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Home My WebLink AboutB14-0608 027-180-041BUTTECOUNTY ; AREA DEPARTMENT OF DEVELOPMENT SERVICES 1 TITPV TAT !\TTA�T !� ♦ T�T� � TT T!`�� , i��T T�� h�� 24 Hour Inspection Line (IVR) :(530).538-4365 (Cut off time for inspections is 2pm) Due to recent reductions in staff! gour departtnent cannot guarantee inspections on the date requested Office: (530) 538-7601 Fax: (530) .) 8-7785 Website: w%vw.buttecounty.net/dds Permit No: B14-0608 I Issued: 3/28/2014 Address: 309 RAILBRIDGE RD, PALERMO APN: 027-180-041 Owner: CAPSHAW, ROBERT L & DEBORAH C Permit Type: PERMIT TO COMPLETE Description: PERMIT TO COMPLETE J NSF 06-0158 Flood Zone: None SRA Area: Yes j; SETBACKS for Zonine. AG. SRA. PW i :Tont: Centerline of Road: Rear: SRA: 4 ; Side: AG: Other: a Total Setback from Centerline of Road: ALL PLAN REVISIONS MUST BE APPROVEIN'BY THE COUNTY BEFORE PROCEEDING Inspection Type IVR INSP DATE Setbacks 131 Foundations / Footings 809 Pier/Column Footings 122 Eufer Ground 216 Masonry Grout 120 Do Not Pour Concrete Until Above are Signed Pre -Slab 124 Gas Test Underground/floor 404 Gas Piping Underground/floor 403 Underfloor Framing 149 Underfloor Ducts 319 ,. > Shear Transfer 136 _ Under Floor Plumbing 412 Under Slab Plumbing 411 Do Not Install Floor Sheathing or Slab Until Above Signed Shearwall/B. W.P.-Interior .. 134 Shearwall/B.W.P.-Exterior 135' Roof Nail/Drag Trusses .129 Do Not Install Siding/Stucco or Roofing Until Above Signed Rough Framing ' 153 •; ' Rough Plumbing —406 406 Rough Mechanical 316 Rough Electrical 208 4 -Way Rough Framing 128 Gas Piping House 403 Gas Test House 404 Do Not Insulate Until Above Signed Permit Final 802 Electrical Final 803 Mechanical Final 809 Plumbing Final 813 Fire Sprinkler Test or Final 702 NI Inspection Type IVR INSP DATE T -Bar Ceiling 145 Stucco Lath 142 Swimming Pools Setbacks 131 Pool Plumbing Test 504 ,as Test 404 Pre -G -unite 506 p Pre -Deck 505 Pool Fencing/Alarms/Barriers 503 Pre -Plaster 507 Manufactured Homes Setbacks L31 Blocking- Fh- OFFICE Copy— i Bldg Permit: £ , * ," Tiedowri ,« . 22 Permane Address` Undergrj Sewer Undergr�, GAS By Date: Electnc By b a Date.. M Contz; y�— 1 Skiinurting/Steps/Landings' Coach Info Manufactures Name: Date of Manufacture: Model Name/Number: Serial Numbers: Length x Width: Insignia: Public, Works Fina 538-7681 Fire De artment/CDF 538-6226 Env. Health Final 538-7281 Sewer District Final **PROJECT FINAL l U *Project Final is a Certificate of Occupancy for (Residential Only PERMITS BECOME NULL AND VOID 1 YEAR FROM THE DATE OF ISS ANCE. IF WORK HAS COMMENCED, YOU MAY PAY FOR A 1 YEAR RENEWAL 30 DAYS-P1IOR TO EXPIRATION Inspectiir Copy li 't T rF BUTTE COUNTY °. DEPARTMENT OF DEVELOPMENT SERVICES 11 BUILDING PERMIT 24 HOUR INSPECTION (IVR)#: (530) 538-4365 OFFICE #: (530) 538-7601 FAX#: (530) 538-2140 or (530)538-7785 WEB SITE wwiv.buttecounty.net/dds •�.,L�;'r w y �, � � PROJE_CT_INFORMAT'ION�1�. -.� ��'-�"�`-- `�,�..7-",. ��---- � e` Site Address: 309 RAILBRIDGE RD Owner: Permit NO: B14-0608 APN: 027-180-041 CAPSHAW, ROBERT L & DEBO Issued Date: 3/28/2014 By: MRH Permit type: MISCELLANEOUS 3227 COHASSET RD STE B Subtype: . PERMIT TO COMPLETE CHICO, CA 95973 Expiration Date: 3/28/2015 Description:. PERMIT TO COMPLETE - NSF 064 (530) 321-6067. Occupancy: Zoning: Contractor Applicant: Square Footage: OWNER CAPSHAW, ROBERT L & DE] Building Garage Remdl/Addn = . 3227 COHASSET STE B CHICO, CA 95973 Other Porch/Patio Total - ,(530)321-6067 ` -� ORMATION_ r Ger. .�FFEE.INF - — DBMSC SUPPLEMENTAL INSPECTION, $381.00 Total Charged: $381.00 Fees Paid: $381.00 Balance Due: $0.00 Job Value: $28,000.00 ;,_LICENSED CONTRACTOR'S DECLARA"TION ��` DOWNER %,BUILDER DECLARATION - .� - Contractor (Name) State Contractors License No. / Class / Expires I hereby affirm under penalty of perjury that I am exempt from the Convectors' State License Law for OWNER / / the reason(s) indicated below, by the checkmark(s) I have placed next to the applicable item(s) (Section 7031.5, Business and Professions 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 I HEREBY AFFIRM UNDER PENALTY OF PERJURY that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code, and my license applicant for the permit to file a signed statement that he or she is licensed pursuant to the provisions is in full force and effect % of the Contractors' 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 from licensure and the basis for the X 3/28/2014 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).): Contractors Signature Date s e my employees with as will o U all of proportions rof the work d the structures notintendedor offered for d U U sale (section 7044, Business and Professions Code: The Contractors', State License Law does not apply to an owner of property who, through employees' or personal effort, builds or __ ,:- WORKERS 0L__=, ENSATION DECLARATION �i -�" ---- - -' — I HEREBY AFFIRM UNDER PENALTY OF PERJURY one of the following declarations: improves the property, provided that the improvements are not intended or offered for sale. If, Elhowever, I have and will maintain a certificate of consent to self4nsure for workers' the building or improvement is sold within one year of completion, the Owner -Builder will have the burden of proving that it was not built or compensation, issued by the Director of Industrial Relations as provided for by Section - improved for the purpose of sale.). 3700 of the Labor Code, for the performance of the work for which this permit is issued. Policy No. f I, as owner of the property, am exclusively contracting with licensed Contractors to 0 Lhave and will maintain workers' compensation insurance, as required by Section 3700 . of the Labor Code, for the'perfornance of the work for which this permit is issued. My workers' construct the project (Section 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 compensation insurance carrier and policy number are: contracts for the projects with a licensed Contractor pursuant to the Contractors' State License Law.): Carrier. Policy Number. Exp. Date . . A ❑ I,am exempt from licensure under the Contractors' State License Law for the following I certify that in the performance of the work for which this permit is issued, I shall not reason: employ any person in any manner so as to become subject to the 'workers' compensation laws of California, and agree that, if I should become subject to the workers' X 3/28/2014 compensation provisions of Section 3700 of the Labor Code, I shall forthwith comply with Owners Signature Date those provisions. - �:: FT_,APP_L KI'ICANT}DECLARATION_ : X 3/28/2014 Signature Date By my signature below, I certify to each of the following: WARNING: FAILURE TO SECURE WORKERS' COMPENSATION COVERAGE IS I am U a California licensed contractor or U the property owner' or U authorized to UNLAWFUL, AND SHALL SUBJECT AN EMPLOYER TO CRIMINAL PENALTIES" act on the property owner's behalf". AND CIVIL FINES UP TO ONE HUNDRED THOUSAND DOLLARS ($100,000); IN I have read this construction permit application and the information I have provided is ADDITION TO THE COST OF COMPENSATION, DAMAGES AS PROVIDED FOR IN correct' I agree to comply with all applicable city and county ordinances and state laws relating SECTION 3706 OF THE LABOR CODE, INTEREST, AND ATTORNEY'S FEES. to building construction. 1 authorize representatives of this city or county to enter the above -identified property - _ L - ___ - A - - - - CONSTRUCTION LENDING AGENCY DECLARATION" for inspection purposes. California, Licensed Contractor, Property Owner' or Authorized Agent": *requires separate verification form —requires separate authorization form 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 (Section 3097, Civil Code). Lender's Name and Address X 3/28/2014 Name of Permittee [SIGN] Print Date INSPECTOR COPY Lenders Name & Address City State Zip j Permit Number: 06-0158 Description: NSF (GAR, COV), 'Applied: 1/23/2006 Approved: Site Address: 309 RAILBRIDGE ROAD Issued: 4/18/2006 Hhaled: City, State.Zip Code: OROVILLE,'CA 95966 Status: ISSUED Applicant: PIROZZI, ADAM Parent Permit: Owner: DICKMAN, SUSAN Parent Project: ; Contractor: TBD Details: 1/23/06 -SRA PD 204.98#443578 Plan check letter sent 2/6/06 PH//mailed own/bldg, ag ack, school & park fees forms & fee sheet to owner after call with agent 3/17/06CNFiresplr approved note trans 4%14/6 Carl Printed: Tuesday, 14 November, 2017 r 1 of..2 . - SYSiFA{S_ LIST OF SEQ SCHEDULED DATE COMPLETED DATE TYPE INSPECTOR RESULT REMARKS ID CAL FIRE FINAL CYNDI WILSON Y INSPE Notes: _ ENV HEALTH, CHARLOTTE 'RELEASE WALTERS _ Notes: = PUBLIC WKS±' CLEARANCE LOUIS JOHNSON Notes. • 5/2/2006 5/2/2006 FOUNDATION/FO� NANCY FAIL �. signed for RT OTINGS SPRINGER Notes. l+ • , (4/19/2010 10:51 AM NJS) F " inspection was performed by Rick trent. See job card items # 1,2, 6a,7,and 9. 5/2/200 6. •. 5/2/2006' UNDER SLAB. -NANCY . 'FAIL signed off for rt • PLUMBING SPRINGER. Notes: (4/19/2010 11:06 AM- NJS) Rick perfromed this inspection per job, card with corrections. - 5/9/2006 5/9/2006 UNDATION/FO To NANCY PASS signed off,for RT see 06-0788 OTINGS SPRINGER Notes: i (4/19/2010 10:52 AMNJS) inspection wa sperformed by Rick trent. Se ejob card items # 1,2; 6a,7,ar d 9. Printed: Tuesday, 14 November, 2017 r 1 of..2 . - SYSiFA{S_ 5/9/2006__ • , 5/9/2006 `UNDER SLAB NANCY. ' PASS signed off for.mike mcgee PLUMBING SPRINGER'- Notes: >J (4/19/2010 11:06 AM NJS) it appears per job card that mm Signe doff inspection. 6/29/2006 6/29/2006 SHEARWALL/B.W. - NANCY . •' FAIL signed off for RT see 06-0788 ;. - P.-EXT SPRINGER Notes: (4/19/201010:54 AM NJS) ' rick trent signed.off job.card for this inspection. 6/29/2006. 6/29/2006 SHEARWALL/B.W. NANCY. PASS. ' signed off for wt P.-INT'- SPRINGER Notes: (4/19/2010 11:07 AM NJS) looks liek wt signe doff the reinspection of correctiosn from rt shearwall. 8/31/2006 • 8/31/2006_4-WAY 4 . ROUGH NANCY- FAIL signed off for woody townsend FRAME :SPRINGER- , - Notes: - - (4/19/2010 11:05'AM NJS) WT performed 4 'way inspection with corrections, see correction notice 06-0158. in additon hesigne doff rough test for sprinklers 06-0788. 9/7/2006 V 9/7/2006 4 WAY ROUGH. NANCY , PASS signed off for inspector, FRAME - SPRINGER •. f Notes: (4/19/2010 11:10 AM NJS) it appears form job card,that this inspectionwas Signe doff by cn or mm not sure can't read initals.'However, it is clear,that an inspection was r performed and cleared. ,q`- ''� FP Structur.41 calculations Date: December 7, 2017 Project description: Column repair Bob Capshaw Butte County, California %� e, 0'pl PERMIT # Z' /�] Bu7TE COUNTY pEyELOPIIAE Additional notes. ,�iEVIEWED FOR sERVICEs CONE COMPLIANCE ' DA Frank M Glazewski - Architect PO Box 8066 Chico, California 95927 Tel 530.894.5001 Fax 530.894.8164 email: frank@fmgarchitect.com Summary of scope of work Z Due to water damage to the wood framing, the lower 3 feet of two rear columns have been removed. It will be necessary to repair these columns in a manner that will reinforce the hinge point in the column. Refer to the attached drawing showing the partial foundation plan for the home. The original.. concrete footing for FTG1 appears to be intact, but there is no visible evidence of FTG2. If FTG2 is to be re -used, it must be exposed for the inspector to verify. If this footing has been removed, replace the footing with a (N) 30" sq. x 12" footing, with 344 bars top and bottom per the original drawings. i Add (N) concrete pedestal atop the existing footings, and install (N) framing in accordance with the attached details. L=3. R41 FTG.1 , 0 - a,.w FTC-' P_a, n:..n,.. a.•1%. I J. e wwna+Pu •+•a ' ' Vl(a't+wa'L 6,nUHu1Vb I H b++e.c rr<.rHr PAD FOOTING CACULATION • e•+'<. vv uoH FoncnulFA: a•mn mvr: rrn bn wtmeea RG.1 N•$O tlr OV \VM 2-Y uot11'.Y aUVwPgN,®2\bCae a - Pe,�M 1.lnnawllN ewtl bye IeNedH w 1fic2 , iTG•2 s2•SG.tr GF \nM 1N EACH—T FTG -2 so, —c2 RG., §IMPSON TIE SYMBOL ,• h)� I ® SGIPSGNHTT22WITHSSTB24 A s. I 1 V SIaIPSONHDBA%MTHSST82BA8. •�J 1M11G ARFA:a•nin • lY1 PICr .UCenn <eeF-fth e..cu,na 2\ a urot.ta.nac . Ra.t Rcn FIG -a o.k,.wa•nPrn ao y..a bin.(Nd 1 L SD Lam' L=B. 1 I S,Yi t L=9' SO1 FIG .2 � 1 I L B I I� SD1 1 J� FTG Z I ; i 1 51Y! • .1 Rc 1 i I SD, _e -� I • , Rc 2 '.- '••\FTC .1 FIG .2 FIG .2 RG -1 FIG -1 1.1 �' II I —_ 11 I I L=11• i J I t ol Y Sot Lam, I` , 1: , Fni iNnATION n SD, n r c(n(o . SI T' D -LA -1-- 0' ply, ('oV-(, w L 0,0�9 C.�c . MoK (�evivho ,-N _ (-4CD/1z'000 = o-OIS-Ft-K(rs 'ice �2 ref)l+(- SDS 2J 31Z Soot y 0<29z l%ec- at (607. cap - 2 �a,Z92) z0/11 = 8,�1� �t k��J >D,01-� ok su- � H su- COMPANY PROJECT WoodWorks(' SOnlW"E FOR WOOD DFSION Dec. 7, 201710:58 2 x 6 column Design Check Calculation Sheet WoodWorks Sizer 11.1 Loads: Load Type Distribution Location [ft] Magnitude Unit Shear fv = Wind Start End Start End 131 Wind Wind C&C Full UDL fb = 29.0 plf Self -weight Dead Axial #21 18 lbs Lateral Reactions (lbs): 9' co m 0' A Unfactored• Analysis Value Design Value Dead Analysis/Design Shear fv = Wind 131 288 131 Factored: 0.05 Bending(+) fb = 78 Fb' = 78 L ->R Load combI #21 Axial #2 2 x 6 at column Lumber n -ply, D.Fir-L, No.2, 2x6, 1 -ply (1-1/2"x5-1/2") Support: Lumber -soft Sill plate, D.Fir-L No.3; Bearing length = column width; continuous lower support Total length: 9.0'; Clear span: 8.875'; volume = 0.5 cu.ft. Pinned base; Load face = width(b); Ke x Lb: 1.0 x 0.0 = 0.0 [ft]; Ke x Ld: 1.0 x 9.0 = 9.0 [ft]; Repetitive factor: applied where permitted (refer to online help); Analysis vs. Allowable Stress and Deflection using Nos 2015: Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 14 Fv' = 288 psi fv/Fv' = 0.05 Bending(+) fb = 280 Fb' = 1872 psi fb/Fb' = '0.15 Axial fc = 2 Fc' = 887 psi fc/Fc' = 0.00 Axial Bearing fc = 2 Fc* = 1336 psi fc/Fc* = 0.00 Support Bearing fcp = 2 Fcp = 781 psi fcp/Fcp = 0.00 Combined (axial compression side load bendi g) Eq.3.9-3 = 0.15 Live Defl'n 0.05. <L/999 0.30 = L/360 in 0.18 Total Defl'n 0.05 = <L/999 0.30 = L/360 in 0.18 X 1-11 WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN 2 x 6 column WoodWorks® Sizer 11.1 Page 2 Additional Data: FACTORS: F/E(psi)CD CM Ct CL/CP CF Cfu Cr Cfrt Ci LC# Fv' 180 1.60 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 900 1.60 1.00 1.00 1.000 1.300 1.00 1.00 1.0V 1.00 2 Fc' 1350 0.90 1.00 1.00 0.664 1.100 - - 1.00 1.00 1 Fc'comb 1350 1.60 - - 0.448 - - - - - 2 E' 1.6 million 1.00 1.00 - - - - 1.00 11.00 2 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 2 Fc* 1350 0.90 11.00 1.00 - 1.100 - - 1.00 1.00 1 Fcp sup 625 - 1.00 1.00 - - - - 1.00 1.00 1 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = .6D+.6W, V max = 78, V design = 78 lbs Bending(+): LC #2 = .6D+.6W, M = 176 lbs -ft Deflection: LC #2 = .6D+.42W (live) LC #2 = .6D+.42W (total) Axial : LC #1 = D only, P = 18 lbs Combined : LC #2 = .6D+.6W; (1 - fc/FcE) = 1.00 Support : LC #1 = D only; R.= 18 lbs, Cap = 6445, Lb = 1.50", Cb = 1.25 D=dead L=live S=snow W=wind I=impact Lr=roof live Lc=concentrated E=earthquake All LC's are listed in the Analysis output Load combinations: ASCE 7-10 / IBC 2015 CALCULATIONS: Deflection: EI = 33.3e06 lb-in2 "Live" deflection = Deflection from all non -dead loads (live, wind, snow...) Total Deflection = 1.50(Dead Load Deflection) + Live Load Deflection. Design Notes: 1. WoodWorks analysis and design are in accordance with the ICC International Building Code (IBC 2015), the National Design Specification (NDS 2015), and NDS Design Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. BUILT-UP COLUMNS: nailed or bolted built-up columns shall conform to the provisions of NDS Clause 15.3. 4. FIRE RATING: Joists, wall studs, and multi -ply members are not rated for fire endurance. Sed 0f Pedesiv, n1�4 grr aWre Fonqk 5v- .ae 0 V3 ern �". JSe Srw��f ot^ �ET-x�' epoX^t (N) 12"Sa conc. Peds-e.s-.i Cevi-eved --PlnlStifA wood 0 a nt-c �E) toV-bv*,�q FTGI 2K"Saxia" 2-�H ew FTG2 30"SQx17-" 3-44 ew . ►� FT�Z �s w,�ssr�5 V��o��j,ni✓�� 6+'(yt✓1a �JV?'WIVIc,S. F -�} ,Z x e u t FrC, 1 ,l-Zat- FTGZ StiSZS >17 3-1 Ni 2 s(^000% SPS z.S31z s v tv N (2) SimPSo✓� SDSZS3IZ S S. _ v ,z $Pacev �' P6sT r T& FTGZ C �„ ,� OV. 7 v% �C® (E) H x�, 0.t (—TG 1 0,t FTG Z y C,t LC�C� (E) ave ck- Zx `6 vH e m �,e rrf (rye �} �E) Co(Jntn. v _ I e,r f vs spec s ci cz ov (v at fTG- 7— S(✓ Ps"" S pMtAA-4r (� GhC(nDl- - ��s N C� 0 'A C at Cox& I Z"� ;C �C'UC�71 ovL 1 �2) tzuwS Ib� SDS Co�hec3 @ p��o�c a.t Zr�� P� elev4lIvn L Cov�hec� OA Z -x6 vhevr,loj W� l,2) v owS 16 d\ i 3 N ZX Wlew�� f i SpS C-,nineci peZ, elec,I �e-tz�l CN) AT ATG I j J o'l C., 0,:k- z /- a M 6xb �n►1 CSI 6 S'iYz�(� PvQ,r ICA S (kIdd C0lUM1, htiSe 4e` -,- ,N) posh' W�Sfv OJJ bqs�, CTDF spacev N)Covic, fe.dleS+a•i IM =_yr'...,c.f.--r'...:..,-�.--a..E�'; "•-mss ,'_�-'r'—"-t ;? r -s.v: .R ,.+rt- , ..s..+-A:v..,..a.-...: ��...x.o•m��a.—..y� COUNTY OF BUTTE BUILDING DIVISION DEPARTMENT OF DEVELOPMENT SERVICES 7 County Center Drive • Oroville, CA • (530) 538-7601 CORRECTION OTICE 3o5`�;�Gt ' Q 3�y -06o ADDRESS PERMIT NO. A routine inspection indicates that the following violations of Butte County Ordinances exist at the above address and should be correctedPlease call for re -inspection when correction of work is completed. If you have any questions pertaining to this matter, or need additional explanation, please contact the Building Inspector as in icated below. INSPECTION TYPE: Ut1 _ R F i if Date Inspector REV 7/16 Phone # FOR RE -INSPECTION CALL: 538-4365 IVR SYSTEM .COUNTY "BUILDING DIVISION DEPARTMENT OF DEVELOPMENT SERVICES. 