water exists, it is the responsibility of the builder to direct the water away from the termination cap by using gutters or other means. Take care to carefully follow the installation instructions for the termination, including the use of silicone caulking where required. NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. HORIZONTAL VENT FIGURESITABLES Note: Secure Vent components (rigid ventpipe and terminal) are shown in the figures; Secure Flex components (flexible vent pipe and terminal) may also be used. Note: Two 45 degree elbows may be used in place of one 90 degree elbow. The same rise to run ratios, as shown in the venting figures for 90 elbows, must be followed if 45 degree elbows are used. Note: His very important that the horizontal/inclined run be maintained in a straight (no dips) and recommended to be in a slightly elevated plane, in a direction away from the fireplace of 1/4° rise per foot (20 mm per meter) which is ideal, though rise per foot run ratios that are smaller are acceptable all the way down to at or near level. Note: SV4.5VF(Secure Vent), SF4.5 VF(Secure Flex) firestop/spacermust be used anytime vent pipe passes through a combustible floor or ceiling. SV4.5HF (Secure Vent), SF4.5HF (Secure Flex) firestop/spacer must be used anytime vent pipe passes through a combustible wall. Venting Components Required for Various Exterior Wall Thicknesses, when using Typical Termination Kits Vent Components Required Exterior Wall Thickness -inches (mm) Termination Kit Only 6 to 9-1/4 (152 to 235) Termination Kitand 6In. Vent Section (SV4.51-6) 10-3/4 to 14 (273 to 356) Termination Kit and 12 in. Vent Section (SV4.51_12) 16-3/4 to 20 (426 to 508) Termination Kit and Tele- 11-3/4 to 20 (299 to 508) scopic Section (SV4.51-12) 20 Table 8 Note: See Figure 42 showing wall thickness range when using SV4.5HT-2 termination kit. ®When using Secure Flex, use Firestop / Spacer H = 28 in. (711 mm) SF4.5HF Maximum Square 21 in. (533 mm) termination Maximum �m shown HT 2) 7 in. (711 mm) 0 D © Wall Firestop /Spacer (SV4.5HF) See Table 8 as an aid in venting component selection for a particular range of exterior wall thicknesses. Figure 43 - Side Vent, NO ELBOWS Square termination (SV4.5H1--2) shown. I V o *Q)D 1 @Wall Firestop/Spacer (SV4.5HF) Q�� See Table 8 as an aid in venting component selection for a particular range of exterior wall thicknesses. Example: If 20 feet of (H) horizontal vent run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 foot of vertical, you are allowed 5 feet of (H) horizontal run up to a maximum (H) horizontal run of 20 feet Q When using Secure Flex, use Firestop / Spacer SF4.5VF @ When using Secure Flex, use Firestop / Spacer SF4.5HF Figure 44 - Top Vent, ONE 90 DEGREE ELBOW Under no circumstances, may separate sections of concentric flexible vent pipe be joined together. NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 23 Table F H Maximum V Minimum feet (meter) feet (meter) 3 (0.914) Elbow Only 5 (1.524) 1 (0.305) 10 (3.048) 2 (0.610) 15 (4.572) 3 (0.914) 20 (6.096) 4 (1.219) V + H = 40 feet (12.2 m) Max. H = 20 ft. (6.096 m) Max. Square termination (SV4.5H1--2) shown. I V o *Q)D 1 @Wall Firestop/Spacer (SV4.5HF) Q�� See Table 8 as an aid in venting component selection for a particular range of exterior wall thicknesses. Example: If 20 feet of (H) horizontal vent run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 foot of vertical, you are allowed 5 feet of (H) horizontal run up to a maximum (H) horizontal run of 20 feet Q When using Secure Flex, use Firestop / Spacer SF4.5VF @ When using Secure Flex, use Firestop / Spacer SF4.5HF Figure 44 - Top Vent, ONE 90 DEGREE ELBOW Under no circumstances, may separate sections of concentric flexible vent pipe be joined together. NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 23 HORIZONTAL VENT FIGURES/TABLES (continued) / I H �I H1 I� ©Wall Firestop/ Spacer(SV4.5HF) I Square termination (SV4.5HT-2) shown Figure 45 - Side Vent, TWO 90 DEGREE ELBOWS @Wall Firestop/ Spacer(SV4.5HF) H1 Square termination (SV4.5HT•2) shown Example: If 20 feet of (H + Hr) horizontal vent run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 foot of (V) vertical, you are allowed 5 feet of (H+ H,) horizontal run, up to a maximum horizontal run of 20 feet . An elbowis acceptable as 1 foot of vertical rise except where an elbow is the only vertical component in the system. See Figure 44. © Ceiling Firestop /Spacer(SV4.5VF) j H D @Wall Firestop/ � Spacer(SV4.5HF) X< O When using Secure Flex, use Firestop / SpacerSF4.5VF @When using Secure Flex, use Firestop / SpacerSF4.5HF Example: If 20 feet of (H + H,) horizontal vent ® run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows 1(V) to 5(H) ratio. For every 1 foot of (V) vertical, you are allowed 5 feet of (H+ H,) horizontal run, up to a maximum horizontal run of 20 feet. See Table 8 on Page 23 as an aid in venting component selection for a particular range of exterior wall thicknesses. Figure 46 -Top Vent, TWO 90 DEGREE ELBOWS 24 O Ceiling Firestop /Spacer(SV4.5VF) NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Table G H+Ht Maximum H Maximum V Minimum feet (meter) feet (meter) feet (meter) 5 (1.524) 2 (0.610) 1 (0.305) 10 (3.048) 4 (1.219) 2 (0.610) 15 (4.572) 6 (1.829) 3 (0.914) 20 1 (6.096) 1 8(2.438) 4 (1.219) 3 (0.914) V+ H + H1= 40 feet (12.2 m) Max H = 8 feet (2.438 meters) Max. H + H1= 20 feet (6.096 meters) Max. (6.096) O When using Secure Flex, use Firestop / SpacerSF4.5VF @When using Secure Flex, use Firestop / SpacerSF4.5HF Example: If 20 feet of (H + H,) horizontal vent ® run is needed, then 4 feet minimum of (V) vertical vent will be required. This table shows 1(V) to 5(H) ratio. For every 1 foot of (V) vertical, you are allowed 5 feet of (H+ H,) horizontal run, up to a maximum horizontal run of 20 feet. See Table 8 on Page 23 as an aid in venting component selection for a particular range of exterior wall thicknesses. Figure 46 -Top Vent, TWO 90 DEGREE ELBOWS 24 O Ceiling Firestop /Spacer(SV4.5VF) NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. O When using Secure flex, use Firestop / Spacer SF4.5VF @When using Secure Flex, use Firestop / Spacer SF4.5HF See Table 8 on Page 23 as an aid in venting component selection lora particularrange of exterior wall thicknesses. Table H H + H1 Maximum V Minimum feet (meter) feet (meter) 3 (0.914) Elbow Only 5 (1.524) 1 (0.305) 10 (3.048) 2 (0.610) 15 (4.572) 3 (0.914) 20 (6.096) 4 (1.219) V + H + Ht = 40 feet (12.2 m) Max. H + Hi = 20 ft. (6.096 m) Max. O When using Secure flex, use Firestop / Spacer SF4.5VF @When using Secure Flex, use Firestop / Spacer SF4.5HF See Table 8 on Page 23 as an aid in venting component selection lora particularrange of exterior wall thicknesses. AP HORIZONTAL VENT FIGURES/TABLES (continued) QWhen using Secure Flex, use Firestop / Spacer SF4.5VF ©When using Secure Flex, use Firestop / Spacer SF4.5HF Note: See Table 8 as an aid in venting component selection for a particular range of exterior wall thicknesses. 9 Wall Firestop /Spacer H2 T�k_ 4a Square termination (SV4.5HT-2) shown Figure 47- Side Vent, THREE 90 DEGREE ELBOWS Square termination (SV4.5HT-2) shown. i H1 _� ©Wall Firestop / Spacer (SV4.5HF) QWhen using Secure Flex, use Firestop / Spacer SF4.5VF ©When using Secure Flex, use Firestop / Spacer SF4.5HF Note: See Table 8 as an aid ©Wall Firestop in venting component selec- / Spacer (SV4.5HF) tion for a particular range of exterior wall thicknesses. Figure 48 -Top Vent, THREE 90 DEGREE ELBOWS H1 i OCeiling Firestop / Spacer(SV4.5VF) Example: 1120 feet total (H+H +H) horizontal vent run is needed, Aen 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 foot of (V) vertical, you are allowed 5 feet of horizontal run up to a maximum total (H+H,+H) horizontal run of 20 feet. HiW Table K Table J H+H1 Maximum H+H1+H2 Maximum H Maximum V Minimum feet (meter) feet (meter) feet (meter) 5 (1.524) 2 (0.610) 1 (0.305) 10 (3.048) 4 (1.219) 2 (0.610) 15 (4.572) 6 (1.829) 3 (0.914) 20 1 (6.096) 1 8 1 (2.438) 1 4 1 (1.219) V+H+H1 +H2=40 feet (12.2m) Max H = 8 feet (2.438 meters) Max. H + H1+ H2 = 20 feet (6.096 meters) Max. Square termination (SV4.5HT-2) shown Figure 47- Side Vent, THREE 90 DEGREE ELBOWS Square termination (SV4.5HT-2) shown. i H1 _� ©Wall Firestop / Spacer (SV4.5HF) QWhen using Secure Flex, use Firestop / Spacer SF4.5VF ©When using Secure Flex, use Firestop / Spacer SF4.5HF Note: See Table 8 as an aid ©Wall Firestop in venting component selec- / Spacer (SV4.5HF) tion for a particular range of exterior wall thicknesses. Figure 48 -Top Vent, THREE 90 DEGREE ELBOWS H1 i OCeiling Firestop / Spacer(SV4.5VF) Example: 1120 feet total (H+H +H) horizontal vent run is needed, Aen 4 feet minimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 foot of (V) vertical, you are allowed 5 feet of horizontal run up to a maximum total (H+H,+H) horizontal run of 20 feet. HiW Table K H+H1 Maximum VMinimum feet (meter) feet (meter) 5 (1.524) Elbow Only 5 (1.524) 1 - (0.305) 10 (3.048) 2 (0.610) 15 (4.572) 3 (0.914) 20 (6.096) 4 (1.219) H + H, = 20 feet (6.096 m) Max. V + V1+ H + H1= 40 ft. (12.192 m) Max. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Example: If 20 feet total (H+H,) horizontal vent run is needed, then 4 feetminimum of (V) vertical vent will be required. This table shows a 1(V) to 5(H) ratio. For every 1 footof(V) vertical, you are allowed 5 feet of (H+ H,) horizontal run, up to a maximum horizontal run of 20 feet. An elbow is acceptable as 1 foot o1 verti- r IF cal rise except where an elbow is the only vertical component in the system. See Figure 44. 25 VERTICAL OR HORIZONTAL VENTING USING SECURE FLEXKITS AND COMPONENTS Secure Flex venting kits and components may be used in any venting application where rigid Secure Vent (SV4.5) direct vent components can be used. All restrictions, clearances and allowances that pertain to the rigid piping apply to the flexible venting. Secure Flex kits may not be modified; also, underno circumstances may separate sections of flex pipe be joined together. Secure Flex kits may be added to the end of a vent run made up of rigid Secure Vent (SV4.5) vent sections provided that doing so does not violate any of the venting length, height, routing, horizontal to vertical ratio re- quirements or clearance considerations detailed in this manual. Secure Flex kits come with an included adapter that can be fitted to the appliance collar or the inclined channel end of the last Secure Vent (SV4.5) vent section in a rigid system in the exact same fashion as any other Secure Vent section. Align the dimpled end of the adapter overthe previously installed section orappliance collar, adjusting the radial alignment until the four locking dimples of the adapter are aligned with the inlets of the four incline channels of the last vent section or collar. Push on the adapter until it fully engages, then twist the adapter clockwise running the dimples down and along the incline channels until they seat at the end of the channels. Attach the flexible vent to the adapter as fol- lows (see Figure 49): A. Install the Inner Flex Pipe - 1. Install the small gear clamp loosely around the inner flexible vent pipe, push it back out of the way. 2. Apply a bead of Mill-PacBlack (700°F)high temperature sealant - Catalog No.10K81) to the inner adapter collar, approximately 1/2 inch from the end. 3. Pull and extend the inner flexible vent pipe. 4. Slide the inner flex pipe over the adapter collar. Ensure the flexible vent pipe completely engages the adapter collar to a distance of 1-3/4 inches from the end, and that it is free from damage or tears. 5. Slide the gear clamp down and tighten it fully to secure the flexible vent to the adapter inner collar approximately 3/4 inch from the end of the flex. 5. Install three screws 120 degrees apart through the flexible vent pipe and intotheadapter collar just below the gear clamp to provide ad- ditional security to the connection. B. Install the Outer Flex Pipe - 1. Install the large gear clamp loosely around the outer flexible vent pipe, push it back out of the way. 2. Apply a bead of Mill-Pac Black (7001) high temperature sealant - Catalog No.10K81) to the outer adapter collar; to the grooves of the collar which extend approximately 1 inch from the end and to the flat surface, approximately 1-3/8 inches from the end. 3. Pull and extend the outer flexible vent pipe. 4. Slide the outer flex pipe over the adapter collar. Ensure the flexible vent pipe completely engages the adapter collar to a distance of 13/4 inches from the end, and that it is free from damage or tears. 5. Slide the gear clamp down and tighten it fully to secure the flexible vent to the adapter outer collar approximately 3/4 inch from the end of the flex. 6. Install three screws 120 degrees apart through the flexible vent pipe and intotheadapter collar just below the gear clamp to provide ad- ditional security to the connection. C. Route Flex Vent - Ensure that the flex vent is properly routed to provide the required clearance. Do Not allow the flexible vent to bend in a radius tighter than 5° (127 mm). Refer to Figure 50. Support horizontal sections of flex with metal straps at 2 foot (0.61 m) intervals. D. Install Firestop/Spacers at ceilings and walls - When Secure Flex penetrates a wall or ceiling, a firestop/spacer is required: use the SF4.5 VF firestop/spacer for ceilings and the SF4.5 HF firestop/spacer for walls. 26 1 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Seethe appropriate sections and figures shown throughout the venting section for their instal- lation requirments. Flexible Vent Section 1--- 5° It 27 mm) Radius Minimum Figure 50 E. Attach Flex Vent to Termination - Secure Flex components can be purchased separately and attached to bulk lengths of Secure Flex flexible tubing cutto size atthe job site. Secure the flexible vent to the Secure Flex terminations in the same manner (see Figure 49 ) as it was attached to the adapter. Note: Secure Flex vent must be attached to Secure Flex terminations only. DO NOT substitute Secure Vent terminations or the Secure Vent adapter for Secure Flex compo- nents. The collars of Secure Flex term inations and adapters have a different circumference than that used with the Secure Vent pipe. Additionally, Secure Flex components have an extended length center tube for use in attaching the flexible vent. FLEX VENT NOTE: OUTER PIPE IS PULLED AWAY TO SHOW THE DETAIL OF THE INNER PIPE SECURING SCREW (3 PLACES EQUALLY SPACED JUST BELOW GEAR CLAMP) Apply ONLY MIL -PAC BLACK HIGH TEMPERATURE SEALANT (Catalog No. 10K81) to the outside surface of both collars of the adapter (be especially — careful to fill the grooves of the outer collar to be covered by the flexible g0 0 pipe) and slide flexible pipe over inner and outer adapter collars. 00 909 GEAR p U CLAMPS CLAMPS 1-3/4 in. (44 mm) Flexible Pipe and Adapter Outer Collar Overlap 1-3/4 in. (44 mm) FlexibleIpe and Adapter inner Collar Overlap Adapter (SV4.5RF) SECURING SCREW (3 PLACES EQUALLY SPACED JUST BELOW GEAR CLAMP) Attach Adapter to Appliance Figure 49 Collar, or Secure Vent Sections 2. Apply a bead of Mill-Pac Black (7001) high temperature sealant - Catalog No.10K81) to the outer adapter collar; to the grooves of the collar which extend approximately 1 inch from the end and to the flat surface, approximately 1-3/8 inches from the end. 3. Pull and extend the outer flexible vent pipe. 4. Slide the outer flex pipe over the adapter collar. Ensure the flexible vent pipe completely engages the adapter collar to a distance of 13/4 inches from the end, and that it is free from damage or tears. 5. Slide the gear clamp down and tighten it fully to secure the flexible vent to the adapter outer collar approximately 3/4 inch from the end of the flex. 6. Install three screws 120 degrees apart through the flexible vent pipe and intotheadapter collar just below the gear clamp to provide ad- ditional security to the connection. C. Route Flex Vent - Ensure that the flex vent is properly routed to provide the required clearance. Do Not allow the flexible vent to bend in a radius tighter than 5° (127 mm). Refer to Figure 50. Support horizontal sections of flex with metal straps at 2 foot (0.61 m) intervals. D. Install Firestop/Spacers at ceilings and walls - When Secure Flex penetrates a wall or ceiling, a firestop/spacer is required: use the SF4.5 VF firestop/spacer for ceilings and the SF4.5 HF firestop/spacer for walls. 