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Notice Of Acceptance
MIAMI-DADE MIAMI-DADE COUNTY o PRODUCT CONTROL SECTION DEPARTMENT OF REGULATORY AND ECONOMIC RESOURCES (RER) 11805 SW 26 Street Room 208 BOARD AND CODE ADMINISTRATION DIVISION T (786) 315-2590 F (786) 315-2599 NOTICE OF ACCEPTANCE (NOA) wrm.miamidade.eov/economv PGT Industries, Inc. 1070 Technology Drive North Venice, FL 34275 SCOPE: This NOA is being issued under the applicable rules and regulations governing the use of construction materials. The documentation submitted has been reviewed and accepted by Miami -Dade County RER - Product Control Section to be used in Miami Dade County and other areas where allowed by the Authority Having Jurisdiction (AHJ). This NOA shall not be valid after the expiration date stated below. The Miami —Dade County Product Control Section (In Miami —Dade County) and/or the AHJ (in areas other than Miami —Dade County) reserve the right to have this product or material tested for quality assurance purposes. If this product or material fails to perform in the accepted manner, the manufacturer will incur the expense of such testing and the AHJ may immediately revoke, modify, or suspend the use of such product or material within their jurisdiction. RER reserves the right to revoke this acceptance, if it is determined by Miami --Dade County Product Control Section that this product or material fails to meef the requirements of the applicable building code. This product is approved as described herein, and has been designed to comply with the Florida Building Code, including the High Velocity Hurricane Zone. - DESCRIPTION. Series' uminum Horizontal Rolling Window—L.M.I. APPROVAL DOCUMENT: Drawing No. 4127-10, titled "Alum. Horizontal Roller Window, Impact", sheets I through 11 of 11, dated 02/28/06, with revision H dated 03/24/17, prepared by manufacturer, signed and sealed by Anthony Lynn Miller, P.E., bearing the Miami -Dade County Product Control Revision stamp with the Notice of Acceptance number and expiration date by the Miami -Dade County Product Control Section. ARSSILE IMPACT RATING: Large and Small Missile Impact Resistant. LABELING: Each unit shall bear a permanent label with the manufacturers name or logo, city, state, modellseries, and following statement: "Miami -Dade County Product Control Approved", unless otherwise noted herein. RENEWAL of this NOA shall be considered after a renewal application has been filed and there has been no change in the applicable building code negatively affecting the performance of this product. TERMINATION of this NOA will occur after the expiration date or if there has been a revision or change in the materials, use, and/or manufacture of the product or process. Misuse of this NOA as an endorsement of any product, for sales, advertising or any other purposes