7 County Center Drive • Oroville, CA • (530) 538- 7601. #7 'CORRECTION NOTICE ADDRESS PERMIT NO. A routine inspection indicates that the following violations of Butte County -,Ordinances exist at the above address and should be corrected. Please call for re-inspiction- when co . rrectlo I n. of work is completed. If you have any questions pertaining to this 'matter_'or need'additiorial explanation, please contact the Building Inspector as indicated below.: - (,6 17 11 if -re // - all'? I -IL t1l fl - Date Inspector C REV 7/10 'Phone # FOR RE -INSPECTION CALL: (530) 538-4365 IVR.:SYSTEM, '?''„R�+'3- '�`L:-•.r`i+`-as'�+"�t:: 4:'--.y'^tif'..��—....-�."�+'^-^'�.. ...;.,.._ a-�r:'^•.y....t^'r_.. _ .. t z "t 3 • . ,.,1�000NTY OF BUTTEx�z 3. "BUILDING DIVISION ' DEPARTMENT OF DEVELOPMENT SERVICES "7 County Center Drive • Oroville, CA • (530) 538- 7601 #7: CORRECTION NOTICE ADDRESS. PERMIT NO. A routine inspection indicates that the following violations of Butte County $Ordinances exist at the above address and should be corrected. Please call for re -inspection when correction of work is completed. If you have any questions pertaining to this matter, or need. additional explanation, please contact the Building Inspector as indicated below. INSPECTION TYPE: I7w-✓. vlgl- �' / l0' int 7",//- /�7 1 f4 / 4"-z �� c ��= <'G.� �G � S it f�' Gi�;��r CZ2711-e Sj�y/cz'-7- 1 Date Inspector 4_2 REV 7/10 Phone # �- // 7 A% FOR RE -INSPECTION CALL: (S30) S38-4365 IVR SYSTEM INSTALLATION PERI R® - _ El,-SUINSTRUCTIONS _ 'CUSTOM SERIES ' 36" Woad Burning Fireplaces - P/N 700,009M REV. D. 11/2003 • ^J�"rr t.rv�r+ i r 1� � k; r�`l � � '�r`t �`:"Y ya'r'd, - s�a`�i c, , � ��® `" / y,�MODELrs�� `_ ,�. •liyesrl i��.� ;,�1�¢��, 3 ,k..�ct'�i�FY�it 4fRD=3 t HC -36 RD -36-H HC -36-H RDI -36 HCI -36 RDI -36-H . HCI -36-H t ,� •r+ tit, ,�iy E%i � °Y'� - r � s �v iii ffyy##•• } , This installation manual will enable you to obtain a safe, efficient and dependable installation of your fireplace system. Please read and under- F0 nder- F, stand these instructions before beginning your installation. Do not alter or modify the fireplace or its components under any circumstances. Any modification or alteration of the fireplace system, M including but not limited to the fireplace, chimney components and h` accessories, may void the warranty, listings and approvals of this system and could result in an unsafe and potentially dangerous installation. IMPORTANT! TO ASSURE PROPER• ALIGNMENT OF. GLASS DOORS: INSTALL THIS FIREPLACE IN A SQUARE AND PLUMB CONDITION, USING SHIMS AS NECESSARY AT -SIDES AND/OR BOTTOM. PLEASE RETAIN THIS MANUAL FOR FUTURE REFERENCE. RETAIN THESE -INSTRUCTIONS FOR FUTURE REFERENCE ' ,NtERTF� `-• WH Report No. J9902 -5865C-231 " C 0� us k N0�9 r TABLE OF CONTENTS Safety Rules .................................... page 2 . Tools and Building Supplies ............ page 2 ' Precautions ..................................... page 3 Introduction ..............:...................... page 3 Clearances/Height Requirements..... page 3 Chimney System ............................. page 3 Assembly Outline ............................. page 4 Location of Fireplace ....................... page 4 Assembly Steps ............................... page 5 Preinstallation Notes ........................ page 5 Clearances ....................................... page . 5 Installing the Fireplace ..................... page 5 Fireplace Specifications .................. page 6 Framing Specifications ..... :.............. page 7 Installing the Chimney System ........ page 8 30° Offset through Floor/Ceiling ...... page 9 Ten Foot Rule Summary .................. page 11 Multiple Terminations ...................... page 11 Chimney Component Calculations ... page 11 Special Offset Instructions ............... page 12 Offset Calculations ........................... page 12 Vertical Elevation Chart ................... page 12 Offset Elevation Chart ..................... page 13 Installing Offsets .............................. page 14 Optional Equipment Considerations. page 14 Forced Air Kits ................................. page 14 Combustion Air Kits ........................ page 15 Gas Line Connection ........................ page 15 Vent Free Appliances ................:...... page 15 Glass Doors ..................................... page 16 Cold Climate Insulation .................... page 16' Fireplace Finishes ............................ page 16 Mantels and Trim ............................. page 16 Hearth Extensions/Wall Shields ....... page 16 Finish Requirements ........................ page 18 Installation Components .................. page 18 IMPORTANT: PLEASE READ AND UNDERSTAND THESE RULES TO FOLLOW FOR SAFETY. 1. Before starting your fireplace installation, read these installation instructions carefully to be sureyou understand them completely and in entirety. Failure to follow them could cause a fireplace malfunction resulting in serious injury and/or property damage. 4 2. Always check your local building codes. The installation must comply with all local, regional, state and national codes and regulations. 3. These fireplaces must be installed with Security Chimneys FTF8 (8° inside diameter) Chimney System only. These systems are in- tended for use in any application where a traditional masonry type fireplace would ap- ply. The chimney system mustalways vent to the outside of the building. 4. To ensure a safe fireplace system and to prevent the build-up of soot and creosote, inspect and clean the fireplace and chimney prior to use and periodically during the heating season. 5. Use solid fuel only. DO NOT use artificial wax based logs, chemical chimney cleaners or flame colorants in your fireplace. 6. DO NOT use charcoal or coal under any circumstances. 7. NEVER use gasoline, gasoline -type lantern fuel, kerosene, charcoal lighterfluid, orsimilar liquids to start or "freshen up" a fire in this fireplace. Keep any flammable liquids.a safe distance from the fireplace. 8. NEVER leave children unattended when there is a fire burning in the fireplace. 9. Always keep flue damper open when heat is present in the fireplace. 10. Before servicing, allow the fireplace to cool. Always shut off any electricity or gas to the fireplace while ,working on it.. This will prevent any possible electrical shock or burns. 11. This fireplace is not intended to heat an entire home,or be used as a primary heat source. It is designed to ensure homeowner comfort by providing supplemental heat to the room. 12. Always ensure an that adequate supply of replacement combustion air from the outside of the house is accessible to the fire to support normal combustion. Fireplaces consume large volumes of air during the normal combustion process. In the event the home is tightly sealed with modern energy efficient features, the op- tional combustion air kit may not provide all the air required to support combustion. The manufacturer is not responsible for any smoking or related problems that may result from the lack of adequate combustion air. It is the responsibility of the builder/contractor to ensure that adequate combustion air has been provided for the fireplace. 13. DO NOT use a fireplace insert or any other products not specified herein by the manufac- turerfor use with this fireplace. All gas log sets must be operated with the damper clamped open, including unlisted "vent free" log sets. Listed "vent -free" log sets may be operated with the damper closed. 14. "Smoke free" operation is not warranteed nor are we responsible for inadequate system draft caused by mechanical systems, general construction conditions, inadequate chimney heights, adverse wind conditions and/or un- usual environmental factors or conditions be- yond our control. 15. Never, under any circumstances, install a fireplace, chimney component or any acces- sories, that has visible or suspected physical damage as a result of handling or transporta- tion. These items should be inspected by your distributor or qualified factory representative to ensure safe condition. When in doubt, con- sult your distributor. 16. For additional safety considerations and complete operating instructions, refer to the Care and Operation Manual provided with the fireplace. TOOLS AND BUILDING SUPPLIES . NORMALLY REQUIRED . Tools should Include: Phillips screwdriver Hammer Saw and/or sabersaw, Level Measuring tape Plumb line Electric drill and bits Pliers Square Building supplies: Framing materials Wall finishing materials Caulking materials (noncombustible) Fireplace surround and hearth extension materials (noncombustible) PRECAUTIONS Note: These fireplace systems are not difficult to install. However, in the interest o1 safety, it is recommended that the installerbe a qualified or certified "tradesman" familiar with commonly accepted fireplace installation and safety tech- niques as well as prevailing local codes. The most important areas of'concern dealing with the installation of factory -built fireplaces are clearances to combustible materials, proper assembly of component parts, height of the chimney system, the proper use of accesso- ries supplied by the manufacturer and the techniques employed in using finishing mate- rials applied to the wall surrounding the fire- place, hearth extensions and wall shields. Each of these topics will be covered in thorough detail throughout this manual. Please give each your special attention as you progress with your installation. INTRODUCTION General Information These fireplaces are conventional radiant heat fireplaces with standard bar grates, optional outside combustion air kits and optional deco- rative glass doors. The°C°models are designed ' as heat circulating fireplaces and may be fitted with accessory fans. TYPICAL INSTALLATION Radiant Model Shown Figure 1 ney and ination tside mbustion Kit phonal) r Note: Illustrations shown reflect `Yy' pical" installations with nominal dimensions and are for design and framing reference only. Actual installations may vary due to indi- vidual design preferences. However, always maintain minimum clearances to combus- tible materials and do not violate any specific installation requirements. These fireplaces have been tested and listed by Warnock Hersey (Report No. J9902 - 5865C -231) to U.L. standard 127. These units are intended for installation in residential homes and other buildings of conventional construction including commercial, not in mobile homes. These fireplaces have been tested for installa- tion in Canada to ULC -S610. For installations in Canada, the chimney clearance to com- bustibles must be 2 inches and .the Cold Climate Kit must be installed. These fireplace systems are designed for in- stallation in accordance with the National Fire Protection Standard for chimneys, fireplaces and solid fuel burning appliances; NFPA 211 and in accordance with codes such as the BOCA Basic/National Codes, the Standard Me- chanical Code and the Uniform Building Codes. Circulating Model Shown ney ane ination Outside Combustion Air Kit (Optional) NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. WARNING: FAILURE TO USE MANUFAC- TURE PROVIDED PARTS, VARIATIONS IN TECHNIQUES AND CONSTRUCTION MA- TERIALS OR PRACTICES OTHER THAN THOSE DESCRIBED IN THIS MANUAL MAY CREATE A FIRE HAZARD AND VOID' THE LIMITED WARRANTY. When complete these fireplace systems con- sists of five basic "sub -systems 1. The Fireplace - 2. The Chimney and Termination 3. The Optional Glass Doors 4. The Optional Combustion Air Kits 5. Optional Cold Climate Kit (Mandatory in Canada). , CLEARANCES AND HEIGHT REQUIREMENTS The fireplace may be*placed on or near normal construction materials*. The combustion air kit, firestop spacer and roof flashing (not chase flashings) may be placed directly on or against normal construction materials.* The chimney requires a minimum 2" air space clearance to combustibles. The fireplace outer wrapper requires a minimum 1" air space. clearance to combustibles. A combustible mantle may be installed l2"abovetheopening ofthe fireplace as per NFPA 211, Section 7-2.3.3. In Canada, the minimum is 18° above the fireplace opening. The minimum installed height of the completed fireplace system is 15'0". The maximum height is 60' 0°. The fireplace and chimney system must be enclosed when installed in or passing through a living area where combustibles or people may come in contact with it. This is important to prevent possible personal injury or fire hazard. For questions, please call your'distributor or. the manufacturer. Special restrictions apply to the front and facing of the fireplace and nearby walls (See pages 16,17 and 18 ). CHIMNEY SYSTEM These fireplaces are designed and code listed for use with Security Chimneys FTF8 chimney System only. Always use Security Chimneys FTF8 chimney components with these fire- places. Do not modify or alter these compo- nents as this may cause a potential serious hazard and void the Warranty. *Construction Materials: • framing materials • paneling • particleboard • flooring • millbbard • dry wall • plywood • etc. 3 Insulate Joists Same As Ceiling Draft Stops Firestop O CTOT Termination e•� Note: Non- e Combustible Chase Flashing Must Be Used To Cover Chase Opening Optional Insulation In Outside Walls Of Chase 8' Solid. \ Continuous Surface ,Outside Insulation Base (Thermal Barrier) Figure 2 WARNING: IF INSULATION IS USED, THE FIREPLACE MUST NOT BE PLACED DI- RECTLY AGAINST IT. INSULATION OR VAPOR BARRIERS, IF USED, MUST FIRST BE COVERED WITH GYPSUM BOARD, PLYWOOD, PARTICLE BOARD OR OTHER MATERIAL TO ASSURE INSULATIONAND VAPOR BARRIERS REMAIN IN PLACE. WARNING: DO NOT PACK OR FILL RE- QUIRED AIR SPACES WITH INSULATION OR OTHER MATERIAL. NO MATERIAL IS ALLOWED IN THESE AREAS. Note: Do not insulate the chase cavity with blown or till type insulation materials. Note: Local codes may not require firestopping at the ceiling levels for outside chase installa- tions. However, it is recommended for safety and the reduction o1 heat loss. 4 Chimney Height The total height of your completed fireplace system from the surface the fireplace rests on to the chimney top must not exceed 60' and mustalso meet minimum height requirements. Refer to the minimum system height chart. Minimum System Height Security's FTF8 Pipe Vertical Installation 1510, One Offset 15' 0° Two Offsets 25' 0° Chase Enclosure ` A chase is a vertical box -like structure con- . structed to surround the fireplace and chimney. Refer to Figure2 fora typical chase configura- tion. As with all chimney installations, avoid overhead obstructions such as trees, power lines, etc. A chase should be constructed and insulated just- like any outside wall. In a cold climate, we recommend the base of the chase should also be insulated between the solid continuous floor beneath the fireplace and the chase bottom. Chase insulation.in a cold cli- mate installation is not required for -safety. ASSEMBLY OUTLINE Before You Start Check your inventory list to be sure you have all the necessary parts supplied in good usable condition. Check also for any concealed damage. Checkthe operation of the damper. The damper is controlled through the use of a control lever located within the firebox opening at the top center just behind the firebox lintel (Figure 3). The control lever snaps into place at the ex- treme range of motion, up and back in the closed position. When pulled forward and down, the damper is open. Figure -3 NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. LOCATION OF FIREPLACE Carefully select the proper location for heat circulation, aesthetics, chimney obstructions and clearance to side wall(s). With proper pre- planning, a slight adjustment of a few inches can save considerable time and expense later during construction and assembly. Outside Chase Figure 4 Carefully consider the position of the fireplace opening with respect to the location of adja- cent or nearby stairwells, bath or kitchen ex- haustfans and/or return air registers for forced air furnaces/air conditioners that could cause a smoking fireplace condition if the house is tightly insulated. When locating the fireplace, consideration must be given to combustibles and final finishing. See Figure 5 and confine the final location of combustible finish materials to the°Safe Zone'. DO NOT permanently place furniture or other items such as decorative pillows within 60" of the fireplace front face. Black Portion Of Frame Not To Be Covered With Combustible Materials Wall 12 Covering 0 45° 000 000 000 f 1" Door Opening 1'2" Safe Zone Figure 5 Damperj Damper Closed' 1 Open Lintel Combustion Air Actuator Figure -3 NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. LOCATION OF FIREPLACE Carefully select the proper location for heat circulation, aesthetics, chimney obstructions and clearance to side wall(s). With proper pre- planning, a slight adjustment of a few inches can save considerable time and expense later during construction and assembly. Outside Chase Figure 4 Carefully consider the position of the fireplace opening with respect to the location of adja- cent or nearby stairwells, bath or kitchen ex- haustfans and/or return air registers for forced air furnaces/air conditioners that could cause a smoking fireplace condition if the house is tightly insulated. When locating the fireplace, consideration must be given to combustibles and final finishing. See Figure 5 and confine the final location of combustible finish materials to the°Safe Zone'. DO NOT permanently place furniture or other items such as decorative pillows within 60" of the fireplace front face. Black Portion Of Frame Not To Be Covered With Combustible Materials Wall 12 Covering 0 45° 000 000 000 f 1" Door Opening 1'2" Safe Zone Figure 5 ASSEMBLY STEPS Note: The following steps represent the normal sequence of installation. Each installation is unique, however, and might require a different sequence. 1. Position firebox prior to framing or into prepared framing. 2. Install the chimney system. 3. Connect house wiring to the fireplace for later attachment of optional blower. 