26 1 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Seethe appropriate sections and figures shown throughout the venting section for their instal- lation requirments. Flexible Vent Section 1--- 5° It 27 mm) Radius Minimum Figure 50 E. Attach Flex Vent to Termination - Secure Flex components can be purchased separately and attached to bulk lengths of Secure Flex flexible tubing cutto size atthe job site. Secure the flexible vent to the Secure Flex terminations in the same manner (see Figure 49 ) as it was attached to the adapter. Note: Secure Flex vent must be attached to Secure Flex terminations only. DO NOT substitute Secure Vent terminations or the Secure Vent adapter for Secure Flex compo- nents. The collars of Secure Flex term inations and adapters have a different circumference than that used with the Secure Vent pipe. Additionally, Secure Flex components have an extended length center tube for use in attaching the flexible vent. Step 5. FIELD WIRING CAUTION: Label all wires priorto disconnec- tion when servicing controls. Wiring errorscan cause improper and dangerous operation. ATTENTION: Au moment de Pentretien des commandes, dtiquetez tous les fill avant de les d6brancher. Des erreurs de c5blage peu- vent entrainer un fonctionnement inaddquat et dangereux. Verify proper operation after servicing S'assurer que Pappareil Ionctionne ade- quatement une fois 1'entretien termin6. WIRING DIAGRAM MILLIVOLT GAS VALVES I I THERMOPILE APPLIANCE- MOUNTED U ON/OFF SWITCH N BKIW(l) I I BX/W(1) GAS VALVE WALL -MOUNTED ON/OFF SWITCH (OPTIONAL) THERMOSTAT (OPTIONAL) WALL MOUNTED CONFIGURATION FOR FAN SWITCH (OPTIONAL) s BX R W a GR uea FAN (OPTIONAL) JUNCTION BOX - - - _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ Figure 51 Refer to Section A for millivolt appliances and Section B for electronic appliances. The gas valve is set in place and pre -wired at the factory on both models. A. Millivolt Wiring (See Figure 51)— Install Optional Control Switch (OFF/ON wall switch, wall thermostat or remote control receiver). Install snap bushing (provided in Electrical Outlet Kit) into control switch knock- outin side panel (see Figures 17through20and 53). Wire the optional control switch within the millivolt control circuit (as shown in Figure 51) using the 15 feet of 2 conductor wire supplied (route wires through the snap bushing to the optional control switch). Mount the optional control switch or wall thermostat in a convenient location on a wall near the fireplace. I 1 ,It not connect optinaI control switch to 120VAC power supply. 2. Install the junction boxand receptacle outlet to the left of the valve in the front (for optional blower kit). See junction box and receptacle outlet as explained in steps 1-11 for (B) Elec- tronic Wiring (on this page). B. Electronic Wiring (See Figure 54) Note: The electronic appliance must be con- nected to the main 120 VAC power supply. 1. Locate the Electrical Outlet Kit provided (packaged in firebox - contents: junction box, 2 screws, receptacle outlet, OFF/ON rocker switch -for millivolt units only, and a snap bushing). Note: The junction box can be installed in any of the 4 outside corners of the control compartment (outlet installed in front left corner is shown in Figure 53). If an optional blower is to be installed place the junction box to the left of the valve in the front corner. 2. Route a 3 -wire, 120 VAC, 60 Hz,1 ph power supply to the location on appliance where junc- tion box is to be installed. 3. Open the control compartment access panel. 4. Wire and install the outlet receptacle to junc- tion box, then install into the chosen corner of the control compartment as shown in Figures 51, 52 and 54. 5. After the receptacle/junction box wiring is complete, install the field -provided metal junc- tion box cover plate (see Figure 53). 6. Install the snap bushing (provided in kit) into the selected cabinet knockout opening in side cabinets (see Figures 17 through 20 and 53). The snap bushing provides protection for the wires (see note below) passing through side cabinet going to an optional burner control switch Wire in the burner control switch to the low voltage circuit as shown in Figure 54. Note: The supplied 15 feet of 2 conductor wire has one end of each conductor connected to the gas valve circuit and the other end of each con- ductor placed loose on top of the appliance. Important Note: The gas valve OFF/ON switch is shown in Figure 56on Page 30. Itis integral with the gas valve and should be set to the ON position. Q WARNING Ground Wire Connection 4, y White (supply)`. Bipolar - Terminal Black Screw (supply) Note: Supply wires may be alternatively con- nected to the outlet using the screw terminals, however the black supply wire must be wired to a terminal that is opposite (across the outlet) the point where the white supply wire is connected. Figure 52 Step 6. WIRING - OPTIONAL FORCED AIR BLOWER KIT FBK-100, FBK-200 and FBK-250 Kits (See Figure 54 on page 29 for wiring) - An electrical receptacle is provided for the installation of the FBK-100, FBK-200 and FBK- 250 forced air blower kits. Electrical power must be connected to this receptacle in order to operate these blowers. Install the blower kits according to the installation instructions provided with the kits. 1 Remove the carton support from the control compartment before operating the appliance. Receptacle, Junction Box and Cover Plate Installation Outlet Receptacle I Junction Box Latching magnet notshown 01 View Of Left \ Bottom Corner Of Unit Field -provided Metal Junction Box Cover Plate With Screw Junction Box knock -out (2 places each side) Fireplace o Side in Press snap y bushing into theo knock -out for o 0 a control switch oOo wires. o Figure 53 TEST ALL CONNECTIONS FOR GAS LEAKS (FACTORY AND FIELD): Never use an open flame to check for leaks. 28 1 1 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Step 7. CONNECTING GAS LINE Make gas line connections. All codes require a shut-off valve mounted in the supply line. Figure 55 illustrates two methods for connecting the gas supply. The flex -line method is acceptable in the U.S., however, Canadian requirements vary depending on locality. Installation must be in compliance with local codes. A sediment trap is recommended in the gas piping within the home to prevent moisture and debris in the line from damaging the valve. These appliances are equipped with a gas flex line for use (where permitted) in connecting the unit to the gas line. A gas flex line is provided to aid in attaching the direct vent appliance to the gas supply. The gas flex line can only be used where local codes permit. The flex line is rated for both natural and propane gas. A manual shut off valve is also provided with the flex line. The gas control valve is located in the lower control compartment. To access the valve open the lower control compartmentdoor(seeFigure56) by pushing in the right top corner of the door. (The door is hinged at the bottom.) Remove the bottom compartment door by sliding the hinge pin, located at the door's left side, to the right until it disengages from the left corner post hole. Pull the door diagonally to the left, away from the fireplace. The lower control compartment door on the side opposite the valve lifts on and off. The millivolt control valve has a 3/8" (10 mm) NPT thread inlet port. The electronic control valve has a 1/2" (13 mm) NPT thread inlet portand isfitted with a 1/2"x3/8"(13 mm x 10 mm) NPT fitting. Secure all joints tightly using appropriate tools and sealing compounds (ensure propane resistant compounds are used in propane applications). All codes require a shut-off valve mounted in the supply line. The orientation of the shut-off valve should face the front. Figure 55 illustrates two methods for connecting the gas supply. A sediment Trap is recommended to prevent moisture and debris in the gas line for damaging the valve. . -----------------------. / Plug blower teen into this White Ground - Green receptacle O Neutral -White Black /-- — --120 VAC - Black I j Junction Box I Blower �— I I —* Wall -mounted , Ground Tab —� ON/OFF Blower I Switch or Variable ( Tab Intact Broken I — — Speed Control Switch. I Red I I Green Neutral Hat J -BOX WIRING FOR t Ground Side of Side of WALL SWITCH , ` Screw Receptacle Receptacle BLOWER CONTROL / --—————————————————————— View A J-Boxuniting when using unit mounted Relay Module C/W FBK-250 only. Plug blower using relay module. into J -Box receptacle for FBK-100 or FBK-290 application. See View A tot J•Boz wiring. � BK IN G N Optional Blower Junction Box *OFFION Switch Pilot Burner (Integral with Assembly Gas Valve) I I o I oe"S A�g HoneywellElectronicGas Valve IO Fr� r0 Leave the OFFION switch, which is Schematic Representation Only Field Wired Factory Wired Integral with the gas valve, in the ON position. • OplionalConhulSwilches Wall Switch, Wall Thermostat or Remote Cardrol Receiver. Notes: 1. it any of the original wire as supplied must be replaced, use Type AWM 105°C -18 gage wire ONLY. 2.120 VAG, 60 Hz - Less than 3 Amps. Caution: label all wires prior to disconnection when servicing controls. Wiring errors can cause improper and dangerous operation. Electronic Wiring Diagram (Honeywell) Showing Blower Wiring for Optional FSK -1100, FBK-200 & FBK-250 Kits Figure 54 Turn on gas supply and test for gas leaks, us- ing a gas leak test solution (also referred to as bubble leak solution). Note: Using a soapy water solution is an effective leak test solution but it is not recom- mended, because the soap residue that is left on the pipes/fittings can result in corrosion over time. A. Light the appliance (refer to the lighting instructions label in the control compartment or in the Care and Operation Instructions manual). B. Brush all joints and connections with the gas leak test solution to check for leaks. If bubbles are formed, or gas odor is detected, turn the gas control knob (off/pilotlon) to the "OFF' position. Either tighten or refasten the leaking connection, then retest as described above. C. Whenthegas lines are testedandleakfree,be sure to rinse off the leak testing solution. Step 8. VERIFYING APPLIANCE OPERA- TION Turn on burner and observe the individual tongues of flame on the burner. Make sure all ports are open and producing flame evenly across the burner. If any ports are blocked, or partially blocked, clean out the ports. With gas line installed run initial system checkoutbefore closing upthefrontof the unit. Follow the pilot lighting instructions provided . in the Care and Operation Instructions manual. For piezo igniter location see Figure 56 on Page 30 (millivolt appliances only). Note: Lighting Instructions are also found on the literature tag tied to the gas piping next to the gas valve. To access the tag, open the lower control compartment door (Figure 56) by pushing in simultaneously the left and right top corners of the door. (The door is hinged at thebottom). Remove the bottom compartment door by sliding the hinge pin, located at the door's left side, to the right until it disengages from the left corner post hole. Remove the modesty panel. To remove the modesty panel, slide the panel forward until it contacts the cabinet bottom panel, then lift straight up and tilt forward. Remove the modesty panel care- fully, so that none of the wires become loose or disconnected. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. 1 1 29 Optional Gas Flex-Line Connector 3/8" NPT x 3/8" 1/2" x 3/8" Flare Gas/ Flare Fitting Shut-Off Valve Valve , (�` � ® I 3/8" Flex Tubin Gas Stub 1/2" x 3/8" 3/8" Nipple Reducer 3/8" Union 3/8" Close Nipple 3/8" Shut-Off Valve Figure 55 - GAS CONNECTION When first lighting the appliance, it will take a few minutes for the line to purge itself of air. Once purging is complete, the pilot and burner will light and operate as indicated in the instruc- tion manual. Subsequent lighting of the appliance will not require such purging. I nspectthe pilotf lame (re- move logs, if necessary, handling carefully). Gas Valve Millivolt Appliance Checkout The pilot flame should be steady, not lifting or floating. Flame should be blue in color with traces of orange at the outer edge. The top 3/8" (10 mm) at the pilot generator (thermopile) and the top 1/8" minimum (tip) of the quick drop out thermocouple should be engulfed in the pilot flame. The flame should project 1"(25 mm) beyond the hood atall three ports (seeFigure57). Replace logs if removed for pilot inspection. To light the burner; turn "ON" the remote wall switch and rotate the gas valve control knob counterclockwise to the "ON" position ("ON" will be at the top side of the valve). : DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. Electronic Appliance Checkout To light the burner, turn 'ON'the unit mounted On/Off switch orthe optional remote wall switch. Ensure the igniter lights the pilot. The pilot flame should engulf the flame rod as shown in Figure 58. ELECTRONIC 3/8 To 1/2 Inch Proper Flame (9 mm to 13 mm) Adjustment Pilot Nozzle Ground Electrode Flame Rod Hot Surface Igniter Figure 58 Step 9. INSTALL VERMICULITE, GLOW- ING EMBERS AND LOGS NOTE. Turn off all electricity to the appliance before you install vermiculite, embers and logs. DO NOT attempt to install the logs until the ap- pliance installation has been completed, the gas line connected and tested for leaks and the initial burner operation has been checked out. INSTALLATION STEPS: READ WARNINGS ON THIS PAGE BEFORE PROCEEDING. FOLLOW THE LOG PLACEMENT INSTRUCTIONS EXACTLY 1. Remove the front glass enclosure panel (see Glass Enclosure Panel Removal and Installation Instructions, Page 34 ). 2. Remove the following from firebox,, log set, bag of embers and bag of vermiculite. Handle logs carefully to prevent breakage. 3. Ensure the Grate is properly installed in the firebox with the 4 legs of the grate fitting into the 4 dimples on the firebox floor. 4. Placement of Glowing Embers - Separate the Embers (rockwool) into pieces about the size of a quarter (see Figure 59). Keep the pieces fluffed up, not matted. Distribute these pieces over the surface of the burner, as shown in Figure 60. Do not use more than is necessary. Ensure that the main burner ports remain uncovered by the ember material. 5. Place Lava Rock - Spread lava rock evenly over firebox floor. 6. Install Vermiculite- Place some vermiculite on the firebox floor around the grate (the entire bag of vermiculite will NOT be used). See Figure 60. DO NOT PLACE ANY VERMICULITE ON THE BURNER. Note: This appliance is provided with enough Glowing Embers for several applications, do not use all that is in a new bag at one time. For best glowing effect, replace the ember material annually. Replacement Glowing Embers are available (order Catalog Number 88L53). ;fir .tri Figure REFERENCE Firebox Accessories / Parts Cat. No. Model No. Description 881.53 FGE Bag of Glowing Embers 80L42 FDVS Bag of Decorative Volcanic Stone NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 131 ■ 32 4 EDVPF, EDVST, EDVCL AND EDVCR LOG PLACEMENT Log Number Description Part Number 1 Log, Corner 55M18 2 Log, Rear/Left 55M19 3 Log, Front/Left 55M20 4 Log, Rear/Right 55M21 5 Log, Front/Center 55M22 6 Log, Center/fop 55M23 Catalog Number for the entire log set: 551VI04 3 Log (3) Lays Over Logs STEP 3 1 And 2 U ESE .x Place Bottom Hole Of Log (3) On Pin In Log (2). Position Grooves At The Bottom Of Log (3) Over The Grate. Position Groove At The Position The Groove At The. Bottom Of Log (1) Over Bottom Of Log (1) Over The The Burner Log Support Grate And Slide It Forward Bracket Against The Grate Here 1 Position And Slide Log (4) STEP 4 Against The Back Of The Grate Position Log (2) Over The Grate Bar And Slide It Against The Back . ,.. 2 Of The Grate Here3 1, STEP 2 . .. a Position Groove At The Bottom Of Log (2) 'Over The Grate Here And Slide It Against The Back Of The Grate Figure 61 NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 4 Place Log (4) Over The Flat Spot On Log (1) Here s EDVPF, EDVST, EDVCL AND EDVCR LOG PLACEMENT (CONTINUED) Position Small End Of Log (6) On The Notch Of Log (3) Here STEP 5 \ sir c�,F lo' Position The Groove In The Back Of Log (3) Against The Grate Figure 62 Log Number Description Part Number 1 Log, Corner 55M18 2 Log, Rear/Left 55M19 3 Log, Front/Left 55M20 4 Log, Rear/Right 55M21 5 Log, Front/Center 55M22 6 Log, Center/Top 55M23 Catalog Number for the entire log set: 551VI04 ,max. Position The Round End Of Log (6) Against The Notch Of Log (4) Here. Two Charred Spots Face The Front Rest Log (5) Against The Grate Here Log (5) Sits In Front Of The Grate NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. c 33 Step 10. REMOVING AND INSTALLING THE GLASS DOOR t. Do not operate appliance with the glass front removed, cracked or broken. Only doors certified with the appliance shall be used. Seules des portes certifides pour cet appareil doivent etre utilisdes. CAUTION: DO NOT abuse glass door by striking or slamming shut. Removing Glass Enclosure Panel (see Figure 63 ) Remove the top louver assembly or radiant panel. To access the glass door securing latches, first open the lower control compartment door (Figure 63) by pushing in simultaneously the left and right top corners of the door (the door is hinged at the bottom). Remove the bottom compartment door by sliding the hinge pin, located at the door's left side, to the right until it disengages from the left corner post hole. Pull the door diagonally to the left, away from the fireplace. Locate the two (2) latches at the top of the control compartment and disengage them from the doorframe bottom vee -flange, pulling down on their handles to open them. Installing Glass Enclosure Panel (see Figure 63 ) Retrieve the glass door. Visually inspect the gasket on the backside of the frame. Gasket surface must be clean, free of irregularities and seated firmly. Position the door in front of the firebox opening with the bottom of the door held away from the fireplace (Figure 63). Hookthetop flange ofthe door frame over the top of the firebox frame. Let the bottom of the door frame swing gently in towards the fireplace ensuring thatthe gasket seats evenly as the door frame draws shut. Fasten the two latches located underneath the firebox floor to the door's vee -flange. Close both the latches securely. Control Compartment Access Panel and Hinge Top Flange Glass Door Frame Front Glass M Enclosure Panel ,Modesty Panel Bottom Vee -flange Glass Door