shall automatically terminate this NOA. Failure to comply with any section of this NOA shall be cause for termination and removal of NOA. ADVERTISEMENT: The NOA number preceded by the words Miami -Dade County, Florida, and followed by the expiration date may be displayed in advertising literature. If any portion of the NOA is displayed, then it shall be done in its entirety. INSPECTION: A copy of this entire NOA shall be provided to the user by the manufacturer or its distributors and shall be available for inspection at the job site at the request of the Building Official. This NOA reuses NOA# 16-0714.13 and consists of this page 1 and evidence pages E-1, E-2 and E-3, as well as approval document mentioned above. The submitted documentation was reviewed by Jorge M. Plasencia, P.E. NOA No.17-0411.06 Expiration Date: December 21, 2021 Approval Date: August 31, 2017 Page 1 PGT Industries. Inc. NOTICE OF ACCEPTANCE: EVIDENCE SUBMITTED A. DRAWINGS 1. Manufacturer's die drawings and sections. (Submitted under NOA's No. 07-0815.09 and 06-0405.06) 2. Drawing No. 4127-10, titled "Alum. Horizontal Roller Window, Impact", sheets 1 through 11 of 11, dated 02/28/06, with revision H dated 03/24/17, prepared by manufacturer, signed and sealed by Anthony Lynn Miller, P.E. B. TESTS 1. Test reports on: 1) Uniform Static Air Pressure Test, Loading per FBC, TAS 202-94 2) Large Missile Impact Test per FBC, TAS 201-94 3) Cyclic Wind Pressure Loading per FBC, TAS 203-94 along with marked -up drawings and installation diagram of a PVC sliding glass door, a PVC fixed window and an aluminum sliding glass door, using: Kodispace 4SG TPS spacer system, Duraseal® spacer system, Super Spacer' NXTTm spacer system and XL Edger" spacer system at insulated glass, prepared by Fenestration Testing Laboratory, Inc., Test Reports No. FTL-8717, FTL-8968 and FTL-8970, dated 11/16/15, 06/07/16 and 06/02/16 respectively, all signed and sealed by Idalmis Ortega, P.E. (Submitted under previous NOA No. 16-0714.13) _ 2. Test reports on: 1) Large Missile Impact Test per FBC, TAS 201-94 2) Cyclic Wind Pressure Loading per FBC, TAS 203-94 along with marked -up drawings and installation diagram of an XOX aluminum horizontal sliding window, prepared by Fenestration Testing Laboratory, Inc., Test Report No. FTL-5330, dated 07/18/07, signed and sealed by Carlos S. Rionda, P.E. (Submitted under NOA No. 07-0815.09) 3. Test reports on: 1) Air Infiltration Test, per FBC, TAS 202-94 2) Uniform Static Air Pressure Test, Loading per FBC TAS 202-94 3) Water Resistance Test, per FBC, TAS 202-94 ..4) Large Missile Impact Test per FBC, TAS 201-94 5) Cyclic Wind Pressure Loading per FBC, TAS 203-94 6) Forced Entry Test, per FBC 2411.3.2.1, TAS 202-94 along with marked -up drawings and installation diagram of an XOX aluminum horizontal sliding window, prepared by