4. Install optional outside combustion air kit. 5. Plumb gas line if a decorative gas appliance will be used. (Gas connections should only be performed by an experienced, licensed/certi- fied tradesman.) 6. Complete the installation, finish wall mate- rial, surround and hearth extension to your individual taste. 7. Assemble and attach optional glass door assembly. Study the three dimensional illustration (Fig- ure 1) to get a general idea of each element of your fireplace system. PRE -INSTALLATION NOTES The fireplace may be installed directly on a combustible floor or raised on a platform of an appropriate height. Do not place fireplace on carpeting, vinyl or other soft floor coverings. It may, however, be placed on flat wood, ply- wood, particle board or other hard surfaces. Be sure fireplace rests on a solid continuous floor or platform with appropriate framing for support and so that no cold -air can enter the room from under the fireplace. The fireplace may be positioned and then the framing built around it, or the framing maybe constructed and the fireplace positioned into the opening. Usually, no special floor support is needed for the fireplace, however, to be certain: 1. Estimate the total weight -of' the fireplace system including chimney and surround ma- terials such as brick, stone, etc., to be in- stalled. Shipping weights for the fireplace may be found on page 18. 2. Measure the square footage •of the floor space to be occupied bythe system, surrounds and hearth extensions. 3. Note the floor construction, i.e.2 x6's, 2 x8's or 2 x 10's, single or double joists, type and thickness of floor boards. , 4. Use this information and consult your local building code to determine if you need addi- tional support. CAUTION: DO NOT BLOCK THE HEAT -CIRCU- LATING AIR INLET AND OUTLET PORTS ON CIRCULATING MODELS. DOING SO MAY RE- SULT IN A POTENTIAL FIRE HAZARD. . If you plan to raise the fireplace and hearth extension, build the platform assembly then position fireplace and hearth extension on top. Secure the platform to the floor to prevent possible shifting. CLEARANCES Minimum clearance -to combustibles for the, appliance is as follows: sides and back -1' (25 mm), floor -0° (0 mm), adjacentwall -12" (305 mm), ceiling - 37 Y2 (953 mm) INSTALLING THE FIREPLACE Step 1. Slide the fireplace into prepared fram- ing or position fireplace in its final position and frame later. The fireplace may not be recessed into a com bustiblefloor. Maintain the floor to hearth clear- ance established by the fireplace .lower front face. Step 2. Insertthe provided'metal safety strips, beneath the fireplace as illustrated (Figures 6, 7 and 8). The safety strips should overlap Y2" for continual coverage of the floor. . Note: Safety strips are not required when fire- place rests on a noncombustible surface. NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. Top Spacer Maintain 1" (25 mm) F---- Air Space Al Back L And Sides I I ---_ Hearth L / Extension 1" (25 mm) Space I� Metal Safety Strip Floor Note: Hearth extensions must not Interfere with circulating grillwork Figure 6 Maintain 1" (25 mm) Air Space F--- At Back And Sides i IHearth 1" (25 mm) Space Extension Metal Safety Strip' Platform' Floor Note: Hearth extensions must not Interfere with circulating grillwork Figure 7 Note: Install the hearth extension only as illus- trated. The safety strips should extend from front of the fireplace at least 1 '/2 and should extend to be at least flush with the sides. In the event a wooden support is used to elevate the fireplace abovethefloor, a "Z" type safety strip should be fabricated and used to protect the front surface ofthe wood support as well as the floor beneath the hearth extension (Figures 8 and 9 ). The safety strips should be tacked down to prevent possible movement-.- Note: ovement. Note: The 7" safety strip is not supplied 5 6 FIREPLACE SPECIFICATIONS 12 1h" (318 mm)—O� (229 mm) LIA", 16 /5/,e° (428 mm) Metal Safety Strips 36° 44,/, (914 mm) (1124 mm) 20 Me 2 W. (513 mm) (73 mm) Lire 8 7 ,L„ /mm) (181 Blocking f� (1060 Min) Front O Fireplace Top Spacer 0 1 �===l Metal Safety Strips ure 9 Combustion 9 7/e" Air Inlet (251 mm) p3. Refer to fireplace drawings and specifi- Gas Line Access ons on pages 6 and 7 for framing dimensions 441/4 details. Frame appliance enclosure as illus -10 IN (1124 mm) ed in Roures 11 through 14 on page 8. 39X18 (995 mm) -' 257 mm) mm) 'ORTANT: UNDER NO CIRCUMSTANCES Gas Line Access 36 e/,e" {922 mm) 17 7/,e° 11 I THE FIREPLACE TOP SPACERS (FIGURE ) BEREMOVED OR MODIFIED, NOR MAY 443 mm) ( (210 mm) Junction U NOTCH THE HEADER TO FITAROUND OR Box . INSTALLED LOWER THAN THE SPACERS. HEADER MAYBE IN DIRECT CONTACT i• rH THE TOP SPACERS BUT MAY NOT BE (&I 541 m' m) - (525 mem) PPORTED BY THEM. Left Side Right Side te: The framed depth, 21 Ya°(552 mm) from amed wall, must always be measured from m (71414 mm) hished surface. If a wall covering such as wall is to be attached to the rear wall, then 12 A 13ie mm) 21 3/0° (552 mm) must be measured from (205 inm) drywall surface. It is important that this —t.. tension be. exact. z16ie (541 mm) Fireplace i he appliance is to be elevated above floor Top spacer O O El :I, a solid continuous platform must be istructed. header may rest on the top metal spacers, 1" �� 413/4" (25 mm) ( (1060 mm)� 43 m< must not be notched to fit around them. (1111 mm) " lsult all local codes. Top View Figure 10 . . NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. FRAMING SPECIFICATIONS A 43' 1092 mm 6 44'/2 1130 mm C . 29'/2" 749 inm D 151/4' 400 m m E 73' 1854 mm F 36 Yz° 927 mm G 21 3/4" 552 mm ' H 20 3/4 527 mm J 51 5/e° -1311 mm:` Back Wall of Chase/Enclosure- Including Finising FOAK Combustion Air Kit - Optional U Rough E Framing Face (Unfinished Shown) Corner Installation AFigure 14 Note: All /naming dimensions calcu- Fireplace Framing lated for 1/2°dry wall at the fireplace Note: When Framing With 6" Studs Header Must face. Ifsheathingthe chase 0rfinish Be 17" (432mm1 Higher.. Use Security's OR15 ing with other thickness materials, Offset/Relurn Elbow To Recess The Chimney Back calculations will need to be made. 21/2" (64mm). Maintain Required Clearance To Chimney At All Times. Figure 11 Back Wall of Chase/Enclosure FOAK Combustion Including Flnising Materials If any Air Kit Framing Dimensions for Ceiling B A Ceiling Framing Flue Type, A ..,B FTF8 Vertical 16'/2 16'/2 (419 mm) (419 mm) FTFB Offset 30° 16'/2 25" (419 mm) (ti35 mm) Figure 15 Rough Framing Face Inside Chase (Unfinished Shown) Figure 12 Back Wall of Chase/Enclosure , FOAK Including Finising Materials , Combustion Framing Dimensions for ROOF if any Air Kit- Optional' __F C- T O 0: A ►I Rough Framing Face (Unfinished Shown) Outside Chase F" 13 Pitch C "D' 0/12 1611° ' 16'/2° (419 mm) (419 mm) 6/12 16'/° r 19" (419 mm) : (483 mm) 12/12 16'/2' 23 '/2 . (419 mm) ,(597 mm) C 0 Roof Framing tgure Figure 16 Perpendicular to roof ridge NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. 7 rs Step 4. Fireplace should be secured to side framing members using the full length nailing tabs atthe top and bottom of the fireplace front face. 'Use 8d nails (Figure 17). Figure 17 Note: The nailing tabs and the area directly behind the nailing tabs are exempt from the clearances described on page 5. Maintain at least 1/2°clearance from the firebox wrapper to the framing at the closest point of contact, directly adjacent to the flange. For Canadian Installations A cold Climate Kit FTF8-CCK2-LD must be installed. CCK2 kits are available from FireCraft through your local dealer. Installer must supply suitable length of 6° Diameter, class °0° metallic air duct. Proceed with Steps 5 through 8 Step 5. Install the Cold Climate Kit to the fireplace following the instructions provided with the kit, (Figure 18). Chimney Duct Duct Collar Plant Cover� I I / Side Cover Plates j/ Plate Figure 18 Step 6. Connect the 6° (102 mm) Class 0 air duct provided by installer, to the duct collar on the fireplace and secure with two (2) screws from the kit's hardware package. Step 7. Route the Class 0 air duct out the back or side wall, up through the ceiling or floor joists to an outside wall. The air inlet hood should be located above snow level or above any anticipated snow level, (Figure 19). Install As Shown With Opening In Downward Position, Do Not Block Entrance Figure 19 i. Height ide vel Note: If the fireplace is installed against an inside wall, the class 0 air duct may be ex- tended into a ventilated attic space at least 18° (475mm) above the attic floor. Secure the air inlet hood to a vertical post with the inlet positioned downward. Ensure that nothing blocks the hood opening. This hood must never terminate higher than three (3) feet below the termination. Step 8. Cut orframe a hole through the outside wall for the installation of the air inlet hood. A 6-1/2"diameter hole is required. Feed the loose end of the flexible duct through the hole and attach to the collar on the air inlet hood using two (2) screws from the kit's hardware pack- age. Insert the hood into the opening. Secure the inlet hood in place with nails driven through the holes in the flange. Seal with noncombus- tible waterproof silicon type caulking. INSTALLING THE'CHIMNEY SYSTEM Step 1. Before continuing, checkthe operation of the damper, as described on page 4, (referto Figure 3). Step 2. Using standard construction framing techniques, construct opening forchimney route up through the ceiling(s) and roof orthroughan outside -chase. NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. Framing must maintain adequate minimum air space clearance at all times. CAUTION: ALLOW MINIMUM 2" CHIMNEY AIRSPACE TO COMBUSTIBLE FRAMING MEM- BERS THROUGHOUT VERTICAL OR OFFSET CHIMNEY INSTALLATION. A minimum 2" air space must be reserved for all combustible materials extending for any continuous length surrounding the chimney. Reference Figures 15and 16and charts Fram- ing Dimensions for Ceiling and Roof, which specify minimum ceiling and roof dimensions. In new construction, to determine chimney cen- terline, use plumb line from roof orceiling above fireplace to center of flue collar on fireplace. For remodeling, plumb to center of flue collar from ceiling above, drive nail through ceiling from below to mark position, then mark and cut to passage from above ceiling (around nail) (Figure 20 ). Then plumb from ceiling or roof level directly above hole which has just been completed. Figure 20 Step 3. Position appropriate firestop spacer at ceiling and nail temporarily with two (2) 8d nails. Use flat firestop spacer, Model F8FS-2, if chimney penetrates ceiling vertically. If chim- ney penetrates ceiling at300 angle (offsetchim- ney), use 30° firestop spacer, Model F8FS30-2. Use.one nail on opposite sides to hold firestop spacer in position. Nail permanently, using at least two (2) more 8d nails, after chimney sections have been assembled through the firestop spacer and after any necessary adjust- ments have been made. Firestop spacer must be secured by at least four (4) 8d nails when completely installed. Note: If there is a room above ceiling level, firestop spacer must be installed on the bottom side of the ceiling. I1 an attic is above ceiling level, firestop spacer must be installed on top side of ceiling joist (Figures 21 and 22). Figure 21 T Attic Above T Firestop Spacer Figure 22 CHIMNEY 300 OFFSET THROUGH FLOOR OR CEILING It may be necessary to assemble the chimney at 300 when passing through the floor or ceiling area. Use the F8FS30-2 firestop spacer as shown in Figures 23 and 24. Support the chimney at floor or ceiling penetration with a FTF8 stabi- lizer if distance of chimney below ceiling is 10' or more. Maintain 2° minimum air space to combustibles from chimney sections. Attic Space F8FS30-2 Firestop Spacer 2° Min. Air Space YMin. L FTFO-S4 Stabilizer Air Space � - 10' Max. 30° Firesto And attic Above Figure 23 Room Above F8 estop � / 2" Min. Firestop Spacer Air Space Air place n. FTF8-S4Stahilizer 10' 30° Firestop Max: And Room Above Figure 24 For Canada Only When installing the chimney system through an open attic space, the attic shield assembly- firestop spacer must be used (Figure 25). This installation is required only for use in Canada! Figure 25 Note: For Canadian installations, all chimney installed outside the building mustbe constructed with galvalume (outer sections only) effective January 1, 1992. The appropriate model desig- nations are located in the back of this manual. Step 4. Note: Chimney sections are constructed with a unique locking tab design, which en- sures an immediate, tight assembly between sections. Plan your chimney requirements carefully before assembly as chimney is diffi- cult to disassemble after installation. If -disas- sembled, the tabs might become damaged. Be certain tabs are properly formed to ensure locking tabs engage properly. The Security FTF8 chimney system is a two piece chimney, which snap together from the fireplace "up. Start with the inner flue section with the lanced end up, snap lock it in to the matching collar on top of the fire- place. At all subsequent joints, the upper flue section fits into the preceding flue sec- tion. Each piece snaps together by means of locking tabs (§ locking tabs per joint). Check each piece by pulling up slightly from the top to ensure proper engagement before installing the next section. NOTE: DIAGRAMS 8 ILLUSTRATIONS NOT TO SCALE. Iftheflue has been installed correctly, itwill not separate when you test it. Also, the inner flue joint where each section is joined should be tight and flat without gaps (Figure 26). Figure 26 Outer pipe section installs in just the opposite way; the lanced end goes down and each new section goes OVER the outside of the previous section installed (Figure 27). Figure 27 Locking Tabs (Lances) Note: Assemble one component of chimney at a time (inner section first, then outer section last) before proceeding with the n ext complete section. Continue to assemble the chimney up through, framed opening. Assemble just enough to pen- etrate the roof flashing openings (Figure 28 ). - Always maintain 2" minimum air space to com- bustible materials and always checkeach chim- ney joint (inner and outer) to ensure proper engagement. Check vertical alignment of chim- ney so that it projects from the roof in true vertical position. Figure 28 2" Min. Air Space To Combustibles 9 Security chimney sections do not need to be screwed together. Additional reinforcement is not necessary except in certain offset condi- tions (refer to page 14, Figure 39). Step 5. The height of vertical chimney pipe supported only by the fireplace must not ex- ceed 30'. Chimney heights above 30' must be supported by a Model FTF8-S4 stabilizer in- stalled at 30' intervals. Note: The Model FTF8-S4 adds X net effective height to the total chimney system. Install the Model FTF8-S4 stabilizer by fitting inner section down into respective section of proceeding flue pipe and locking outer stabi- lizer section into place over the outer chimney pipe. Position for proper clearance through framed opening and nail straps securely (under te6sion in "shear") into place on framing. Use 8d nails. Attach successive lengths of chimney pipe directly to stabilizer using same tech- niques as described in Step 4 (Figure 29 ). \ iLis Figure 29 Note: Do not apply excessive pressure to any subsequent chimney sections following the stabilizer when installing. Ensure each subse- quent chimney section is securely attached by testing as noted in Step 4.. Step 6. Select the proper Security roof flash- ing based on pitch of roof. Use chart below for selection: Roof Pitch Model Flat to 6/12 F8F6 6/12 to 12/12 F8F12 Next, slide roof flashing overextended chimney section that previously has been installed above the roof opening in Step 4. FTF8 flashings require flashing spacers. Slide flashing all the way down until the flashing base rests flat on the roof (Figure 30). Again, check the vertical position of the chimney and the 2" minimum.air space to combustibles. FTF8 Chir Flashing Spec( FTF8 Flashir Figure 30 eal Note: Do not caulk or seal the ventilating openings. Step 7. Secure flashing by nailing along the perimeter into roof using 8d nails. If shingled roof, slide upper end and sides of roof flashing undershingles (trim if necessary), sealthetop and both sides of the flashing to the roof with roof caulking. Cover nail headswith roof caulk- ing (Figure 31). Figure 31 Step 8. The standard Security FTF8 roof flash- ing assemblies include a storm collar. Slide the storm collar over outer chimney, rest on flashing spacers and align with top surface of flashing. Insert tab in slot, pull tight and bend tab back over slot. Seal storm collar to outer chimney with roof caulking or mastic around entire circumferenceof pipe. Also add extra roof caulking to the tab/slot area to seal com- pletely against water penetration (Figure 32). Check all joints very carefully to ensure no water intrusion can take place. Locking Mastic Figure 32 10 1 1 NOTE: DIAGRAMS 8 ILLUSTRATIONS NOT TO SCALE. Step 9. Security Chimneys locking bands, Model FL6, may be required if the chimney extends too high above the roof flashing. As a general rule, if the chimney extends more than 6' above the roof flashing, the use of locking bands is advisable to strengthen the chimney assembly. Align the locking band at the chim- ney joint. Locking bands wrap around pipe joints equally covering the joints of both pipe sections. Use the nut provided and TIGHTEN snugly. Do not overtighten as this might dam- age the chimney section (refer to Figure 32). Note: If chimney extends more than 8' above roof surface, guy wires are also. recommended. Use three (3) guy wires, attach to locking band assembly, extend and secure to roof in a trian- gular pattern (Figure 33 ). Guy wires are not supplied by the manufacturer. Roof Ridge Figure 33 Step 10. Using a FTF8-CT0 Round Termination: 1. Hold the FTF8-CTD over top of last chimney section (Figure 34). 