Frame GlassDoor Latch Firebox Floor EDVST SHOWN Note. When installing the glass door, ensure the spacing on both sides is even and equal. Figure 63 4 1 1 NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE Step 11. BURNER ADJUSTMENTS Flame Appearance and sooting Proper flame appearance is a flame which is blue at the base and becomes yellowish -orange in the body of the flame. When the appliance is first lit, the entire flame may be blue and will gradually turn yellowish -orange during the first 15 minutes of operation. If the flame remains blue, or if the flame is orange with evidence of sooting (black tip), the air shutter opening may need to be adjusted. If the air shutter opening is closed too far, sooting may develop. Sooting is indicated by black puffs developing at the tips of very long orangeflames. Sooting results in blackdeposits forming on the logs, appliance inside surfaces and on exterior surfaces adjacent to the vent termination. Sooting is caused by incomplete combustion in the flames and lack of combustion air enter- ing the air shutter opening. To achieve a warm yellowish -orange flame with an orange body that does not soot, the shutter opening must be adjusted between these two extremes. Air Shutter Adjustment Guidelines • If there is smoke or soot present, first check the log set positioning to ensure that the flames are not impinging on any of the logs. If the log set is properly positioned and a sooting condition still exists, then the air shutter opening should be increased. • The more offsets in the vent system, the larger the air shutter opening will need to be. • An appliance operated with the air shutter opened too far, may have flames that appear blue and transparent. These weak, blue and transparent flames are termed anemic. • Propane models may exhibit flames which candle or appear stringy. If this is present and persists, adjustthe air shutter to a more closed position, then operate the appliance for a few more minutes to ensure that the flame normalizes and the flames do not appear sooty. The following chart is provided to aid you in achieving the correct air shutter adjustment for your installation. Air Shutter Adjustment Guidelines: Amount of Flame Air Shutter Primary Air Color Adjustment If air shutter is Flame will Air shutter closed too far be orange gap should be —► —► increased If air shutter is Flame will Air shutter open too far be blue gap should be —► —► decreased 1. Refer to Figure 64for proper flame appearance. To adjust the flame, rotate the adjustment rod toward the back or toward the front of the fireplace (rod located in the lower control area). Position the air shutter to the factory setting as shown in the table in Figure 65. 2. Light appliance (follow lighting procedure on lighting label in control compartment or see the Care and Operation Manual). 3. Allow the burner to operate for at least 15 minutes while observing the flame continuously to ensure that the proper flame appearance has been achieved. If the following conditions are present, adjust accordingly. • If flame appears weak or sooty, adjust the air shutter, incrementally, to a more open position until the proper flame appearance is achieved. • If flame remains blue, adjust the air shutter, incrementally, to a more closed position until the proper flame appearance is achieved. 4. Leave the control knob (off/pilot/on) in the ON position and the burner OFF/ON switch OFF (and remote switches, if applicable). 5. When satisfied that the burner flame appearance is normal, re -install the lower control compartment door then proceed to finish the installation. NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. i Decrease Shutter Opening In This Direction Note - Burners are omitted In this view for clarity. MAIN BURNER FACTORY SHUTTER SETTING Natural Gas Propane Gas Models inches inches (mm) (mm) EDVST Materials Combustible EDVPF 1/4" 5/8" EDVCR (6.35) (15.88) EDVCL 1 in. Min. PANELS ARE INSTALLED, Adjustment Rod Positions (when viewed from above) Figure 65 Step 12. HOOD INSTALLATION Refer to Figure 66. All of these appliances must have hoods installed prior to operat- ing. FINISHING REQUIREMENTS - Wall Details Complete finished interior wall. To install the appliance facing flush with the finished wall, position framework to accommodate the thick- ness of the finished wall (Figure 66 ) See Page 5 for Cold Climate Insulation and Page 8 for Clearances Combustible Louvers Wall � Top of Door Frame This Area Must Remain Framing Clear of Combustible T'(76 mm) Top of Appliance Materials Combustible Top o1 Door Frame Finished Wall installed as shown. Materials IF OPTIONAL RADIANT 1 in. Min. PANELS ARE INSTALLED, (25 mm) Header Top Spacers — Drywall -_ Bracket/Spacer Top of Appliance Louvers � Top of Door Frame Hood must be installed as shown. Top of Appliance Radiant panel Top o1 Door Frame Hood must be installed as shown. IF OPTIONAL RADIANT PANELS ARE INSTALLED, Figure 66 - FINISHING REQUIREMENTS NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. STEP 13. ATTACHING SAFETY -IN -OPERATION WARNINGS It is the installers responsibility to ensure these warnings are properly affixed during installation. These warning labels are a critical step in informing consumers of safe operation of this appliance. ATTACHING SAFETY -IN -OPERATION WARNINGS Your fireplace has been furnished with safety instruction labels that are to be affixed to the operation and control point of the fireplace. Asafety instruction label should be affixed to the wall switch plate where the fireplace is turned on and off (See Figure A) or wall thermostat (See Figure B) and if used on the remote control handheld transmitter (Figure C). The warnings should already have been put in place when the fireplace initial set-up was completed. If they are not affixed at these spots, locate the multi-lingual adhesive labels provided with these instructions and proceed as follows: 1. Locate the wall switch or wall thermostat that controls the fireplace (verifythe switch operates the fireplace by turning it on and off). Clean the wall switch plate or wall thermostat thoroughly to remove any dust and oils. Affix the label to the surface of the plate of the wall switch that controls the fireplace (Figure A) or the wall thermostat (Figure B). Choose the language primarily spoken in the home. 2. If a remote control is used to control the fireplace, locate the transmitter and clean it thoroughly to remove any dust and oils. Affix the label to the surface of handheld transmitter (Figure C). Choose the language primarily spoken in the home. 3. If you are unable to locate the labels, please call Lennox Hearth Products oryour nearest Lennox Hearth Products dealer to receive additional safety instruction labels free of charge. Cat. No. H8024 Replacement Label Kit LENNOX HEARTH PRODUCTS 1-800-9-LENNOX Note: English is red text on clear label. French and Spanish are white text on black label. SAFETY LABEL DIAGRAMS A WARNING EXTREMELY HOT glass and fireplace Risk of Severe Burns ALWAYS KEEP CHILDREN AWAY FROM FIREPLACE APPOSITION DES MISES EN GARDE RELATIVES ALA SECURITE D'UTILISATION Votre foyer a ete livre avec des etiquettes de securite qui doivent etre collees a cote des dispositifs de contrble du foyer. Une etiquette de securite Boit etre collee sur la plaque de I'interrupteur contrblant I'allumage du foyer (voir Figure A) ou sur le thermostat mural (voir Figure B) et, le cas echeant, Sur le boitier de la tele- commande (Figure C). Les mises en garde auraient du etre collees au moment de ('installation initiale du foyer. Si ce n'est pas Ie cas, prenez les etiquettes adhesives multilingues fournies avec ces instructions et procedez comme suit: 1. Reperez I'interrupteur ou le thermostat mural qui contrble le foyer (verifiez que I'interrupteur contrble le fonctionnement du foyer en le faisant basculerdeMarche aArret,etvice-versa). Nettoyez soigneusement la plaque murale de I'interrupteur ou le thermostat mural pour eliminer la poussiere et les traces de graisse ou d'huile. Collez I'etiquette sur la surface de la plaque de I'interrupteur mural qui contrble le foyer (Figure A) ou du thermostat mural (Figure B). Choisissez la langue qui est principalement parlee dans la residence du proprietaire. 2. Si une telecommande est utilisee pour contrbler le foyer, nettoyez la soigneusement pour eliminer la poussiere et les traces de graisse ou d'huile. Collez 1'6quette sur le boitier de la telecommande (Figure C). Choisissez la langue qui est principale- ment parlee dans la residence du proprietaire. 3. Si vous ne trouvez pas les etiquettes, veuillez appeler Lennox Hearth Products ou votre distribu- teur Lennox Hearth Products local pour recevoir gratuitement des etiquettes suppldmentaires. Etiquettes de remplacement, n° cat. H8024 LENNOX HEARTH PRODUCTS 1-800-9-LENNOX Remarque : Le texte anglais est rouge sur un support transparent. Le texte hangais et espagnol est blanc sur un support noir. DIAGRAMMES DES ETIQUETTES DE SECURITE COLOCAC16N DE ADVERTENCIAS DE SEGURIDAD EN OPERACION Su chimenea incluye etiquetas de instrucciones de seguridad que deben colocarse en el punto de operaci6n y control de la chimenea. Se debe colocar Una etiqueta de instrucciones de seguridad en la plata del interruptor de pared desde el cual se enciende y se apaga la chimenea (verla Figura )l) o en el termostato de pared (verla figura B)y en el transmisor de control remoto (FiguraC)si se usa. Las advertencias ya deben haberse colocado cuando se complet6 la instalaci6n initial de la chimenea. Si no estan colocadas en estos lugares, encuentre las etiquetas adhesivas multilingues proporcionadas con estas instrucciones y prosiga de la siguiente manera: 1. Identifique el interruptor o el termostato de pared quecontrolalachimenea(verifique queelinterrupter opera la chimenea encendiendola y apagandola). Limpie bien la placa del interruptoro el termostato de pared para quitarel polvo y aceite. Pegue la etiqueta en la superticiede la placa del interruptor que controla la chimenea (FiguraA) o en el termostato de pared (Figura B). Seleccione el idioma que mas se habla en la casa. 2. Si se usa un control remoto para controlar la chimenea, encuentre el transmisor y limpielo bien para quitar el polvo y aceite. Pegue la etiqueta en la superficie del transmisor (Figura C).Seleccione el idioma que mas se habla en la casa. 3. Si no puede encontrar las etiquetas, sirvase Ilamar a Lennox Hearth Products o al distribuidor de Lennox Hearth Products mas cercano para recibir etiquetas de instrucciones de seguridad adicionales gratuitas. Juego de etiquetas de repuesto - N° de cat. H8024 LENNOX HEARTH PRODUCTS 1-800-9-LENNOX Nota: La etiqueta en inglds es transparente con texto rojo. Las etiquetas en hands y espafiol son negras con texto blanco. DIAGRAMAS DE ETIQUETAS DE SEGURIDAD NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 37 ! 15.47 Figure A Figure B Figure C A.49i1186 A.WAA VIA zi z ~y 411E ME 41lie NOTE: DIAGRAMS 8 ILLUSTRATIONS ARE NOT TO SCALE. 37 INSTALLATION ACCESSORIES Listed Secure Venfm Components Cat. No. Cat. No. Model Description 771-70 H1968 SV4.5HT-2 Horizontal Square Ter- ® 12 Inch (305 mm) 771-72 mination With Firestop / 24 Inch (610 mm) 771-73 SV4.51_36 spacer (H2246) & Adaptor ® SV4.51_48 48 Inch (1219 mm) (741-61) SV4.5LA 12152 SV4.51GV 1 Vertical Termination Cap, SV4.5E45 45 Degree Elbow J771-77 High Wind SV4.5E90 H4687 SV4.5CTS Chase Top Termina- 771-78 SV4.5F Flat Root Flashing tion, Square, Ret. instr. SV4.5FA 1/12 to 7/12 Adjustable Flashing 771-80 #750,207M H4716 SV4.5CTS-B Chase Top Termination, SV4.5SC6 ° H6183 Square, Black, Ref. instr. Firestop Spacer, 5', rigid H6184 SF4.5HF5 P750,207M H4717 SV4.5CTS-TC Chase Top Termination, H2247 SV4.5VF-10 Firestop / Spacer -Vertical, rigid (1-1-1 spacing), 10 Pack O Square, Terra Cotta, Ref. instr. SV4.5SP Support Plate A750,207M 0s I NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Cat. No. Model Description Vent Sections (Rigid) 771-70 SV4.51_6 6 Inch (152 mm) 771-71 SV4.51_12 12 Inch (305 mm) 771-72 SV4.51_24 24 Inch (610 mm) 771-73 SV4.51_36 36 Inch (914 mm) 771-74 SV4.51_48 48 Inch (1219 mm) 771-75 SV4.5LA Telescopic Length Slip Sec- tion (2'to 7-1/2' rigid) 771_76 SV4.5E45 45 Degree Elbow J771-77 SV4.5E90 1 90 Degree Elbow The following flashings come packaged with a storm collar: 771-78 SV4.5F Flat Root Flashing 771-79 SV4.5FA 1/12 to 7/12 Adjustable Flashing 771-80 SV4.5FB 7/12 to 12/12 Adjustable Flashing 771-81 SV4.5SC6 Storm Collar (6 per box) H6183 SV4.5HF5 Firestop Spacer, 5', rigid H6184 SF4.5HF5 Firestop Spacer, 5', flex H2246 SV4.5HF-10 Firestop / Spacer -Horizon- tal, rigid (3-1-1 spacing), 10 Pack H2247 SV4.5VF-10 Firestop / Spacer -Vertical, rigid (1-1-1 spacing), 10 Pack O 961<92 SV4.5SP Support Plate 0s I NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. INSTALLATION ACCESSORIES CONTINUED Listed Secure VentTm Components These termination kits include firestop/spacer, gear clamps and flex adaptor. Cat. # Model Description 18 feet (5.49 m) * com- pressed Ilex, Ret instr. 17M52 SV4.5HGS-1 Termination Guard, 941-10 & lb(Fits 98KO3 SF -12 Square (1 pack) Ref. instr. .4750,109M 17M53 SV4.5HGS-12 Termination Guard, Hori- H1968) pressed Ilex, Ref. instr. zontal Square (12 pack) ,9750,052M H2248 Ref. instr. 1750,109M Firestop / Spacer - Hori- 871-02 SV4.5HGS Termination Guard for I (Fits Horizontal Square Termi- 941-10 & H2249 SF4.5VF-10 nation (Deluxe) (1 pack) H1968) Ret. instr. d750,055M flex (1-1-1 spacing), 10 Pk H5820 SV4.5HTSK Termination Shroud Horizontal Square Termina- (Guard) for Horizontal ` (Fits 771-87 SFKITI2S Termination (1 pack) (ref. instr. .4750246M) H1968) compressed flex 771-88 SFKITI BS Square Term. for Ilex H5816 SV4.5- Through Wall Shield Kit (with 18 inch [457 mm] ' compressed flex) 771-89 TWSK10 (used to shield the direct - vent pipe from blown '' ~ insulation) g- 771-90 SFKIT36S Ref. instr..§750,247M H3907 SV4.5ARSA Attic Insulation Shield w/ SFKIT48S Square Term. for Ilex (with adjustable height, 12'-22' 48 inch 11219 mm] ' 96K93 SV4.5SU Support Strap compressed flex) 10K81 SFMP Mill-Pac,Black, HighTem- perature Sealant 891-40 SFMP-12 Mill-Pac, Black, High Tem- adaptor, section of rigid perature Sealant - Bulk vent, roof support collar assembly, roof flashing 12 pack and storm collar. Ref. instr. 650,052M 991-02 SV4.5HRK14 Horizontal Riser Kit, 14', Vertical Termination for Ilex (6/12 to 12/12) with Rei. instr. P50,146M flexadaptor, section of rigid 991-03 SV4.5HRK36 Horizontal Riser Kit, 36", vent, roof support collar assembly, roof flashing Ref instr. 1750,146M and storm collar. Ret instr. H1988 CTSA-33 Chase Top Shroud Kit, .4750,052M 91L66 Arch Top 3 X 3 Ft., Ret Gear Clamp 4.5 in. (114 instr. dr750,194M H1985 CTSO-33 Chase Top Shroud Kit, Gear Clamp 7.5 in. (190.5 Open Top 3 X 3 Ft., Ret. mm) for Ilex(6 pack) ® H7748 instr. i750,193M Connector Kit. 36" off lexwith two adaptersfor H1987 CTSO-44 Chase Top Shroud Kit, mating two rigid sections of Open Top 4 X 4 Ft., Ref. ( instr n50,193M �� y .y H1986 CTSO-46 Chase Top Shroud Kit, 1t Open Top 4 X 6 Ft., Ret instr. b750,193M Listed Secure Fleem Components Cat. # Model Description These termination kits include firestop/spacer, gear clamps and flex adaptor. 60L10 SF -18 18 feet (5.49 m) * com- pressed Ilex, Ret instr. *r50,053M 98KO3 SF -12 12 feet (3.66 m) * com- pressed Ilex, Ref. instr. ,9750,052M H2248 SF4.5HF-10 Firestop / Spacer - Hori- al,//ex(311spacing), 10 10 Pack H2249 SF4.5VF-10 Firestop/Spacer-Vertical , flex (1-1-1 spacing), 10 Pk H1969 SF4.5HT-2 Horizontal Square Termina- tion for flex (without flex) 771-87 SFKITI2S Square Term. for Ilex (with 12 inch 305 mm] * compressed flex 771-88 SFKITI BS Square Term. for Ilex (with 18 inch [457 mm] ' compressed flex) 771-89 SFKIT24S Square Term. for Ilex (with 24 inch [610 mm] * compressed flex) 771-90 SFKIT36S Square Tenn. for flex (with 36 inch [914 mm] * compressed flex) 771-91 SFKIT48S Square Term. for Ilex (with 48 inch 11219 mm] ' compressed flex) 561-74 SFVT30 Vertical Termination for flex (flat to 6/12) with flex adaptor, section of rigid vent, roof support collar assembly, roof flashing and storm collar. Ref. instr. 650,052M 561-75 SFVT45 Vertical Termination for Ilex (6/12 to 12/12) with flexadaptor, section of rigid ® vent, roof support collar assembly, roof flashing and storm collar. Ret instr. .4750,052M 91L66 SFGC4-6 Gear Clamp 4.5 in. (114 mm) for Ilex (6 pack) 91 L67 SFG07-6 Gear Clamp 7.5 in. (190.5 mm) for Ilex(6 pack) ® H7748 H7748 Connector Kit. 36" off lexwith two adaptersfor mating two rigid sections of vent together. ( *All compressed flex vents can be expanded up to two times. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. 1 39 ". 