Fenestration Testing Laboratory, Inc., Test Report No. FTL-4858, dated 03/08/06, signed and sealed by Edmundo Largaespada, P.E. (Submitted under NOA No. 06- 0405.06) orge M. Plasencia, P.E. Pro6 ct Control Unit Supervisor NOA No. 17-0411.06 Expiration Date: December 21, 2021 Approval Date: August 31, 2017 E-1 PGT Industries, Inc. NOTICE OF ACCEPTANCE: EVIDENCE SUBMITTED B. TESTS (CONTMED) 4. Test reports on: 1) Air Infiltration Test, per FBC, TAS 202-94 2) Uniform Static Air Pressure Test, Loading per FBC TAS 202-94 3) Water Resistance Test, per FBC, TAS 202-94 4) Large Missile Impact Test per FBC, TAS 201-94 5) Cyclic Wind Pressure Loading per FBC, TAS 203-94 6) Forced Entry Test, per FBC 2411.3.2.1, TAS 202-94 along with marked -up drawings and installation diagram of an XOX aluminum horizontal sliding window, prepared by Fenestration Testing Laboratory, Inc., Test Report No. FTL-4859, dated 03/08/06, signed and sealed by Edmundo Largaespada, P.E. (Submitted under NOA No. 06-0405.06) C. CALCULATIONS 1. Anchor verification calculations and structural analysis, complying with FBC-5th Edition (2014) and FBC-61h Edition (2017), dated 03/31/17 and revised on 07/28/17, prepared by manufacturer, signed and sealed by Anthony Lynn Miller, P.E. 2. Glazing complies with ASTM E1300-09 D. QUALITY ASSURANCE 1. Miami -Dade Department of Regulatory and Economic Resources (RER). E. MATERIAL CERTIFICATIONS 1. No. 16-1117.01 issued to Kuraray America, Inc. for their "Trosifol® Ultraclear, Clear, and Color PVB Glass Interlayers" dated 01/19/17, expiring on 07/08/19. F. STATEMENTS 1. Statement letter of conformance, complying with FBC-51 Edition (2014) and FBC 61 Edition (2017), dated 07/28/17, issued by manufacturer, signed and sealed by A. Lynn Miller, P.E. 2. Statement letter of no financial interest, dated 03/31/17, issued by manufacturer, signed and sealed by A. Lynn Miller, P.E. 3. Proposal No. 16-1372B issued by the Product Control Section, dated 11109116, signed by Manuel Perez, P.E. 4. Proposal No. 16-0125 issued by the Product Control Section, dated 03109116, signed by Ishaq Chanda, P.E. (Submitted under previous NOA No. I6-0714.13) rge M. Plasencia, P.E. Prod&t Control Unit Supervisor NOA No. 17-0411.06 Expiration Date: December 21, 2021 Approval Date: August 31, 2017 E-2 PGT Industries, Inc. NOTICE OF ACCEPTANCE: EVIDENCE SUBMITTED F. STATEMENTS (coNTINUED) 5. Laboratory compliance letter for Test Report No. FTL-5330, issued by Fenestration Testing Laboratory, Inc., dated 07/18/07, signed and sealed by Carlos S. Rionda, P.E. (Submitted under NOA No. 07-0815.09) 6. Laboratory compliance letter for Test Reports No. FTL-4858 and FTL-4859, issued by Fenestration Testing Laboratory, Inc., dated 01/08/06, signed and sealed by Edmundo Largaespada, P.E. (Submitted under NOA No. 06-0405.06) G. OTHERS 1. Notice of Acceptance No.16-0714.13, issued to PGT Industries for their Series "HR-710"' Aluminum Horizontal Rolling Window— L.M.I., approved on 09/01/16 and expiring on 12/21/21. orge M. Plasencia, P.E. P7tfuct Control Unit Supervisor NOA No.17-0411.06 Expiration Date: December 21, 2021 Approval Date: August 31, 2017 E-3 DETAILS A 6i16=1:AMCCORSTSi'I-NG Of�:(2}EIIES'DEtl18".' NA N✓ FALEp GLASSy1�Y{ '' O''[(j/�,_PM&INi'ERL_P,YER.