2. Center inner slip section in inner flue pipe - slip down. 3. Center outer locking section over outer flue pipe. Push down until locking tabs are firmly engaged. CTD Termination Figure 34 Chimney 4. Pull up slightly on CTD to ensure lockingjoint has firmly engaged. Using a FTF8-CTDT Chase Termination: Refer, to specific installation instructions in- cluded with the FTF8-CTDT chase termination for clearance and installation details. Using a FTF8-CT1 Chase Termination: Refer to specific installation instructions in- cluded with FTF8-CT1 chase terminations for clearance and installation details. Using'a FTF8-CT2 Chase Termination. Refer to specific installation instructions in- cluded with FTF8-CT2 chase terminations for clearance and installation details. Using a FTF8-CTT Chase Termination: Refer to specific installation instructions in- cluded with FTF8-CTT chase terminations for clearance and installation details. ' Using a FTF8-ATT Chase Termination: Refer to specific installation instructions in- cluded with FTF8-ATT chase terminations for clearance and installation details. Note: It is recommended that all exterior ex- posed metal fireplace components; such as ter- minations, flashings, storm collars and/or flue be painted with a premium quality, high tem- perature, rust preventative paint designed for metal. This is especially important when instal- lations are made in abnormallyadverse orcorro- sive environments; such as nearlakes, oceans or in areas with consistently high humidity condi- tions. Consult the paint manufacturers instruc- tions for proper preparation and application. TEN FOOT RULE SUMMARY The minimum chimney height above the roof and/orto adjacentwalls and buildings is speci- fied by all major building codes. If the horizontal distance from the peak of the roof is less then 10', the top of the chimney must be at least 2' above the peak of the roof. If the horizontal distance from the chimney edge to the peak of the roof is more than 10' a chimney height reference point is established on the roof surface 10' horizontally from the chimney edge. The top of the chimney must be at least 2' above this reference point. In all cases, the chimney cannot be less then 3' above the. roof at the edge of the chimney. The 2' in 10' rule is necessary in the interest of safety but does not ensure smoke-free opera- tion. Trees, buildings, adjoining roof lines, adverse wind conditions, etc., may require a taller chimney should the fireplace not draft properly (see Figure 35). MULTIPLE TERMINATIONS If more than one termination is located in the same chase or within the same general prox- imity, we suggest they should be separated in distance at least 24" horizontally from flue center to flue center and.stacked or staggered vertically at least 18" apart, from the termina-. tion of one smoke exit to the termination of another smoke exit (Figure 36). Figure 35 NOTE: DIAGRAMS 8 ILLUSTRATIONS NOT To SCALE. 18" CTD TOT Figure 36 This suggestion is provided in the interest of better operation. If the terminations are located too close to each other, smoke may migrate from one flue into the other. FTF8 CHIMNEY COMPONENT CALCULATIONS The minimum. installed height of the com- pleted fireplace system is 15` 0". The maxi- mum height is 60' 0". To determine the number of chimney sections, and chimney components required, follow these steps: - 1. Determine total vertical height of the fireplace installation. This dimension is the distance from the surface the fireplace sets on to the point where smoke exits from the termination. 2. Determine the number of chimney compo- nents required, except chimney sections. This would includefirestop spacers, stabilizers, roof. flashing, etc. 3. The effective heights of the components are The Fireplace - = 43 1/2" FTF8-12 = 10'/4" FTF8-18 = 16'/4" FTF8-36 = 34 1/4" FTF8-48 = 46,/411 FTF8-CTD Termination . = 4" FTF8-CT1 Termination = 12" to 18" FTF8-CT2 Termination 15" to 23" FTF8-CTDT Termination = 12" to 18" FTF8-CTT Termination = 6" to 14" FTF8-ATT Termination = 8" to 14" FTF8-S4 Stabilizer' = 3"' Required for every 30' of vertical chimney and/or 10' of offset chimney. 11 4. Determine amount of chimney height re- quired by subtracting total combined height of all pre -selected components (fireplace and chimney components from total desired height.) Reference Vertical Elevation Chart and deter- mine the number of chimney sections (quantity and length) required. SPECIAL OFFSET INSTRUCTIONS To clear any overhead obstructions, you may offset your chimney system using Security's 30" offset and return elbows. Use two elbows - an offset elbow to initiate the offset and a return elbow to terminate it. A 30" offset elbow, an- gling in any direction, may be the first compo- nent used off the top of the fireplace flue collar. The offset and return elbows may be attached together, or a section or sections of chimney may be used between, but do not exceed 20' in total length. between -elbows. If sections of pipe exceed 10' between elbows, a chimney stabilizer must be used at the midpoint (Figure 37). The stabilizer support straps must be attached under tension (in shear) to structural framing mem- bers above. When two sets of elbows are used, the maximum combined length of chimney used between elbows cannot exceed 20' (Figure 38). Example: If C1=10' then C2 cannot exceed 10'. If an offset exceeds 6' in length, each chimney joint beyond the first 6' of offset to the return elbow, must be secured by a No. 8 x 1/2" sheet metal screw located atthe underside ofthe joint (Figure 39). A W diameter hole must be drilled in the chim- neyjoint using a 1/8"diameter drill. Hole should be drilled in center of joint overlap (Figure 40). Be sure to drill only through the outer chimney casting. Do not puncture the inner flue. Maximum offset of chimney'system is 30 Two.offsets must not be assembled to form a 600 offset. However, two sets of offset and return elbows may be used on a single flue system, provided the total height of the system exceeds 25'. Return elbow support straps must be securely attached under tension (in shear) to structural framing members above. Do not substitute a FTFB-30 offset elbow in place of a FTF8-E30 return elbow. OFFSET CALCULATIONS Step 1. Use Offset Chart to determine amount of horizontal offset (A) and height (B) for vari- ous chimney section assemblies. 12 Step 2. Use "Height of Chimney Only" column in The Vertical Elevation Chart to determine combinations of chimney used above return elbow to achieve desired heights. Reference Components Effective Height Chart in vertical elevation chart section. Step 3..Use Elevation Chart as job estimator only. Add necessaryfirestop spacers and stabi- lizers as required. Firestop spacers must be used as shown in Figures 23 and 24and stabi- lizers as shown in Figure 29. FTF8 VERTICAL ELEVATION CHART Height Of Number Of FTF8 Height Of Number Of FTF8 Chimney Only Chimney Lengths Chimney Only Chimney Lengths Inches FeeVlnches 12" 18" 36"1481, Inches I Feetflnches 12" 18" 36" 48" 11 0 11 1 0 0 0 3861/2 32 21/2 0 10 8 17 1 5 0 1 0 0 390 3/4 32 6 3/4 2 0 0 8 21 1/4 1 9 Y. 2 0 0 0 396 3/4 33 0 3/4 1 1 0 8 27 1/4 2 3 'A 1 1 0 0 404 1/2 33 8 1h 0 0 1 8 35 2 11 0 0 1 0 414 3/4 34 6 3/4 1 0 1 8 47 3 110 0 • 0 1 416 1/2 34 8 1h 0 0 0 9 51 1/4 4 3 1/4 0 1 1 0 420 3/4 35 0 3/4 0 1 1 8 7' 9 14 1 1 0 1 0 1 426 3/4 35 6 3/4 1 0 0 9 63 1/4 5 3 1/4 0 1 0 1 432 3/4 36 0 3/4 0 1 0 9 671/4 5 71/4 2 0 0 1 437 36 5 2 0 0 9 731/4 6 11/4 1 1 0 1 443 36 11 1 1 0 9 81 '/4 6 9 14 0 0 1 1 450 3/4 37 6 3/4 0 0 1 9 93 1/4 7 9 1/4 0 0 " 0 2 461 38 5 1, 0 1 9 97 1/4 8 11/4 0 1 1 1 462 3/4 38 6 3/4 0 0 0 10 102 1h 8 6 1h 1 0. 0 2 466 3/4 38 10 3/4 0 1 1 9 109 '/4 9 1 'A 0 1 0 2 472 3/4 39 43/4 1 0 0 10 113 1/2 9 .5 1h 2 0 0 2 478 3/4 39 10 3/4 0 1 0 10 119 1/2 9 11 1/2 1 1 0 2 483 40 3 2 0 0 10 127 1/4 10 7'/4 0 '0 1 2 489 40 , 9 1 1 0 to 137 1/2 11 5 12 1 0 1 2 496 3/4 41 4 3/4 0 0 1 10 139 1/4 11 7 1/4 0 0" 0 3 507 42 3 1 0 110 143 1/2 11 11 1/2 0 1 1 2 . 508 3/4 42 4 314 0 0 0 11 1491/2 12 51/2 1 0 0 3 513 42 9 0 1 1 10 1551/2 12 111/2 0 1 0 3 519 43 .3 1 0 0. 11 159 3/4 . 13 3 3/4 2 0 0 3 525 43 9 0 1 0 11 165 3/4 13 9 3/4 1 1 '0 3 529.1/4 44 1 1/4 2 0 0 11 173 1h 14 5 1h - 0• 0- 1 3 535-1/4 - 44• 7 1h 1 1 0 .11 183.3/4 15 3 3/4 1 0 1 3 543 45 3 0 0 1 11 185 1/2 15 5 1/2 0 0 0 4 553 1/4 46 1 1h 1' 0 1 11 189 3/4 15 9 3/4 0 1 1 3 555 46 3 0 0 0 12 195 3/4 16 3 3/4 1 0 0 4 559 1/4 46 7 1/4 0 1 1 11 201 3/4 16 9 3/4 0 1 0 4 565 1/4 47 1 1h 1 0 0 12 206 17 2 2 0 0 4 571 1/4 47 51/4 0 1 0 12 212 17 8 1 1 0 4 5751/2 47 11 1h 2 0 0 12 219 3/4 18 3 3/4 0 0 1 4 581 1/2 48 5 1h 1 1 0 12 230 19 2 1 0 1 4 5891/4 49 1 1/4 0 0 1 12 231 3/4 19 3 3/4 ; 0 0 0 5 599 1/2 49 11 1h 1 0 1 12 236 19 8 0 1 1 4 601 1/4 50 1 1/4 0 0 0 13 242 20 2 1 0 0 5 6051/2 50 51h 0 1 1 12 248 20 8 0 1 0 5 611 1/2 51 11 1/2 1 0 0 13 252 21 0 2 0 0 5 6171/2 51 51h 0 1 0 13 258 21 6 1 1 0 5 621 1/2 51 91/2 2 0 0 13 266 22 2 0 0 1 5 6271h 52 31/2 1 1 0 13 276 23 0 1 0 1 5 6351/2 52 11 1/2 0 0' 13 278 23 2 0 0 0 6 6451/2 53 91/2 1 0 1 13 282 23 6' 0 1 1 5 647 1h 53 11 1/2 0 0 0 14 288 24 0 1 0 0 6 651 1h 54 3 1h 0 1 1 13 294 3/4 24 6 3/4 0 1 0 6 657 1/2 54 1/2 1 0 0 14 298 1/4 24 10 1/4 2 0 0 6 663 1/2 _9 55 3 '/2 0 1 0 14 304 1/4 25 4 1/4 1 1 0 6 667 3/4 55 7 3/4 2 0 0. 14 312 26 0 0 0 1 6 673 3/4 56 1 3/4 1 1 0 14 3221/4 26 101/4 1 0 1 6 681 1/2 56 91/2 0 0 1 14 324 27 0 0 0 0 7691 3/4 57 7 3/4 1 0 1 14 328 '/4 27 4 1/4' 0 1 1 6 693 1h 57 9 1h 0 0 0 15 334 1/4 1 27 10 1/4 1 0 0 7 697 3/4 58 1 3/4 0 1 1 14 340 1/4 28 4 1/4 0 1 0 7 703 3/4 58 7 3/4 10 0 15 344 1/2 28 8 1/2' 2 0 0 7 709 3/4 59 1 3/4 0 1 0 15 3501/2 29 21/2 1 1 0 7 714 59 6 2 0 0 15 3581/4 29 101/4 0 0 1 7 720 60 0 1 1 0 15 368 1h 30 8 1h 1 0 1 7 727 3/4 60 7 3/4 0 0 1 15 3701/4 30 101/4 0 0 0 8 738 61 6 1 0 1 15 374 1h 31 2 1/2 0 1 1 7 739 3/e 61 7 3/4 0 0 0 16 3801/2 31 81/2 1 0 0 8 744 62 0 1 0 1 1 1 15 117Return lbow 20' Max. ' tTA tabilizer Figure 37 ` Az C2 / 82 Al B1 C1 \ NII Ai -�C2 Al F 1 ® r A B FTF8-ES30 Number of FTF8 Chimney Sections Offset Height .Offset/Return FTF8-S4 (Inches) (Inches). " Elbow Stabilizer 12" 18" 38" 48" 4 15 3/41 1 0 0 0 0• 0 9. 24'/2 ', 1 0' 1 0 01 0 12 29 3/4 1 0 0` 1 0 0 14 1/4 33 1/2 1 0 2 0 0 0 17 1/4 38 1/2 1 0 1 1 0 0 20 1/4 43 3/4 1 0 0 2 0 01- 21 45 1/4 1 0 0 0 1 0 22 1/4 47 1/2 `' 1 0 2 1 0 0 251/4 521/2 1 0 1 2 0 0 26 Y4 54 1/4 1 0. 1 0 1 0 27 55 3/4 t 0 0 0 0 1. 28 1/4 57 3/4 1 0 0 3 0 0 29 1/4 59 1/4 1': 0 0 1 1 0 31 1/4 63 1 0 2 0 1 0 .32 1/ 641/ 1 0 1 0 0 1 34 1/4 68 1/4 1' 0 1 1 1 0 35 1/4 69 3/ 1- 0 0 1 0 1 37 1/4 73 1/ 1 0 0 2 1 " 0 38 1/4 75 1, 0 0 0 ' .. 2'" 0 ' 39 1/4 77 1 0 2 1 1 0 41 1/2 80 1/2 1 — 0 1 4 0 0 43 1/4 83 3/4 1 `0 1 0 2 0 441/4 -851/4 1 0 0 0 1 1 45 '/a 87 '/2 1 0 0 3 1 '0 46 1/4 89 - 1 0 0 1 2 0• 481/4 91 1/2 1 0 2 0 2 .0 49 1/4 94 '/4 1 0 1 0 1 1 50 1/4 95 3/4 1 0 •0 0 0 2 51 1/4 97 3/4 1 0 1 1 2- 0 54 1/4 103 1 t 0 0 2 2 0 55 1/4 104 'iz 1 `' 0 1 0 0 2 561/2 1061/i 1 0 2 1 2 0 58 1/4 .109 3/e 1 0 . 0 1 — . 0. 2 61 3/4 116 1. 1 1 0 3 0 64 3/4 121 1/4 1 1 0 1 3 0 67 124 3/4 1 1 2 0 3_ 0 68 3/4 128. 1 1 0. 0 1 2 70 130 1 1 1 1 3 0 73 135 IA 1 1 0 2 3 0 74 3/4 138 1:4 1 1 0 0' 0 3 79 145 1.12 1 1 , 1 0. 4 0. 80 147 Y4 1' 1 1 0 0 3 82 150 1/4 1 1 0' 1 4 0 82 1/4 152 1 1 0 1 0 3 I � I { Joints Chimney Section maQm° 4`mct�� F- No. 8 It 11r SMS e �o Figure 39 Underside ur ummuoy b Figure 40 FTF8-E30 Return Elbow' Chimney Section (S) FTF8-30 Offset Elbow - y .I A 'Part of Offset/Return Package Model FTF8-ES30 Figure 41 INSTALLING OFFSETS First, review the Offset Elevation Chart and Figure 41 for reference. Step 1. Determine the offsetdistance where chim-, ney is to pass through the first ceiling -dimension "A." To find this point on your ceiling, first deter- mine the center point for a vertical chimney fol- lowing the instructions for vertical installation. Measure height to the ceiling from the top of fireplace -dimension -"B." Use the appropriate Offset Elevation Chart to find dimension "A." Mark point where you will drive your nail to show the center point foryouroffset ceiling cut. Step 2. Proceed by using the Straight Up Instal- lation Instructions for cutting and framing ceil- ing and roof openings. Note: See Framing and Dimension Chart for the sizes of the ceiling and roof openings. The size of the roof opening varies with the degree of pitch of the roof. Offset Elbow Assembly Offset elbows install the same as chimney sections. First, snap the inner section INTO the preceding inner section of flue. Check connec- tion by pulling up slightly to ensure a tight fit. Next, the outer sections snap lock OVER the preceding outer section of chimney. Again, check outer section by pulling up slightly to ensure proper connection is made. Return Elbow Assembly Return elbows install the same way as round terminations and stabilizers: Step 1. Hold return elbowover top of last chimney section. Step 2. Center inner slip section into inner flue pipe -slip down. Step 3. Center outer -locking section over outer chimney pipe. Push down until locking joint has firmly engaged. Step 4. Pull up slightly on return elbow to ensure locking joint has firmly engaged. Step 5. Secure support straps to framing members by nailing under tension in sheer (Figure 42). T r i Figure 42 14 1 I NOTE: DIAGRAMS 8 ILLUSTRATIONS NOT TO SCALE. Note: The return elbow assembly performs the same function as a stabilizer. Consider this when determining the need fora stabilizer. Note: Do not apply excessive pressure to any subsequent chimney section following return elbow assembly when installing. Ensure that each subsequent chimney section is securely attached by testing as noted above. OPTIONAL EQUIPMENT CONSIDERATIONS Blower Kits (Circulating Models Only) Blower Kits model FBK-100/200 are available for use with circulating models. The Blower Kit can be installed prior to or after installation of the fireplace. Note: These fireplace models require a wall switch for fan operation. Refer to the installa- tion instructions included with the Blower Kits for installation details. THE FIREPLACE MUST BE WIRED TO THE HOUSE ELECTRICAL SYSTEM AT THE TIME OF INSTALLATION IN ORDER FOR THE OP- TIONAL FANS TO OPERATE, (SEE FIGURES 43 AND 44) . Note: The utilization of fans will increase the air flow around the firebox. However, only a minimal increase in heat output should be anticipated. POWER To THE FIREPLACE ^ The Optional Blower Kit / I\ Operates on 115 volt 60 Hz 150 watts AC HOUSE WIRING GROUND j WIRE COVER PLATE House Wiring Must Be Secured Replace Cover Plate With The Appropriate Electrical After Electrical Connector o The Fireplace Hook -Up Convenience Outlet Wiring Figure 43 THIS FIREPLACE IS NOT INTENDED TO BE USED AS A SUBSTITUTE FOR A FURNACE TO HEAT AN ENTIRE HOME. USE FOR SUPPLE- MENTARY HEATING ONLY. U O BLOWER THREE PRONGED PLUG TO / GROUNDED OUTLET Figure 44 The FBK-100/200 Blower Kits are design cer- tified by Warnock Hersey for use with these. appliances. Always check local building codes. Installation of the FBK Blower Kits must comply with local regulations as well as the National Electric Code. Combustion Air Kits These appliances are equipped with an outside (make-up) air door and integral actuator arm. If the appliance is to be installed with an outside air vent system, use only FireCraft Models FAOK-4 or FAOK-4LD Combustion Air Kits. These kits come complete with detailed installation instruc- tions and all components necessary in complet- ing a combustion air vent system. After completing the installation of the optional combustion air vent system the actuator arm must be put in service and tested to ensure proper operation before completing any enclo- sure around the firebox. Failure to do so may result in extensive and costly rework. Locate the actuator arm along the right side of the appliance firebox opening and refer to Figure 45. To operate, push the end of the actuator to the left as shown in Figure 45, until it °pops° free of its "locked" position. Pull the actuator forward to open the combustion air door, and push it back to close. To°lock"the combustion air door closed, ensure the actuator is pushed all the way back then push the end of the actuators to the right until the step in the actuator moves behind the appliance front face within the slot- ted opening. Operate the actuator througli'several cycles including the 'lock position. Ensuring proper operation and freedom of movement: Return the actuator arm to.the locked position. Combustion Air Actuator Is I Pull Forward to Open, Push Back to Close Figure 45 Gas Line Connection Install a'/z° gas supply line through fireplace wall for connection to a decorative gas appli- ance inside the firebox. Outside, the gas supply line connects to a gas shut-off valve recessed flush into the wall or floor. The valve should be controlled by a removable valve key for safety. Always plumb gas line installation per local codes. Check all connections with soap suds; leaks will bubble. Never test any gas line con- nection with a match or open flame. This provision is intended for connection to a decorative gas appliance incorporating an au- tomatic shut-off device and complying with the Standard for Decorative Gas Appliances for installation in vented fireplaces, ANSI Z21.60 (1991) or American Gas Association draft re- quirements for Gas-Fired e-quirementsforGas-Fired Log LightersforWood Burning Fireplaces, Draft No: 4 dated August, 1993. Install in accordance with the'National Fuel Gas Code, ANSI Z223.1. This complies with the revised U.L. 127 standard. Vent Free Appliances This unit has been tested and approved