40 GAS CONVERSION KITS A WARNING In Canada: THE CONVERSION SHALL BE CARRIED OUT IN ACCORDANCE WITH THE REQUIREMENTS OF THE PROVINCIAL AUTHORITIES HAVING JURISDICTION AND IN ACCORDANCE WITH THE REQUIREMENTS OF THE CAN/CSA-B149.1 INSTALLATION CODE. LA CONVERSION DEVRA ETRE EFFECTUEE CONFORMEMENT AUX RECOMMANDA- TIONS DES AUTORITES PROVINCIALES AYANT JURIDICTION ET CONFORMEMENT AUX EXIGENCES DU CODE WINSTALLATION CAN/CSA-8149.1. Gas conversion kits are available to adapt your appliance from the use of one type of gas to the use of another. These kits contain all the necessary components needed to complete the task including labeling that must be affixed to ensure safe operation. Kit part numbers are listed here and the following steps detail the conversion procedure. Refer to the instructions provided with the conversion kit when performing any gas conversion. Natural To Propane Gas Conversion Kit Models No. Unit Type Catalog No. EDVST millivolt H0568 EDVPF EDVCL EDVCR electronic H0569 EDVCL Propane to Natural Gas Conversion Kit Model No. Unit Type Catalog No. EDVST EDVPF millivolt H0567 EDVCR EDVCL INSTALLATION INSTRUCTIONS Step 1. TURN OFF THE GAS SUPPLY TO THE APPLIANCE and disconnect power supply at the circuit breaker. Ensure appliance is cold. CAUTION: THE GAS SUPPLY SHALL BE SHUT OFF PRIOR TO DISCONNECTING THE ELECTRICAL POWER, BEFORE PROCEED- ING WITH THE CONVERSION. ATTENTION: AVANT D'EFFECTUER LA CONVERSION, COUPEZ D'ABORD L'ALIMENTATION EN GAZ, ENSUITE, COU- PEZ L'ALIMENTATION ELECTRIQUE. a. Open the control compartment access panel, byactuating the spring-loaded magnetic catches securing the panel, gently depressing the outer top corners of the panel until the catches "pop' the panel free and allowing it to swing out and down to open. b. Remove the bottom control compartment access panel by compressing the spring-loaded hinge pin on the left side until it disengages from the left cabinet panel hole. Pull the panel away from the fireplace. c. Remove the modesty panel by pulling the bottom right corner of the modesty panel out slightlyto disengagethe snap-fitfeature; liftthe modesty panel by the tab on the panel's right end, pull the right end of the panel away from the cabinet and then pull the panel diagonally out of the left side cabinet panel slots. (In the above procedure, reverse the words "left' and "righf'for EDVCR models). Remove the modesty panel carefully, so that none ofthewires become loose or disconnected. d. Locate the two (2) latches at the top of the control compartment. To disengage the two latches from the bottom vee -flange of the glass enclosure panel, reach for the handles located towards the back of the latches and pull the handles down toward the front of the unit. See Figure 63 on page 34. e. Swing the bottom of the door out and raise it slightly to liftthe top flange of the door frame away from the appliance. Step 2. Carefully remove the log set. Exercise care as not to break the log set. Step 3. Referring to Figure 67, remove the burner. PAN BURNER AIR SHUTTER ADJUSTMENT LEVER y,, VENTURI TUBE ARM FIREBOX SUBFLOOR FRONT OF FIREPLACE Figure 67 Millivolt Appliances Step 4. Refer to Figure 68 and the instruc- tions provided with the kit. Using a Torx T20, removeand discard the three pressure regulator mounting screws. Remove the pressure regu- lator, spring, poppet, diaphragm and bushing. Discard all removed components. Ensure the rubber gasket installed on the back of the replacement pressure regulator is properly positioned and install the new pressure regula- tor using the new screws supplied with the kit. Tighten screws to 25 In. Ib. torque. V Step 5. Attach manometer to the manifold side pressure test fitting and verify manifold pres- sure reads 3.5 inches water column (0.87 kPa) for natural gas, and 10.0 inches water column (2.49 kPa) for propane gas. Step 6. Refer to Figure 69 and remove the pilot hood assembly to access the hexed pilot orifice. Remove and replace the orifice with the one provided with the kit. F-10 c—. 0 Pilot Orifice Figure 69 Electronic Appliances Step 7. Honeywell Electronic Valves- See Figure 70 and the instructions provided with the kit. Remove the slotted cap screw, o -ring, pressure -regulating adjusting screw and spring. Retain all parts for possible later use. Install new components from the kit. Black cap and red spring for propane gas units. Silver cap and stainless steel spring for natural gas units. Before installing the cap, attach manometer to the manifold side pressure testfitting and adjust screw until pressure reads 3.5 incheswatercol- umn (0.87 kPa) for natural gas, and 10.0 inches water column (2.49 kPa) for propane gas. See Figure 71and replacethe pilot orifice as fol- lows: Remove the ignitor assembly retainer clip, and carefully remove the ignitor assembly. NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Exercise extreme care to prevent damage to or breakage of the ignitor assembly. Remove the screw securing the pilot assembly to its mounting bracket. Back off the flare nut at the end of the pilot gas line to free the pilot assembly from the gas line. Remove the pilot orifice and replace it with the one provided with the conversion kit. Reinstall the pilot assembly by reversing the steps detailed here. When reinstalling the ignitor assembly, use extreme care to prevent damage and break- age. Do not apply any leverage to the ignitor assembly while restoring the retainer clip to its original position. Pilot Pilot Orifice y Assembly �I Ignitor I I Assembly I � y Retalning Flare Nut Clip Note: If the ignitor is damaged, a replacement kit is available, order Catalog No. 87L54. Figure 71 All Models Step 8. (Refer to Figure 67) A. Remove the orifice from the manifold and replace it with the one provided in the kit. The following table shows the orifice sizes for natural and propane models. Figure 72 illustrates the orifice. Always check and verify correct orifice size. 41 B. Install the burner as shown in Figure 73 Ensurethatthe arm of the venturi of the burner is hooked onto the air shutter adjustment lever (refer to Figure 67on page 41).T he primary air opening can be adjusted by rotating the adjust- ment leverfrom beneath the fireboxfloor. Refer to Figure 65 on page 36for the recommended minimum primary air opening setting. Burner Orifice Sizes (all models) Natural Propane Elevation Gas Gas Feet (meters) drill sae (inches) drill size (inches) 0.4500 (0.125°)' #41(0.096°)' (0.1372) 21LB1• 211.82• Table 9 Standard size installed at factory • Part/Vat. Number a Figure 72 BURNER POSITIONING PAN BURNER . .................. —:----................. i PILOT ASSEMBLY Figure 73 NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE. Step 9. Reassemble the remaining components by reversing the procedures outlined in the preceding steps. Use pipe joint compound or Teflon tape on all pipe fittings before installing (ensure propane resistant compounds are used in propane ap- plications, do not use pipe joint compounds on flare fittings). Step 10. Attach the conversion label provided in the conversion kit to the rating plate on the appliance. Step 11. Turn on gas supply and test for gas leaks. ALWAYS TEST PRESSURE WITH THE VALVE REGULATOR CONTROL AT THE HIGHEST SETTING Lennox Hearth Products reserves the right to make changes at any time, without notice, in design, materials, specifications, prices and also to discontinue colors, styles and products. Consult your local distributor for fireplace code information. Printed in U.S.A. © 2003 Lennox Hearth Products P/N 850018M REV. H 01/2011 LE-- NNIX HEARTH (PRODUCTS 1508 Elm Hill Pike, Suite 108 • Nashville, TN 37210 V MODEL NO.: THE IRON & Warehouse SHOP' 6556 Superior Ave 8718 Westpark Drive Broomall, PA 19008 Sarasota, FL 34231 Houston, TX 77063 (610) 5447100 (813) 923-1479 (713) 789-0648 The Leading. Manufacturer of Spiral Stair Kits '" 6-0n, 5'-6", 6'-0", 6-6", 7' -0 - DIAMETER CODE STAIRS STANDARD #111 CODE: 2011 CITY OF LOS ANGELES BUILDING CODE, 2010 C.B.C. / 2010 I.R.C. & 01k 2009 I.B:C. & 2009 I.R.C. ; LOS ANGELES CITY LICENSED FABRICATOR #115:0 LOS ANGELES CITY . STANDARD PLAN CITYOF., SAN DIEGO STANDARD MASTER `PLAN #25 PTS PROJECT: • #231316 THIS,ANAIYSIS•VAUD.ONLY WITH VE SFJ1Lr & .SIGNATURE -OF 'ENGINEER Q�OFESSI0N9 E. WpoF�y 0 P�.232�6 IVES, SEP 19'12 WOOD Engineering, Inc. 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA. CA 91730 (909) 6U.5-1000 • FAX (909) 605-8999 Main Plant & Showroom Southem Showroom Southwest Showroom P. O. Box 547 & Warehouse & Warehouse 400 Reed Road 6556 Superior Ave 8718 Westpark Drive Broomall, PA 19008 Sarasota, FL 34231 Houston, TX 77063 (610) 5447100 (813) 923-1479 (713) 789-0648 (800) 523-7427 (800) 648-6990 (800) 438-4766 Fax (610) 5447297 Fax (813) 923-6176 Fax (713) 789-0720 CITY OF -` BUILDING & � Ems, ��" ;�� A PPROVEC�EPT. r FOR CONS TR CTION Midwest Sh No east Showroom West Coast Showroom & Warehoub_�46_ & 8 ar ouse: P. O. Box 3006 886 C�ambridge-Driv 5 est' venue -3949/1) Guasti Rd. Elk Grove Vil., IL 60007 am o , CT'06982 Ontario, CA. 91761-0901 (708) 952-9010 (203) 325-8466 (909) 605-1000 (800) 453-4766 (800) 523-4766 (800) 382-4766 Fax (708) 952-0496 Fax (203) 967-4677 1Fax(909) 605-8899605-8899 WOOD Engineering, Inc. sualECT 59 -/RAL SHEEPNO. / OF q3 WOOD Engineering, Inc. SUBIECT 5)'/RAL SHEETNO. -2 OF_ s�Bproa w rm.zi�yy STAIRWAY JOB NO. b5 -f32 s�&v;ti,,v rm.s.6 A 5TA IRP" Y Joe NO. 05-62 co,..wad� °re wya, /- 7-// rr,.,b,mime°smuieas'�aa+ FOB THE IRON 10040 FOOTHILL BOULEVARD FOB THE IRON DATE 10000 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989.2(187 - FAX (909) 989-8106 DESIGNED 8r--`� W. RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8100 DESIGNED BY u1. SHOP SHOP 5P/RAL 57-AIRNAY 5PIRAL 3rA/RN'AYRE0UIREMENT5 MODEL NO.: STANDARD tt//l /J (/009.1) {NIDTH = 44" M/N/MUM BUT, FOR 5P/RAL, EXCEPTION 2 26" MINIMUM PER 1009. R, AT CODE.• 20// CITY OF L05 AN6ELE5 BUILDING CODE - 8 BELOW HANDRAIL. 2010 GAL/FORN/A BYILO N& CODE WITH 2.) (/G'09.2) HEADROOM = 80" M/N/MUM BUT, FOR SPIRAL, L. A. 6/7YAMENOMENr5-20106.3. C. 8 2009 /.B,G. EXCEPTION, 78" MINIMUM PER /009,9, N 2010 CALIFORNIA RE5/0ENT/AL CODE 8 3J (/009.4) TREADS = // ' M/N/NAVM, 2009 INTERNA rIONAL RE5/DENTIAL CODE. R/5ER5 = 4 " M/N/MUM d 7" MAX/MUM BUT, FOR 5F -'RAL, EXCEPTION 3, TREAD = 7.5" M/NIN/UM A r /2" FROM NARROW LOA05 EDGE AND f J.5ER = 9.5" MAX/MUM PER 1009. D.L. = 10.0 P5.F. 300# GONG. 4J (1009.4.4/ TOLERANCE BETWEEN LARGEST AND L.L = 40.0 P,5.F, (a? 40,-.5.F. 5NON) OR LOAD Ar SMALLEST TREAD OR R15ER SHALL T,L. = 50.0 P,SF, EDGE OF NOT EXCEED 0.375 INCH. TREAD OR 300+ ON 5,) (10094.5) EXCEPT/0h5 50L/D R15ER NOT REQU/RED 4 5Q. IN. FOR 5FIRAL 57A/R, BUT G.R.G. 11.R.6. LIM17-5 OTHER LOA05 WA OPENING Tc-) NOT PA 3-53 4"DIAME7-ER SPHERE. 20 P,L,F. /N 1-3, F, H, ' 5 OCCUPANC/E5 NOT ACCESS/BLE TO GENERAL PURL /C. TREAD 9/16 ".MAX. RADIUS 50 P.L.F. AT TOP OF HANDRAIL (N0N-RE5/DENTIAL,) 200" LB.- ON HANDRAIL /N ANY D/REG r/ON U 500 ON ONE SQ. Fr, ON INTERMED/ATE RAIL5 m (NOT REQUIRED 5/MUL rANE0U5L )- PV1TH ABOVE /25" MAX. OTHER LOADSi. ONE-TH/RD ALLOWABLE 57RE55 INCREA55 NOT pr 3O' MAX pl ry PERMITTED WITH OTHER LOADS (1607, 7.13 DELETED/, WOOD Engineering, Inc. SUBJECT 5PIRAL SHEETNO. 3 OF_ WOOD Engineering, Inc. SUBJECT 51'/RAL SHEETND. 4 0F_ swrn seism5TA/RWAY 85 -BZ sm n W 5TAIRNA Y 85-82 r4*24&wq JOB NO. r b71�, JOBNO. Conru�/6Hesi�4'�aa�B rigs /- 7-// Okig D-0 —" FOR IRON FOR THE /ROH 10040 FOOTHILL BOULEVARDTHE DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (9 (909) 989-8106SHOP p9) 989-2087 - FAX DESIGNED BY W . RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-81 Oo DESIGNEO BY W SHOP 5PIRAL 5TAIR{YA4 - REQUIREMENTS SPIRAL 5T4/RNA7REQUIREMENT- 6,) (1009.5) LANDING WIDTH L2J (/009,!2,) HANDRA/L5_ HA1V0RA/L5 BOTH 510,-5, BUr, FOR MU57- EQUAL NIDTH OF �6 5PIRAL 37-A/R5, EXCEPTION 2., HANDRAIL ON -ONE SIDE 5TA/R. LAND/NG 15 FERMI TT O.. DIMEN5/ON IN DIREG TION OF TRAVEL MIV5T EQUAL /3J (1012.2) HANDRAIL HE/CHT = 34" MIN/MUM 8 38" MAX/MUM, OR EXCEED W/DTH OF 57-AIR5. 00OR5 5HALL 14.) (10123) HANDRAIL GP.A5P TYPE l OR TYPE 1l. NOT OPEN OVER LANDING. G/RGULAR: /.25" Mll//MUM B 2' MAXIMUM, 60° LANDING NON -CIRCULAR: 4" N/NIMUM B 6.25" MAXIMUM PES/METER 8 225" MAX/MUM 7,) (1009.6. /) NALKING SURFACES 5HALL BE A 50L /P G9055-5EG T/ON, SURFACE. EXCEPTION • OPENIN65 PERM/TIED HANDRA/L5 N/TH PER/METER 6RE,4TER THAN THAT N/LL Nor , -A55 //2" DIAMETER 5PHERE 6.25" 5HALL GOMPL Y NITH TYPE // DIMEN5/ON5 ELONGATED OPEN/N65 5HALL BE OR E00VALEN7- GRA6FP 511 -I7 -Y. ED6E5 5HALL PERPENDICULAR TO TRAVEL. HAVE 0.0/ INCH MINI,) -VM RAD1U5. HANDRAIL BJ (/0017 6-V OUTDOOR 5TA/R5 5HALL HAVE 5L OPE NOT TO /5J (1012 4) HANDRA/L GRIP SURFACE 5ALLU5rER EXCEED 22; TO PREVENT WATER SHALL BE CONr/NUO.J5 N/THOUr SMALLER ACCVNULATION ON NALK/NG 5URFAGE5. /NTERUPT/ON BY NEHEL P425 r5 THAN HANDRAIL OR OTHER 055 rRUCTIONS. /5 NOT 9J (/009.6.3) USEABLE 5PA6E UNDER 5FIRAL 5 TAIR5 SHALL (NEWEL -o5 r5 PERN'J rrED IN R-3/. 035 rRUC T/ON, NOT BE ENCLOSED. EXCEPTION 3. /6J (10126,1 HANDRAIL EXTEN5/ON5. TOP lOJ (/009.7) 12 Fr. MAX/MAIM BETNEEN FLOOR LEVEL5 OR EXTEND HANDRAIL /2" AT TOP HORIZONTAL LANDINGS, 8 BOTTOM 8 RETURIJ D CONTINUE TO GUARD, EXCEPT SLOPE 12" l/J (1009,9) 59 -/RAL 5TA/R3 MAYBE 415EO A5 A MEAN5 OF HANDRA/L5 /N EGRESS ONLY NI THIN DNELL INC VN1 T5 OR DNEL L INC -5 NEED Ohl. Y EXTEND a FROM A 5PAGE NOT MORE THAN 250 50.Fr, FROM TOP R15ER TO BOTTOM AND SERVING NOT MORE THAN 5 OCCUPANTS l2" R15ER NOT REQUIRED OR FROM GALLERlE5, 6ATNALK5, AND TO BE AGGE5515LE,- BOTTOM 6R/0IRONS IN ACCORDANCE WI TH 5EG T/ON 10156. WOOD Engineering, Inc. suaj_ 5P/RAL SHEETNO. 5 OF_ WOOD Engineering, Inc. sueJEcr SP/RAL sHEETNo. 6 oF_ sftc,,,,Ew,, w STAIRWAY 85-82 5TA/RWAY 85-82 rnb zt Enayy JOB NO. Ry 24 E -W Jos NO. LBBOULEVARD /- 7-// BOU /- 7-// FOB THE IRON FOB THE IRON 100400040 FOOTHILL DATE 100400040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY —` W RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . SHOP SHOP 5P/RAL 5TA/RNAYRE0UIREMENT5 GHAF7-ER 22 (STEEw /7J (/OL2.7) CLEARANCE l //2" 0 (2205/) ALLOWABLE STRESS DE5/6N PER A./5G. 360-05 /8,J (/0128) HANDRAIL NO SHARP ED6E5 ON h WHICH SUPERGEDES A.1 -15.C. 335-695/ SHALL NOT PROJECT WALL AT HANDRAIL SUPPLEMENT #/ SPEGIF/GAT/ON FOR STRUCTURAL INTO REQU/RED WIDTH WALL STEEL ELIILD/NG5 AND A.lSG. 34/-02 5E/51-f/G OF 5TA/RNA )' MORE PROV/5/ON5 FOR STRUCTURAL 57 -EEL BUILD/NGS. THAN 4.5 INCHES. Z) (2205.2) 5E15M1G DE5/61V PER A./.S. C. 34/-05, PART /9J (/013.1) GUARD5. REQUIRED ON O IF R /5 GREATER THAN 3.0. 5TAIRNA )' AND LANDING. (/0/32) GUARD5 SHALL BE 3✓ PER A.LS.G. 360 BZ LOAD GOMB/A1A_T/ONS PER 42" HIGH. GUARD5 USED A5 APPLICABLE Q//LD/NG GODS. (l/3 INCREASE FOR W/ND HANDRAIL IN IN01VIA94VAL l l/2 / 1/2" B SEISMIC /5 NO LONGER ALLOWED BY DELETION. DWELL/NG MAY BE 34" TOHANDRAIL A5 5EE A.lSG. 335 ). 38" ABOVE TREAD N05ING. CLEARANCES 4J A.IS.C. 341-05 5PEC/FIGAT/0N5 ARE FOR MOMENT 20.J (1013.3) OPEN/NGS IN 6UAR05 SHALL HAVE FRAMES AND BRACED FRAMES. WHERE R /5 GREATER BALLU57ER5 OR PATTERNS SUCH THAT THAN 3.0. 4"0IAME7-ER SPHERE WILL NOT P TRIANGULAR OPENRE T RISEN' TREAD, 8 5) (221OJ GOLD -FORMED 57EEL PER NORTH AMER/GAN BOTTOM )F.4/L SHALL LL NOO T PA55 A SPEGIFIGAT/ON FOR THE DE5/6N OF 6" DIAMETER SPHERE. 5TA/R5 TO ACCESS GOLD -FORMED 5TEEL 5rRU67URAL MEMBERS PLUMB/N6, ELEC TR/GAL, OR MECHANICAL SYSTEMS (A. /5. /. -NASPEGJ. OR EQUIPMENT OR IN GROUP /-3, F, H, 8 5 GONGLU5101V OCCLIPANCIES 15 LIMITED TO 21 " DIAMETER SPHERE.' 4.375" D/AMETEK SPHERE PERMITTED IN /ND/WrIVAL EVALUATE ALL 5TEEL PARTS. 1/3 INCREASE PER 3.) DWELL INC UNI T5. ABOVE /5 NOT PERMITTED. AL50, EVALUATE ALL LIGHT GAGE STEEL PER A.I.5.1. 5/00-07. BOL T5 SHALL 60MFL Y N/TH A.S. T.M. A307. WOOD Engineering, Inc. sueJEa SPIRAL,. sHEEr-NO. 7 OF_ WOOD Engineering, Inc. _aj_ 5P/RAL SHEETNO. 8 OF_ yy,iy W&Ph—ym STA/RNAr 85-82 sem' e STA IRNA Y85-82 RM laburpy JOB NO. r2bzaEmpy Joe No. Crmacd6Ras:>�na'BuliyO� /- 7-// Gmnmm/dRa�brrtn/Buffig�9^ /-7-// - FOR THE IRON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY �" . W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY SHOP SHOP GHIAPTTER 20 (ALamlmlm) LATERAL LOADS HIND: 0 42002.0 ANALYT/GAL PROCEDURE (A.S.G.E. 7-05, 6.5.1) USE. AA A5M 35 ANO AA ADM /-05 FOR DE5/6N, H = 36' MAX. 5' MIN. N/TH LOADS PER CHAPTER 16. V = 90 M.P.H. G' (FIG. 6-U 7' MAX. Ke = 0.85 (TABLE 6-4) (SIMILAR TO LA TT/GE FRAMENORK) N /� = LO (TABLE 6-1) (OCCUPANCY CATEGORY / OR l/) Q � N Ke = Ke = 0.98 AVG. (TABLE 6-3) z FOR EXP. G' CASE / e 2 nl = 30' (CENTER OF AREA) WO. T PO RE�7E/GKT lEX CITY' I- Q U I VTA E��E_TEASz5 7- BVLDI,-kGA��1K�2H K2 0ORK3 O)APP + VR (H/N = 12/5 = 2.4 � 4,0 .: RIGID 8 Gv N/A) .5.C.E. PA6E ?B? DATq - 000256 V.(K:e Ko V --2W = 000256(0.9BJ(LO) 0.85)(`!0)" -(i.oJ WOOD Engineering, Inc. sUBJEcr SP/RAL SHEETNO. q OF_ WOOD Engineering, Inc. soma 5P/RAL SHEETNO. /O OF_ 5TAIRPNAY 85-62 s ma&bv-m 5TA/R/NAY 85-62 JOBNO. JOB 140. macre na,� /-7-1/ La,...� me�a�rreL> /-7-1/ THE IRON FOR THE /RON 10040 FOOTHILL BOULEVARDFOB RANCHO CUCAMONGA. CA 91730 DATE 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA, CA 917 DATE SHOP SHOP (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W (909) 989-2087 . FAX(909)98"106 DESIGNED BY LATERAL LOADS LATERAL LOA05 fN/ND {N/NO 3/4" SQ. PROJECTED AREA KA V&- PER Fr / 5ALL057-ER F = (:l: G GF AF 16.5..5, OTHER 5TRZ1677/RE) TREAD = P4" + -2';11-2140 " x ® 4" O.G. AVG. (213/(/2%9" o.G J/FT. 8 2" O.G. AVG. 6 = 0.65 P5EE ABO�-F) = /07 5Q.IN-IF T. PRO./ECT/ON GF = 46 AV6. SPAGN6 -�_ AF = /. 43 BALLU5TER5 = 0. 75((4" r 2'Y/2J x 12'%FT. F = 16.0(0.85)l6P1431 = 27 SQINAFT. = 24.5 P.5.F.(143 SQ.FT/ = 350 5A)' 35 P.L.F. HANDRAIL = 2" d x L2%F7-. CONCLUSION.• 115E 35 P.L.F. FOR W/ND LOAD ON COLUMN = 24 50./N./Fr. SPLICE ® FOR 7-O" DIAMETER MAX. 5TA/RPNAY. COLUMN = 4"x /2%FT. 2nd 57ORY = 46 50.INIFT. . j 2",P ArorAL = 107,,_27,,_24 46 MAX. = 206 SQ. WAFT. AF = (206//44/ = /43 50.FrAF7. I U (213) AV6. 1 A&RO5.5 = (44 " x /2'YI/44 TREAD d Q = 3.67 50.FT./FT. PROJECTION E = AF/AG = 14313.67 4' m = 0.39 ,> 0.3 t 0.7 - GF = /.6 (F/6. 6-22 LATT/G 4" 40" ry FRAMEH'ORK5, FLAT 51,9E,9 /MEMBERS) 7 -0" m MAX. WOOD Engineering, Inc. SUaIECf SP/RAL 91EETNo: /i oF_ WOOD-Engineering, Inc. -alECT�5P/RAL SNEETNO. 