� S. 6118' LAMI CONSISTING OF(I)LITE OF 1/8-ANNEALED CLASS-- D III LRE OF I/8 HENANT NGTHENED GLASS WITHA.090' PVB INTERLAYER. C. 5116' LAMI CONSISTING OF (2) LITES OF IIW HEAT STRENGTHENED GLASS WITH A.090' PVB INTERLAYER D. 7/16" LAMI CONSISTING OF (2) LTTES OF 3/18" ANNEALED GLASS WITH A.090' PV13 INTERLAYER E. 7/16' LAMI CONSISTING OF (1) LITE OF 3116' ANNEALED GLASS AND (1) LITE OF 3116' HEAT STRENGTHENED GLASS WITH A.090' PVB INTERLAYER. F. 711V LAM] CONSISTING OF (2) LITES OF 3/16" HEAT STRENGTHENED GLASS WITH A.094° PVB INTERLAYER G. 13/16- LAMI IG: (1) LITE OF 118' OR 3HG' ANNEALED (MIN.) GLASS, 5/16" OR 318° AIR SPACE AND 5/16- LAM[ CONSISTING OF (2) LMES OF 1/8' ANNEALED GLASS WITH A.090' PVS INTERLAYER H. 13/18' LAMI IG: (1) LITE OF 11W OR 3/16' ANNEALED (MIN.) GLASS, 5116.OR 3/e" AIR SPACE AND 5116' LAM] CONSISTING OF (1) LITE OF 1/8'ANNEALED GLASS AND (1) LITE OF 1/8' HEAT STRENGTHENED GLASS WITH A.09C" PVB INTERLAYER. 1, 13/16- LAM] IG: (1) LITE OF 1/8' OR 3/16" ANNEALED (MIN.) GLASS, 5115" OR 318" AIR SPACE AND 5(16" LAMI CONSISTING OF (2) LITES OF 1/e" HEAT STRENGTHENED GLASS WITH A.090' PV13 INTERLAYER. J. 13/16• LAMI IS: (1) LITE OF 118' OR 3/16" ANNEALED (MIN.) GLASS, 3116' OR 1/4' AIR SPACE AND 7116" LAMI CONSISTING OF (2) LTTES OF 3/16-ANNEALED GLASS WITH A.090' PVB INTERLAYER K. 13116-LAM[ IG: (1) LITE OF 1/6' OR 3118' ANNEALED (MIN.) GLASS, 3/16' OR 1/4" AIR SPACE AND 716-LAM[ CONSISTING OF (1) LITE OF W16" ANNEALED GLASS AND (1) LITE OF 3116' HEAT STRENGTHENED GLASS WITH A.090" PVB INTERIAYER L 1NIV LAMI IG: (1) LITE OF 11W OR3116' ANNEALED (MIN.) GLASS, 3116' OR 1/4' AIR SPACE AND 7/16° LAMI CONSISTING OF (2) UTES OF 3116" HEAT STRENGTHENED GLASS WITH A.0RW PVB INTERLAYER IMPACTMMNO I DESIONPREWURERATINO L MIISNAUNWILE IMPACTRESISTANT I VARRESPEROPR014% SEESHEEra 3. DESIGN PRESSURES: (SEE TABLES, SHEETS) A NEGATIVE DESIGN LOADS BASED ON TESTED PRESSURE AND GLASS TABLES ASTM E 1300. B. POSITIVE DESIGN LOADS BASED ON WATER TEST PRESSURE AND GLASS TABLES ASTM E 1300. C. DESIGN LOADS ARE BASED ON ALLOWABLE STRESS DESIGN, ASD. 4. ANCHORAGE: THE 331l3% STRESS INCREASE HAS NOT BEEN USED IN THE DESIGN OF THIS PRODUCT. SEE SHEETS 9 THROUGH 11 FOR ANCHORAGE DETAILS. 5. SHUTTERS ARE NOT REQUIRED, 6. FRAME AND PANEL CORNERS SEALED WITH NARROW JOINT SEALANT OR GASKET. 