to ANSI/IAS/AGAZ21.11.2 for use with unvented gas appliances and complies with the stan- dard for Factory-Builtfireplaces, UL 127, when installed with unvented gas log sets. Special instructions with regards to mantle installa- tions must be taken into consideration when installing such appliances. NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. The unit has been tested for use with any unvented log sets having a maximum rating of 26,000 BTU. The minimum mantle configura- tion for these log sets are outlined in Figures 46 and 47. Log sets with 40,000 BTU may be installed provided that no combustible mantle projec- tions are placed lower than 18 inches from the fireplace opening. These fireplaces have been marked with a maximum rating of 26,000 BTU to assure that homeowners do not exceed the allowable lim- its forall allowed installations of mantles. That limit may be increased to 40,000 BTU, pro- vided that the mantle installed complies with the 18 -inch limitation and a copy of these instructions are available. NEVER INSTALL AN UNVENTED GAS LOG SET WITH A BTU GREATER THAN 26,000 IF COMBUSTIBLE MANTLE PROJECTIONS ARE LOWER THAN 18 INCHES ABOVE THE FIRE- PLACE OPENING. CAUTION: WHEN USING THE DECORATIVE GAS APPLIANCE, THE FIREPLACE DAMPER MUST BE SET IN THE FULLY OPEN POSITION. CAUTION: PLUMBING CONNECTIONS SHOULD ONLY BE PERFORMED BY A QUALIFIED, LI- CENSED PLUMBER. MAIN GAS SUPPLY MUST BE OFF WHEN PLUMBING GAS LINE TO FIRE- PLACE OR PERFORMING SERVICE. If you're installing a gas line, connect it before the fireplace is framed and enclosed in the finished wall. The gas knockout is determined by the indentation located at the bottom and slightly off center in the side refractories. THE KNOCKOUT IS ALWAYS REMOVED FROM IN- SIDE THE FIREPLACE. DO NOT REMOVE THE KNOCKOUT UNLESS YOU ARE INSTALLING A GAS LINE. If removal is attempted from the outer wrapper, side refractory damage may occur. With a medium-sized hammer, lightly tap the surface of the indentation. The refrac- tory material isverythin inthisareaand is easily removed. Once a small hole has been made, continue tapping until you have reached suffi- cientdiameterforthe gas line toIitthrough.The entire knockout does not have to be removed. Remove insulation in the gas line channel. IMPORTANT: REPACK INSULATION MATERIAL IN SQUARE HOLE AROUND GAS LINE, INTE- RIORAND EXTERIOR OF FIREPLACE, TO SEAL. 15 Glass Doors If glass doors are to be installed on these fireplaces, refer to specific installation instruc- tions packed with the glass doors. Use onlythe doors that are listed for use with these fire- places. Use of other non -listed glass door on these fireplaces may constitute a potential fire hazard and is not recommended. CAUTION: CERTAIN GLASS DOORS OVERLAP THE BLACK METAL FACING OF THE FIRE- PLACE. IF THE FIREPLACE HAS BEEN FACED WITH NONCOMBUSTIBLE MATERIALS, THERE MIGHT NOT BE SUFFICIENT CLEARANCE TO INSTALL THE GLASS DOORS OF YOUR CHOICE. ENSURE ADEQUATE CLEARANCE IS MAINTAINED AT ALL TIMES SO AS NOT TO INTERFERE WITH THE INSTALLATION AND OPERATION OF GLASS DOORS.' COLD CLIMATE INSULATION If you live in a cold climate, it is especially important to seal all cracks around the -fire- place opening with noncombustible material and wherever cold air could enter the room. Surrounding materials must be caulked where it meets the black metal facing of the fireplace to avoid cold air intrusion. Use noncombus- tible caulking material only on fireplace facing to seal. Also, the outside air inlet duct should be wrapped with noncombustible insulation to minimize the formation of condensation. Do not place insulation materials on top of fire- place or against chimney sections. Note: A 2' air space must be preserved for all combustible materials extending for any con- tinuous length adjacent to the chimney. It is especially important to insulate between the studs of an outside chase cavity and under the floor if the floor is above ground level. Do not place insulation directly against the fire- place or chimney system. FIREPLACE FINISHES Mantels and Trim It is sometimes best to frame your fireplace after it is positioned and the chimney is in- stalled. Frame enclosure for chimney and fire- place with 2 x 4's (or heavier) lumber. Note: The header may rest on the two (2) metal top spacers on top of the unit but the header must not be notched to fit around the spacers. These fireplaces may sit directly on a combus- tible surface. A 2° airspace is required be- tween combustible framing and the chimney. A 1' air space is required between combustible framing and fireplace outerwrapper. In Canada, the minimum height for a combustible mantel is 18° (457 mm) above the fireplace opening. Figure 46 shows typical Canadian installa- tions. For installations other than Canada, combustible mantels and trim may, be in- stalled 12° above the fireplace opening as per NFPA 211, Section 7-2.3.3. and Figure 47. If a mantel is of a noncombustible material, it is exempt from these requirements as long as it does not interfere with the installation or op- eration of glass doors. Header Combustible Mantel 7FInish.pd 18" Min. (457mm) Wall Fireplace s Opening Canadian installation Figure 46 16 1 1 NOTE: DIAGRAMS 8 ILLUSTRATIONS NOT TO SCALE. 12" — T /� Header Max. _ � �/ I —1 1/2" Combustible Mantel and Trim Spacer 12"• Min. T IT Finished 83/8 Wall Fireplace S Opening *Both Of These Dimensions Must Be At Least 18" When An Unvented Gas Log Set Rated At 26,000 BTU or Higher Is Used. (Maximum 40,000 BTU) Typical Installation Figure 47 Hearth Extensions and Wall Shields A hearth extension must be installed with all fireplaces. It is to protect the combustible floor in front of the fireplace from both radi- ant heat and sparks: The hearth extension must extend 8" beyond both sides of the fireplace opening and 16' beyond the front (see Figure 48 ). Use a hearth extension constructed of a durable noncombustible material having an equal or greater insulat- ing value of k = 1.28BTU/IN FTzHR IF or a thermal resistance that equals or exceeds r = .78 HR OF FT2 IN/BTU. With these values, determine the minimum thickness/material required using the formula and the Table on page 17. Note: Any noncombustible material whose k value is less than 1.28 or whose r value is more than .78 is acceptable. If the fireplace is installed on a combustible floor, use the metal safety strips (provided) on the floor extending half underthe fireplace and half under the.hearth extension (refer to Figures 6 and 7). A wall shield is required where a continuous perpendicular side wall is within 12° of the fireplace opening, (Figure 49). Use a 24" W_ x 30° H wall shield constructed of millboard or a durable, noncombustible material having an equal orgreater insulating value than K=.54BTU/ IN FT HR IF. At no time may a perpendicular side wall be closer than 8°. If fireplace is installed diagonally across a 900 corner; no wall shields are required. fc B c� A D ---------------------------------- Hearth Extension Dimensions A 16° B 33° C 8° D 49° Figure 48 Wall Shield Required Where Less Than 12" 24 30" D g� Figure 49 Methods of Determining Hearth Extension and Wall Shield Equivalents .To determine the thickness. req 0ired for any material when either the k or r values are known: TM = Thickness of material in inches km K value of desired material rM = R value of desired material TL = Minimum listed thickness Example: Micore CV230 is to be used for the hearth extension fireplace. How thick must this material be? Using the k formula: Desired k value of desired , Min.thickness Required = material (per inch) x of Listed Thickness k value of listedMaterial. material (per inch) TM (inches) = km x TL 1.28 TM(inches) = 0.43' x 1" 1.28 Answer using k = 0.34 x 1" = 0.34 = 3/e 3/a° thickness Micore will be required. Using the r formula: Desired r value of listed Min.thickness Required = material (per inch)x of Listed Thickness r va ue o esire Material material (per inch) TM (inches) = 0.78 x TL rM . TM (inches) = 0.78 x 1° 2.33' Answer using r = 0.34 x ° _ .034 = 3/a 3/e° thickness Micore will be required. At times it is important to know what combina- tion of materials are acceptable for use as hearth extensions. The "R values" are used to determine acceptable combinations of materi- als because "R values" are additive where r and k values are not. ' NOTE: DIAGRAMS & ILLUSTRATIONS NOT To SCALE. t "R value" = 1 = r x thickness of material used k Alternative Hearth Extension and Wall Shield Materials Listed Material Values Min. Thick k r TL Millboard 1.28 0.78 1 ° Alternative Materials Values Min. Thick k r TM Wonderboard 1.92 0.56 1 MY Common brick 5.00 0.20 3'%" Cement mortar 5.00 0.20 3 7/e° Ceramic tile 12.5 0.08 9 3/4 Marble 11.0 0.09 8%. Micore CV230 (U.S. Gypsum) 0.43. 2.33 3/8' Ceraform 126 (Johns -Manville) 0.27 3.70 '/a° Example: Given that the required "R value" for a suitable hearth extension used must be equal to or greater than: "R"=rxTL=0.78x1°=0.78. If it is desired to elevate a marble hearth exten- sion to a level of 5_or more above the floor surface. What combination of noncombustible materials can be used to accomplish this? If common brick is used so that the 3 1/2' dimension is the height, "R" for the common brick becomes: "R"M=rxTM=0.20x3'/2°='.70 Using 1/2° of mortar to set the brick, "R" for the mortar is calculated as follows: "R"M = r x TM = 0.20 x'/z = .10 *value taken from chart 17 A 3/4 marble slab set in 1/2' mortar covers the brick, "R" for the marble and mortar becomes: "R"M=rxTM= 0.09 x3/4" =.068 "R"M=rxTM= 0.20 x1/2" =.10 The sum of all "R values" is: .70+.10+.068+.10=.968 This would be an acceptable combination of material for the hearth extension since the total calculated "R value" of the materials used exceeds the required "R value" of 0.78. WARNING: THE CRACK BETWEEN THE FIREPLACE AND THE HEARTH EXTEN- SION MUST BE SEALED WITH A NOW COMBUSTIBLE MATERIAL. WARNING: WHEN INSTALLING HEARTH EXTENSION IN FRONT OF A NON -CIRCU- LATING FIREPLACE MODEL, THE FIRE- PLACE MUST BE RAISED IF HEIGHT OF HEARTH EXTENSION EXCEEDS 7" ABOVE THE BOTTOM OF FIREPLACE (FIGURE50). Max. Thickness Of Hearth Extension When Non -Circulating Models Are On The Floor Figure 50 WARNING: WHEN INSTALLING THE HEARTH EXTENSION BE CAREFUL NOT TO BLOCK THE HEAT -CIRCULATING AIR INLET GRILL ON CIRCULATING MODELS. WARNING: WHEN INSTALLING HEARTH EXTENSION IN FRONT OF A CIRCULAT- ING FIREPLACE MODEL, THE FIREPLACE MUST BE RAISED IF HEIGHT OF HEARTH EXTENSION EXCEEDS 2"ABOVE BOTTOM OF FIREPLACE (FIGURE 51). 18 51/2" Max. Thickness Of Hearth Extension When Circulating Models Are On The Floor Figure 51 " Secure the hearth extension.to the floor to prevent possible shifting. FINISH TO YOUR TASTE . There area wide variety of. "finished looks" for these fireplaces, from formal wall decor with elaborate mantels to rustic wood paneling or warm -brick facings. Only noncombustible materials like stone, tile, brick, etc., may overlap the black front facing. Do not extend these materials beyond the black facing and into the firebox area. Be sure not to interfere with the installation and operation of glass doors or block the upper or lower grilles. Seal all joints between the black facing and wall surrounds to prevent air intrusion. Use non- combustible caulking material only to seal the black metal facing to the surround' material on the finished wall. Combustible materials may project beyond the sides of the fireplace opening as long as they are kept within the shaded areas illustrated in Figure 52. Combustible Materials FTF8-12 Allowed In Fireplace Shaded Area "Sale Zone" FTF8-36 8" 1" FTF8-48 as° I 12" FTF8-18C Chimney Section B.. rMin.Distance To cted Side Wall FTF8.36C 12° Distance To potected Side Wall Figure 52 y NOTE: DIAGRAMS 8 ILLUSTRATIONS NOT To SCALE. INSTALLATION COMPONENTS The following items aye available for use in the installation of this appliance. Chimney Section 631.10 FTF8-12 631.13 FTF8-18 631-14 FTF8-36 631.15 FTF8-48 Canadian 621.92 FTF8-18C Chimney Section 621.93 FTF8.36C Outside Combustion Air Kits (with duct) 81L87 FOAK (without duct) 81L88 FOAK-LD Combination Offset/Return Elbow ' 631-28 FTF8-OR15 Take Ott Boot 91L04 FATO Shipping Weight 175 lbs. INSTALLATION COMPONENTS O ' Firestop Spacer (301) 631.32 FfIFS30-2 Offset/ Return Package (30*) 631-22 FTF8-ES30 Stabilizer 631-25 FTF8-S4 M Storm Collar 631.59 FSC Locking Band 631.60 FLB vO Firestop Spacer (Flat) 631.31 F8FS-2 (FBK•200 Moilele Only( - Forced Air Blower Kits -Single Speed 8OL84 FBK-100 -Variable Speed 80L85 FBK-200 ti 631.38, F8F6 Flashing 63L39 FBF12 �B® Chase Termination 961.20 FTF8-CTT I�N�� %ami, Chase Termination 961.22 FTF8-ATT Attic Shield Assembly 631.67 NOTE: DIAGRAMS & ILLUSTRATIONS NOT TO SCALE. u FTF8-FSAS Chase Termination (Square) 631.51 FTF8-CT2 Chase Termination (Round) 631.45 FTF8-CTOT Round Termination 631.42 FTF8-CTO OF Chase Termination (Square) ' 631.48 FTF8-CT1 o. o 0 0 ° 0 0 0 0 Cold Climate Kit 631.62 FTF8-CCK2-LO e 1 19 • tri: - �:'�3ti..r+ - t . Structural calculations Date: December 7, 2017 L�0 (�, aG a Y Project description: Column repair Bob Capshaw Butte County, California Additional notes: Frank M Glazewski - Architect PO Box 8066 Chico, California 95927 Tel 530.894.5001 Fax 530.894.8164 email: frank@fmgarchitect.com �NSED AR /T �L M C 2F N -27470 ► R 8-31-19 I/ o t r Gr r 1 I/ o 5 ® Summary of scope of work Due to water damage to the wood framing, the lower:3 feet of two rear columns have been removed. It will be necessary to repair these columns in a manner that will reinforce the hinge point in.the column. Refer to the attached drawing showing the partial foundation plan for the home. The original concrete footing for FTG1 appears to be intact, but there is no visible evidence of FTG2. If FTG2 is to be re -used, it must be exposed for the inspector to verify. If this footing has been removed, replace the footing with a (N) 30" sq. x 12" footing, with 344 bars top and bottom per the original drawings. Add (N) concrete pedestal atop the existing footings, and install (N) framing in accordance with the attached details. 2- Frc.l I Q+ I RO-I I s sD1 mO MFA: V Iv\ cvae< 1' min q w]M1 pw'tl bar 6 RG2 SOt , 97j I li "NN]]O ArI2A : a• p:n n ic\L. Ibew'en n 2r] p21 —d YnA4eM\ . . j dura lFrd. wdgr Rc.l FTG O .:Vp de _ 11 ".Mirtr�v. R/grJl —41 1 X41 f ` � �• IIS • � it t FTG .2 I $D _ L=17 1 4%al I L=9' I MV L Y ®I I T( I �L=p• RG.2 L 6 � SD1 IL Rc •2 [a. .i 1� I Rca I SDI =B= — f/y ,1\ RO-I - M-2 FTO-2 FfO-I Rc-I i ,_ ---- SWU I L=12, i I I� Lo I --- - I� •I —�I— SDI � f I. �1 7 1 J FOUNDATION n SD, n • 3 1 Ae e.�e]i eer'p wal» Frc.l I Q+ I RO-I I s sD1 mO MFA: V Iv\ cvae< 1' min q w]M1 pw'tl bar 6 RG2 SOt , 97j I li "NN]]O ArI2A : a• p:n n ic\L. Ibew'en n 2r] p21 —d YnA4eM\ . . j dura lFrd. wdgr Rc.l FTG O .:Vp de _ 11 ".Mirtr�v. R/grJl —41 1 X41 f ` � �• IIS • � it t FTG .2 I $D _ L=17 1 4%al I L=9' I MV L Y ®I I T( I �L=p• RG.2 L 6 � SD1 IL Rc •2 [a. .i 1� I Rca I SDI =B= — f/y ,1\ RO-I - M-2 FTO-2 FfO-I Rc-I i ,_ ---- SWU I L=12, i I I� Lo I --- - I� •I —�I— SDI � f I. �1 7 1 J FOUNDATION n SD, n 1 Ae e.�e]i eer'p wal» �+rN A7 26 qaY.�: e] YM w �.d12m qs�s wl Tre .eN ]w ee pAeNaTmvn dl'do1 " dYdawl pre rN lM 1wl N SIM OnY »J AM p.MN»ea aA» u rv..wo d 2J b+]ep rre.eere w b]wwle PAD FOOTING CACULATION w Nps <rW YT IIW sN FTG -1 21•SO.IYOP 11112•N fA C. m N A Yh»r1 IarycdxweN 1.Oc—S FTG2 WW-ITOP %"M1wFAC]I \VAY pS]] Fr4-3 �IMPSON TIE SYMBOL -. • ® SIAIPSON NTT22 WITH SSTBNAB. V SMPSON NO&11VITN 552020A8. Frc.l I Q+ I RO-I I s sD1 mO MFA: V Iv\ cvae< 1' min q w]M1 pw'tl bar 6 RG2 SOt , 97j I li "NN]]O ArI2A : a• p:n n ic\L. Ibew'en n 2r] p21 —d YnA4eM\ . . j dura lFrd. wdgr Rc.l FTG O .:Vp de _ 11 ".Mirtr�v. R/grJl —41 1 X41 f ` � �• IIS • � it t FTG .2 I $D _ L=17 1 4%al I L=9' I MV L Y ®I I T( I �L=p• RG.2 L 6 � SD1 IL Rc •2 [a. .i 1� I Rca I SDI =B= — f/y ,1\ RO-I - M-2 FTO-2 FfO-I Rc-I i ,_ ---- SWU I L=12, i I I� Lo I --- - I� •I —�I— SDI � f I. �1 7 1 J FOUNDATION n SD, n .C7�f a� r�lzMe w'rh� ceS G-� colj %� Clne0- ZKIo ✓,ei,sr ®-�,f o� pl�.� VC, w 9. C, . vh0vn9/— (Zo00 o.0 -Ft 40 �e reflt`�ol apt Splice, SDS ZJ 3I7- 500% oe2gz 17 o% I pv1co.� 2 (o, Z9 Z) Z0/11 -(t-k,r! i0,01'� 0k T slu H Ia COMPANY PROJECT Wood'Works® SOFTWARE FOR WOOD DESIGN Dec. 7, 2017 10:581 2 x 6 column Design Check Calculation Sheet WoodWorks Sizer 11.1 Loads: Load Type Distribution Location [ft] Magnitude Unit Analysis/Design Shear Wind Start End Start End 131 Wind Wind C&C Full UDL Bending(+) 29.0 plf Self -weight Dead Axial #21 18 lbs Lateral Reactions (lbs): co 0 0 M M 4 R1 0 v Unfactored• Analysis Value Design Dead Unit Analysis/Design Shear Wind 131 Fv' = 131 Factored: fv/Fv' = 0.05 Bending(+) 78 = 280 78 L ->R Load combl #21 0.15 #2 2 x 6 at column Lumber n -ply, D.Fir-L, No.2, 2x6, 1 -ply (1-1/2"x5-1/2") Support: Lumber -soft Sill plate, D.Fir-L No.3; Bearing length = column width; continuous lower support Total length: 9.0'; Clear span: 8.875'; volume = 0.5 cu.ft. Pinned base; Load face = width(b); Ke x Lb: 1.0 x 0.0 = 0.0 [ft]; Ke x Ld: 1.0 x 9.0 = 9.0 [ft]; Repetitive factor: applied where permitted (refer to online help); Analysis vs. Allowable Stress and Deflection using NDS 2015: Criterion Analysis Value Design Value Unit Analysis/Design Shear fv = 14 Fv' = 288 psi fv/Fv' = 0.05 Bending(+) fb = 280 Fb' = 1872 psi fb/Fb' = 0.15 Axial fc = 2 Fc' = 887 psi fc/Fc' = 0.00 Axial Bearing fc = 2 Fc* = 1336 - psi fc/Fc* = 0.00 Support Bearing fcp = 2 Fcp = 781 psi fcp/Fcp = 0.00 Combined (axial compression side load bendi g) Eq.3.9-3 = 0.15 Live Defl'n 0.05 = <L/999 0.30 = L/360 in 0.18 Total Defl'n 0.05 = <L/999 0.30 = L/360 in 0.18 5 e F-1 I WoodWorks® Sizer SOFTWARE FOR WOOD DESIGN 2 x 6 column WoodWorks® Sizer 11.1 Page 2 Additional Data: FACTORS: F/E(psi)CD CM Ct CL/CP CF_ Cfu Cr Cfrt Ci LC# Fv' 180 1.60 1.00 1.00 - - - - 1.00 1.00 2 Fb'+ 900 1.60 1.00 1.00 1.000 1.300 1.00 1.00 1.00 1.00 2 Fc' 1350 0.90 1.00 1.00 0.664 1,100 - - 1.00 1.00 1 Fc'comb 1350 1.60 - - 0.448 - - - - - 2 E' 1.6 million 1.00 1.00 - - - - 1..00 1.00 2 Emin' 0.58 million 1.00 1.00 - - - - 1.00 1.00 2 Fc* 1350 0.90 1.00 1.00 - 1.100 - - 1.00 1.00 1 Fcp sup 625 - 1.00 1.00 - - - - 1.00 1.00 1 CRITICAL LOAD COMBINATIONS: Shear : LC #2 = .6D+.6W, V max = 78, V design = 78 lbs Bending(+): LC #2 = .6D+.6W, M = 176 lbs -ft Deflection: LC #2 = .6D+.42W (live) LC #2 = .6D+.42W (total) Axial : LC #1 = D only, P = 18 lbs Combined : LC #2 = .6D+.6W; (1 - fc/FcE) = 1.00 Support : LC #1 = D only; R = 18 lbs, Cap.