12 aF= 24 STA/RINAY 65-62 s== STA/R{NAY 65-62 .Ioe No. roe No. /- 7-// /- 7-// �q THE IRON FOR THE IRON looao FOOTHILL BOULEVARD DATE looao FOOTHILL BOULEVARD DATERAN (909) 89-2087C-4MONGA. CA FFAX (909) 989-8306 DESIGNED BY �. W . RANCHO CUCAMONGA. (90 CA 917TJ (909) 989-2087 - FAX (909) 989-8 ID6 DESIGNED BY 5HOP SHOP LA-TERAL L-OAD5• G.B.G. / LB:G::' Ss = 2.'85"' LATERAL LOAD5- G.B.C. / /B.G:: 5s = 265 5E/5M/G 51 = 130 5E151-116 (GONO 51 = 130 CODE. 20/0 G.B.G. 12009 1B.G. 4.) (114.3) AD,l5TEO MAXIMUM E.O. 5PECTiRAL G.B.G. / I.B.G. /613/, DEFERS TO A.5.C.E. 7, RESPONSE AC6ELERA7/ON5 EXGLUD/N6 CHAPTER 14 8 APPEND/X 1/A. 5Ms = Fo 5s = /0(265)9 = 2. 0-': 1) (/14.1/ MAPPED ACCELERATION PARAMETERS SMi = F` 5 = 1.50(/.30)9 = 1959 5s (0.2 5EG.) = 265 OR 2.0 (FIG. 22-1) - vlE toEFFtcow aAsuo Lwow slm GLA55 51 (10 5EC.) = 130 OR /0 (FIC. 22-2) NIA .=OR 5/MPL/F/ED PROCEDURE P'YOR5T CA5E FOR M05 OF GAL IFORN/A 5J (114.4) DE5/6N 5PE-_TRAL RE5PON5E AGGELERA RON5 8 UNI TED 5 TA rE5. (BUT 5s NEED NOT 5ns = 2/3 5,.. = 213(2.65)g = 1.909 EXCEED 1.5 PER 126.1.3 ANAL )'TIGAL OR ^ PER 12.14.6.1Sos AND 12/4.6./ 51MFLIFIED FOR REGULAR = (2/3 FaSs = (2/3)14Pl.SJ 5TRUC 7URE LE55 THAN 5 57-OR/E5 = 1, 40 IN/ 51HRL IFIEO DE5/6N 8 T < 0.5s) 5oi = 213 3ai = 21%195)g 2.) (1114.2/ 51 TE GL A55 = 130g (NIA FOR 5/MPL IF/ED) 517-5 CL A55 = D (DEFAUL T PN/O 50IL5 REPORT UNLE55 E ORF 15 REO V. 6.) K11. 4.5 8 /1.4.6) DE5'6N RESPONSE 5PEC rRUM AND MGE 5)'5L,96. DEPT/ RE5.=10N5E 5PEC TRUM NOT REOU/RED FOR 12.6 EQUIVALENT LATERAL FORGE 3) (114.3) 5/TE COEFFICIENT (FOR 51 TE GLA55 D) PRG_;EDURE. (N/A FOR 5/MPLIFIED) 55,1 1-25 .: Fo = lO (TABLE /14-1) 7) (115.1) IMPORTANCE FAC FOR / OR / = 10 FOR OCCUPANCY CATE60RY / OR H Fo = /.40 /NI51AIPLIF/ED DE5/6N PER /2/4 TABLE /-1 TYP OFFICE, HOUSE, ETC. A55EMBL :' � 300 OCCUP. 51 > 0.50 .: Fv = /.5 (TABLE /14-2) SCHOOL X250 (N/A FOR 5/MPL /FIED) HEAL TN CARE < 50 NO HAZMf T SEE TABL-= 11.5-/ FOR ALL OGGUPANC/ES WOOD Engineering, Inc. SUBJECT 5P/R4L SHEETNO. /3 OF_ WOOD Engineering, hw. SUBJECT 5P/RAL SNEETNO. /4 OF_ SmcNa/` 5TAIRWAY 85-82 &V s STAIRWAY 85-82 Joe No. Jos No. /-7-H FOR THE /ROH 10040 FOOTHILLR�� UEso�iEVARD DATE 10040 FOOTHILL BOULEVARD FOR THE IRON DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY -`_ W RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . SHOP SHOP LATERAL LOAD5 G.B.G. / I.B.G.: 5s = 2.85 LATERAL LOA05 G.B.G. / I.B.G.: 53 = 285 5E/5M/G 51 /.30 505M/G 51 = /30 8.) (//6) SEISM/G DE5/6N CATEGORY (5.0 CG) /0 tIL22. // STRUC TURAL 5) 5 rEM.. 61 = 450g > 0.75 .: 5. D. G. = E (N/A FOR SIMPLIFIED/ LIGHT FRAMED HAL L5 SHEATHED W/TH WOOD 5 rRUC 7URAL PANEL 5. 5os = 1. aog � o.sog a OCCUPANC)' GA TE60R>' = II .: 5.0.45. = D R = 6 1/2 O/APM?A6M OR ",-FLEXIBLE fl 3-1/2=2//2 WA 5os = 440 > 0.50 .: S.D.G. = D FOR SIMPLIFIED BUT 51 = 130g ,) 0. 7-1;g .: 5.D.G. = E (WA FOR /2) (/22.3.1) COMB/NAT/ON OF LIGHT FRAMED WALL5 5/MPLIF1E191) WHEN U5EO W/TH 5P/RAL 5TA/R Soi = 430g � 020g d (ORO/NAR)' MOMENT FRAME% OCCUPANCY CATEGORY = /l .: 5.0.45. = D (N/A FOR R=3//26//2 S/MPL IF/ED) rl o = 2Oj-WA BUT 51 = /.30g -> 0.75g .: S.D.G. = E (WA FOR 5/1-fPL/F/ED) /3J (/22.5.7% 5TEEL ORD/NAR)' MOMENT FRAME /5 PERMITTED IN L IGHT FRAME UP TO 35 FT. GONGLU5/0N: S.D.G. = E /4J (!232/) FOR TYP/GAL 5P/RAL 5TA/R5, NO HORIZONTAL OR /RRE6ULAR177E5 PER TABLE /2.3-/ 5.0.G. = D FOR SIMPLIFIED. /0.: NO TOR51ONAL /RRE6ULARI7-)- 9.) (/4B./) FOR 5.0.45. = E OR F, STRUCTURE SHALL NOT BE /b.: NO EXTREME 71OR5/0NAL IRREGULAR/TY. LOCATED WHERE THERE 15 A KNOWN POTENT/AL. 2: NO RE-ENTRANT CORNERS_ FOR AN AC T/VE FAUL T TO CAU55 RUPTURE OF 3.: NO 0IAPI-1RA&M DISGONTINVI TIE5 THE GROUND SURFACE AT THE 5TR4vG7URE. , > 50 % OF AREA. (N/A FOR 5/1-fPLz 4.: NO OUT OF PLAN OFFSETS. I x 5.: NO NON-PARALLEL SHEAR WALL5 WITH MAJOR AX/S. /O.) 22. /4. /) 5/14PL /FIE° OE5I6N /5 NOT APP! /GABLE 5,) d 6) ARE NOT 5A775FIED. WOOD EnOneering,. Inc. -a- SP=IRAL SHEETNO./5 OF= WOOD Engineering, Inc. suBJEcT SPIRAL SHEETNO.16OF_ Smcnd&w--v STAIRWAY 85-82 Sm.".wEp-v 5TA/RWA)' 85-82 r&24&.w Joe NO. MW 24 bwpy Joe No /- FOR THE IRON FOR THE IRON 10040 FOOTHILLBOULEVAARRD DAA 10040 FooT1+iLL�BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY �" . W . RANCHO CUCAMONGA, CA 91730 (909) 989.2087 - FAX (909) 989-8106 DESIGNED BY �W. SHOP SHOP LA-TERAL LOA05 C.5.G: / /.B.45.: 55 = 265' LATERAL LOA05 G:B.'G. / LB.G.: 5.5--2.e5 2.65 5E/5M/G 51 = /30 SEISMIC 51 = 430 15J (!2.32-2) FOR TYP/GAL SPIRAL 5TAIR, NO ✓ERT/GAL 20.) (!242.3) 5515MIC LOAD COMBINATIONS /RRE61ZAR/7-IE5PER TABLE /2.3-2. ALLOWABLE STRESS DE5/6N la. 8 /b.: NO SOFT STORY. 5. (/.O + 0.14505)0 + H + F + O 7,0 OE 2: NO WEIGHT MA55 /RREC74VLAR/TY, 6. (40 + 0.105505)° + H + F + 0.525P OE 3.: NO VERT/GAL 6E6`METRI45 /RRE6ULARIT)'. 4.: NO VERT/GAL IN-PLANE 015GONTINUIT/E5. + 0 75L + 0.75(Lr OR 5 OR R) 50. f 5b.: NO WEAK STORY OR 8. (0.6 - O./4505)0 + O. 7,0 OE + H EXTREME WEAK STORY. /6J (1234.1) REDUNDANC)-, RHO 21.) (124.23) 5E15MIC LOAD COMB/NATIONS ALLOWABLE STRESS O55/6N EVALUATION _ RHO = 40 (NON-BV/LD/NB 5TRUG7URE h�-; Si0 0. ( O.TSD��%D + H + F + 7P QE v ©f LG-O BO .a NOT 5/M/LAR TO BUILD/NB) M RHO = LO G u I l NO�T��O 51,9ER-A NO FLUID FOR !ATL R L DESS PT. PRESSURES. /7J (124.2) 5E/5M/6 LOAD EFFECTFOR ! %SQL Od��O 9A72E, E = Eh + Ev FOR COMBO 5 d6. Z:uEARTH ESSUI E /5 NOT A GON5/DERAT/ON E = Eh - Ev FOR COMBO 8. LATE _- GO 6 LU l6,) (12.4.2.1) HORIZONTAL 505MIC LOAD EFFEC T5 J.O Q l4 x 43310 '-_0 7P OF Eh = P QE = /OV OR /OFP 4/80 + 0.7(40)OE _ 1./8D + 0.700E /9) (L42-) VERT/GAL 5E/5M/C, LOAD EFFECT Ev = 0.25°50 = 0.2(433)0 = 0.2660 WOOD Inc. SUBJECT 5P/RAL SHEETNO. /7 OF_ WOOD Engineering, Inc. SUBJECT 5P/RAL SHEETNO. l8 OF - F_STAIRWAY 5 7A IRNAr JOB NO.- 85-82 spm STAIRWAY 85-82 _ My2e�yy Carvnp W&R.,a. NB.2*WD.*. 1-7-H I7¢B24&I"y CamrerM�W@R-U-.W&*ft JOB NO. /- 7-// FOR THE IRON FOR IRON 10040 FOOTHILL BOULEVARDTHE DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 C909)989-2087 - FAX(909)989-81(36 DESIGNED BY -` W RANCHO CUCAMONGA, CA 91750 (909) 989-2087 - FAX (909) 989-8'06 DESIGNED BY -`-�'. W . SHOP SHOP LATERAL LOADS G.B.G. / I.B.G.: 5s = 2.85 LATERAL LOA05 G.B.G. / 46.C.: Ss = 285 5E15M1G 51 430 5E15M/G 51 430 2I) (2242.3) SEISM/G LOAD COMB/NAT/(-?NS CONT) -2Z) (124.3) SEISMIC LOAD EFFECT INCLUDING ALLOWABLE 57-RE55 OE5I6N EVALUATION (CONT) OVER5TRcN6TH FACTOR. NOT APPLICABLE COMBO 6. (lO + O. %05505)0 + H + F FOR L 16H� FRAME. 5EE 12.10.2.1 +0.-25PQE + 0. 75L COMBO 5. 23) (12.5) OIREGT/ON OF LOAD/N6 r 0.75(Lr OR 5 OR R) (12.5-) SEISMIC 0E5I6H CATEGORY B 2 ORTHA&ONAL 01RE6TIONS FOR EXTERIOR STAIR Lr, NE6LEC - INTERACTION. $ RARE LE55 GRI TICAL (1253) SD.C. G THAN 0.75L OR 0.755 SAME A3 B UNLE55 TYPE 5 HORIZONTAL (0.755 GR/T/GAL W/ 1RRE6ULAR17) PER TABLE 12.3-1 SNOW FOR SEISMIC) NO IRRE�5ULARITY .: 5AME A5 B. (125.4) S.D.C. D, E: d F FOR 5P/RAL 5TA/R5 /NTER5EGT1N6 COLUMNS (/.O + 0../050433))j + 0.525(40)05 + 0.755 OR 51-IEARPYALL5 FROM 2 DIRECTIONS ARE 1.140 + 0.5250E + 0.755 NOT GR/TIGAL FOR COMBINED LOAOIN6. 5EE COMBO 5. GONCLUS-ON. COMBO 8. (0.6 - 0./45,95)0 + 0.7p OE + H OE516N -'OR 5E15MIC LOAD FROM 2 ORT-ONAL AX15E5. (0.6 - O./4(433))p + 0.7(40)QE TYPE 5 HORIZONTAL IRREGULAR/TY 0.4/0 + 0.700E-�_d LE55 GRIT/GAL NOT PERMITTED. THAN COMBO 5. FOR: COMBO 5, 6., e 0. 5. 8 6. ARE CRITICAL. 24.) (12.6) ANAL Y515 PROCEDURE FOR S.D.G., OCCUPANCY CATE50RY 18 L/6HT FRAME9 NOT EX6EEDIN6 3 STORIES. USE: Vaas--oc516N = 0.7QE N/ 4/80 (COMBO 5.) A.50. OR Va45E Dewsw = 0.5250E N/ 4140 + 0. 755 (COMBO 6.) USE.. E04JI.VALENT LA TERAL FORGE PROGEOURE PER TABLE /26-1. WOOD' Engineering, -Inc. SUBJECT SPIRAL SHEETNO. Iq OF_ WOOD Engineering; Inc. SUBJECT.SPIRAL SHEETNO. -20OF_ S>N STA/RINAY 85-82 S vy STAIRWAY BS -B2 JOB NO. M1024&- JOB NO. C__"OR /8."wAajp /- 7 -II CoM+moalARacc�rJa/Burffig /-7-// FOR THE IRON 10040 FOOTHILL BOULEVARDf-0B THE IRON DATE - 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY �- W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8136 DESIGNED BY W SHOP SHOP _ L-A-TERA1-LOAC75- G:B:G: /LB.G:: Ss = 285`` LATERAL.LOADS:: G.B.G: /4B.G.: 5s =-2.05` SEISMIC Si = 430 5E15MIG 51 = 1.30 25) (22.72) EFFECT/VE SEISM/G NEI6H7- (N) -2 T) (I2.4) EQUIVALENT L-4TERAL FORGE PROCEDURE R = 3.5 (TABLE 122-1, 6.4) W = D + 0.25 STORAGE + l0 P.S.F. PART/TION BUT USE R = 3.0 PER A. I. 5. C. SPEC. All + EQUIPMENT + 0205 /e = 40 (TABLE 145-1) OGGUPANC )' CATEGORY l OR l/ INHERE 5,> 30 P.S.F. J 2 (U.492. III BUILDING PcRIOD WHERE 20 P.S.F. /5 /)SED (128.2) T = To = Gt (hn) X Gt = 0.028 FOR VERTICAL LOADS (TABLE 12.e--2) T = 0.020(:-:6100 X = 0.80 COMBO 5. N = 1./00 = 0.020(1 ; /q) hn = 30' MAX. COMBO 6. W = 41429 + 0.755 (12.8.43) =043<0.5,f (MIDDLE OF < 5 STORIES MA55 AT 26.) (42.7.3) STRUCTURAL MODEL /N6. - 55 = 1.309 3 -STORY) FOR Ll6HT FRAME STAIRS NITH FLEX/BLE 55 = 450 COLUMN, STIFFNESS AND L715TRIBUTION OF 5EE (1202 FORGES HILL NOT BE GONSIOERED. 5,30y = /9 SITE 6LA55 D (5EE 2.)) 3s,> 425 .: Fa = 40 31>0.50 Fv= 1.5 5r6 = Fa Ss = l.0 x 1.50g = 450g 5ml FvSi=45x430g=1.g5g 5,,,, = 2/3 5m = 2/3(4509) _ /.09 5oi = 2/3 5, = 2130115g) = 4309 WOOD Engineering, Inc. SUBS 5P/RAL SHEETNO.�/ OF_ WOOD Engineering� Inc. SUBJECT SP/RAL SHEET N0. 22 OF_ s..ft„J &w_iv 5 TA/RWA Y 85-62 s 5 7-A IRNA Y e5-82 JOB No. « M12/-7-// Joe No. BA_,md& s A"vn /-7-// FOR THE -IRON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY _--2- W RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY -_. W SHOP 5HOP LATERAL LOADS G.B.G. / IB. G.: 5s = 2.85 LATERAL LOAD5 G.B.G. / I.B.C.: 5s = 2.65 5E15MIC ivr ^ Lw caAmv ser vao" --� 5 = /30 SEISMIC avr is CALCKA 7Ea ---� 5i = 130 27) (126) EQU/VALENT LATERAL FORGE PROCEDURE (CONT) 26J K/26.3) VERTICAL 0/57RIBUT/ON OF 5E15MIC FORGES Vance = Gs W T = 0.43 < 0.50 (5EE 27)) Gs = Sas/(R//E/ K = /.0 Gs = /.0 / (3.0 / /.0) = 0.333 hx = 30; V = VaA5E DE5/6N,• W/ = Wx = A13 Fx=CvxV OR hx = 30'GRITIGAL Gs m --y = 5a/ / MR / l E) k _ /.30 / (0.43(3.0 / /O)) Gvx = Wx 17X= BOW = 30W = 0.56 _ /.006 (126.13) k 54W �. N, h OR /41 - Gvx=0.56 Fx = 0.56 Va4se OR = 0.56(3W x 0.233) 30 Gs "x = 0.5 51 / (R / 1E) = 0. 130)/(30//0) = 0217 40 C-5 0.333 OR VaAa- = Gs W = 0.333W W PER 20 02.4.3% A.5.0. OE5I6N EVALUATION Fx = 0.56 Va4W FOR 49A5/G COMBINATIONS = 0.56(3W x 0.175) l6' VaAw = OE = 0.333W = 0.294W U5E.• COMBO 5. 05E. COMBO 5: Va4sFaE5/6N = 0.7(0.333`1() + 1160 A.S.D.' Fx = Vx = 0.391W W OR OR COMBO 6: Va,_E_-n J6N = 0.5250.333W% + 1/4D + 0.755 45OM500 6. = 0./75/1 + 1.140 + 0.755 Fx = 0.294/1 3" WOOD Engineering, Inc. SUBJECT 5P1R:4L -AIRWAY SHEETNo:23 OF_ WOOD -Engineering, -Inc. sUBJECf. SPIRAL SHEET NO.2`F OF S....W 57 e5-62 Em 5TAIRWAY 85-82 Ttle laEnmyy JOB NO. )"lb7sEnvgy JOB No. [anmrcwe xerbna�e/BuNiy tin I_ cam�vchlb,sssudnra/e*6v D-01 /- 7-// 10040 FOOTHILL BOULEVARD FOR THE IRON DATE 10040 FOOTHILL BOULEVARD FOR THE IRON DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY SHOP SHOP �- LA-TERAL LOA- D5' G:B.G. / LBC.: 5s '= 285 " LATERAL LOADS G.B.G` / LB:C' ' Ss =2e5 5E15M16 evr Ls GALeZtAmo 5/ = 130 SEISMIC a? is CALc4XA7Eo 51 = 130 29J (/2.6.4) HORIZONTAL SHEAR 015 TR/BUTTON Fs = 0.391 ?Vx Vx = E FJ SUMMARY. A.S.D. J - / OR 0.391 Wv 1 IE = /.0 B OCCUPANCY CATEGORY / OR /l Vx = 0.39/ WP GR/TICAL ® 3RD LEVEL 2 5s = 1.50g, 5, = 130g (BUT GOOD FOR 5s = 265 OUE TO Gs 3A5ED UPON MAX 5s FOR T t 0.5s) 115E.- SAME A5 25% 30.J LOAD GOMBINA RON SUMMARY �4. I5os[[ = 1!00g, 15oQQi�= ��3��091 N TA �5 5/E/��3 IC, D^�GMF�TEG��a USE. COMBO 5. ocaLr For -516N = 0.39//1 + 1.160 . F� P P 7\ /p n 6. 5E/5MIC FORCE-RESISTlN6 5Y5TE OR COMBO 6. a - 019 7. OE5I6N BA 5E SHEAR: Foes16N = 0.294/1 + 1140 + 0.755 SATE VaASE=Esi6N= �,?39W BUT 0.39/W OR 3RD-L-EV-EL_5_TA/R. I 6. SEISMIC RE5PON5E GOEFF/G1ENT.- Gs = 0.333 9. RESPONSE MODIF/GA T/ON FAG TOR: R = 3.0 /0. ANALY515 PROCEDURE: EQUIVALENT LATERAL FORGE WOOD Engineering, Joe, SUBJECT 5P/RAL SHEET NO. 25 OF_ WOOD Enaneering, Inc. BUBIELT 5P/RAL SHEET NO. 26 OF_ sm.n,W&W—m 5TA/RPVA7' JOB NO. 85-62 smcn mE %v 5TAIR/NAY BS -02 iN.NEndyy m'mtlraMm Ra9�BWSpAas(vr 7, 75 /- 7- 7711,N&Ww Q,mwrtYmReWnd✓BdIS'SrLhU /0/0 JOB NO. /-7- 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA, CA 91730 FOR THE IRON DATE 10040 Foos -nu sou(FVARo RANCHO CUCAMONGA, BOOL CA 91730 FOR THE IRON DATE (909) 989-2087 - FAX (909) 989-8106 SHOP DESIGNED BY —�. W. (909) 989.2087 - FAX (909) 989-8106 SHOP DESIGNED BY TREAD OE516N TREAD DE51GN (/00 P,5 Fi /00 P,5.F. L.L. 5'-0" D1AM. TO 7'-0" DIAM. _SAMPLE GALL: R = 2'-6" TREAD SAMPLE GALL: a = 5/N(8/2)R = 5/N 15'R = 0.259R = 7.75" X omv 1124 a=5/NAxR X 14.30 R_/=30"_/=29" R -/-X nv /776 BASE -21.73 2 2569 MWIF nN-I.W 3,64/ 4,66/ A=[(3+2a)/2!rR-l/=(1.,S+ai(R-U=26850.1N, 7,967 9,966 R-15 nNv 26.5 3150 PwF. = (L + 0,W144 = 000 + /0,)268//44 = 205# 30 40.50 PcaAe/2 2eJ 150 /50 150 150 — - — - �-G' 4,275 4,725 5,175 300# 6,075 V2BJ/ oHlmJ 300 300 3OpJr /3;C`# /-50# X=(3(R-V2/2+(2a-3/(R-U2/6J/A -= (3(30 - /) 2/2 1(2(7, 75,) - 3,)(30 - l)"2/61/268 _ ('1,26/ + /,752/1/266 = 3,0/3/262 = 11.24" R - COL. ¢ = 205(30 - I - /1.24,) 300# = 3,641 (N. -LB. -'75# R-1.5=30-1.5=26.5" R= 30" i i i FL McoA. _ (,-wNc/2)(R - 1.5) = 150(26.0,) = 4,275 /N. -L B. 60 V. A =[(3+/5.5)/212= 266 50. IN. 9 Pun/" = 50 P.5.F,(266/144) = 93# —IM—M® BASE = 3(12q)^212 + /2.5(21)"2/6 = 266X X = (1262 + 1752) / 266 = /1.24" Munif = 93(29 - I/.24,) _ Mconc = (300#1-2)K20.5,) = 4,275"#— 60V. LOAD 6HAR/N6 BY(2) TREADS. GONNEGTED AT EDGE lNITH BALL05TER (5P/NOLE) WOOD:EngineerW& Inc. >W�mza EMvgy CammoN m Read B� g [6y y� 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 TREAD'DE.516N (700- P.-5. SUBJECF. 5)W -/RAL. SHEEFNO.27 OF_ STAIRWAY_ JOB NO. 65-62 6'-&"O DATE /- 7-/I DESIGNED BY W . FOR THE IRON 5HOP 33" /00 P.S.F. L.L. WOOD -Engineering; Inc. S1IBJECT SPIRAL 'SHEEFNO. 26 OF sm,n,dEy rdvy 5 r IRNNAY85-62 i26II Cvnpy - 108 N0. 10040 FOOTHILL BOULEVARDFORTHE /R&?/V' DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 SHOP DESIGNED BY Ltl. TREAD DE5/6N SAMPLE GALL: a = 5/N(0/2)R = 5/N 15'R = 0259R = 7.75" R-/= 30"-1 = 29" A=[(3+2a)/21(R-U=(115+a/(R-l/=26650.1N, P,wlF = (L + 0,)A/144 = (4e,?,, 10)266/144 = 93# X =[3(R -4)212+(2a -3)(R -I) -2161/A = (3(30 - 0^212 + (2(7, 75) - 3)(30 - 0^21611-26,13 = [1/,261 + 1,752)11266 = 3,0/3/266 = 1/24" MGVF. = -WF(R - I - X) 93(30 - I - 1124) 1,651 /N. -LB. R-1.5= 30-15=26.5" Mcovn _ (Pcovc12)(R - 1.5) = 150(26.0,) = 4,275 /N,-LB.---GOV. 5'-0-4P 5'-6-0 6' O" O 6'-&"O 7' -O - m R 30" 33" 36" 39" 42" a n.9.) 7, 75 6,55 9.32 /0/0 /0.66 R-1 nw 29 32 35 36 41 A moo. u+v 266 322 379 44/ 506 PumF, lei 205 246 290 337 366 X omv 1124 1224 /327 14.30 15.31 R -/-X nv /776 /9. 76 -21.73 23 70 2569 MWIF nN-I.W 3,64/ 4,66/ 6,302 7,967 9,966 R-15 nNv 26.5 3150 34.50. 37.50 40.50 PcaAe/2 2eJ 150 /50 150 150 /50 McaNz. JIT( -LB./ 4,275 4,725 5,175 5,625: 6,075 V2BJ/ oHlmJ 300 300 300 337 368 WOOD -Engineering; Inc. S1IBJECT SPIRAL 'SHEEFNO. 26 OF sm,n,dEy rdvy 5 r IRNNAY85-62 i26II Cvnpy - 108 N0. 10040 FOOTHILL BOULEVARDFORTHE /R&?/V' DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 SHOP DESIGNED BY Ltl. TREAD DE5/6N SAMPLE GALL: a = 5/N(0/2)R = 5/N 15'R = 0259R = 7.75" R-/= 30"-1 = 29" A=[(3+2a)/21(R-U=(115+a/(R-l/=26650.1N, P,wlF = (L + 0,)A/144 = (4e,?,, 10)266/144 = 93# X =[3(R -4)212+(2a -3)(R -I) -2161/A = (3(30 - 0^212 + (2(7, 75) - 3)(30 - 0^21611-26,13 = [1/,261 + 1,752)11266 = 3,0/3/266 = 1/24" MGVF. = -WF(R - I - X) 93(30 - I - 1124) 1,651 /N. -LB. R-1.5= 30-15=26.5" Mcovn _ (Pcovc12)(R - 1.5) = 150(26.0,) = 4,275 /N,-LB.---GOV. WOOD Engineering, Inc. se �Nb�ip Harr Ensor Lbmwrly 6 Rash brnN BJGm CW�n 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 TREAD OE5/61V (40 P.5.F) sUBJECT 5P/RAL SHEETNO.29 OF_ WOOD Engineering, Inn. suBIEa 5F/RAL SHEETNO. 30OF_ 5TA/R{NAY 65-62 5nrar6vv-.9 57-A/RWAY 65-62 39" JOB ND. nbbZ4&-W 7.75 JOB No. 9..32 /- 0.7.. w&R-bW.W&89p D-bn R-/ aw /- 7-I/ FOR THE IRON DATE 10040 FOOTHILL BOULEVARD FOR THE IRON DATE SHOP DESIGNED SY - _ u/ RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 SHOP DESIGNED BY FaVlF. Zai 40 P.5.F. L.L. TREAD OE5/61V 132 //6"STEEL 3" x 4" G -GROSS 5E6 7 -/e -?N PROPERT/E5 5'--O" d 5'-6" d 6'-0 " d 6'-6" d 7'-0" d R 30" 33" 36" 39" 42- a nN.) 7.75 8.55 9..32 /0/0 /0.06 R-/ aw 29 32 35 36 41 A /50 lAu 266 322 379 44/ 506 FaVlF. Zai 93 Ill 132 /53 /76 X n,v 1/.24 /2.24 /3.27 /4.30 /5.3/ R -/-X nru /7.76 /9.76 2/.73 2.370 25.69 MWIF nN.-LaJ 1,65/ 2,207 2,66/ 3,626 4,525 R-15 nNv 26.5 3150 34.50 3750 40.50 Pccv,e/2 ".� l50 /50 /50 /50 150 McoAC AX -LOQ 4,275 4,725 5,175 5,625 6,075 ✓2OJ 000 MIK/ 300 300 300 300 300 3" x 4" G -GROSS 5E6 7 -/e -?N PROPERT/E5 B - 4.000 .sHEETNO. 3/ OF-_ WOOD Engineering, Inc. SUBJECT 5P/RAL b'=3.938" I) OA5/C PARAMETER5 STAIRWAY 65-62 5TA/RWAY 65-62 syr rft 6=3688" JOB NO. +� r = 0.25" JOB NO. o=A'-(2r+t) /- 7 -II c>-,eRas,mc>,:0 = 2.375" OO ^ t=0.125" l y DAA 10040 FOOTHILL BOULEVARD n DATE a' = A'- t O qi m- - - G.G. ---- X _ .2675"a ,1 t 0 TREAD DE5/(51V l/6 " 5TEEL 3 " x 4 " G -GROSS 5E6 T/ON PROPER 7-155 (CONT) Q a R = 0./675" b = B' - /r + (t/2/ OA A = t/o + 26 + -?I/+ a (2c + 2v) I X 'c = 2MA / Wb/2J * rJ + v(0.363rJ = 0.125t2.375",, 2(3666) + 2(0.3925.V + OJ + a//(b + 1.637r) + c(b + 2r)J/ v = 0.3925" 1 WA - � 0.0 + a (r + (r/2))I = /.3/7 50. IN. 2.0g4o = 2(O./25V/I317 / 3.666((3.666/2) , 0.25) = 3.666" + 0.3925(0.363(025)) + 0 / m=/755" X�=1473" a = 0.0 (NO L IPS) X = 3936" v = 7rr/2 = /57r /57(0.25 V = 0.3925" t =-0.125" r = 0.25" R = 0.1675" I. 2.465" G - 65C 7-10N a = a X25y NOTE.• FOR ED/T1NG PURP05E5 FROM A./.5/. MANUAL TYP/GAL LOWER CA5E LETTER All TY BAR ABOVE /s REPLACED BY LOWER CA 5E LETTER WITH 'PR/ME" 5YMBOL IN 7H15 CALCULATION. EXAMPLE: Zi REPLACED W/TH a' WOOD Engineering, Inc. SUBIEC(. 