7. REFERENCES: TEST REPORTS FTL-4858, FTL4869 AND FTL5330. ELCO ULTRACON NOAS ANSUAF&PA NOS FOR WOOD CONSTRUCTION ALUMINUM DESIGN MANUAL 8. THIS PRODUCT HAS BEEN DESIGNED & TESTED TO COMPLY WITH THE REQUIREMENTS OF THE FLORIDA BUILDING CODE, INCLUDING THE HIGH VELOCITY HURRICANE ZONE (HVHZ). S. FOR INSTALLATION IN THE HVHZ ABOVE 30 FT, GLASS TYPES 0 -L SHALL HAVE A TEMPERED I.G. GLASS CAP. BOTH THE DP AND ANCHOR QUANTITY REMAIN UNCHANGED. Anchor Group Anchor Type Frame member Substrate Min. Edge Olsance Min. O.C. Distance Min' Ernbedmenlor Meal Thicknew A 2,^SIeeLSMS'(GC6J,7 nun:of3 t)veeEzbeyonP Armela6iucslrat9)-n� All Southem Fine (60 - 0.55) Gila• 718" t S• 60a&T51AJJg*tarru-� 3/9" B/18' i/8° A36Steelar Gr.33Steel Stud W5, Witt" 0.045(1SGa) B 1/4' Ebo UBmcora Jamb Hollow Black 67M C90) 143/4" 6" 1-1/4' All Concrete nun. ZSS kel 1' 4" 13/4" All Southern Pine (SG =V.55) 1' 1 1J8- 1/4' 410 SS Elco CmteFle3 0 All Southern Pine (SG a 0.55) 1• 1" 1-va' C 1/4' 410 SS Moo CmteFlek Q Jsmb Hollow Black, (AS7M C90 2-112. Atl Concrete (min_RMS ksl TART F 2- Male0al Mln.F, Min. Fa steel screw Weft 120 WI Elco uNcOm0 155w 17T kol 41085ERoC efl%0 IUA WI 189.7 kal 0003T6AIuminwn 18k61 22W SUMMAlernnum 25"1 wmi A3819Iee1 36k11 Mkal Gr. w Steel Stud M01 ots1 1) WHERE SUBSTRATE CONDITIONS REQUIRE ANCHORAGE FROM MORE THAN ONE OF THE ANCHOR GROUPS ABOVE, CHOOSE THE ANCHOR GROUP OF THE LOWEST LETTER FOR ALL SUBSEQUENT TABLES IN THIS APPROVAL. 2) FLATHEAD ANCHORS MUST BE#12 TRIMRT HEAD. COMMISTANDARDSUSED r2017R.ORIDA BUILDING GODE(PEC). STH EDITION •2014FLORIDA BUILDING OODE(FBC). GTH EDITION -ASTM EIwDO0 eANSVAFMaAN 2015 FOR WOOD CONSTRUCTION eALUMNUM DESIGN MANUAL, ADM-2015 rAIS19100.12 .AISC 350-10 NOA DRAWING MAP SHEET GENERAL NOTES.............1 GLAZING DETAILS .... _ ...... 2 ELEVATIONS......_ ............. 3 VERT. SECTIONS ............. 4 HORIZ SECTIONS............ 4 CORNER DETAIL............. 4 PARTS LIST ....................... 5 EXTRUSIONS .................... a INSTALLATION .................. 7 DESIGN PRESSURES ....... 6 ANCHOR QUANTITY ........ 0-11 PRODUCT REVISED as eomplWnR wnh the Ftorma 6u11alno GGOOGG ' GA -No. 17-0411.06 Expiration Date 12/21/2021 C MVl7:NEWIAY0W.SHEET REOROWZADON. UPDATED ANCHOR QUANTT' PER MC 201 T. CHANGED ANCHOR TYPES 12' MOM. GLASS SITE 7/16' LAMINATED GLASS <�]E)CIERIOR INTERIOR* (ALL SECTIONS) 12' MOM. GLASS BITE 13/18- LAM] IG GLASS WI 6116' LAMI 13/16' LAMI IS GLASS W/ 7118' LAMI GLASS TYPES: A SIB' LAMI -(1/8' A.090- PVB, 118-A) B. 5116'LAMI -(1/B' A.090' PVB, 1/8- HS) C. 6116-LAMI -(1/8- HS,.09W PVB, 1/8' HS) D. 7/16- LAMI - (3116- A.090- PVB, 3/16- A) E. 71W LAMI-(3116' A.090' PVB, 3110' HS) F. 7/10- LAMI-(3110' HS,.090' PVO, 3H0' HS) G. 1311a' LAM] IG -1/8" OR 3/16'A (MIN.) 5116- OR 3/8' SPACE, 5/16' LAM[-(1/B-A..090" PVB, 1/8' A) H. 13H8' LAMI IG -1/W OR 3/16' A (MIN.), S16- OR 3/8' SPACE, She' LAMI -(1)8" A.090" PVB. 1/8' HS) I. 13/16" LAMI 10. 