= 6445, Lb = 1.5011, Cb = 1.25 D=dead L=live S=snow W=wind I=impact Lr=roof live Lc=concentrated E=earthquake All LC's are listed in the Analysis output Load combinations: ASCE 7-10 / IBC 2015 CALCULATIONS: Deflection: EI = 33.3e06 lb-in2 "Live" deflection = Deflection from all non -dead loads (live, wind, snow...) Total Deflection = 1.50(Dead Load Deflection) + Live Load Deflection. Design Notes: 1. WoodWorks analysis and design are in accordance with the ICC International Building Code (IBC 2015), the National Design Specification (NDS 2015), and NDS Design Supplement. 2. Please verify that the default deflection limits are appropriate for your application. 3. BUILT-UP COLUMNS: nailed or bolted built-up columns shall conform to the provisions of NDS Clause 15.3. 4. FIRE RATING: Joists, wall studs, and multi -ply members are not rated for fire endurance. I Conc. PZdveS-kl Sed- -bp o-� Pedestal Ceti+�'.veo� vhai� �FiniSGteo� w��h naWv-e -fmcs� �;� wood Tv7.w�c Colvrnv� c��C Jc ea �ih�Sti y�Ade 1 eo.s I z''cly _ rr r1" f 1�l1.%It1 w� 1,1 "0 �E) C04(,V 1C, — �� J CE� tov�lvl� �1n (9 Se Srw�pl or SET -xi' epoxy FT61 - ZK"SRxIZ FTG2 30''SCQxI7-' 3-4H eva � •Foo-�rvi� T�e�"2 �� FTGZis w,Nss��5 �replgce W� Vl0T"oa�a�_ \pp,o �� Z r+ -6p- Ox 9hSdd Ie14b.le voSc�w)S 9xh }su,hbw { 57-a k S� ii i IAacju^a� 0,x2 Y:) ow 02 �a�eds h coo 'c 'S S = ZI�SZS4� U°sd-)S (2) ry � k � 21FS2SQS s uogclw)S �2�' . 9X2 (9) I-"cl +"D II I I 1 i, -7- I -21) -IX h (3) Q I { Yj SDS coAvlQciv-ej P --,r CjZVGJ('o, Covolozc� AT r—T& I M 6x VMrpp 6f t Ice qHQ, ZXC9 mai (env, Co�uvhh haSe �e12�� f -TDF Spac-ev N)cov,e. �edeSAf INSTALLATION CERTIFICATE CF-6111-MECH-04 Space Conditioning Systems, Ducts and Fans (Page 1 of 2) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 (System 1) County of Butte B14--0608 Space Conditioning Systems Heating Equipment Equip Type (package- heat pump) CEC Certified Mfr. Name and Model Number ARI Reference Number2 # of Identical Systems Efficiency (AFUE, etc.)1, 3 (>=CF -1R value)4 Duct Location (attic, crawl- space, etc.) Duct R -value Heating Load (kBtu/hr) Heating Capacity (kBtu/hr) Split Furnace Amana AMYC950905CXAD 1 95 AFUE Attic R-6 95 kBtu Type (package heat pump) CEC Certified Mfr. Name and Model Number ARI Reference Number2 # of Identical Systems and EER) 1, 3 (>=CF -1R value)4 (attic, crawl- space, etc.) Duct R -value Cooling Load (kBtu/hr) Cooling Capacity (kBtu/hr) Split Amana . A/C ASZC160601BR P: 1 r 16 SEER _;,; Attic, R -6h , ,5 Tons Cooling Equipment 1. If project is new construction, see Footnotes to Standards Table 151-e and Table 151-C for duct ceilino alternative compliance. 2. ARI Reference Number can be found by entering the equipment model number at http://www.aridirectory. org/ari/ac. php# 3. Listed efficiency on this page must be greater than or equal ( ? ) to the value shown on the CF -IR form. 4. When CF -1R is reference it is also applicable to the CF -IR, CF -IR -AA or CF -IR -ALT ALL BOXES MUST BE CHECKED TO BE A VALID FORM ® §110-§113: HVAC equipment is certified by the California Energy Commission. ® §150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA, or ACCA. ® §150(i): Setback Thermostat on all applicable heating and/or cooling systems meet the requirements of §112(c). ® §150(j)2: Pipe insulation for cooling system refrigerant suction, chilled water and brine lines meets minimum requirements of Table 150-B and includes a vapor retardant or is enclosed entirely in conditioned space. Reg: 218-A0.009111A-M0400001A-0000 Registration Date/Time: 2018/01/09 19:29:16 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms August 2009 Efficiency Duct Equip (SEER Location Type (package heat pump) CEC Certified Mfr. Name and Model Number ARI Reference Number2 # of Identical Systems and EER) 1, 3 (>=CF -1R value)4 (attic, crawl- space, etc.) Duct R -value Cooling Load (kBtu/hr) Cooling Capacity (kBtu/hr) Split Amana . A/C ASZC160601BR P: 1 r 16 SEER _;,; Attic, R -6h , ,5 Tons 1. If project is new construction, see Footnotes to Standards Table 151-e and Table 151-C for duct ceilino alternative compliance. 2. ARI Reference Number can be found by entering the equipment model number at http://www.aridirectory. org/ari/ac. php# 3. Listed efficiency on this page must be greater than or equal ( ? ) to the value shown on the CF -IR form. 4. When CF -1R is reference it is also applicable to the CF -IR, CF -IR -AA or CF -IR -ALT ALL BOXES MUST BE CHECKED TO BE A VALID FORM ® §110-§113: HVAC equipment is certified by the California Energy Commission. ® §150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA, or ACCA. ® §150(i): Setback Thermostat on all applicable heating and/or cooling systems meet the requirements of §112(c). ® §150(j)2: Pipe insulation for cooling system refrigerant suction, chilled water and brine lines meets minimum requirements of Table 150-B and includes a vapor retardant or is enclosed entirely in conditioned space. Reg: 218-A0.009111A-M0400001A-0000 Registration Date/Time: 2018/01/09 19:29:16 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms August 2009 f =�r INSTALLATION CERTIFICATE CF-6111-MECH-04 Space Conditioning Systems, Ducts and Fans (Page 2 of 2), Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 (System 1) County of Butte B14--0608 Ducts and Fans §150(m): Duct and Fans . M 1. All air -distribution system ducts and plenums installed, 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 181A, or UL 1816 or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings greater than 1/4 inch, the combination of mastic and either mesh or tape shall be used; and ® 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. 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. M 7. Exhaust fan systems have back draft or automatic dampers. ®'8.' Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated dampers. ® Protection of Insulation. 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. ® 10. Flexible ducts cannot have porous inner cores. j k , n y,, y DECLARATION STATEMENT z • I certify under penalty of perjury, under the laws'of Etre state ofCalifornia, the information provided ori this form`is true and correct. i • I am eligible under Division 3 of the Business and Professions Code to accept responsibility for construction, or an authorized representative of the person responsible for construction (responsible person). • I certify that the installed features, materials, components, or manufactured devices identified on this certificate (the installation) conforms to all applicable codes and regulations, and the installation is consistent with the plans and specifications approved by the enforcement agency. • I reviewed a copy of the Certificate of Compliance (CF -1R) form approved by the enforcement agency that identifies the specific requirements for the installation. I certify that the requirements detailed on the CF -111 that apply to the installation have been met. • I will ensure that a completed, signed copy of this Installation Certificate shall be posted, or made available with the building permit(s) issued for the building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Installation Certificate is required to be included with the documentation the builder provides to the building owner at occupancy. Company Name: (Installing Subcontractor or General Contractor or Builder/Owner) MERIWETHER AIR CONDITIONING Responsible Person's Name: Responsible Person's Signature: John Meriwether John Meriwether CSLB License: 308723 Date Signed: 1/8/2018 Position With Company (Title): Reg: 218-A0009111A-M0900001A-0000 Registration Date/Time: 2018/01/09 19:29:16 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms August 2009 INSTALLATION CERTIFICATE CF-6R-MECH-20-HER9 Duct Leakage Test — Completely" New or Replacement Duct System (Page 1 of 2) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 (System 1) County of Butte B14--0608 Enter the Duct System Name or Identification/Tag: System 1 Enter the Duct System Location or Area Served: Living area Note: Submit one Installation Certificate for each duct system that must demonstrate compliance in the 1welling. This certificate is required for compliance for completely new duct systems installed in new dwelling :onstruction, and also for completely new or replacement duct systems in existing dwellings. For existing 1wellings, a completely new or replacement duct system can also include existing parts of the original duct system (e.g., register boots, air handler, coil, plenums, etc.) if those parts are accessible and they can be sealed. Duct Leakage Diaanostic Test - comoletely new or renlacement duct evetam Enter a value for the Allowed Leakage (CFM) for the duct system leakage verification. The value entered must be the VLLDCS criteria or one of the three calculated leakage rates described below. Verified Low Leakage Ducts in Conditioned Space (VLLDCS) Compliance Credit. If compliance credit for verified low leakage ducts in conditioned space is shown in the special features section of the Allowed CF -1R, the leakage to outside test method must be used to verify duct leakage (refer to RA3.1.4.3.4), Leakage and 25 CFM must be entered for Allowed Leakage. (CFM) Allowed leakage calculation - (select one calculation method from this section). Use 6% (leakage factor = 0.06) for calculations if tested at "final" or 4% (leakage factor = 0.04) if tested at "rough." When utilizing Low Leakage Air Handler (LLAH) credit, the allowed duct leakage may be specified by the CF -111 to be less than 6%, in which case the user-specified leakage rate must be used in the calculations below. For example, if the user-specified leakage (specified as a percentage of fan airflow) is reported on the CF -111 as 3%, then use a leakage factor of 0.03 in the calculations below. M Cooling system method: Nominal capacity of condenser in`Tons 5 x 400,x leakage factor = 120 CFM ❑ Heating system' -method: : Y, 21.7 x Output Capacity in Thousands of`Btu/hr x'leakage factor = CFM ❑ Measured airflow method (RA3.3)i' " Enter measured 06:'flow in CFM here :x leakage. factor= _ CFM. Enter value for Actual leakage (CFM) in -the right column; from measurement duct.. 'Actual :. using applicable leakage pressurization test rocedure from Reference Residential A 9 p p ppendix RA3.1(CFM @ 25 Pa). Leakage (CFM) List Actual Leakage from duct leakage test(CFM) 118 Pass if Actual Leakage is equal to or less than Allowed Leakage ® Pass ❑ Fail For complete replacement of duct systems only, if the 6 percent leakage rate criteria cannot be met, a smoke test should be performed to verify that the excess leakage is coming only from a pre-existing furnace cabinet (air handler cabinet), and not from other accessible portions of the duct system. A HERS rater must verify the installation (No sampling allowed). List Actual Leakage from smoke test(CFM) Pass if all accessible leaks (except for existing air handler) are sealed using smoke ❑ Pass ❑ Fail Reg: 218-A0009111A-M2000001A-0000 Registration Date/Time: 2018/01/09 19:30:22 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms August 2009 d r:; INSTALLATION CERTIFICATE CF-6R-MECH-20-HERS Duct Leakage Test — Completely New or Replacement Duct System (Page 2 of 2) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 (System 1) County of Butte B14--0608 Compliance Method This dwelling was: (select one of the following two choices): ® Tested at Final ❑ Tested at Rough -in (requires installer to complete the visual inspection at final construction stage described below) visual inspection at renal construction stage (It appncame) Atter installing the interior finishing wall and verifying that the above rough -in tests was completed, the following procedure must be performed: ❑ For all supply and return registers, verify that the spaces between the register boot and the interior finishing wall are properly sealed. ❑ If the house rough -in duct leakage test was conducted without an air handler installed, inspect the connection points between the air handler and the supply and return plenums to verify that the connection points are properly sealed. Inspect all joints to ensure that no cloth backed rubber adhesive duct tape is used. ® Outside air (OA) ducts for Central Fan Integrated (CFI) ventilation systems, shall not be sealed/taped off during duct leakage testing. CFI OA ducts that utilize controlled motorized dampers, that open only when OA ventilation is required to meet ASHRAE Standard 62.2, and close when OA ventilation is not required, may be configured to the closed position during duct leakage testing. ® All supply and return register boots must be sealed to the drywall ® New duct installations cannot utilize building cavities as plenums or platform returns in lieu of ducts. ® Mastic and draw bands must be used in. combination with Cloth backed, rubbec:adheslve duct tape to seal leaks at duct connections. DECLARATION STATEMENT • I certify under penalty of perjury, under the laws of the State of California, the information provided on this form is true and correct. • I am eligible under Division 3 of the Business and Professions Code to accept responsibility for construction, or an authorized representative of the person responsible for construction (responsible person). • I certify that the installed features, materials, components, or manufactured devices identified on this certificate (the installation) conforms to all applicable codes and regulations, and the installation is consistent with the plans and specifications approved by the enforcement agency. • I understand that a HERS rater will check the installation to verify compliance, and that that if such checking identifies defects, I am required to take corrective action at my expense. I understand that Energy Commission and HERS provider representatives will also perform quality assurance checking of installations, including those approved as part of a sample group but not checked by a HERS rater, and if those installations fail to meet the requirements of such quality assurance checking, the required corrective action and additional checking/testing of other installations in that HERS sample group will be performed at my expense. • I reviewed a copy of the Certificate of Compliance (CF -111) form approved by the enforcement agency that identifies the specific requirements for the installation. I certify that the requirements detailed on the CF -111 that apply to the installation have been met. • I will ensure that a completed, signed copy of this Installation Certificate shall be posted, or made available with the building permit(s) issued for the building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Installation Certificate is required to be included with the documentation the builder provides to the building owner at occupancy. I will ensure that all Installation Certificates will come from a HERS provider data registry for multiple orientation alternatives, and beginning October 1, 2010, for all low-rise residential buildings. Company Name: (Installing Subcontractor or General Contractor or Builder/Owner) MERIWETHER AIR CONDITIONING Responsible Person's Name: Responsible Person's Signature: John Meriwether John Meriwether CSLB License: Date Signed: Position With Company (Title): 308723 1/8/2018 Is this installation monitored by a Third Party Quality Name of TPQCP (if applicable): Control Program (TPQCP)? ❑ Yes ❑ No Reg: 218-A0009111A-M2000001A-0000 Registration Date/Time: 2018/01/09 19:30:22 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms August 2009 CERTIFICATE OF FIELD VERIFICATION & DIAGNOSTIC TESTINGCF-411-MECH-20 Duct Leakage Test - Completely.New or -Replacement Duct System -(Page 1 of 2) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 (System 1) County of Butte B14--0608 Enter the -Duct System Name or Identification/Tag: System 1 Enter the Duct System Location or Area Served: Living area Note: Submit one Installation Certificate for each duct system that must demonstrate compliance in, the dwelling. . This certificate is required for compliance for completely new duct systems installed in new dwelling construction, and also for completely new or replacement duct systems in existing dwellings. For existing dwellings, a completely new or - replacement duct system can also include existing parts of the original duct system (e.g., register boots, air handler, coil, plenums, etc.) if those parts are 'accessible and they can be sealed. ' . • - . • Duct"Leaka a Diagnostic Test - completely new or replacement ducts stem Enter a value for the All Leakage (CFM) for the duct system leakage verification. The value entered must.be the VLLDCS criteria or one of the three calculated leakage rates described below. - Verified Low Leakage Ducts in Conditioned Space (VLLDCS) Compliance Credit. If compliance credit for Allowed verified low leakage ducts in conditioned space is shown in the special features section of the CF -1R; the „ Leakage leakage to outside test method must be used to verify duct leakage (refer to RA3.1.4.3.4), and 25 CFM must ` (CFM) be entered for Allowed Leakage. Allowed leakage calculation - (select one calculation method from this section). Use 6% (leakage factor = 0:06) for calculations. When utilizing Low Leakage Air Handler (LLAH) credit, the allowed duct leakage may be specified by the CF -1R to be less than 6%, in which case the user-specified leakage rate must be used in the calculations below. For example, if the user-specified leakage (specified as a percentage of fan airflow) is reported on the CF -1R as 3%, then use a leakage factor of 0.03 in the calculations below. ® Cooling system method: Nominal capacity.of condenser in Tons 5 x 400 x leakage factor S 120 CFM ' -!'a Fs e• /•�j. { ❑ Heating system method: ` jh: N. y 21.7x Output Capacity in_Thousands of Btu/hr x leakage factor aid �? ° CFM % -f A ❑ Measured airflow method (RA3 3): Enter measured (an in CFM her`x:,leakage'factor"=` `.:, CFM ::jam, .A ' Enter value for Actual leakage (CFM) in.the right column; from measurement using applicable duct, lea kage • t Actual Leakage pressurization test procedure from;Reference Residential Appendix RA3.1(CFM @�25 Pa) _ z ,: CFM9 List Actual Leakage from duct leakage test(CFM) 118 Pass if Actual Leakage is less than Allowed Leakage - ® Pass ❑ Fail For complete replacement of,duct systems only, if the 6 percent leakage rate criteria cannot be met, a smoke test should be performed to verify that the excess leakage is coming only from a pre-existing furnace cabinet (air handler cabinet), -and not from other accessible portions of the duct system. A HERS rater must verify the installation (No sampling allowed). ' - ' Pass if all accessible leaks (except for existing air handler) are sealed using smoke ❑pass ❑Fail ' List Actual Leakage from smoke'test(CFM) - 1 Reg: 218-A0009111A-M2000001A-M20A Registration Date/Time: 2018/01/09 20:20:04 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms F' August 2009 :0, CERTIFICATE OF FIELD VERIFICATION & DIAGNOSTIC TESTING CF-411-MECH-20 Duct Leakage Test - Completely New or Replacement Duct System (Page 2 of 2) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 (System 1) County of Butte B14--0608 Outside air (OA) ducts for Central Fan Integrated (CFI) ventilation systems, shall not be sealed/taped off during duct eakage testing. CFI OA ducts that utilize controlled motorized dampers, that open only when OA ventilation is required to meet ASHRAE Standard 62.2, and close when OA ventilation is not required, may be configured to the closed position during duct leakage testing. ® All supply and return register boots must be sealed to the drywall ® New duct installations cannot utilize building cavities as plenums or platform returns in lieu of ducts. Mastic and draw bands must beased;in combination with Cloth,backe& rubber adhesive :duct tape to seal ;leaks at uct connections. DECLARATION STATEMENT • I certify under penalty of perjuryunder the laws of the State of California, the information provided on this form is true and correct:• • I am the certified HERS rater who performed Ehe verificationservices identified aril%reported on this certificate (responsible rater) • The installed feature;. material, component, or manufactured device requiring HERS verification that is identified on this certificate (the installation) complies,with the applicable requirements in Reference Residential Appendices RA2 anil RA3 and the requirements specified on the Certificate(s) of Compliance (CF=1R) approved by the local enforcement agency • The information reported on applicable sections of the Installation Certificate(s) (CF -6R), signed and submitted by'the persons) responsible for the installation conforms to the requirements specified on the Certificate(s) of Compliance (CF -1R) approved by the enforcement agency. Builder or Installer information as shown on the Installation Certificate (CF -6111) Company Name: (Installing Subcontractor or General Contractor or Builder/Owner) MERIWETHER AIR CONDITIONING Responsible Person's Name: CSLB License: John Meriwether 1308723 HERS Provider Data Registry Information Sample Group # (if applicable): N/A ® tested/verified dwelling 13not-tested/verified dwelling in la HERS sample group HERS Rater Information CalCERTS Certificate # CC1-1799656945 HERS Rater Company Name: M & T Energy Analyst Responsible Rater's. Name: Responsible Rater's Signature: Martin Alvis Martin Alvis Responsible Rater's Certification Number w/ this HERS Provider: Date Signed: 1/8/2018 CC2006137 Reg: 218-A0009111A-M2000001A-M20A Registration Date/Time: 2018/01/09 20:20:04 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms August 2009 CERTIFICATE OF FIELD VERIFICATION & DIAGNOSTIC TESTING CF-4R-MECH-25 Refrigerant Charge Verification - Standard Measurement Procedure (Page 1 of 6) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of B, I B14--0608 Note: If installation of a Charge Indicator Display (CID) is utilized as an alternative to refrigerant charge verification for compliance, a MECH-24 Certificate (instead of this MECH-25 Certificate) should be used to demonstrate compliance with the refrigerant charge verification requirement. TMAH and STMS are not required for compliance, when a CID is utilized for, compliance. As many as 4 systems in the dwelling can be documented for compliance using this form. Attach an additional form(s) for any additional systems in the dwelling as applicable. Temperature Measurement Access Holes (TMAH) and Saturation Temperature Measurement Sensors (STMS) Procedures for installing TMAH are specified in Reference Residential Appendix RA3.2. If refrigerant charge verification is required for compliance, TMAH are also required for compliance, unless the TMAH Compliance Option is chosen. STMS are only required for completely new or replacement space -conditioning systems that utilize prescriptive compliance method. TMAH - Access Holes in Supply and Return Plenums of Air Handler System Name or Identification/Tag System 1 System Location or Area Served living area 5/16 inch (8 mm) access hole 1 upstream of evaporative coil in the ® Yes ❑ Yes ❑ Yes ❑ Yes return plenum and labeled according ❑ No ❑ No ❑ No ❑ No to Figure in Section RA3.2.2.2.2. Return side of the duct.system is la located entirely within conditioned'_' x ❑Yes ❑.Yes ❑Yes: `,,.❑Yes space and "return airflow temperature ❑No No 13No; ❑>No to be measured at the return grille' 5/16 inch (8 ;mm) access hole 2 downstream of evaporative coil in the ®Yes O Yes ❑Yes ❑~Yes ` supply plenum and labeled. according: •i ❑ No ❑ No:,.. l:.❑ No, • <, 0. 0, -: to Figure in `Section RA3 2`2:2:2. The TMAH Compliance Option should be checked only if the HERS Rater is able to confirm that it was physically impossible for the HVAC Installer to drill the TMAH as required by Section RA3.2.2.2.2. Using this Compliance Option requires the HVAC installer to annotate on the HERS Provider's data registry an explanation as to why the TMAH cannot be installed on the system, and photographs of the equipment on which the TMAH cannot be installed. Use of this Compliance Option also requires minimum airflow verification through the direct measurement of airflow per RA3.3. For more information see htto://www.energy.ca.gov/title24/2008standards/special case agpiiance/ TMAH Compliance Option ❑ ❑ ❑ ❑ Yes to 1 and 2, or Yes to la and 2, or checking the TMAH Compliance Option, is ® Pass ❑ Pass ❑ Pass ❑ Pass a pass. ❑ Fail ❑ Fail ❑ Fail ❑ Fail Enter Pass or Fail • :tea. Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 0 CERTIFICATE OF FIELD VERIFICATION & DIAGNOSTIC TESTING CF-411-MECH-25 Refrigerant Charge Verification - Standard Measurement Procedure (Page 2 of 6) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte I B14--0608 STMS - Sensor on the Evaporator Coil System Name or System i ; Identification/Tag N 3 The sensor is factory installed, or field installed according to manufacturer's specifications, or is installed by methods/specifications approved by the Executive Director. ❑ Yes ❑ No 1 ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No The sensor wire is terminated with a standard mini plug suitable for connection to a digital thermometer. 4 The sensor mini plug is accessible to. the installing technician and the HERS rater without changing the airflow through the condenser coil ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No T ❑ Yes ❑ No 5 When attached to a digital thermometer, the sensor provides an indication of the saturation temperature of the coil. ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No Yes to 3, 4, and 5 is a pass. Enter N/A if STMS are not ® N/A ❑ N/A ❑ N/A ❑ N/A applicable. ❑ Pass ❑ Pass ❑ Pass ❑ Pass Otherwise enter Pass or ❑ Fail ❑ Fail ❑ Fail ❑ Fail Fail STMS - Sensor on the Condenser Coil System Name or System i ; Identification/Tag N 6 The sensor is.factory installed, or field installed according to manufacturer's specifications, or is installed by methods%specificationsapproved.by the Executive Director. `. 13Yes ❑ No 13 -Yes 0 No ., ,, ❑:Yes 0 N ❑.Yes ❑ No; . The sensor wire is terminated` With a standard mini plug-suitable'for`connection'to a digital thermometer. 7 The sensor minr;plug is accessible to the,.instaliing technician and the,HERS rater without. changing,tl e . airflow through the condenser,coil ❑ Yes E3 'No '❑ Yes= ❑ No ❑ Yes ❑ No ❑Yes ❑ No 8 When attached to a digital thermometer, the sensor provides an indication of the saturation temperature of the coil. ❑ Yes ❑ No []Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No Yes to 6, 7, and 8 is a pass. Enter N/A if STMS are not ❑ N/A ❑ N/A ❑ N/A ❑ N/A applicable. ❑ Pass ❑ Pass ❑ Pass ❑ Pass Otherwise enter Pass or ❑ Fail ❑ Fail ❑ Fail ❑ Fail Fail f ' Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 INSTALLATION CERTIFICATE CF-4R-MECH725 Refrigerant Charge Verification -- Standard Measurement Procedure (Page 3 of 6) Site Address: Enforcement Ag7ncy--Permit Number: 309 Railbridge Rd, Oroville CA•95966 County of ButteB14--0608 ' .Standard Charge: Measurement Procedure (for use if outdoor air dry-bulb is above 55°F) Procedures for determining Refrigerant Charge using.the Standard Charge Measurement Procedure are available in , Reference Residential Appendix RA3.2. As many as 4 systems in the dwelling can be documented for compliance using this form. Attach an additional form(s).for any additional systems in the dwelling as applicable. • • The system should be installed and charged in accordance with the manufacturer's specifications before starting this procedure. ' -.The system must meet minimum airflow requirements as prerequisite for a valid refrigerant charge test. • If outdoor air dry-bulb temperature is less than 55°F, the installer must use the RA3.2.3 Alternate Charge Measurement Procedure'(Weigh-In Charging Method). If the Weigh -In Method is used, the dwelling cannot be included in a sample . group for HERS verification compliance.) - Space'Conditionina Svstemsi ' System Name or Identification/Tag ' System 1 - . -, :::.r y:.•Y -..:•➢• ... . (must be re -calibrated monthly) System Location,or Area Served living area ;. .. • .t Outdoor Unit Serial # 1401175800 ` �� .• �: < Outdoor Unit Make Amana , T Outdoor Unit Model ASZC1606016R , . Nominal Cooling Capacity 5 Tons Date of Verification Calibration• of Diagnostic Instruments r6 �..,. ,., • ➢..4esi•:;tiii.>w> ti..i Date of Refrigerant Gauge Calibration .. �.f.. .:➢r h.': ^.*' 5.'::l\' ...1.-y' :?':. -1/6/2018 . -, :::.r y:.•Y -..:•➢• ... . (must be re -calibrated monthly) � i .• Date of ThermocoupJe'Calibration tl w. F� x. '..•. '9•.w--.: 11/6/2018 ` "" ,az i`i7 h• `t :; +. (must;be recalibrated month(y) �,,� <,.�, t 3: �� .• �: < � f.: .. �. 8 2018 r db) �..,. ,., • ➢..4esi•:;tiii.>w> ti..i Date of Refrigerant Gauge Calibration .. �.f.. .:➢r h.': ^.*' 5.'::l\' ...1.-y' :?':. -1/6/2018 . -, :::.r y:.•Y -..:•➢• ... . (must be re -calibrated monthly) � i .• Date of ThermocoupJe'Calibration tl w. F� x. '..•. '9•.w--.: 11/6/2018 ` "" ,az i`i7 h• `t :; +. (must;be recalibrated month(y) MeasuredTemperatures (°F) " System Name or Identification/Tag System 1 r Supply, (evaporator ,leaving) air dry-bulb temperature (Tsu I db) - Return (evaporator entering).air + dry-bulb temperature (Treturn "db) Return (evaporatorentering)air wet -bulb temperature (Treturn wb) Evaporator saturation temperature 41 (Teva orator sat) f Condensor saturation temperature 80 "- (Tcondensor, sat) Suction line temperature (Tsuction) 48 - Liquid, Line Temperature (Tliquid) 74 , Condenser (entering) air dry-bulb, 56 temperature (Tcondenser ' Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 r db) System Name or Identification/Tag System 1 r Supply, (evaporator ,leaving) air dry-bulb temperature (Tsu I db) - Return (evaporator entering).air + dry-bulb temperature (Treturn "db) Return (evaporatorentering)air wet -bulb temperature (Treturn wb) Evaporator saturation temperature 41 (Teva orator sat) f Condensor saturation temperature 80 "- (Tcondensor, sat) Suction line temperature (Tsuction) 48 - Liquid, Line Temperature (Tliquid) 74 , Condenser (entering) air dry-bulb, 56 temperature (Tcondenser ' Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 INSTALLATION CERTIFICATE CF-411-MECH-25 Refrigerant Charge Verification - Standard Measurement Procedure (Page 4 of 6) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte B14--0608 Minimum Airflow Requirement Temperature Split Method Calculations for determining Minimum Airflow Requirement for Refrigerant Charge Verification. The temperature split method is specified in Reference Residential Appendix RA3.2. System Name or Identification/Tag Calculate: Actual Temperature Split = Treturn db - Tsupply, db Target Temperature Split from Table RA3.2-3 using Treturn wb and Treturn db Calculate difference: Actual Temperature Split - Target Temperature Split = Passes if difference is between -4°F and +4°F or, upon remeasurement, if between =4°F and -100°F Enter Pass or Fail Note: Temperature Split Method Calculation is not necessary if actual Cooling Coil Airflow is verified using one of the airflow measurement procedures specified in Reference Residential Appendix RA3.3. If actual cooling coil airflow is measured, the value must be equal to or greater than the Calculated Minimum Airflow Requirement in the table below. Calculated Minimum Airflow Requirement (CFM)'— Nominal Cool ingCapacity (ton) X300 (cfm/ton) y System Name or Identificatio ifTaq System 1: Calculated Mmimu'm Airflow Requirement: (CFM) Measured Airflow using RA3.3 procedures 1750 (CFM) Measurement Method Flow Hood. Passes if measured airflow is greater than or equal to the calculated minimum airflow PASS requirement. Enter Pass or Fail Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 INSTALLATION CERTIFICATE CF-4R-MECH-2E Refrigerant Charge Verification - Standard Measurement Procedure (Page 5 of 6; Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte I B14-70608 Superheat Charge Method Calculations for Refrigerant Charge Verification. This procedure is required to be used for fixed orifice metering device systems System Name or Identification/Tag System 1 Calculate: Actual Superheat = 7.0 Tsuction - Teva orator sat Target Superheat from Table RA3.2-2 using Treturn wb and Tcondenser, db 7 Calculate difference: Actual Superheat - Target Superheat = System passes if difference is between -6°F and +6°F PASS Enter Pass or Fail Subcooling Charge Method Calculations for Refrigerant Charge Verification. This procedure is required to be used for thermostatic expansion valve (TXV) and electronic expansion valve (EXV) systems. System Name or Identification/Tag System 1 Calculate: Actual Subcooling = 6.0 Tcondenser, sat - Tli uid Target Subcooling specified by 7 manufacturer Calculate difference: Actual Subcooling - Target Subcooling System passes if difference<is between -4°F and +4°F PASS Enter Pass or Fail Metering Device_ Calculations.for Refrigerant.Charge:Verification.,This procedure -is required to be used .for thermostatic expansion valve (TXV) and electronicexpansion:valve (EXV);systems:-' System Name or Identification/Tag System 1 Calculate: Actual Superheat = 7.0 Tsuction - Teva orator sat Enter allowable superheat range from manufacturer's specifications (or use range 7 between 3°F and 26°F if manufacturer's specification is not available) System passes if actual superheat is within the allowable superheat range PASS Enter Pass or Fail Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 INSTALLATION CERTIFICATE CF-4R-MECH-25 Refrigerant Charge Verification - Standard Measurement Procedure (Page 6 of 6) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte 614--0608 Standard Charge Measurement Summary: System shall pass both refrigerant charge criteria, metering device criteria (if applicable), and minimum cooling coil airflow. criteria based on measurements taken concurrently during system operation. If corrective actions were taken, all applicable verification criteria must be re -measured and/or recalculated. System Name or Identification/Tag System 1 308723 HERS Provider'Data Registry.:Information Sample Group # (if applicable): N/A System meets all refrigerant charge and verified dwelling 7ina HERS sample group airflow requirements. PASS M & T Energy Analyst Responsible Rater's Name: Responsible Rater's Signature: Enter Pass or Fail Martin Alvis Responsible Rater's Certification Number w/ this HERS Date Signed: 1/8/2018 Provider: ® Residential Appendix RA3.2.2 requires that if the outdoor temperature is between 55°F and 65°F the return air dry bulb temperature shall be maintained above 70°F during the Standard Charge Measurement Procedure. The signature of the Responsible Person in the declaration statement below certifies this requirement has been met for all applicable system verifications reported on this certificate. DECLARATION STATEMENT . I certify under penalty of perjury, under the laws of the State of California, the information provided on this form is true and correct. . I am the certified HERS rater who performed the verification services identified and reported on this certificate (responsible rater). . The installed feature, material, component, or manufactured device requiring HERS verification that is identified on this certificate (the installation) complies with the applicable requirements in Reference Residential Appendices RA2 and RA3 and the requirements specified on the Certificate(s) of Compliance (CF -1R) approved by the local enforcement agency. . The information reported on applicable sections of the Installation Certificate(s) (CF -6R), signed and submitted by the person(s) responsible for the installation conforms to -the requirements specified on the Certificates) of Compliance (CF -111) approved by the enforcement agency. Builder or Installer information as shown on.the:Installation Certificate.,(CF-6R): Company Name: (Instal Iing'Subcontractor o General.Contractor dr'BuilclO /Owij-ner) MERIWETHEWAIR CONDITIONING'` Responsible; Person's Name GSLB, License:. . John Meriwether, 308723 HERS Provider'Data Registry.:Information Sample Group # (if applicable): N/A ® tested/verified dwellingnot-tested verified dwelling 7ina HERS sample group HERS Rater Information CaICERTS Certificate # CC1-1799656945 HERS Rater Company Name: M & T Energy Analyst Responsible Rater's Name: Responsible Rater's Signature: Martin Alvis Martin Alvis Responsible Rater's Certification Number w/ this HERS Date Signed: 1/8/2018 Provider: CC2006137 Reg: 218-A0009111A-M2500001A-M25A Registration Date/Time: 2018/01/09 20:23:13 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms February 2013 .Note: If installation of a Charge Indicator Display (CID) is utilized as an alternative to refrigerant charge verification for compliance, a MECH-24 Certificate (instead of this MECH-25 Certificate) should be used to demonstrate compliance with the refrigerant charge verification requirement. TMAH and STMS are not ` required for compliance when a CID is utilized for compliance. As many as 4 systems in the dwelling can be documented for compliance using this form. 