5PIRAL .sHEETNO. 3/ OF-_ WOOD Engineering, Inc. SUBJECT 5P/RAL SHEET NO. 32 OF SDsrabs" +F.G=V STAIRWAY 65-62 5TA/RWAY 65-62 syr rft JOB NO. +� JOB NO. bb w„G..mmRasm�w&aacvass4G /- 7 -II c>-,eRas,mc>,:0 /- 7-// 10040 FOOTHILL'BOULEVARDFOB THE IRON DAA 10040 FOOTHILL BOULEVARD FOR THE IRON DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2007 - FAX (909) 989-8106 5HOP DESIGNED BY -'�. W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 - SHOP DESIGNED BY �W TREAD- DE51GN - l/6'-5TEEL• TREAD DE5/(51V l/6 " 5TEEL 3 " x 4 " G -GROSS 5E6 T/ON PROPER 7-155 (CONT) 3" x 4" G -GROSS 5E6 TION PROPERTIE5 (CONT,) 2.) 6RO55 5EG TIONAL AREA 4) D15TANCE BETWEEN CENTROID ANO WEB CENTERL /NE WA OA A = t/o + 26 + -?I/+ a (2c + 2v) I X 'c = 2MA / Wb/2J * rJ + v(0.363rJ = 0.125t2.375",, 2(3666) + 2(0.3925.V + OJ + a//(b + 1.637r) + c(b + 2r)J/ = 0./25'12375" + 7.376" + 0.765" + OJ 1 WA - � 0.0 = 0.125110.536'% = /.3/7 50. IN. 2.0g4o = 2(O./25V/I317 / 3.666((3.666/2) , 0.25) + 0.3925(0.363(025)) + 0 / 0.0406 3) MOMENT OF INERTIA ABOUT X - AX15 = 0.1696"/ 7.7227 + 0.0356 + O i = 0./696" / 7.756 0.0417a-3 + bal(a/2J + r)^-2 + v((o/2J + 0.637rJ 2 - /x = 2t + 0./49r 3 + or/0.0633c 3 + (c/4)(o - G)" �� - LAQ I NTA + v((a/2J + 0.637rJ"2 + O./49r 3J ✓ ri ti,l r'1�PiG^ n �nc�-x-v nGpT wA - , o.0 S:D/STANGEaBETWEEN G-ENTRO/D ANO UT5/OE OF WEB /99465 0.04/7(2.375 3 Imeq = -2(0.125Y + 3.668Y(2.375 %2) + 0.25V^2 + 0.3925'(2375'%2,1 + 0.637(0.25 2) 2 + O. /49(025 l 3 + 0 0.0156 = 025" (0.5566 + 7.6209 + 0.7/19 + 0.0023 + OJ = 0.25" (6.6937) -2.223 ` /2�flVED f F Y- r95D{'Nro 12512v- T ION = 1535" I ..,NTE BY WOOD Engineering, Ine. suBJEC1 5P/RAL SHEUNO. 33 OF_ WOOD Engineering, Inc. su81EC1 SP/RAL SNEETNO. 34 OF_ sh-W4 m 5TA/R/NAY 85-82 STA/RINAY 195-192_ 'GmrarttY6Rns61ntlaIBpAn Joe No. ?+ JOB No Onmro'N6HsrdnC.&dbTArsLr/I 1-7-H /-7-// FOR THE IRON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 FAX (909) 989-8106 DESIGNED BY --- W RANCHO CUCAMONGA, CA 91730 (909) 9894087 - FAX (909) 989-8106 DESIGNED BY- SHOP SHOP TREAO 0E5/6N (CONT.) l/8 " STEEL TREAD OE516N l/8 " STEEL 3" x 4" G -GROSS SECTION PROPERrIE5 (CONT) 3" x 4" 6-6RO55 5ECT/0N PROPERT/E5 (CONT,) 6.) MOMENT OF INERTIA ABOUT Y - AX/5 6.) 0/5TANGE BETWEEN CENTRO/D AN2 5HEAR CENTER Xo = -(X'c, + m) or [c(b + 2r) 2 + v(b . 1637r) 2 + 0. 14,7r 31 ' = Xo MEA511RE0 IN NE6A Tl ✓E 0/REG T/ON - AX 'G 2 WA a • 0..O _ -(/.4725" * /. 755 /.8440 57 /6/.9 " - -3228 3.686((3.666/2) + 025)2 + (36881"3/l2 = -2(0.L25,) j 1+0.356(0.25)3+0 0.0/-16 9.) 5T.yENANT TOR5/OA' GON5TAN7' - 1.3/7(14725) 2 r WA a 0.0 J = t 3/3 [a + -2b + 2v + Or (2c + 2v)1 = 025" (/6./7/3 + 4.180/ + 0.0056 + 0) - 2655 = 0.L25 3/3 [-375 + 2(3.688) + 2(0.3425) + OJ = 0.25" (20.357) - 2.655 = 0.0020%312375 + 7.3760 + 0.7850 + OJ = 50692 -2e55 = 2.234 = O.00065Jf10.53oOJ = 0.00686 7,) 0/5TANGE BETWEEN 5HEAR CENTER ANO WEB CENTERLINE WA a a 0..0 3.9'26'+ ac�ba'2-Bc'2) m=b, 6a "2b',, OrcYBc'2+12a6a'2l WA a c 0.0 . r6XSd 3(2.875Y 2(3:938) + O r6(2.875Y2(3.938�+ (2875�30 L 73.7637 19X56 L 97650/ = 3:936" = 3.938" [0.4451 = 1755" 2/9.06 WOOD Engineering, Inc. SUBJECT--5P..IRA.L' SHEET NO. 35 -OF_ WOOD-Engineering;,I=.- sUBJEcr 5P/RAL SHEETNo. 36 OF_ 5 STAIRWAY5TAIRWAY 195-81rA*amwpy 65-82 b24� JOB NO. JOB N0. Camwc.'6F 8uffi9Daw /- 7-// C--.WAN.S.4'rWfi tft D -m 1-7-H FOR THE IRON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE - RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989$106 DESIGNED BY ---=>4 W . RANCHO CUCAMONGA, CA 91730 (909) 9842087 - FAX (909) 989-8156 DESIGNED BY W SHOP _- SHOP 7-REAP-VE516N4 //8" 5`MEL TREAD OE5/6N° 1149 STEEL: 3" x 4" G-6RO55 5EG TION PROPERrIE5 (60N 7--) 3" x 4" G -GROSS 5EG 50H PROPERT1E5 (CONT.) 10,1 WARP/N6 GON57-ANi /1) PARAMETER B.v 11" a =0.0- rtX'c a' 3 6" = 48c'�4 + 112b�' 3 + 8a L' 3 L 2 _ a' 2b' 2t + �r Gry - + 4,90 b G ' 2 + 12a' ZG '-2 13.7697 zasla 12 + 12.9'26 ' + ba' 3c ' _ _ CO. /25(14131(2875)"3 + O. /25(1473)3(2.875)1 WA a = 0.0 __ + 1.1466[4.3755 /2 137637 2(2.875)"3(3.938) + (0.3646 + /.+4861 = -15/3/ .9-76-56 15.507P 3(2.675,) ^2(5 q3O,) 2 + 0 1 _ 2.875 2(3936)2(0.125) 6.1656 /5-5079 " /2 6.1656 /2) PARAMETER F 6(2.875)"2(3.938) + (2.875 * 0)-3 - O + ta' 2/4f(b' - X'c)2 - X'c ZJ = 16.0-27 f 187.1627+364.5449+0 1 '9� = 0.125/2[(3.936 - 1.473)"4 - 1.473 "4] /2 l /953002 + 23.7637 - O J + 0.125(2675,, 2/4[(3.936 - /473)2 - 1473 2J 8.1656 14651 ( 5717076 = 0.0625[36.92/ - 4.7081 + 02563[6.076 - 2/701 _ /.3352 j 2/y 0639 • - = 0.0625f322/4I * 025193[3.9061 l = 2013 + 100c1 = 3.022 = 13352 /26098/ = 3.484 WOOD Engineering, Inc. -a— 5P/RAL SHEETNO. 37 OF_ WOOD Engineerltw, Inc. -- 5P/RAL SHEEP N0. 3B OF_ 5 ,;m 5TA/RWAYJOB 05-62 s�.r m STAIRWAY 85-62 Mb 24&-W NO. mj p&.yy Joe NO. we THE IRON THE IRON 10040 FOOTHILL BOULEVARDFOp DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (904) 9842087 - FAX (909) 989-8106 DESIGNED BY 12. W RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . 5HOP SHOP TREAD DESIGN l/6" 57EEL TREAD DE5/6N l/6" 5-EEL 3" x 4" G-GROSS 5EG TION PROPERT/E5 (CONT,) 3" x 4" G-6RO55 5EG T/ON PROPERT/E5 (CONT,) /3,)PARAMETER ,B / OR055 5EGT/ON PROPERT/E5 SUMMARY (//6" 5TEEL,) A = /.3/7 50. IN a = O.0 (NO LIPS) or /24 2(b' - X'c) 3 + (2/3Jt(b' - - X'cJl(a%ZJ3 lx = 2223 /N. "4 - O 5x = 2223/(3.00/2! /4,) PARAMETER U5ED /N DETERM/NATION �x = 2.223//3/7 = /.30 OF EL A5TIC GR/T/GAL MOMENT y J = //(21y) (,6 W + P.- + 8 / ) - XO- "4 = //(2(2234!! (-15131 + 3.022 + 0) - (-3226) ly = .2.234 IN. _ //4.466 (/5069) + 3.226 = I I _ 5y roa 2.23 35 X — X = 0.2236(/.5069) + 3.226 = 1.46 IN. 3N.-� = 0.3377+3.226=3.566 R= 0.1675"nl Syacrrom = 2234/2465 = 0.9/ 1N- 3 I I 3.666 " 1473 ry = 2234/13/7 I " .L _- /-30 Xo = 3.226" 2.465" ' 1535" J = 0.00666 TOP FOR y y y CH = 3.464 f = 3.566 4.000" t = 0./25" WOOD-EngineerhW -hie. suaiEcr 5P/RAL.. sHEErNo. 39'oF_ WOOD.-EngWeernn Inc. SIJWEcr SPIRAL -SHEET NO �-OF— 'sa 5TAIRNA Y 65-62 STAIRWAY 65-82 JOB NO. e� JOB NO. ®'6RBuffigAaay+ /- 7-// Gmlei�6Rasf�'Bd5yL1 1-7-11 FOR THE IRON FOp THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD WE RANCHO CUCAMONGA. CA 91730 (909) 989.2087 - FAX (909) 989-8106 DESIGNED BY RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY —`�. W . SHOP — SHOP - TREA!>'DE5/GN' 3TEEL� TREAD'DES/G/V STEEL" A. GENERAL PROV151ON5 B. ELEMENTS (NORTH AMER/GAN 5PECIFICAT/ON FOR THE OE5/6N OF B./l (W(3) w/t mAx. = 60 FOR 1IN57/FFENE0 ELEMENT GOLD-FORMED 5TEEL 57-RUC7URAL MEM5ER5, 2007 EDITION) ry/t > 30 WILL GIVE NOTICEABLE OEFORMAT/ON A./2 A.5.P. APPEND/X A FOR U.5.A. AT FULL DE516N 5TREN57TH Rn = NOMINAL 57RENGTH = 5TREN5TH RE515TANCE B/2 MAX. WEB/DEPTH/RATIO T14IGKNE55 hA PER CHAPTERS B TO 6 + APPEND/X A. h/t rux = 200 A.S.D. = ALLOWABLE 57-REN67-H = RWD Rn = FORGE OR MOMENT (i = 200 FOR MEMBER5 52.1 N/A 2.50 FOR CONNECTIONS NOM/NAL LOADS = CODE LOA05 (G.B.G., A.3.6.5.7 ETC,) 52.2 N/A r— CjhBq. ,C/A- IA QUINTA BUll4M QA SAFETY DEPT. A3 LOA05 8 COMB/NATIONS PER CODE (G.B.C., 1B.G O V tom ® A4.1 / A.5.0. ��°' �-^/S,RE�>H Q3;/�NIA ! F�3 gQN,STRUCTION R t �/(Z 5 FENED ELEMENT IN/ 51 RE55 GRAD/ENT `�- 5rREh5M REd/raEp (o % STRENGTfj-DETERMINA T/ON. Rnl fl = ALLOWABLE DE5lGN 5TRENGTH I DATE flM-GOt3MYPRESS/DN d� IN TEN5/ON. A5 N/A L.R.F.D. A6 L.S.D. N/A A72 GOLD FORM INCREASE IGNORE (CON5ERVAT/VE) WOOD Engineering, Inc. sua¢cr SPIRAL SHEETNO.41 OF_ WOOD Engineering, Inc. sua- 5PlRAL SHEETNO. 42 OF_ sftc.l ,&p„� 5 rA/RWA r JOB NO. BS -B2 s� 5 rA/RI VA r 8S -B2 n*zvo-,y�. Orm-Ida ft=bW ad&"w Dw&7 /- 7-// Tbzo� CL _"&RaahM"8. *v D.W JOB NO. /- 7-// FOR THE IRON FOR THE IRON 10000 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (9m989-2087 - FAX(909)989-8106 DESIGNED BY -�. W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989.81[6 DESIGNED BY SHOP SHOP TREAD DE5/6N //0 5TEEL TREAD DE5/61V l/8" 5TEEL B. ELEMENTS (GONTJ 831 / BZ / /a) (GONTJ 33.2 (o)/) /GONTJ 0 b=w WHENA X0.673(/+ �) G3/2./ I 0 I 0 b = RHO �-v WHEN A ) 0.673 0 + 7�) rO 5) M EFRICR f = Fc TO SYMMETR/GAL HI-IERE Fc 15 AXIS A = F« DETERM/NED BY Fe 2.750"0.125" Yr = / f2 / fi/ (A550[.urF VALVE) 45ON5/0,ER f2 = O fGON5ER✓AT/VV IF Fe 0. 56 F y 3.000" /f11 =0 Fc =Fe K = 0.57 + 021 , 0.07 2 STNIMETRIGAL AX/5 K = 0.57 hex r + Gs (a) Fe =G� J Fu = K 7r 2 E (t/rvJ 2 fy 2 = (0.301 "2 rr L /2(/ -,a 2) = 0.09 Cs = -1 ERv. 0.<. 0.5 7 A6 7VAL 3141_2( *A = lN. 29E6� _ 0.43 (O. /25/3.688) 2 x-/.31.�� /2(/ - 0.09) 0 -ex = [?r 2 E11ZXKxLx)/rx)21-a4WOU94W7'-0•oiAK = [((3/4) 2(29EbM((2./ x 42)//30) 21 Fc,• _ /2,934 = 62,//6 ?� N.A. f2 GrF=0.6-0.4(141/142%=0.6-0.4(0/142)=0.6 _ FIND f �. tu l5f = 5, = 0.9/ W. 3 �v jr x 2.+ r'y 2* Xo 2 (a/ PROGEOVRE l ; W f = Fy = 36,000 P.S./ u`1 _ (l30) 2 + (/30) 2 + (3228) 2 = 3.71 fi (b) PROCEDURE // N/A t = 0.125 " 5EE PRE✓/OU5 5HEET5 FOR VA R1046 6R055 5EC T/ON PROPERrIE5. WOOD Erigineering-,1Ine. Sua,Ea. SP/RAL, SHEET NO. `/3 OF_ WOOD Engineering,- Inc. sualEcr SHEET No. 44 oF_ sm n r&wn 5TA/R/NAY JOB N0. 85-82 so,a� -AIRAL 5TA/RlNAY JOB NO. 85-82 r7024&AMW c-&ARs-b-&B-Ift Lb.. /- 7-// 7dm14&.W A Re�ID/Butgq� /-7-// FOR THE /RON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE _ RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY -`�� W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-81 Ed DESIGNED BY W SHOP SHOP TREAD-DE5/GlJ- //B" 5TEEL_. TREAD DESIGN. I/6" 5TEEL 53.2 / B2 / (o) (CONT.) 532 / B2. / (a) (CONT.) 63./2.1 (CONT) 63/2.1 (CONTJ / 7T 2E Civ 0-tA ro 2 G(J) + (Kt L0^2 Fa =50193 r 2.78(30,000) G = /13Eb Kt = 2.1 Lt = 42 = (/0/9)(36,OOc7)(/ - ((IO x 56K5 0106 x 50.19 K5./.I)1 = 40,000!1 - 0201 / (314,1 2(29E6)3.4e4 = 40,000(0.80) 0-t /3/7(3.7/) 2 [ll'3E60.00666) + (2 / x 42) - 2 ] Fc = 32,030 r 36,000 (Fy) LasEocs�" l 996E6 �o of u( e f = 32,0309-.5./. [715le + ] 18.12 7779 = 0.055!77518 + 1229,0371 Fe =-/(/3/7)(62,1/6)�/�0.6(0.9//J x [3.566 +(-ll (3566% 2 + (3.71)"2(11,306/62,1/6)' =-/49,829 13.566 - J3,716 + 13.76(0./82) = -/49,829[3.566 - 390/1 = -147,2929[ 0.3351 FB = 50,193 WOOD Engineering, Inc. suBrEcr 5F/RAL SHEETNO. 45 OF_ WOOD Engineering, Inc. suBJE(T 5f/RAL SHEETNO. 46 OF_ S STA IRNA Y 85-82 STAIRNAY 65-82 9b24E+i..'iv JOB NO. 4 JOB NO. /- 7-H BOU�i 1-7-// FOR THE IRON FOR THE IRON 100.0 Foob THRILL BBOULEVARD DAATE 10040 F006 7HHiLL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY --=>• W RANCHO CUCAMONGA. CA 91730 (9M989-2087 - FAX(909)98"106 DESIGNED BY SHOP SHOP TREAD DE5/61V l/6" 57EEL TREAD 0,65/6N //8" 5TEEL B3.2 / B2. / (a) (CONT,) 532 / 52. / (a) (CONT) AFTER 52.1 (a) (GONTJ "/t = 5.688/0.425 = 29,5 < 30 .: NO NOT/GEABLE DEFORMATION. EFFEC77VE 5EGTlON PROPERTlE5 &-AXIS) < 60 MAX. 0./59" ELEMENT � X Lx Lx 2 F = Fc = 32030R I R = 0. 1,90 v = /.57r Al = P = 0.39" J. n - 0.25"(D 2.02 /.0/ 2.04 2.06 0.686 FcR l = 0,149r 3 i- O 2.02 /.0/ 2.04 2.06 0.686 = 0.0023 _ 29,200 � 1.2934 2.332"0.39 2./73 0.65 1.84 0.0023 = 1.57 0.673 .: b = RHOft 202" 0 O4 0.39 2./73 0.65 1.84 0.0023 Ea. B.2-4 Yr = 0--coN5ERV. 0.3/2" RHO = P - 0.221A)]/A O5 2.375 2.270 5.39 /2.24 0.0004 = P - /0.22//57/1//57 0.159" 2.173" /(D= 720 ---- lll7 20.04 4377 = 0540(2.0)-51L2 = 3 8 4O G.6. 1.O!„ "4 = 0.686 /N. X Lx //./7 NOTE.• 5EC r1ON =ROPER b = 0.548" 3 I y X = = = 1.55 ---� �L 720 ARE GONSER✓AT/✓E BASED = 0.548/3.688) UPON K = 0.43 < 0.57 MIN = 202 0. 78" 155" 2 X ly=[alt,+�L.,2-X2,'L]t N/THY=O/SHT.4/) AFTER 32.1 b = 2.02 5 2.27" = (/377 + 20.04J (1.55) 2(720)10.125 �- _ !21.42 - /7.30JV.125 FIND 5e = EFFECTIVE `f I 3.688" -, l = [4-/210.125 = 0.5/5 UN5TlFFENED LEG IN GOMPRE5510N 5E6 TION MODULUS SUMMARY.• ABOUT[,. AX15 3.875" 5.938" EFFECTIVE 5EG TION y y AX/5, / = 0.5/5 IN"4. / = 0.14,7r^3 =-O. 4.000" BOTTOM.- 5b = 0.5/51155 = 0.33 /N. 3 (6OMPRE55/ON LEG) v = 1.57r= 0.39 t = 0.125" TOP • Sr = O.5/5/0. 78 = 0.66 /N. 3 STENS/ON) /SEE NOTE) WOOD Engineering, Inc. sUBJEcr 5PIRAL sNEETNo. 47 OF_" WOOD Engineering, Inc. sOBJE(T 5F/RAL SHEET NO.48 OF_ Smct &wnmi, 57A/RNAY 85-82 sft ft w5�roe:v 5TA/RNAY 85-82 reb11 Fayy Joe No. rdb24 rr apy Joe NO. 7-// co,.,woi,9R. ohti. D-0 /-7-// FOR THE IRON 10040 FOOTHILL BOULEVARD �� 10040 FOOTHILL BOULEVARD FOR IRON DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY = Ll-).. RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX(909)989-8106 DESIGNED BY --=>. W . 5HOP -THE _ SHOP TREAD DE5IGN- l/8" 57 -EEL TREAD DE5/GN I/8" 5 -EEL PER G31.I e 63.1-24C.3.43 8 G3./.4 ARE N/Al CHECK HANDRAIL TO 015 TR/5 7-E 300# G.L. (CONT,) CHECK l 1/2" O.D. x l/8" "ALL ALUMINUM OR BRA55 (CONT) 5MALLE5T OF Mn = 5e Fy = 0.66(36,000) = 23,760"N 5-- = St = 0.66 OR Fy = 36,000 = 0.049087((/5"4) - 0.25"4)) Mn = 5c Fc = 0.33(32,030) = /0-570"# :�- _ .5b = 0.33 = 0.129 1N. "4 Fc = 32,030 MAccclw = Mn/.2b = /0,570/%67 ALUM/NUM 3003-H/4 ("/G/RCUMFERENT/AL MELDS) Ftv = 20.0 K.5./. Fty = 17.0 K. 6. Fcy = 16.0 K.5.1. = 6,3217"# ,> 6,304 "# /GG- 6•-0- ow4.. > 6,075"# 40. V-0•01aM Fsv = 1.2 / _ I0.0E6 �- wr. 29 MALLcrry-AXIS = 6,329"# A.5.D. 7-EN5/ON Fbt = 1./7 Fty/ny =//7(/7)//65 = / .05 CHECK DEFLECTION "3135/ OR d sux = PL 2B 11-2 "MIN. /50(4 _ 0.5% 3/3/295610.5/5 40 //2" MAX. F6t-� 24 FfiT/Kt n/r= �1 4�2 a - . 95) = 12.72 CI-(JY� �,-A QUINTA = 0.222" < 2L/360 = 0.233 O_K.5.5/O d ,wx =/50(28.5) 3/l3(29E6)O.5/SJ 4-7"' - B U iR Rb//t �.�L-S T,WO y --TPT = 0.078" <2L/360 = 0.16" 0. K. 21" MAX. Fci = L4 7 F,cy/gy IQ - F.'/ �7(j/ 65 =l1. 4 KS.L OR /O.O GHEGK HANDRAIL TO 015 TR/BUTS FC R COnl4 i� K.51. /N/O 300# GONG. LOAD FOR 7OR5/ON l �v cc w - O.172Tx 0 &TION MELDS REDUC TION ON TREAD 1 = /. 720'k OR 1, 720 "# l /,-5 '# I w = (300#/2)/2/" = 7l#/"1(1 DATE M = 7,1(21)2/2 = 1,566'# 1 w I BY COV. COA5ERV. 6ONr HANDRAIL ® 300# WILL PROVIDE SOME FIXITY (V 00# GHEGK / l/2" O.D. x l/8" "ALL f f f ALUM/NUM OR BRA55 f f f = 0.098/75((/5"4) - (1.25"4))//5 = 0172 IN 3 WOOD Engineering, Inc. SUBJECT 51/RAL SHEETNO.49 OF_ WOOD Engineering, Mc. ��--vs SUBJEcF 5P/RAL SHEETNO. 'o OF_ � STA/BRAY JOB NO. 65-62 Sb � 5TA/RWAY 65-62 � /- 7-// eoui.EvARo JOB NO. /- 7-H �R THE /BON FOR THE /BON 10040 FOOTHILL BOULEVARD RANCHO CUCA1'4 CA 91730 DATE looao FOOTHILLdR RANCHO CUCAMONGA, CA 91730 on1E 5HOF SHOP (909) 989-2087 • FAX (909) 989-8106 DESIGNED BY _ (909) 989-2087 FAX (909) 989-E1 Ob DESIGNED BY TREAD DE516N //8" 5TEEL TREAD DE5/CN /18" 5TEEL GHEGK HANDRAIL TO 0/5 TR/BUTS 300# G.L. (6017-) GHEGK HANDRAIL TD 015TR/3U7S 300# G.L. (CONT) CHECK / l/2" O.D. x //8" HALL ALUM/NUM OR BRA55 (CONT.) GHEGK / l/4" O.D. x //0"PVA LL 5 = 0.096/7X(/25"4) - (10-4)) = 0.142 /N. 3 BRA55 343-94 5 H56 Ftv = 40.0 K.51. Fty = 16.0 K5/. E = /50Eb / = 0.049087((1254' - (/.0"4W = 0.072 /N. ^4 BRA55 VALUE5 EXCEED ALUM/NUM O_K MECHpN/cs OF ALUM/NUM 606/-7-6 HATER/AL5, JOHN WILE" 0 5015 GHEGK DEFL EG T/ON JOHNPAGE Ftv = 42.0 K.5./. Ft = 35.0 K.5.1 Fc = 35.0 K.5.1. y 555 A = (7.1(21)-4j,j (/O.OEb)0./291 Fsv = 27.0 / _ /O. E6 = 0.139" TEN5/ON COMPARED TO TREAD DEFLECTION Fbt = /./7(35.0)/165 = 24.82 7 -O"d FAG TOR = 0.222/0.133 = 167 5AY /00lt; OR 5'-0"0 FACTOR = 0.076/0.133 = 0.59 SAY 59A; Fbt = 124(42.0)//0r195) = 26.7/ CONGLU5/ON. COMPRE55/ON 60N5/0ER 59,$�; OF TREAD IDEALIMP OEFLECnON Rb/t = 0.65/0.125 = 5.2 t 20 Wr7N SLOPED HANDRAIL, TORSIONAL MOMENT l5 A PORTION OF -3000 Fc = 1/7(35.0)/165 = 24.62 K.5.1 --COV. RE515TED BY HANDRAIL. PIL-4)LO 7?eAN5FER rO MAccaw = 0./42 x 2-1. 0.2 = 3.52k 1,575"# AXIAL LOAD IN HANDRAIL t 0I57RIBWEP rHR4216H4 rr THE s IA /)ZWA r GHEGK DEFL EG T/Oh' d = [7./(2/)"4J/M6(lC_OE6)0.0721 = 0.240" 42" COMPARED TO TR. AD OEFLEG T/ON ------------- V -0"m FACTOR = 0222/0240 = 0.93 SAY 93,5t; w = 7/#/ 5'-0"0 FACTOR ="0.076/0.240 = 0.33 SAY 33� -COV. 60N6LU5/0N.• 300# CON5/DER 3350 OF TREAD TOR51ONAL MONTNT /5 RE5/5 TED B.Y HANDRAIL'. (GON5ERVA7-IVE . OR 7'-(-?" D/AM.) WOOD Engineering, Inc. SU&IECf SP_/R.4L sHEET-No. 5/OF- WOOD Engineering, Inc. SUBJEcF SP/RAL . SNEEFNO. Z2 OF_ - STA/RHAY 6S -BZ S 1F'0m 5TA/RHAY BS -62 e JOB NO. 1-'v y" JOB NO. C ow .gid Bamb+ffa 9�iSgGNsq /- 7-// orw vdbRevh4rzWB dSgLksgn l- 7-/l Fon THE /ROH con THE /ROH 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO (9M989-2087 CAM NGA, CA 91730 AX (909) q89-8106 DESIGNED BY _- RANCHO CUCAMONGA, CA 917.-0 (909) 989-2087 - FAX (909) 989-8 06 DESIGNED BY 5HOP SHOP TREAD-DE5/CN l/6" 5TEEL TREAD DE5/61 l/6" 5TEEL__ CHECK HANDRAIL TO Dl5TR/507-5 300# G.L. (CONT.) GHEGK HANDRAIL TO D/STB/BUTS 300# G.L. (CONT.) GHEGK l 3/4" x 2" SC'L/D OAK 5 y 175(2) 2/6 = l: 7 /N. 3 GHEGK l l/4" O.D. x 1/4" HALL 5 = 0.096 /7X(/25"4) -,/0 .754)) = 0209 /N. 3 -4 1 1.75(2)- 3112 = 6 l = 0.049067((/25 4) - (0.75"4)) = 0.106 IN. REO OAK OR MIXED OAK OR HH/TE OAK 5EL. 5 T BRA55 843-94 5TD. /-156 FYI _ /,/50 x 1.5 = /,725 1.5.1. Ftu = 40.0 K5.1. Fty = /6.0 K.S./ E = 15OE6 E _ /lEb BY GOMPAR1501, V5E FORMULAS SAME A5 ALUM/NUM. M,w.ow = /./7 x /,725 = 2,0/6'k > 1,575"# N Fbt = //7(16.0)/1.65 = 2/06 -COV. OR GHEGK DEFL ECTlON 314" Fbt = /24(40.0)/195 = 25.43/ A = 17.1(2/)"'4)/(8,%156)1/7J = 0.134" 5EC TION 51MILAR TO ALUMINUM, CONSIDER Fcy = Fty ' ' COMPARED TO READ DEFLECT/ON 7'-0' d FAC 70R' = 0.222/0./34 = 165 5A)'/005$ M Jw. = 0-2017,Y,21.06 = 4.40'k 1,575'++ 5'-O",P FACTC,R = 0.076/0./34 = 0.562 5A)5641 CHECK DEFLECT/ON , • GONGLUS/ON.- A = (7.1(21)-4J -4X005. 6256.)0.1061 = 0.109" CON51DER 56A; OF TREAD TOR51ONAL MOMENT /5 RE5I5TEO BY HANDRAIL. COMPARED TO TREAD DEFLECTION (CON5ERVA7'VE FOR 7'-O'd FAG TOR = 0222/0. /O9 = 2.0 5AY /00961 5'-0"d FAG TOR = 0.076/0.109 = 0.72 5A)' 72,56 CONCLUSION. CON5/29ER 72,51; OF TREAD TOR5/0NAL MOMENT /5 RE5/5 TED BY HANDRAIL. (CON5ERVA TIVE FOR 7'-0"0,) WOOD Engineering, Inc. suBJEcT 5P/RAL SHEETNO. 