118' OR 3116-A (MIN.), 5116' OR 3/8-SPACE, 6/16- LAM] -(1/8- HS..090' PVB, 1/8' HS) U. 1311W LAMI IG -116" OR 3/16' A(MIN.). 3116.OR 1/4' SPACE, 7/10- LAM[-(3/1G'A,.090'.PVB, WIG -A) Y- 13/16- LAM[ 10 -1/8' OR 3/10-A (MIN.), 3/16' OR 1/4' SPACE, WIG' LAM[ -(3/16-A.090", 3116-HS) L. 13/16-LAMI IG - Va' OR 3/16-A (MIN.), 3/16- OR 1/4-SPACE, 7/16- LAMI -(3/16-HS,.090", XW HS) FOR INSTALLATION IN THE HVHZ ABOVE 30 FT, GLASS TYPES G- L SHALL HAVE A TEMPERED I.G. GLASS CAP. BOTH THE DP AND ANCHOR QUANTITY REMAIN UNCHANGED. 'PVB'= KURARAVTROSIFOL°PVB INTERLAYER STRUCTURAL STRUCNRAL SILICONE 3/1tl-NOM SOBUTYLEN5 Whom. FOAM WITH H DESICCANT DESICCANT rT. GlA55 FM.GLA99 W. GLASS INT.GIASS KODISPACE SUPER 4SG TPS SPACER(DN)cr ' BV NE N16'NOM. SEAL DESICCANT ROLLfORMEO d FOFM STANUESS WEEL1 1w. GLASS EXT.GLASS FJT. GLASS DURASEAL0 XLEDGE" SPACER SPACER Part# DeWFip6Bn Material 5 S5 Ron-4sG TPB Spacer system 88 Own" Super Spacer nXr%vlh Hot Melt Butyl fb Seet Sheet for 97 OuaneX Duraseal spacer IMaterials 88 Celdfnal N. Edge Spacer PRODUCT REVISED aec."1 n with the Flanea emlelnv x0atla. 17.0411.0e e w-tf.n Bat. 12/212021 BY. t-B. m ue ..... 273W b45/i6" MAX DLO FO(ED I / O x r X 110" MAX. WIDTH I.F. FRAME �II 111- MAX. WIDTH FLANGE FRAME 6i h DL Fi L DETAIL B - XOX (114-1/2-1/4) JDLO FIXED Cam- �— �DLOWIW 63" M — — — FLAN A RN FALI I 3AP [AX. 5D' DLO CONF ALL 3 ALL VENTS XED / 62'MAX. TES I.F. FRAME O )( ALL I C ONFIG. II 73" MAX WIDTH I.F. FRAME —+I 7d• MAX. WIDTH FLANGE FRAME 27 3/8' 27 3/8' MAX. DLO VENT MAX. DLO FD(ED I X I O I X r 857ND' MAX. WIDTH I.F. FRAME—y�l 4.—AA ]l1fi• MA%. WIDTH FLANGE FRAMs�'1 DETAIL C - XOX (1/3-1/3-1/3) NOTE: 1. SEE SHEET4 FOR VERTICALAND HORIZONTAL SECTION DETAILS. IX. SEALANTORGASKET 3E =,-�o SILL IE 10. FRAME 13 FLANGE FRAME VIEW D-D (FRAME CORNER CONSTRUCTION) D D D PRODUCT REVISED pl Innn Ilh the Fl.dd. No, -No. '17-0471.06 GGG v2a17:No mNa66 THIS SHEET. FRAME INTERIOR ��— MAX FIXED DLO A—E) MAX. WIDTH (FLANGE FRAME) 19 SECTION B-B (HORIZONTAL SECTION -XOX SHOWN WITH FLANGE FRAME) EXTERIOR SECTION A -A (HORIZONTAL SECTION - OX SHOWN WITH INTEGRAL FIN FRAME) MAX. VENT DLO PRODUCT REVISED pto wl[M1 Me FloAda as Gel xo�xo. 17.0411.06 Ewpvatlen Paec 12121/2021 =4 ?:WC6ANGE5 S p p SHEEf. C[ m = g � n O�$ o;� �� m uw P Z i o a Z 2 F O LL N LL O n v i to S n S W 2 N 4it m9 DMoB k l"f SECTION C-C LJ u SILL HEAD11 „ 0NAL (VERTICAL SECTION, FLANGE FRAME) (VERTICAL SECTION, I.F. FRAME) (VERTICAL SECTION, I.F. FRAME) 'ktyAA'k&lwm PE wms IAULC4; H'R3 IMP DISCRD'IION MATL PGM I 4102 FRAMBIWAD 6063-T6AL 612237 2 4025P STD. ANHLSFf 0A63-T5 AL 617Jr14 3 PH. PANHNAD 76MAA 4 4053TOP COVFRSASHSTO PFLANGEFRAMESILL 6663-TSAL 6 7 4136FRAMESILL 4137APTOR 6067-TEAL 64136 6067-TEAL 64137 8 4131TRACK10 71298OLHCOVER FOLYEROF. 