'Attach an additional form(s) for..any additional, systems in the,dwelling as applicable. a Temperature Measurement Access Holes (TMAH) and Saturation Temperature Measurement Sensors (STMS) Procedures for installing TMAH are specified in Reference Residential Appendix RA3.2. If refrigerant charge verification is required for compliance, TMAH are,also required for compliance, unless the TMAH Compliance . Option is chosen. - STMS are only required for completely new,or replacement space -conditioning systems that utilize prescriptive compliance method. , TMAH - Access Holes in -Supply and Return Plenums of Air Handler System�Name or Identification/Tag System•i System. Location or Area Served Living area 5/16'inch;(8 mm) access hole Y VA 1 upstream of evaporative coil.in the ® Yes ❑ Yes- . ❑Yes ❑ Yes return plenum and labeled according ❑ No ❑ No ❑ No ❑ No, to Figure in Section.RA3.2.2.2.2.,•R Return side of the duct systerri"is la . entirely, within conditioned ,;` k ❑ Yes A❑ Yes 5 ; ;❑ Yes' ; s ❑ Yes ,located space and return -airflow temperature f,❑ No ; 13:N6 ❑ No ` ;% '<': '❑ No tobe measured at the return 5/16 inch (8 mm) access hole `. 2 downstream -of evaporatwe coil in `tHe ®Yes Yes y` ❑Yes "' ❑ Yes supply plenum. and labeled according,_ ❑ No y ❑ No ❑ No,x,.;, F, ❑,Na to Figure in Section RA3 2;2.2 2.' The TMAH Compliance Option should be'checked only if itls"physically•impossible to drill the TMAH"as required by Section RA3.2.2.2.2. Using this Compliance Option requires the,HVAC installer to annotate on the HERS` Provider's data registry an explanation as to why the TMAH cannot be installed on the system, and photographs of the,equipment on which the TMAH cannot be installed. Use of this Compliance Option also requires minimum airflow verification through' the direct measurement of airflow per RA3.3 . For more information see htti)://www.enerqV.ca.gov/title24/2008standards/sgecial case appliance/ TMAH Compliance Option ❑ 513 ❑ ❑ Yes to 1 -and 2, or Yes to la and 2, or - checking,the TMAH Compliance Option, is ® Pass ❑ Pass ❑,Pass '❑ Pass a pass. ❑ Fail ❑ Fail. ` ❑ Fail ❑ Fail ' Enter. Pass or Fail ` Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. . 2008 Residential Compliance Forms March.2013 H Y VA Yam.: - r Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. . 2008 Residential Compliance Forms March.2013 INSTALLATION CERTIFICATE CF-6R-MECH-25-HERS Refrigerant Charge Verification - Standard Measurement Procedure (Page 2 of 6) Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte 614--0608 STMS - Sensor on the Evauorator Coil System Name or System 1 7 Identification/Tag 3 The sensor is factory installed, or field installed according to manufacturer's specifications, or is installed by methods/specifications approved by the Executive Director. ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No The sensor wire is terminated with a standard mini plug suitable for connection to a digital thermometer. 4 The sensor mini plug is accessible to the installing technician and the HERS rater without changing the airflow through the condenser coil ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No S IThe sensor measures the saturation temperature of the coil within 1.3 degrees F ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No Yes to 3, 4, and 5isa pass. Enter N/A if STMS are not ® N/A ❑ N/A ❑ N/A ❑ N/A applicable. ❑ Pass ❑ Pass ❑ Pass ❑ Pass Otherwise enter Pass or ❑ Fail ❑ Fail ❑ Fail ❑ Fail Fail STMS - Sensor on the Condenser Coil System Name or System i Identification/Tag 6 The sensor is factory installed, or field. installed accoleding to manufacturers specifications, or is installed by methods/specifications'approved.ty the Executive Director a ❑ Yes ❑;No.;' ❑:Yes ❑ No `. ❑;Yes ❑:No ❑ Yes Z.No The sensor wire is terminated with a standard minr;plug suitable for connectionao a digital thermometer. 7 The sensor mini plug is accessible to the''ir stalling technician andAhe HERS rater without changing the.'' airflow through:the condenser coil ❑;Yes 13.446 ❑ Yes ❑ No ❑Yes .❑..No `'❑ Yes 13 No 8 IThe sensor measures the saturation temperature of the -coil within 1;3 degrees F ❑ Yes ❑ No []Yes ❑ No ❑ Yes ❑ No ❑ Yes ❑ No Yes to 6, 7, and 8isa pass. Enter N/A if STMS are not ❑ N/A ❑ N/A ❑ N/A ❑ N/A applicable. ❑ Pass ❑ Pass ❑ Pass ❑ Pass Otherwise enter Pass or ❑ Fail ❑ Fail ❑ Fail ❑ Fail Fail Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms March 2013 INSTALLATION CERTIFICATE - _ CF-6R-MECH-25-HERS Refrigerant Charge Verification - Standard Measurement Procedure (Page 3 of 6) Site Address:Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte B14--0608 Standard Charge Measurement Procedure (for use if outdoor air'dry-bulli temperature is'SS°F or above) Procedures for determining Refrigerant Charge using the Standard Charge• Measurement Procedure are available in Reference Residential Appendix RA3.2. As many as 4 systems in the dwelling can be documented for compliance using this form. Attach an additional form(s) for any additional systems in the dwelling as applicable' The system should be installed and charged in accordance with the manufacturer's specifications before starting this procedure. ^ A,- - ,-• The system must meet minimum airflow requirements as prerequisite for a valid refrigerant charge test. -If outdoor air dry-bulb temperature is less than 55°F, the installer must use the RA3.2.3 Alternate Charge Measurement Procedure (Weigh -In Charging Method). If the Weigh -In Method is used, the dwelling cannot be included in a sample group for HERS verification compliance.) Space Conditioning Systems t " System Name or Identification/Tag System i (must�be recalibrated monthly) , t System Location'or Area Served Living area. * -1/6/2018 r (must.be re -calibrated monthly) p.A Outdoor Unit'Serial # 1401175800 t Outdoor Unit Make Amana ' 3r8tx• Outdoor Unit Model ASZC160601BC Nominal Cool ing,Capacity 5,Tons Suction line temperature (Tsuction) 48 Date of Verification^ ,=1/8/2018 . Y, Condenser (entering) air dry-bulb 56 ' Calibration of Diagnostic Instruments b a r Date of Refr eraht Gauge Calibration "`;` g g `' 1/6%20'18 t , rte„"' (must�be recalibrated monthly) Supply (evaporator leaving) air dry-bulb Date of Thermocouple Calibration` * -1/6/2018 r (must.be re -calibrated monthly) p.A temperature (Tsu I db) -' 41 • Measured Temaeratures (°F) System Name or Identification/Tag System i Supply (evaporator leaving) air dry-bulb C � p.A temperature (Tsu I db) -' 41 t Return (evaporator entering) air � � 3r8tx• dry-bulb temperature (Treturn db) 80 Return (evaporator entering) air wet -bulb temperature (Treturn wb) C � p.A Evaporator saturation temperature r 41 t (Teva orator sat) � � 3r8tx• Condensor saturation temperature. 80 (Tcondensor sat) Suction line temperature (Tsuction) 48 Liquid Line Temperature (Tliquid) 74.1 •• Condenser (entering) air dry-bulb 56 ' temperature (Tcondenser, db) Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms ', ` March 2013 y C � p.A 1R." 3,p � � 3r8tx• J Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms ', ` March 2013 INSTALLATION CERTIFICATE CF=6R-MECH-25-HERS Refrigerant Charge Verification - Standard Measurement Procedure (Page 4 of 6) Site Address: Enforcement Agency: Permit Number: - 309 Railbridge Rd, Oroville CA 95966• _ County of Butte '• 814--0608 ' Minimum Airflow Requirement Temperature Split Method Calculations for determining Minimum Airflow Requirement for Refrigerant Charge Verification. The.temperature split method is,specified in Reference Residential Appendix RA3.2. t System Name or Identification/Tag System" 1 h } 4 ' f Calculate: Actual -Temperature Split = - Treturn db - Tsupply, db L Target Temperature Split from Table RA3.2-3 using Treturn wb and Treturn db Calculate difference: Actual Temperature Split - Target Temperature Split Passes if difference is between -3°F and 4 +3°F or, upon remeasurement, if between ' -3°F. and =10001F _ .'' Enter Pass or Fail Note: Temperature Split Meihod Calculation is not necessary if actual Cooling Coil Airflow•is verified using one of the airflow measurement procedures specified in Reference Residential Appendix RA3.3. If actual cooling coil airflow is measured, the value must be equal to or greater than the Calculated Minimum Airflow Requirement in the table below:-.. Calculated Minimum Airflow Requirement (CFM) =Nominal Cooling Capacity (ton) X 300 (cfm/ton)' System Name or Identification/TagNt it Sy stem 1 Y h":. :.Y'•� .' 5"IL k'cy - srt.::.:t ,la' ..: .F•f e Calculated Minimum Airflow Requirement - (CFM) '•Ji :4" �i'::M26.�i ,. sf+M1: 1750;.10 s :.14' xe 1:�i.. �. i. Measured Airflow using RA3:3 procedures 1750 1750' (CFM) . Measurement Method Flow Hood Passes.if measured airflow is greater than or , equal to the calculated minimum airflow require_ menta pASS Enter Pass or Fail :. J Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time:.2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. r 2008 Residential Compliance Forms v March 2013 5 'r ,r � h } 4 ' f t J Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time:.2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. r 2008 Residential Compliance Forms v March 2013 INSTALLATION CERTIFICATE CF-611-MECH-25-HERS Refrigerant Charge Verification - Standard Measurement Procedure (Page 5 of 6' Site Address: Enforcement Agency: Permit Number: 309 Railbridge Rd, Oroville CA 95966 County of Butte B14--0608 Superheat Charge Method, Calculations for Refrigerant Charge Verification. This procedure is required to be used for fixed orifice metering device systems System Name or Identification/Tag System 1 1 Calculate: Actual Superheat = 6.0 Tsuction - Teva orator sat Target Superheat from Table RA3.2-2 using Treturn wb and Tcondenser, db 7 Calculate difference: 1 Actual Superheat - Target Superheat = System passes if difference is between -5°F and +5°F PASS Enter Pass or Fail Subcooling Charge Method Calculations for Refrigerant Charge Verification. This procedure is required to be used for thermostatic expansion valve (TXV) and electronic expansion valve (EXV) systems. System Name or Identification/Tag System i 1 Calculate: Actual Subcooling = 6.0 Tcondenser, sat - Tli uid Target Subcooling specified by manufacturer 7 Calculate difference: 1 Actual Subcooling - Target Subcooling = System passes if difference'is` between, . P -3°F and +3°F :. PASS Enter Pass or. Fail Metering Device,Calculations for Refrigerant`Charge Verification: This procedure is required to be used for thermostatic expansion valve (TXV) and, electronic expansion valve (EXV) systems. "= System Name or Identification/Tag' System 1;<: 1 Calculate: Actual Superheat = 7.0 Tsuction - Teva orator sat Enter allowable superheat range from manufacturer's specifications (or use range 7 between 4°F and 25°F if manufacturer's specification is not available) System passes if actual superheat is within the allowable superheat range PASS Enter Pass or Fail Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms March 2013 e 1 Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time: 2018/01/09 19:33:23 HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms March 2013 Standard Charge Measurement Summary: ,• System shall pass both refrigerant charge criteria, metering device criteria (if applicable), and minimum• cooling coil airflow criteria based on measurements taken concurrently during system operation. If corrective actions were taken, all applicable verification criteria must be re -measured and/or recalculated. System Name or Identification/Tag System 1 requirement has been met for all applicable system verifications reported on this, certificate. Date Signed: 1/8/2018 DECLARATION STATEMENT System meets all•refrigerant charge and . I certify under penalty of perjury, under the laws of the State of California, the information provided on this form is true Control Program (TPQCP)? ❑ Yes ❑ No and correct. - . airflow requirements. IPASS authorized representative of the person responsible for construction (responsible person). { Enter Pass or Fail installation) conforms to all.applicable codes and regulations, and the installation is consistent with the plans and specifications approved by,the enforcement agency. ' ® Residential Appendix RA3.2.2 requires that if the outdoor.temperature is between 55°F and 65°F the MERIWETHER AIR CONDITIONING � return air dry bulb temperature shall be maintained above 70°F during the Standard Charge Measurement Responsible Person's Signature: Procedure:'The signature of the Responsible Person in the declaration statement below certifies this John Meriwether requirement has been met for all applicable system verifications reported on this, certificate. Date Signed: 1/8/2018 DECLARATION STATEMENT Is this installation monitored by a Third Party Quality. . I certify under penalty of perjury, under the laws of the State of California, the information provided on this form is true Control Program (TPQCP)? ❑ Yes ❑ No and correct. - . . I am eligible under Division 3 of the Business and Professions Code to accept responsibility for construction, or an authorized representative of the person responsible for construction (responsible person). . I certifythat the installed features, materials, components, or manufactured devices identified on this certificate (the installation) conforms to all.applicable codes and regulations, and the installation is consistent with the plans and specifications approved by,the enforcement agency. . I understand that a HERS rater will check the installation to verify compliance, and that that if such checking identifies ' defects, I am required to take corrective action at my expense. I understand that Energy Commission and HERS provider representatives will also perform quality assurance checking of installations, including those approved as part •, of a sample group but not checked':by a HERS rater; and if those installations fail to meet the requirements of.such - quality assurance checking, the required corrective action and�add'ifional cFiecking/testing of other`installaEions`in that; ` - ,' -HERS sample group will be performed at my expense . I reviewed a copy of the Certificate of Com lienee CF, 1R 'forma py p ( ) pprovedbythe enforcement agency that.Identifies the • specific requirements for the installation I:.cerEi ji that the'requirements detailed on the GF -1R that apply to the x ' installation have:been met. I will ensure that a completed, signed Copy of this Installation Certificateshall be posted, or. made :a ailable' ; sr ;• . with the"tiu�ldeng permit(s) issued for the building, and made available to the enforcement agency for all - applicable inspections. I understand that,a signed, copy of,this Installation Certificate is required to be I included with the; documentation the'builder provides to;the building owner at..occupancy. I -will ensure tliat >,4. all Installation Certificates will come from a HERS provider data.,[egistry for multiple orienEation'alternetives, beginning October 1,'2010, for all low-rise residential buildings.. - Company Name: (Installing, Subcontractor or General Contractor or Builder/Owner) MERIWETHER AIR CONDITIONING � Responsible Person's.Name: ° Responsible Person's Signature: John Meriwether John Meriwether CSLB,License: 308723 Date Signed: 1/8/2018 position With Company (Title): . - Is this installation monitored by a Third Party Quality. Name of TPQCP (if applicable): Control Program (TPQCP)? ❑ Yes ❑ No Reg: 218-A0009111A-M2500001A-0000 Registration Date/Time:,2018/01/09 19:33:23 'HERS Provider: CalCERTS, Inc. 2008 Residential Compliance Forms March 2013.