53 OF_ WOOD Enidneering, Inc. s-- 5P/RAL SNEETNO.5`f OF - F_STAIRWAY SN 5 rA IRNA)' JOB NO. 65-62 S> � F'nY°'B1pn STA/RNAY JOB NO. 85-62 ca,. maraa.w, w /-7-// .Barre aa� /-7-// FOR THE IRON FOR THE IRON 100.0 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY -T W . SHOP SHOP TREAD DE5/6N //6" STEEL TREAD DE5/6N I/6" STEEL CHECK HANDRAIL TO DISTRIBUTE 300+ G.L.(GONTJ 6'-6"D/AM. GHEGK TORSION /N/ 300++ G.L. Mz SUMMARY.• MOT GR/TIGAL N/UNIFORM LOAD) FOR: HANDRAILS `WALL, 6 =6" D/AM. GR/T. PT. ;4 ' / 112".0.0. x //6 3003-H/4 ALUM/NUM OR Mx = 5,625"# (SHT. 29) 2 7�r 843-94 5TD. H56 BRASS (59%% V � OR / //4" O.D. x //6"HALL, 606/-T6 ALUMINUM (333VVH = 15000. /0') �- N. A. O5 - / O. /4" C.P.D. x //4" HTD ALL 843-94 5. H56 58455 /72%j OR " 0.67Mz / 3/4" x 2 SEL. 5M RED OAK, MIXED OAK, OR NH/TE OAK /56%% VH = Mz/0.76 1 USE: HANDRAILS TO RE315T 33% OF TORSIONAL MOMENT /N TREADS BASED UPON MOST = /,0/5/0.76 0./25" GR/T/GAL 5'-0" DIAMETER. FOR TREAD DE5/6N, _ 1,30/# (TORS/ONAL SHEAR) USE 67% OF TORS/ONAL MOMENT FOR D55/6N. CONSERVATIVE FOR DIAMETERS LARGER Vv = 300#/2 = 150# (VERT/GAL SHEAR, 5/-lT 29) THAN 5'-O': I 5EG TION AH = 3.0 x 0./25/50# (AT GOLD = 0.375 50.1N. OR AH =2x 0.76x0.125 = O.195 --COV. a = /030" Av=2x4"x0.125 _ /.00 5EG TION (AT BALLUSTER) WOOD Et uteernng, Inc. su01Ecr 5) IRAL, Zr SHEETNO. 55 'OF_ WOOD EngineerisW Inc. sualEcT SPIRAL SHEETNO. 56 OF- F_STAIRWAY AIRPYA), JOB N0. 65-62 s � 5rAIRNAY JOB N0. 65-82 C._._ lAR-Y-W8u7LBD-01 I-7-// a� BOULEVARD /-7-II FOR THE IRON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 100400040 F006 THR DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 98" 106 DESIGNED BY -`�. W . RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY SHOP SHOP TREAD DE5/6N' //6" STEEL TREAD DE5/6N 3//6" STEEL 6'-6" 0/AM. 7'-0"0IAM. C3.3 COMBINED SHEAR AND BENO1N6 GHEGK TORSION lV/ 300# G.L. r( 2 % (l v(Vv) 1 r (l v(VH)1 ?1 os + + /O fl!xo (NOT GR/TICAL N/ UNIFORM LOAD) Mz 7' D" D/AM. GR/T. Mnxo Vn VnH / \ J ` J J L` f Mx = 6,075'+/ PT. A' 2375' .(Zb = 467 VH I �I Mz = 1500 M = Mx = 5,625"# _ /50(10.66) VH N.A. Mnxo = 10,570"# _ /,632"#®- - - - m 0./66" m m f2 v = 460 0.67Mz = 0.67(1,632) �A i TIAL 0 Vv = 300#/2 = 150# U, 0.125" ✓n = ArvFv h/L = 4.0/0.125 = 32 (i.o o706 3.00" Q U I N TAz =_ 2/,600# EKy/Fy 2 9E653436,000 /93 %) 76 _ VH = 1,30/# = 65.6,> 32 5EG T/( -?N VnH = (0.195)(2/,600) Fv = 0.60Fy H r"'u Ar (AT COL.) 29) = 4 02# = 2/,600 Vv = 3gOtt/2 i 150r y�(�VERT/�L SHEAR,HT. BNSTRUCTION 467,y 5) ,625 2 /.60 x /s -2,o 4 x /,30/ 2 0.5 AH = o x ./0,570 )60 + 2/,600 4,2/2 /,O [( ( ) ( - �OR = 0.564 50./N. 1/50(10.010^2 ^ ((0.69) 2+(0.010) 2+(0.49)Z0. f5 - I2 AH� F��x0.76x0.066Y (0.79 + 0.00 + 0.24 0.5 = 40/ �_ 400 /% OVER O_K. TORS/ONAL �- 02-73 --6oV. " �� _ MOMENT Pyle, '-& " DIAM. A v = 2 x 4 x 0.168 - 450 "041LO BE LE55. SEG TION (AT BALLUSTER) USE.• G3 x 4 x //6" MIN. TREAD SECT/ON FOR 6'-6 " MAX. 121A 1-f. NI TH 40 P.S.F. L.L. 8 300# G.L. WOOD Engineering, Inc. SUBJECT SP/RAL SHEETNO. 57 OF_ WOOD Engineering, Inc. SUBIECT 5P/RAL SHEETND. 5B OF - .v Smcrio24&.W TA/R/NA Y JOB NO. 65-02 S I71b14Envpy 5TA/R/NAY JOB NO. fi5-B2 /- 7- eo /- 7-// FOR THE /RON FOR THE /RON 100400040 FOOTHILL BOULEVARD RANCHO CUCAMONGA, CA 91730 Dale 10040 n IR iu Aao RANCHO CUCAMONGA, CA 91733 DATE SHOP SHOP (909) 989-2087 - FAX(909)98"106 DESIGNED BY —`_ W (909) 989-2087 - FAX (909) 989-8176 DESIGNED BY �- . W. TREAD DE5/6N 3/16 " STEEL TREAD DE516N 1/6 " 5TEEL MIN. 7-O" D/AM. C3.3 COMB/NEO SHEAR ANO BEND/NG G3.6 COMBINED 19END/N6 AND TOR5/ON I 1 ? r �L 1 r �L v(VHl 121 O5 CON5/0ER COMBINED BEND/NG PLU5 TOR51ONAL SHEARS .126(M) + + t LO CHECK /N C3.3 5AT/5FAGTORY AND AL50, 5EGTlON 15 Mn x O On VnH Ll ` J ` J J RE5TRAlNEO. ,(lb = 1.67 GJP 7HICKNE55 ADJ577,ow ecOM5ER✓. EFFEG rlvE CK. CONNECTION o COLUMN M = Mx = 6,075V SEG770V HCIV2D BE LARGER/ �� Mnxo = 10570'++((3//6)/(//6)) = 15,655' BY IN5PECTION, U5E COMPLETE JO/NT PENETRATION AVELO TO (p ,(l v = 160 DEVELOPE 57-RENGT1J OF MEMBER. N Vv = 300#/2 = 150# �^ R" �� USE.• {HELD PER DETAIL M57OXX. 3.00" Vn = AnFv h/t = 4.0/0.!25 = 32 EFFECT/VE 5ECTION _ (i50)2iboo# = 32,400# EKy/Fy = 29E6(5.34)/06,000 CHECK TREAD o COMCENTRATED LOAD VH 1,4010 =65.632 VnH = 102931(21,600,) Fv = 0.60Fy EDGE 5TIFFENER = 6,329# = 21,600 6 „ FOR 5-b" D/AM. 16 „ f GREA TER 1.67 x 6,075 2+ 16 2 x /50 160 x 140/ 2 050 )(32,400 ).2 ( > ] ^ 6,329 GASEZ/5,855 k I 300# Q Q O k Q ((0.64)2+(0.007 2 ,(0.35�^2J"0.5 0 GONG. �O�Q ((0.4//+0.00+0.1330.5=0.73</.O I , LOAD �I n Ni�ipO U5E G3 x 4 x 3/16 " MIN. TREAD 5EGT/ON ®VZ �D FOR 7 -O" MAX. D/AM. WITH 300# ON 6 40 P.5.F. L.L. B 300# G.L. 2" x2" 50. (4 50. /N) 12" TREAD -AN -5'-0 DIAM. TO 7'-O" DIAM. WOOD Engineering, Inc. SUBJECT 5P.IRAL SHEET -NO. •559 OF_ WOOD Engineering, ince _Y_O7 SUBJECT 5P. /RAL SHEETN0. 60OF_ s,„.,,.l� 5TA/RWAY JOS NO. 85-62 s�/ STA/RINAY JOB No. 65-62 /- BOU /- 7-H FOR THE /RON FOR THE /RON 10040 FOOe TH.Iiu�BOULEVARD DATE 10040 FOOTHILL DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - -FAX(909)989-8106 DESIGNED BY --'=>. W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX(909)989-8136 DESIGNED BY -`�. W . SHOP SHOP 7-READ•DE5/6N• I/6" 5TEEL."1-fIN. TREAD OE5161V Mels. ". 3//6"' 5TEEL 300# CHECK TREAD AT GONG. LOAD 6A5E / 1 TREAD 504MAF7:• 40 P.S.F. OR 300# G.L. rr –A✓G. I I M = PL/6 = 300(17.6)/6 = 690"# I I �--PARrIAL F/xlrY /7.6" 2'-6" MIN. RAD. CONS/DER 2 -WAY ACTION NN/ l2"EFFECTIVE WIDTH 45A5E / ®= 3'6 " MAX. RAD. 2 --CONSERV. FOR 6'-7' W 7-0' D/AM• 5 = L2(0125,1-216 = 0.03/3 v rREAD MA = 0.03/3(0.75 x 36 Ks .iJ = 843W ti 890"# O.K. d = �/300/2J�I7.8J"3J/j192(29E6J0.00/953J � = 0.078 .V 1/16 " Nor GRI rzAL 0 I CHECK 300# C. L, AT END OF TREAD CASE 2 L = 2/" MAX. \% //6" 5TEEL PLATE UP TO P = 300# m 3 -3" RAD/U5 (6'-6" D/AM.) M = 300(2/)/4 = /,575 "# - 300# 0 3/l6 " 5 TEEL PLA TE 3- 4 " TREAD TO 3 -6 " RADIU5 (7'-O" DIAM) GK. L2" x 2" x l/6 " (6ON5ERV. TO COLUMN Fb = 22,000 P.5.1 h GJP 5 = 0.13/ ® MA = 0.131 x 22000 TREAD = 2,882 "# ,> 1_575V 2 d N J = [300K21) 3X1gZ/29E6)0.1901 GA5E 2 — — — — — — — — = 0.003 NOT GR/r/GAL NOTE. BALL05TER5 /1VILL AL -150 TRANSFER 300# LOAD TO HANDRAIL AND Dl5TRIBUTE TO 5/0E OF TREAD. COLUMN U6 2"LIP MAY BE OMI TIED A T USE: l/6 " PLA TE MIN. FOR 7'-O" DIAM. MAX. (6 -7" TO 7'-O" DIAM. REOUIRE5 3//6" 2'-6" RA0I4V5 FOR STRENGTH AT 6OL LI)v) WOOD Engineering, Inc. suBJECT 5PlRAL SHEETNO.61 OF_ WOOD Engineering, Inc. SUB1Ea 5P/RAL g1EE7 N0. b2 OF_ sm�n.,✓ep+..•:g 5TA/RINAY JOB NO. BS -62 smd .m, STAIRWAY JOB NO. 05-62 R624&. -Ty C-1-W&RnbW"8WWwDa0. 1- 7-I l n*24 y,, w fmna W&ftrKbnW84YelpD&V6 FOR THE IRON 10040 FOOTHILL BOULEVARD FOR THE IRON DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA. CA 91730 C909)989-2087 - FAX(909)98"106 DESIGNED BY --"2. W RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX(909)98"106 DESIGNED BY SHOP 51 -IOP TREAD DE5/6N 3//6 " ALUM/NUM TREAD DE5/61V 3116 " ALUMINUM SEG TION PROPERTIE5 R = 0.375 5EGT/ON PROPERT/E5 (CONT,) 5052-H32 ), R = 0.166 /x = 3.253 /N. "4 5xt = 3.253/1.564 = 2.06 /N. 3 X-� - --� - X 0 5xc = 3.253/2.436 m = 1.34 /N. 3 N i = -9.164 IN. -4 iIy Sy = 3. /64//.5 5001 .500 = 2.11 /N. 3 3.000 ALLOWABLE STRESSES (WELD AFFECTED AREA) Y b/t = 3.625/0.166 5E6TI0N (0./66) 1/2" _ /" = /9.3 ,> /4 < 39 ---------------------- REG/ON5 ---------------------- Area: 1.952 Fe = 9.7 - 0./66(b/t) Perimeter: 2/.142 = 9.7 - 0.166(19.3) Bounding box: X. -/.500 -- 1.500 = 6.50K.5. I. Y• -2436, -- 1.564 Centroid: X. 0.000 K. 0.000 MA = 1.34(6.50) Moments of inertia: X. 3253 Y.• 3.164 = 6, 7/0V Product of inertia:. X)'! 0.000 Rodii of gyration: X. 1.217/ Y.. 1.273 Principal moment5.and X -Y directions about centroid.- l: 3. /64 along (0.000 40001 J. 3253 along [/ 000 0 0001 WOOD' Engineering,.Ine. SUBJECF: 5P-IRAL- sHEETNO.63 OF_ WOOD Engineering; Inc. SUBJECT SPIRAL SNEETNO. 64 OF'_ S STAIRWAY JOB NO. 65-62 SEm STAYRWAY JOB NO. 65-62 - C"'.ro Wdfard-W17,,bSp D -g. /- Ovma-Cb/bRaciTnaa/Btdbl9 /-7- FOR THE IRON FOR THE IRON 10040 FOOTHILL BOULEVARDDATE 10040 FOOTHILL BOULEVARD DAT RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY -`� W . RANCHO'CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . 5HOP 5HOP TREAD DE5ICN 3/16 " ALUMINUM- TREAD- DE5/61%h 37/6" ALUM/NUM' GHEGK OEFLEG TION 5052-H32 CHECK 7-OR51ON W/ 300# G.L. 5052-H32 7'-O" D/AM. (NOT CRITICAL W/UNIFORM LOAD) 7 O" VIA M. Mz A = PL 313EI 7 -O" DIAM. Mx = 6,075' (5HT 217V PT. 4' _ /50(40.5) 313(/0. /E6V325 I = 0.10/" = 2L/600 < 2L/360 VH Mz = /500 5'-0" DIAM. = 15000.66) J = 150(26.5)"3/300IE6)3.25 _ /,632' =. = 0.032" O 0 0.67Mz = 1,420" �i3% COMPARED TO HANDRAIL d = 0.240 COV. (5HT. 50) REvter/oN VH = Mz/1.56 FAG TOR 7'-0' DIAM. = 0.I0I/0.24 = 0.42 OR 42% OF 300# 15 _ /,420/156 I DI5TRlBUTED TO RESIST TORS/ON. 0.166" = 17/0!1. (TORS/ONAL SHEAR)i 300" , FAG TOR 5'-o' DIAM = 0.032/0.24 CITY LA Q U I N TA SEG�T/ON = 0.13 OR l3% OF 300+ 15 g(V.S7-.7.6 C�.5�YEA1 � 17 (AT 60L.)0/5TR/BUTEO TO 1U.-�_%s5.�0cvRL�s�TJ. RE515 T TOR5/ON. { * ^e AH `f3 0--0 7&l l50 j 0564 50./N 'GQ 6 GONGLUS/ON. CONSIDER l3% OF TORS/ONAL MOMENT l5 RE515TED BY HANDRAIL. (CON5ERVA7IVE FOR 7'-O" PIA M.,). oR�'i2 � 6 x 0.1 RU��iON AH = 2 x 1.56 x 0.166 10.66 " = 0.566 a - �� A v _= 2 x 4" x O.l6�( SEG TION FOR: HANDRAILS SHOWN T. 50. ON 5H AT BALLU5TER5) V5E: HANDRA/L5 TO RE5/5T I331; OF TOR5/ONAL MOMENT IN TREA05. FOR TREAD DE5/CN W/ 3/16 "ALUM/NUM, l/5E 67% OF TOR5/0NAL MOMENT FOR TREAD DE5/CN. (GON5ERVAT/VE FOR V -O" DIAMJ. WOOD Engineering, Inc. SUER 5P/RAL SHEETNO. 6.5 OF_ WOOD Engineering, Inc. ��vr SUBJECT 5P/RAL SHEETNO. 66 OF— AY JOB NO. 85-82 S�`4&-W 5TA/R/NAY 05-02 24 &.W /- 7-// BOUT JOB NO. /- 7-// FOR THE IRON 10040 FOOTHILL BOULEVARD �fl THE IRON oa'E 1 FO THiLL EVAARRD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY —`-�' W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-81-36 DESIGNED BY SHOP SHOP TREAD DE5/6N 3/l6 " ALUM/NUM TREAD DE5/6N 3//6 " ALUM/NUM 4.4 60MBINEO SHEAR AND BENDING 5052-H32 5052-1432 (!NEED AFFEG TED AREA) 7'-O" D/AM. GK. GONNEG T/ON ® COLUMN 7 =0" D/AM 2)2 fa + fb + fs < 40 GJP BY /N5PECT/ON, U5E COMPLETE Fb Fs JO/NT PENETRATION HELD TO OR DEVELOPE 5TRENGTH OF MEMBER. 2 (5EC TION 5.22.2) M ),2 + V v + VH ( Ma VVA) VHA)? U5E. WELD PER OETAJL N/ Z 5356 WELD FILLER FOR M = 6,075 "# 5052 TO 5052 OR 5052 MA = ,9,7/0"# TO 606/-T6. 3.00" Vv = 300#/2 = 150# EFFECT/VE SEG TION VVA AvFv h/t 4.0/0./68 2/.3 < 55 _ (/.5(330/ Fv = 3.30 K.5.4 CHECK TREAD ® CONCENTRATED LOAD = 4,950# EDGE 5T/FFENER FOR 5'-6 " D/AM. VH 6 f GREATER VHA AAHHF v / 6 ° � VHA = (0.564)(3.30) Q /,,96/# GASEZ k k GONG. Q 0 LOAD (0 8; 7/O 4,950 I,,96I I (0.70,2+(0.030)2+(0.49)2 GASEI (0.49) + 0.00 + 024 0.73 c 1.00 300# ON 6„ 2„ x 2„ 50 L155, C3 x 4 x 3//6 " MIN. 5052-1432 ALUM/NUM (4 50. IN•) TREAD 555 TION FOR 7'-O" MAX D/AM. WITH' 12" 40 P.5.F. L.L. B 300# G.L. TREAD PLAN 5'-O" D/AM. TO 7 -O" D/AM. WOOD Engineering, lne. SUBJECT 5P/RAL SHEET NO:67 OF— WOOD-Engineering� Inc. SUBJECT 5P/RAL SHEETNO. 60 OF- Sm grmrdy 5TA/RNAY ,95-82 s�` .STAIRWAY ,95-,92 rdb24 JOB NO. J08 NO. C."n..aBR4cgnaa/B Qax� 1- 7-1/ RvmmaNbRacitnAa/Brdyl+Qu�a+ /-7-// �B THE IRON FOR THE IRON 10040 FOOTHILL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA. CA 91750 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY —"" . W . RANCHO CUCAMONGA, CA 9173.) (909) 989-2087 - FAX (909) 989-8136 DESIGNED BY SHOP 51 -IOP 7-REAGz-DE5/6N 3116 " AL'UM/NUM TREAD DE5/6N-3/l6 "ALUM/NUM GHEGK TREAD AT GONG. LOAD GA5E / 5052-H'32 7'-0" D/AM. TREAD SUMMARY. 40 P.5.F. OR 300+ G.L. AVG. M = PL/6 300(17.8)/6 0170"# �– PARP/AL F/X/1Y 300 2 6 " MIN. RAO. 6ON5/DER 2 -NA Y AG TION W/ l2" EFFEG T/VE N/DTH I p = 3'-6 "MAX. RAD. Ft 14.0 K.5./. FC = 170K.5.1. j 5 /2(0./8,9, 2/6 = 0.0707 TREAD / = /2(0.16,9)"3//2 = 0.00665 / 0 MA = 0.0707(/4.0 JC5.0 = 990"#.1 890"# o.K d = �(300/2)(17.,9,3J/(l92(/O. /E6/0.00665J CASE / -{- = 0.066 . 1116 " NOT GR/T/GAL Q� I CHECK 300# 6. L. AT END OF TREAD CA552 _ J L = 2/" MAX. 300# P = 300# " M = 300(2/)/4 1575 "# 3//6 ALUM/NUM PLA TE 5052-H32 1N/ 5356 WELD GK. L2" x 2" x 3116" (CON5ERV.J h FILLER AT WELDS TREAD b/t 2/(3//6) = 10.7 ,> 8.0 M^ t / 5.0 2" i� GOP Fc = /7.3 - 0.0574(10.7) _ //,/56 'V Fb 11,15,9 P.S./. GA5E 2 TREAD 3 0.06 —------- MA 0.1,96x//,•150 = 2,075"# �> 1,575"# d = �300(2/J"3J/I192/lO./E61026,9J = 0.005 NOT GRiT/GAL COLUMN 1/8 NOTE: BALLU5TER5 RV/LL AL50 TRANSFER 300# LOAD 2" LIP MAYBE TO HANDRAIL AND 0/5 7R/31 TO 5/0E OF TREAD. OMITTED AT 2'-6 "RAD/US , 5052-1432 FUSE. 3116" ALUMINUM PLATE FOR 7'-O" DIAM. MAX. WOOD Engineering, Inc. smnd6Ovq 77b71 Enavpy QmrwofiY 6 Res6MRN &� Aag� 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX(909)98"106 TREAD D/MENS/ONS MIN 4" O.D. PIPE COLLAR SUBJECT 5P/RAL F_ SHEEMO_ 69 OF - STAIRWAY 5 85-82 33" JOB N0. _ 19.311, DATE /- 7-// FOR THE IRON SHOP DESIGNED BY -� W EAR 5 . " 8.5"4-2 42" 20.99" 3/4" 50. TUBE 5PINOLE �DULE (TYPICAL/ D WIDTH � -m o W G = (Ro 5/N X30/2V - 0.3 75'2N) Y _ Ro-2+ )I- 3-25 325 G b _ 3.25 Y,/2 Y CHECK"FOR Ro = 30"' Y _ 30-2+Y 3.25 /4. 7B Y = 7.84" b _ 3.25 7.84 -,-12 7.84 b = 8.14" Ro 'G" 'b" 30" /4.78" 8./4" 33" /6.33" 19.311, 36" /7.68" 8.41" 34" /9.43" 5 . " 8.5"4-2 42" 20.99" 8.57" 32: WOOD Enalneering, Inc. SUBJECT 5P/RAL SHEETNO. 70 OF_ smmxegan 6TAIRWAYe5-82 7707 &.W JOB NO. Osmq 01 10040 FOOTHILL BOULEVARDTHE IRON DATE RANCHO CUCAMONGA, CA 917300tH FOH (9989-2DB7 - FAX (909) 989-8106 SHOP DESIGNED BY W . 5P/RAL STA/RWAY 40+/ L.L. TREAD CONNECTION DE5/6N COLLAR COLUMN TREAD TO COLLAR U5E. SAME A5 TREAD TO COLUMN. 5EE PREVIOU5 5HEE775. V =300# BACK STEP I/64" GG'UGE m5//6 SET SCREW COLLAR II GJP EA. 5/DE O COLLAR TO COLUMN OF 5TEP ry VMAX. = 300# /56" = lO/64" 5E SCREW BEARINS AREA DUE TO 5ET 5GRoy 4 5CREP15 A = (7r(0203V/2 + mle-2156//210.0/56 (4V = 0.0352 IN 2 fv = 300/0.0352 ��1164. OERm = 6,522 P.5./. < 14,400 P.5./. /5TEEL 5HEAR) < 12,000 P.5.1. (ALUM/NUM 5HEAR 606/-7-65 COL.) CHK 42J #I2 5.0.5. T,5.1 -f.5. TEK5 OR EQUAL (EN6/NEER/NG D/AM. = 0204.MIN. ROOT 0/AM. = 0.157 M/N. 'PATA FOR ALUM/MIM A = (0.1571 2 it/4 = 0.0/44 5MM57VRE5 VAI LO`v = O.O/44 x /0 K.5.1. x 2 = 300#> 300# P6. e0, /475) VALLO{N = 4540 x 6" O.CA2) x 2 = 540# �- 4 PER 24. 300# -R.R. 3056 TABLE #O U5E.- (2) #12 50.5.T,SM.5., 7EK5 OR EQUAL L.A. C/TY R.R. 23768 8 /G.B.O. R.R. #3056. SCREWS /N ALUMINUM 5HALL BE GOA TED OR PLATED CARBON STEEL. WHEN EXPOSED TO THE WEATHER, THEY SHALL BE AU57EN/T/G 5TA/NLE55 5TEEL. 5EE 5.4.1. ALUMINUM DE5/6N MANUAL. WOOD Engineering, Inc. -a- 5P/RA'L sHEETwo. �/ OF WOOD Engineering, Inc. sualEcr 5P../_RAL sHEETNo. 72 OF_ STAIRWAY STAIRWAY z,E""""� Joe No. 85-82 ?+ JOBNO. 85-82 Gmra•®'b R8 Bul*Vo-*- Ca_'wvoNBNemb�OaBrAs q D-0, 10040 FOOTHILL BOULEVARD THE IRON DATE /- 7-// FOR THE IRON DATE- /-7-// -- RANCHO CUCAMONGA. CA 91730 FOR RANCHO CUCAMONGA. CCA 91730 (909) 989-2087 - FAX (909) 989-8106 SHOP DESIGNED (909) 989-2087 - FAX (909) 989-8106 51-IOR DESIGNED BY�W LANDING' DESIGN LAND/N6 DE5/6N 57 -EEL -8 7'-O" D/A. 57 -A/R /5 CRITICAL 7'-O" D/A. 5TA/R /5 CRITICAL ALUMINUM X„ 0� 40 DEGREE e e STIFFENERS F l/8" STEEL \ �� v� +• 3//6 " ALUM/NUM �iG-- LOAD TO < \ '%,%41/ i 5 ee O DEG. I TYP/GAL RIB \ �(x`e % 15TIFFENER 5 T/FFENERS �e i 1 e Y8" AL'IJM/NUM MAXee F CIS. OF LA QUIN 1 e 5 T/FFENER I {^ 2 � P � BUILDING &SAFE T, ^ ^ 6 D G E LA D/N5 PLAN 1 v /1 eeo f' / � Ti � � � J OIMENSIONSnT-,'05L � � � ----�f 1 eVED e D/AM. FXD�/21f' fySY-Xicd/2'TIQ/ L/ -F2(X)-2„ X1213 X-1�3 5'-0" 3/" 22.0 /5.5" 4/8" 24.0" /7.0" 46.0" X = 43" MAX. 6'-O"ATE __37" �" ISS" 503" 6'-6" 40" 26.2" 2�O a 154.6" 90 DEGREE LANOINS PLAN 7=0" 43" 30.4" 2/5" 58.8" �F REFER TO NEXT SHEET FOR 05rA/L5 a NOTE5 * REFER TO PREVlOU5 SHEET FOR OETAIL5 1 NOTE5 WOOD Engineering, Inc. sulum 5P/RAL SHEETNO.73 OF_ WOOD Engineering, Inc. suBJEcr 5P/RAL SHEETNO. 74 OF_ sft. rW . a 5TAIRNA YJOB NO. 65-6.2 smcn., 5� m p 5TAIRNeA Y 85-82 Mb 24E-Vy C --r •6R&,W-"&AkaD-0, /- 7-H 7Rb24&-W 6 AwbW7NB.Mv Assn JOB NO. /-7-// FOR THE IRON FOR THE IRON 10040 FOOTFALL BOULEVARD DATE 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGHm BV-` W • RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . SHOP SHOP�. LANDING DE5/6N 57 -EEL B LANDING DE5/GN w = (/52//2)(5012 57'EEL OR ALUM/NUM ALUMINUM = L27 ++/' l/B" STEEL DECK OR 3//6"ALUM/NUM //B" 57EEL DECK OR 3//6"ALUM/NUM Law,( = 16" 5 = 12(/25)"2/6 = 0.03 / _ /2(0.125)"3//2 = 0.002 //4"x 2" RIB GA5E 2 M =504(/.33) 2(/.5) = /33'# __- 5Wr.. 67 fb = /33/0.03 = 4,433,(-2-2 K.51. sreec OR /4 K.5.1. Au"Imwf L = 58.8" W = (/27/2)(4.90) = 3114 11 d = 0.0099(40)x4 /,720 = 0.036 ' L1360 (044O.K. 0.0 M = 311(5B.BJ/6 8 = 3,047"4 156# 56." (4.90Y 1564 x 29 E6 0.002 fr, = 3,047/(2 x 0./3/) = 11,632' 22 K.5.1. sr�z OR . 11,158 P,51. AuwBLw O.K. E/ smr:L = 217E6,y 0.002 = 58,000 311(58 8') -3 b5E 3/6 " R/B FOR ALUM/NUM d rt. - - 0/0" E/ Auwmtw = 10.1Eb x 0.00665 = 67,165 56,000 O.K, 60(2956) 2 x ./170 -EEL d Lam. _ (4oi5oJ(o./OJ = 0. 00 < L/360 (0.16) O.K. saw Fixirr a ams V5E. //B" 57 OR 3/16" ALUM/NUM � PLATE T05PAN16"MAX. I I - - CHECK 3116 " ALUM/NUM LAND/NG EOGE CA55 E/ s7ra = 2956 x 2 x 0./90 = //02E6 E/ Aumlmw = /0.1E6 x 2 x 0.26E = 5,4/56 L = 44" W =)234 //b„ d Auwivw = 0.08(//02/54/) = 0.16 = L/360 O.K. M = 0.!263(/23)44" = 694"# GA5E l USE. //4" x 2" STEEL R/B OR 3/8"ALUM/NUM RIO d = 0.01304(/23)(44) 4 = 0.025 ' L1360 ('12l A5 5HON'N IN CA5E 2 8 LANG/NG PLAN. 29 Eb (0./170) caysErrv. i Foe e 2', rx //29"s*er. LAG5 AT SUPPORT 67 ft, = 694/0.131 =5,2q,9)15.1. '22 K.5/. smn. OR //,158 P,54 ALa4mo' P = 1564 //8 2-8 I W = /234 //2"PIA. x 4" LAG !N/ //B" 5TEEL 1 H.F. V5E.• 1/6." STEEL .OR 3116"ALUM/NUM I - 1335x50# Z.L = 130# PLATE N%2"'ED6E LIP. I =67 I 4LAes = 156#//30# = L2 5A Y' 2 /14" 5TEEL CK. ENTIRE LAND/NG 318"ALUMINUM P = (3.5,y 3.5)50# = 612# CA5E 2 P/2= 612#= 306# 41# 924 #c.Abs = 306#1156# _ /176 5A Y'2 44" (3.66%_ !)SE (2) 1/2" DIA. x 4" LAG5 MIN. WOOD Engineering, Inc. suB,EcT 5P/RAL SHEETNO' -75- OF_ WOOD-Ett�nCering, InC. suB�Ea 5P/RAL SHEETNO. 76 OF �F4 STAIRlNA Y 85-82 STAIRNA Y_ bS-62 JOB NO. 4� .LOB NO. Cmn '6%edbitl�B dit DWO,c- /-7- 6Resalmde/BWLp GdswXr /- 7-/1 - FOR THE IRON FOR THE IRON 1 10040 FOOTHILL BOULEVARD DATE 10040 FOOTFALL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BV-` - W . RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY" W. SHOP SHOP - GOLUMN'OESIGN 5TEEL COLUMN PE5/6N ALUMINUM � 4so 0256.606/-T6 a Pavex ct = ((40 710 2)/4)/25) = 39270"2 i� TRY P/PE 3" DIAM. SCHEDULE 40 PmAx earo1N6 = (317.270 2,)12 = /9.630.2 I P�NoiNs A = 223 1N. 2 / = 3.02 /N. -4 5 = 1.72 /N. 3 r = 1.16 o = 0.4244R OR 021220 Rb4 = 7.6 Maar. = M630-2021=1) = 4170^3 KL1r = 12x!211.16 = 124 P 0 Maw,( = /17.630 2 + (10/40)39,270 2 = 29.450 2 TENS/ON IN BEAM TRY PIPE 3" 01AM. 5T0. A = 2.06 IN, 2 5 = 1.63 /N. 3 r = /l7 Fu = 24.0,<51 COLUMN GOMPRE5510N hawx = 1200' K//r = 123.0 Fo = 9.67 K.51 ® D = 7.0' Fwmv = /44k fo = 1.4412.08 = 0.69 5 = 7.6 ' 66 Mzo = 4./7(7.0,)^3 = 1.42k fb = /42(12)1163 = 10.45 K.5.1. Fo = 20.2-0.126KL/r 1045 fb fo.0.69 = 202-0,126(/24) = 202 - 15.6 = 4.58 K5/ +-_ F4, Fo 0.66(35) +967 =0.45+0.07=0.52r/.O eY COMPARISON P a FseT `Yr IIH COLUMN GOMPRE5510N ELEMENT CHK. LAT. ON COLUMN ec-No1N6 rs MORE GR/T/GAL mow P- FOR AX/AL OM Y. 5 = 76 / 4 W IYINo = 35 P.L.F. (5H7. /0) 372# P /4/ V = (/2/2)35 = 2/0# Fo = 22.1-0.799 Rett W sKo,Y = (0.20(40#)/40)317,270 2 - 385# _ = 221-0.7179 7.6 = 22./-2.20 = 19.90 K51 Ve.o. = 0.39/W Ho = (jr(7)^2/4)X10#X125 =. 481# " • 41' COMPRESS/ON IN BEAM W = 0.317//385#+48/#1//2 = 2B P.L.F. r 35 P.L.F. n (p 5 ==7 6 29 Fc 25 KS/ V = (/212)20 = 166# M = 3512 2J/B = 6-:30'# NOTE.• 4151NG 5TEEL 5EG TION AG DUAL 57RE55E5 15 fb = 0.630X12/1.63 = 4.64 K51 Q CON5ERVAT/VE DUE TO SMALLER 5EGT/ON COMB/NEO (L +D*W moRe cR1 r1cAL rHAm comes s r 6) PRO,-ERT/E5 OF 5TEEL 5E6 7-10N. /0.45+4.64+0.69•=-0.65+0.07=0.72'10 0.66(35) 17.67 h fa = 0.617 CONNECT/ON TOP If BTM.372# Fo = 4.50 K51 P = MIH * V = 142/8.75 * 210# fo/Fo = 0.69/4.58 = 0.15 r 0.15 = 162 *•210 = 372# W/ND = 2/0# fo/Fo + fb/Fb = 0./5 * (/0.45+4.64)/24 (5) I/2" x 4" LAG 2" PEN IN HF. E.O. = /60# = 0.15 o 0.62 = 0.77' 10 W' = 5x2' x 243# x 0.7 = /, 70/# > 372# UNBAL. = 162# Z'B = 5 x 260�x 0.7 = 700# -) 372# DOUBLE LA65 CON5ERV, 3/0"0 �� Cm ® /NTERMED/A TE LAND/N655 OF 2 STORY WOOD Engineering, Inc. SUBJECT 5P/RAL sHEETNo. 77 OF_ WOOD Engineering, Inc. smECT 5P/RAL SHEETNO. 76 OF_ ,S&„_,,,. 5TA/RNAi ' 5�4 -11IRiNAY 85-62 mow JOB No.85-62 JOB No. 1 -7 -Il sou�iEVARD �- 7-H FOR THE IRON FOR THE /ROH DATE 10040 FOOTHILLe�WUBo�LEVAARRD Tp HILL 10040 FOOTHILL DATE ONGA, CA 91730 (909) 9899-2087CHO -M FAX (909 989-8106 DESIGNED BV'�� W. RANCHO C7 - FA (9 ) 9 91730 (909) 989-2087 - FAX (909) 989$106 DESIGNED BYE . W. SHOP SHOP COLUMN ZE5/6H 5EAR/N6 PLATE 0. o o=5-175=3.25 7" A = 7,9.541N2 Fol USE.• PIPE 3"01A. 5 TD. STEEL A53 GR. B OR P/PE 3 " D/A. M = 4(3.25)"2/2/ FIA 7" SCHEDULE 40 ALUM/NUM 606/-T6 COLUMN FOR STAR M = 5.28/ FIA 3"01A COL. O.D. = 3 I/2" D/A. OF 7'-O" MAX. a= 4.949-1.75= 3.20" AL T. STEEL H55 3.500'x0.2/6" OR ALUM/NUM ROUND TUBE 3" DIA COL. 0. 12. = 3 //2" M = ((320) -21VP/A//N. 3.500" O.O. x 025" WALL 606/-T6. lO" DIA. A = 49 /N. 2 7'-0 D/A. l V/IO" D/A. OR 7" SCJ. PLA TE M = 5.12, 1A NOTE.• LARGER PIPE AC MALL Y USED ON PLAN P = 2,405# a I -STORY FOR DIAMETERS OVER 5'-6': A = )r(Z2 2)14 = 3.14(/0 2114 = 76.5 w = 2405/76.5 = 3/ P5/ FOOT/N6 12E5/6N M = 31('3-25^2)1-2 = 164"# P7• _ [,140x10))70-21411.25 GK 1/4"PLATE COASERVA nVE PER = 49.062 5 = 1(0.25"21/6 = 0.0104 /N. 3/-] A45.C. OM EO/nQV F//. 2� =2,405# MA srCm = O.O104(0.75x36,000J = 26/"# > 164' MA Aus-T 6a50-ra = O.O104(26,000J = 29/ "#.> /64 "# SO/L BRNG. NET = 1500 - 150 = 1,350 PSF PLATE GONNEG TION SCJ FTNG. = - I33' SAY /6" SQ.cacww� V = 4/4# e /,054# ((U3/6 "d HIL Tl KN'/K BOL T 3, 50/ BRNG 13505 3-//2" EMBED) USE.• USE.• l0." DIA. OR 7" SO X l/4" 5EAR/N6 )-LATE:(A36-SFEEL OR /6" SO. x /2" DEEP FOOTING 606/-T6 ALUM/NUM) FOR ALL STAR D/A. AND ONE STORY. FOR 7=0" MAX. I -STORY STAR. s 4-3/B"PIA. M/N. HIL Tl KN/K BOL T 3 ANCHORS, /,500 P.S.F. 50/L. (TORQUE 20 FT.-LBJ, 3 //2" EMBED. E.SR.-/365 02-01-10, L.A. R.R. 25577. NOTE.• 3,45E fP D/MENS/ONS SHOWN ABOVE ARE.M/N/MUM D/MENS/ON. GONF/RM AG MAL BASE IE DIMENSION QED WITH MANUFACTURER OR ON APPROVED PLANS WOOD Engineering, Inc. suIuEa 5PIRAL SNEETNO. 79 OF_ WOOD Engineering, Inc. SUBJECT SP/RAL SHEET No:. 6O OF_ S„�,,,a,E,W-v 5TAIRWAY65-62 JOB NO. Sv,.f w&af.-v 5TAIRWA)' JOB NO. 65-62 rRb246a gy /- 7-// Mb24f ILL DATE /- 7-H FOR THE IRON 70040 FOOTHILL BOULEVARD DATE 10040 FOOD THag BOULEVARD FOR THE IRON RANCHO CUCAMONGA. CA 97730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY �. W - RANCHO CUCAMONGA, CA 91730 (909) 9842087 - FAX (909) 989.8106 DESIGNED BYE . W . SHOP SHOP COLUMN 6 =O" VIA.- X 24=0" H16'H SPIRALSTAIRWAY COLUMN DE5/6N C2 =0" D/A: X 24' H/GH 2-5.TORY (LATERAL SUPPORT LANDING AT I2=01 X900 DEG. 2 -STORY 3rd FLOOR )-max = 25(50 1SF)z,9 2/4 = 96./7 0'2 # 4 " O.D. COLUMN )"max BENDING = (96. /7 D 21/2 = 49.06 D 2 # h 3 I/2" O.D. INNER a = 0.4244 R OR 01/222 COLUMN LAND/NG Mmax = 49.06 (0.2/22)2 3 = 10.410 -3 W h FOR D = 6 =0" , Mmax = 2249'# Pmax = 3,534# Q TYP. TREAD h COLLAR h 4-5//6 " DIA. SET SCREWS P/PE 3.5" DIA. X -STRONG STEEL 4 " O. D. COL UMN(ft,M/N. = 35 K51) + A DETAIL i A = 3.44 IN --2 hMAX = /2'-O" 5 =2.97/N. 3 K= /.0 \\ 2nd FLOOR r = l.3/" K//r = (/(/20,121//3/ _ //0 h LAND/N6 \ PIPE 3 //2" Fa = //?30 fa 3/3'44 KSl 3O`K'S/ a X -STRONG STEEL OR = 3.� - , .03 009 �'r R PIPE 3 //2" fa/Fa /.03%//30 = 0�/5 - QUINTA SCHEDULE 60 ALUMINUM 606/-T6. fb = (2.2.502)9%2.-97 = q�hD9 KS/ c O�6 35 & 210SK5/TY DEPT. �0 �I h fa + fb = 009 9��p9 .3 �O.Ipq + 0.65 0.74 < /O Fa Fb i -OR Ln�?�TRUCTION /0" D/A. X 3/6 " BEARING PLA TE W/(4) 3/6 " D/A. HIL T/ KW/K BOL T 3 E511 USE/ P%PE 3:5=D1A-X=577WONGA53 GRA q Is FLOOR - /'-6" 50. X L2" DP. STA/R ELEVATION PAD FOOTING WOOD Engineering, Inc. SUBJECT SP/RAL SHEETNO. b/ OF_ WOOD Fmgineering, lac. SUBJECT SPIRAL SHEE(NO. b2 OF_ STAIRWAY 05-82 � 5TAIRMA )' 65-02 m24 &.Vy CMnwdW6RasibwWB Lbsq, JOB NO. 1- 7-H Rb Crvrvm.W&R-.WXWBuYi9Daq�,, JOB NO. / 7-// - 10040 FOOTHILL BOULEVARD FOR THE /ROH DATE 10040 FOOTHILL BOULEVARD FOR THE /ROH DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY W . RANCHO CUCAMONGA, CA 917:0 (909) 989-2087 - FAX (909) 989-8"06 DESIGNED BY �W . SHOP SHOP COLUMN DE5/6N - 6 -O" 0/AM. x 24' HIGH ALUMINUM BASE PLATE 6'01A. X 24' H/GH 2-57'ORY TRY PIPE 3 //2" D/AM. SCHEDULE 80 606/-T65„ 2„ 3„ /0" D/A., A= 78.5 /N2 a = _ = A=3.68/N.2/=6.26/N.-4 5=3.14 IN, 3 r=/.3//N. Rb/t = 5.6 M = //3';l 2/21 PIA = 4. 5KP/Al KL/r = 12x/211.3/ _ //0 P = .3,534# RIA = 3534/78.5 = 45.0 P51 TENSION /N BEAMSEE COL D6E5/N Fbt = 240,<51 M = 4.32//2 = 203 "# 26 (//4 " PLA TE, a 7' D/A. /-STORY/ COLUMN COMPRESSION 29/"# (ALUM/NUM/ 4" O.D. COL. 5=5.6(66 Fo = 20.2-0./26KL/r = 20.2-0.1260/0/ =.20.2 - /3.66 = 6.34 K5/ Mcol =.224q# V = -224q'#10. 75' = 257# Vror = 257 + 2/0 = 467-4 r /70/# 5HT. 75 COLUMN GOMPRE55ION ELEMENT < 700# 5HT. 75 5 = 5,9> 1.4 t 1,054# 5HT. 76 Fo = 22. /-0.0. 799 Rt/t FOOT/N6 51ZE = 22.1-0.799 5.6 = 22./-192 = 20./B K51 _ 353 L 4 = /6/' SAY20" 50 6OMPRE55ION IN BEAM 50/L BRN6 - 1350 5=5.6'r29 Fc = 25 K5/ NOTE: U51N6 5TEEL 5EG7-/0N ACTUAL 5TRE55E5 /5 GONSERVAr/VE DUE TO SMALLER SEG TION PROPERTIES OF 5TEEL 5EG T/ON. fo = •403 6 Fo = 6.34 K5/ 21- fa/Fo = 103/6.34 = 0./6 a 0.15 fa/Fo + fb/Fb = O + 4.64J/24 415E. /0" D/A. X 3/6 • BEAR/N6 PLATE /A36 STEEL OR = O. /6 /6 + 0.57 = .57 = 0.73 /0 606/-T6 ALUMiYUM/ W/(4/ 3/6" D/A. HIL T/ K93 ANCHORS ANG 20" 50. X /2" DEEP PAD U5E PIPE 3 //2" D/AM. SCHEDULE 60 ALUM/NUM 606/-T6. FOOTING W /500 P5F 501L. WOOD Inc. suaiEcr 5F'/RAL SHEETNO.' 83-OF_'Inc.SUBJEC( WOOD F.1fg�nrjlig;'I1l 5P_/RAL SHEETNO. 64 OF SEn�lleering,' STA/RWAY JOBNo. 65-62 STAIRWAY JOB NO. 65-62 rasa ray FOOTH�iLL BO /- 7-// /- 7-// FOR THE /ROH DATE FOR THE /ROH 10040 ACRD 10040 FOOTHILLeR�B�� DATE RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY---='. W. RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-81Gi DESIGNED BY ---'-- W SHOP SHOP HANDRAIL-• HANDRAIL CHECK ALUM/NUM OR BRA55t k GHEGK ALUM/NUM OR BRA55 CHK. RAIL TO 0/5 MOV rE (y ALLOWABLE 5TRE55 200 # TO 4 BALLUSTERS FbBRA55 = 1 /7(19//165 = /Z. 76 M = (200/4/(2//2/ + (200/4/(2/ + 2//2/ Fb BRA55 = 12S(40///0(1.95) = 25K5/ = 525"# + /575 = 2/00 " 4 ACTUAL 5TRE55: (5EE NEXT SHEET FOR CIO,Fb OR ALLOWABLE 5TRE55) ALUM = 1/7(35J/1.65 = 24.6 KSl ��5 //6" RVA LL606/-T6 5 = 0.096/75 /(/5/"4- (125)"4) = 017-2 PLAN = 0.0A FbALUM = 424(3E)/1.0(195/ = 2.42K5/ 606/-T6 / 1 1"5 5 = 0.096175 ((1"25/"4-(10/"'4) = 0.113 HANDRA/L / 1/4" D/A. 1.25 - OR FbALUM = 1.17(16.)/✓.65 = 113 < /2.76 fb BALLUSTER 2100/0.172 3003-H/4 FbALLIM = 124(/9/1/.0(195/ = 121 /2.76 _ /2.24 KSl .1 /130 3003-H/4 ALUM. 3003-H14 t 12.76 3RA55 50# 3003-H14 ALUM. 8R; OVER O.K. Z 36" PORTION OF 200# LOAD W/LLAX. J TREAD BE TRANSFERRED INTO AX/AL LOAD THROUGH CIRCULAR �- TEN510N. 6 CK. OAK HANDRAIL fb -BOL 5 = 2(175/ 2 /6 = 102f OAK HANDRAIL 125" D/A. = 2/00/0.//3 T )lb = 2100/102/ = 2057 - = 16.56 K51 < 242 K51,16061- 76 ALUM) Fb = 1150 x /5 = 1725 - 2057 /9q; OVER c?. K. 1/4 " WALL / 114' 5EE PREVIOUS SHEET 5 / DIA. x 1/4" THICK /�05E.-/ 1/4" O.D. X 1/6'�NALL 6061-T6 ALUM. OR / //2" O.D. X 1/6" RVA LL 3003-H14 ALUM. = 0.096175 ((1'25/"12-5(0.75/�4� //6" = 0.167 OR 84.3-94 5 T H56.BRA55 OR / 3/4"X2"OAK HANDRAIL OR l -/i4" O.D. x 1/4" WALL 843-94 H50 BRA55 fb = 2100 / 0.167 = 12.56 < /2.76 BRA55 WOOD Engineering, Inc. .-_ 5P/RAL SHEETNO.85 OF_ WOOD Engineering, InC� SUeIECF 5P/RAL SHEETNO. B6 OF ro STA/RWAY 85-82 Sm=#Wr ro STA/RWAY BS -82 Mb2 JOB NO. we No. BOU�i l - 7-// BBOU�i /- 7-// THE IRON FOR IRON 10040 FOOTHILL EVAARRDFOR D"� 10040 FOOTHILL EVAARRD DATE RANCHO CUCAMONGA, CA 91730 (909) 989-2087 - FAX (909) 989-8106 DESIGNED BY RANCHO CUCAMONGA, CA 91730 989-2087 - FAX (909) 989.8106 DESIGNED SHOP SHOP BALLU5TER5//6"PIA, BALLV57-ER HOLE GK 3/4 " X 3/4 " 50L /D ®_ H = 38" V _ (O 313 J STEEL F = 200/4 = 50# 41 b/t = 0.63/0.06 = 10.5 M = 50 x 38 = /900'+% A p = /.12(E/Fy) -0. 5 = /. 1-2(29E6/5OE31 "0.5 = 27 ,1 /0.5 COMPACT. FLANGE LOCAL BUCKLING AND WEB LOCAL 0.75(�0.75)-3 - (0.313) 3J B!/GKLING NOT GRIT/GAL. 5 = 3/4, 6(0.7s) = 0.0652 3/4" X 3/4" a BOL T HOLE5 Mn = MP = Fy Z = 50,000 x 0.0430 = 2,/50"# Z = (0.75/4j((0.75) 2 - (0.3/3) 2/ = 0.087/ /6My = /.6('30,000)0.0353 = 2,624"# 2,/50"# Mn / J2 = 2,150/1.67 = 1,287"# 5TEEL /-/MAX. = /,267/50 = 25.7" 3A)'25" [L id] / [t 21 = (38(0.75)] / (0.75 21 = 51 36 - H = 38 - 25 = 13 " 5AY /8" [0.08EJ /[FYI = 10.08(29--6)) /136(E3)J = 64 , 5/ ALUM/NUM :Mn=Mp=Fyz</.6My b/t= /0.5 < 5/=21 Mn = 36,000(0.087/) = 3,136 "%< Fb = 2/ K.5.1. /.6My = /6(36,000 x 0.0652) = 3,756 V .1 3,/36# MALLOW = 2/,000 x 0.0353 = 741"# Mn / M? = 3,/36//.67 = 1,67e"# /,900 "# /S OVER O.K. HMAx. = 74//50 = /4.62 5AY 15" /; OVER O.K. 38 - H = 38 - 15 = 23" ,O K.5./. 5TEEL V5ED U5E, 3/4" x 3/4" SOLID TO /8" ABOVE TREAD FOR 5TEEL ALUMINUM fb = /900/0.0652 8 23 " FOR ALUM/NUM 6 3/4 ",y 3/4 " x l6 GA. (0.0609 TO = 29,/4 .y 28 K.5./. ALUM. 606/-T6 4A, OVER O.K. TOP HANDRAIL (Fy = 50 K5.4 57EEL 8 606/-T6 ALUM/NUM) GK 3/4 " 50. x /6 GA. F = 50# M = 50 x H" = 50H"# SOtt BALLUSTER CONNECT/ON 5TEEL OR GK. //4" D/A. M.B. I 5TA/NLE55 57EEL 5 = 0.75(0.755 3 - 0.63L0.63_"3 ✓ollon = 0.049 X 1OK51 = 490# -1 266# (� m X0.75) CK. BRNG ON TREAD = 0.0353 0.06" 0.63" 0.06" A = 0.25 X I/8" = 0.03/2 268# 0.75" Follow = 0.03/2 x 32 KS/ = 998# 288# e. Z =((0.75(0.751 2)/4J -((0.63/0.63/"2)/4J USE //4"DIA. M.B. IN STEEL OR ALUM. 5052-H32. 23Btt = 0./055 - 0.0625 = 0.0430 WOODEngineering, Inc. SUIUEcr-5PIR14L SHEETNO. 87 OF_ WOOD�Engineer/ng, nes SUBJEcr 5P/RAL SHEETNO.8B OF sbl.: m STAIRWAY JOB No. 85-82 s -W&P- 57-A/RWA)'JOB NO. BS -82 _ � f -m &R¢sd-W&AR'9D /-7-// coovr oRe: ,mbrabma /-7-// THE IRON DATE FOR THE IRON 10040 FOOTHILL BOULEVARDf-0R RANCHO CUCAMONGA, CA 91730 10040 FOOTHILL BOULEVARD RANCHO CUCAMONGA, CA 91730 DATE SHOP SHOP (904) 989-2087 - FAX (909) 989-8106 DESIGNED BY W (909) 989-2087 - FAX (909) 989-8106 DESIGNED GHEGK:.BALLU5TER FOR VERT. /COMP. GRI TJ SPIRAL STAIRWAY"" BY COMPARISON TO 200# LATERAL, P= 50 # 6x6 F05T #2 D.F. Fc = 700 E = I3E6 EM/N. = 0.47E6 L = 9 -O" Pmox = 7.78 �e/d = 9x12/5.5 = I9.6 r = 0.75 (0.75)-3 - 0.6306353 = 0.3/64 - 0./575= 0283 L2 0.75) 2 - (0.63) 2 12 0 A Fc - 700 \\GON5ERV. SUPPORTED BY CIRCULAR HANDRAIL K L/r = 10(38)10.283 = /34 FA = 8.32 K5/ BY INSPECTION, ALUM/NUM NOT Fallow = 0./656 X 8.32 = 136 k,>500 = 1,006 F51 GRITIGAL. Fce / Fc ` _ /006/700 = I44 1,,144/+1441 2 144 CIO 05E.• BALLU5TER A5 NOTED ON FREV10U5 5HT. 1 GHEGK 1NTERMED/ATE RA/LS 4" D/G (TYP.) 2x0.8 2x0.8/ 0.8 L = 38" OR 3.2' 1L11_1L 1L__ _ /.53 - 0. 73 = 0.60 P = 50#/3 = l7# PO/NT LOAD Fc = 700x0.80 = 560 625 Fc! (50# ON ONE 50.FT.) R = 9#O# �> 7760# = I62"# < 927"# 5TEEL < 74/ "# ALUMINUM B I LN` 6tr�rT p.q mpx (PREVIOUS SHEET) R1 � �� 'ROVED GK CONNECT/ON TD TOP RAIL cp � BALLUSTER m FOR m h CONSTRUCTION V = 13# NOT GRIT. m INTERMEDIATE RAX 5 TYF, U5E SAME A5 BALLU57ER 3/4'k3/4'k166A.(0.06) DATE BY W GONNEG TOR a BOTTOM W/ //4 "-20 SCREW 8 5/16 " 5ET 5GREW d GONNEG TOR ® TOP W/ #/0x3/4 " SHEET METAL SCREW WOOD Engineering, Inc. SUBJECT 5P/RAL SHEEPNO. B9 OF_ WOOD Engineering, Inc. ^-�------v' SUBJECT 5P/RAL SHEEPNO. 9O OF_ S7> STA IRNA Y 85-82 5TA/R`YAY 85-82 JOB NO. 4'm JOB NO. CLmwcN6RemilnONBWig� /-7-1 / 4vmwdV6RexWntimlBuffig!)armn /- 7-// FOR THE 1RON 10040 FOOTHILL BOULEVARD FOR THE IRON DAT 10040 FOOTHILL BOULEVARD DATE RANCHO CUCAMONGA, CA 91730 (900) 989-2087 • FAX(909)98"106 DESIGNED BY - W . RANCHO CUCAMONGA. CA 91730 (909) 989-2087 - FAX(909)989-8106 DESIGNED 8Y �. W . SHOP SHOP 6UARORA/L (GUARD) WALL OR 641ARORA/L K&IARD) LOA05 GUARDRAIL HORIZONTAL (CONT) BY OTHERS W = 20 P.L.F. GUARDRAIL � STEEL b/t = /35/0.075 = /8 OR 6'-b " MAX. \ A p = //2(E/Fye 0.5 = / L219E6/36E6J O.5 = .5L2,> 1,9 GON5ERVA RVE GOMPAC T. FLANGE LOCAL BUGKL 1N6 AND P = 200# ANYWHERE /NEB LOCAL alcKLINb NOT GR/TICAL. P =504 ON ONE 5Q. FT. ON INTERMEDIATE RAILS. Mn = Mp = Fy Z = 36,000 x 02287 = 8233"4 HORIZONTAL TYP. PLAN Mn/(l b = 8,233//.67 = 4,930'# ,> 3, 900' L = 6.5' W = 20 P.L.F. OR P = 2004 200+1 Mry = (20(6.52)) /5 = /260 In. -lb. ALUMINUM Mp = (200(6.5x12))14 = 3900 in. -lb. b1t = 18 (2/ Rw = (6.5/2)20 = 654 504 /004 504 Fb = 2/ K.5.1. - 200/2 = 1004 OR 2004 MAX. .6'-6" 6'-6" MALLOW = 21,000 x 0.193 RAIL MGAT = 504(6.5x/2)= 39TOP RAIL LOAD N 00 /n.LB. = 4,053"#> 3,9001W DR CK. 1-1/2 x 1-1/2 x 2.075 (14 6A) TUBE 2004 5 = ((15(/51"3J - (1.35(/.35)311/16(/5)1 = 0.193 05E.• 1-1/2 x 1-1/2 x 0.075 (14,5A,) TO 5PAN 6 =6" MAX. Z= ((l5(/S.) -2)141 - ((/35(/.35) -2) 141 Fy = 36K51 STEEL OR 606/-76 ALUM/NUM. = 0.8438 - 0.6151 = 02287 /004 /004 5/N6LE SPAN 0.075" ` /35" 1,1,0.075- 1.5" SQUARE TUBE WOOD Engineering, Inc. SUBJECT SPIRAL SHEET NO. ql OF _ WOOD -Engineering, Inc. SUBJECT SP/R4L SHEEiNO. OF- 5TA/RWA)' JOB NO. 85-82 sm._W 5TA/RWA Y JOB NO. 85-82 r�24&.W foma�l4R®cbMWlBWbkW D /- 7-I1 r*24E—W Gsmaai>/&R�61noN&Affi'pAay! THE IRON FNGA. DATE — FOR THE IRON 10040 FOOTHILL' BOULEVARD 10040 FOOTHILL BOULEVARD - DAT CA 1730OR (909)989-2087 PANCHO -FAX(909)989-8106 DESIGNED BY �� W . RANCHO CUCAMONGA. ) 9 91730 (900) 989-2087 - FAX (909) 989-8106 DESIGNED BY �- W 5HOP SHOP 641ARORA/L . 2010 G.B.G. 12009 LB.G. DE516N LOAD5 SUMMARY LIVE LOA05 INTERMED./f1sTEiR41L5=� 4" 0%G:._ 3/4' x 3/4"x 16 6A. MW 7' = (50(3)14)12 = 450 in. lb. RIFT= 50 MAX. FLOOR/LANDIN6: 40 P.5.F. M/PICKET ® 4" 0. C. = 4501(/214) = 150 in. /b. TREAD: 40 P5. F. OR 300 LB. ON 4 50. -1N. RIPICKET = 50/(1214) = /74 F 5PEGIAL LOA05 GK 3/4x314,/6 6A (0.060 MIN.) MA STEEL = 927"4 > l50 in. -lb. i9 HANDRAIL AND GUARDRAIL: 200 LB. IN ANY DIRECTION. >5HY, 66 INTERMED/ATE RAIL 5: 50 LB. ON ONE 50. FT. MA ALw = 74/ in. -lb. > 150 in. -lb. GK.WELO SNOW LOA 05 V = /34 NOT GRIT. WELD l/19 l/2" Pg = 40 P.5.F. GROUND 51VOW LOAD 05E. 3/4k3/4k0.060 06 (5A) TUBING O 4" 016 Fy = 36 K51 OR 606/-T6 ALUM/NUM, Ps = O. 7 Ga Gt / Pg = 0.7(/2)(/2)(/0)40 II8" x 112" FILLET WELD TOP 8 BTM. = 40.3 P.5.F. 5A 40 P.5.F. co = l2 5HEL TERED (M05T 5EVERE FAG TOR) GONNEG TION5 HORIZONTAL RAIL 70 VERTICAL Gt = /.2 UNHEATED (M05T 5EVERE FAG TOR) P = 2004 MAX. t /0 (CATEGOR)- GK 4!2 SCREW VALLOW = (7r(0116) 2 /4) 10K51 = 366#,> 2004 WIND DE5/GN DATA USE. (l) 412 x 24 SCREW EA. GONNEC TION BAS/G WIND SPEED: 90 M.P.H. (3-5E60ND GUST) ( HORIZONTAL TO ®30' ABOVE GRADE. P = 2004 MAX GK K2) 4/2 x 24N.5 IN H.F. PYI 0.120 STEEL PLATE l 112" PEN. Iry = l0 EXPOSURE. G' Z = 1434 x 2(1:5/(/0 x 0.2/6J) =V44# _ 2004 O.K.' WELD O_K. BY INSEG,T_!O, _N.,........ — -� INTERNAL PRESSURE COEFFICIENT- N/A U5E. (2) 4/2 x 2" W5. , BRACKET TO WALL 57UD, l l/2" PEN. GOMPONENT5 ANO 6L ADDING: NIA I WOOD Engineering, Inc. SUBJECT SNEETNO. OF �? sms+�.aFip nmsm 57AIR/NA )' B5 -B2 Mb 2. &-W JOB NO. C.7—Md R -.*n WB.W V Da.07 10040 FOOTHILL BOULEVARD wn THE IRON DATE /- 7-// RANCHO CUCAMONGA, CA 91730 (909) 989-2087 . FAX (909) 98"106 SHOP _ DESIGNED BY W- -2010 G.B.G. 8 2009 I.B.G. DE5/6N LOAD5 (CONT] EARTHOVAKE DE5/6N DATA /E = LO (OCCl/PANC)' CATEGORY / OR 55 = 285g 5/ _ 1.3og 5/rE 6LA55: V Sos = I.00g soy = 13og 5E151-fIC OE5I6N CATEGORY.• E 5E/5M/6 FORCE RE5/5T/NG 5Y5rEM. ORD/NARY MOMENT FRAME OE51GN 5A5E SHEAR: V = 039/ Np (A.5.D.) C5 = 0.333 A r 30 FT. ABOVE GRADE. R=3.0 ANAL 1'515 PROCEOVRE.• EOVIVALENr LATERAL FORCE. CITY OF LA QINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION DATE BY I