71298 12 1626 ADW0KN�I.F0AM PAD 7PAD1626 13 40M A FLANOEFRAMBJAMH 60W16AL 612225 Id 4134 GASKHI'FORMAINFRAMBSHLJOINT 74134W/R IS 1155 48 X 1.000 UAD PN. SMS 781POA 16 4110 G SCREENADAPNR 6063.15 AT, 6411O0 17 4054 ➢ FUMMMOGRAIL 606311D-TM 64054A 19 4oM WSTP.187X230 FIN SEAL 69O66G 21 4105 SASH TOP&BOTTOM RAIL 6063-ISAL 612240 22 1683 WSTP OX.270 HA0C FIN SEAL 616830 23 225-1ERINGRHOUSINO&GUIDH 42112HD 24 226 ROI]LRWHM BRASS 7HRWBL229 4128NPALR0LLIRSA51[i0P GUH)H POLYPROP. 4M1UEN32 400fi EHHNGRAR, fA63H5-T6AL 64W6 33 1235.170 X27ORA FIN SEAL 67816G 35 1096LAT'M DIE-CAST 71096 36 I0165PH.FLSMS 7858 37 4126IDERAIL 6063-TSAL 64126 38 169250 X270DA ' FINSEIL 61683G 39 70APATHER57RIP.IS7X.275 67070K qp LITRAILODVP.RCAP 74078"C'LORR 41 4139 IF.FRANMI MAD 6063•T6AL 64139 42 4140 IF.FRAMDSHL 606YT6AL 64140 43 4141 IF.FRAM87AMB 6063-16AL 64141 50 GLAZMGSMICONF DOW 791,999995 ORCFTW 51 1224 VINYLGLAZQ4GBHADHUIB GU247W R 1225 VINYI.CLAZINGHHADBOLBmm 67MK 53 4039 B GIAZINGDEID-511G 6063-TSAL 64039H 34 4044 B GLAZINGBEAD-S/IG\V/(H4H]'KIT 6D63-ISAL 614703 35 4222 -T GLAZINGDEID-7116' 6063-TS AL 64272 56 985 C GIAZINGDFAD-7/16"W/GRIILKIT 6D53-T5 AL 6985 59 4067 G7AZINGDHAD-13/16' I 6063-0AL M(W 60 OfASS U1C LAMA/B'A.090P I/8"A 61 5116' LAMI Ve" A .090PVB 11W I 62 S/16"1AM1 I/8°FLS .090PVD 1/S" 63 7/ICLAMI I6"A .090PVB 3/I6'A 64 1 17/16"LAMI(3/16"A..090PVB.3/16'HS) 65 1 17/16"IAUr 1I6'HS.090 PVB 31101 MM DWGB REV DESLRIPDON I ANTL I PGD7 66 GIASS l3/ICIAMIIGIB"A MIN. 31B"AHGSPA�LICIAMI IIFA..090PW.1/8"A 67 1 1131161 LIMIIGI/8'A IN. X9'AIRSPA 5/1C L\MI UFA.-ON PVD UB"HS 68 13/ICL1MI1Gl/e'A IN..3/8°AIR SPA 5/16'IAMI 1/8°HS .09VY 1/8"ES 69 13/I6'L1M 11CA IN.S/1C ADiSPACG WI6'LAMI lle"A .090PVB, 1/B"A 70 1 113/IVLAMliG3tlV'Atmm.),5iivambrACE,5116LAAUCLIB"A,.Mm.1/8"HS 7 3/1C fAMI1 AIR SPACF, 5/16'LAMI 1W .090N,DVB"US 3GAMG 1673 /4"AISPAC7/l6-LIM /IGA,.0PVH3/I6"A72 1MI IGI/8'A 114"AIR3PA 7/I6"LAW WA.090PVB• 3/l6"AS 74 13/1G LLMIIGI/8"A IN.. VC AIRSPA 7/I6- IAMI /16-IB,- 0PW 3/I0I19 75 13/16'IAM IG3/11TA IN. 3116'AIR SPA 7/16-IAMI /16'A.MPVB YWA 76 13/19IAMI IG3/ICA IN..3/1C AQt BPA 7/1C L"U0/IGA,.090PVB 311G 77 131I6"L1MIIG3/1CA IN.,3/ICADGSPA 7/I6* LAMI IGH5,.090PVB.3/1C 90 1O14 SCRONFRAMH OR&VEIL 310.5-IQ4AL 91 1630 SUUMC0RNERREYW/RINOS POLYPROP. 92 1631 SGH MRNFRKEYW/OUI'RINGS POLYPROP. 93 1073 BCIIPENSPRING ST.ST. 94 1624 SOIFENSPIME-.DSD/A.FOAM HM PVL 95 1635 SCREENSPLINII-.135DIA. RAF0 17.f PVC 96 ISCREEN I CLOTH 2.784 002 I� 1.98B 43 I.F. FRAME JAMB 94141, 0003d0 �x.71 D 2.624 .082 q� I.F. FRAME HEAD 94139, 6063-TO qp I.F. FRAME SILL M4140, 6063-TO PRODUCT REVISED BupdingleauwlDl l6e R"dda NDN-No. 17-0411.06 3DN17:DHPNDED6 NG p p SLICDNE. CL W m oa = ao 50� m (O6 0 0 CJyp W P c� F w Dua l � 0 rc o N N_ K N m n o = 7 'D a m aaw * ^ Nu.68105 PE .062 1. 73 2710—�{ 1.�22 i .710— -4 O FLANGE FRAME HEAD O FLANGE FRAME SILL 94102A, 6063-T6 N4136,6063T6 062 L �Ih—.662 L .490 I- -1.45'F-�{ I 1.46 O SASH STOP O HORIZ. ROLLER TRACK 94025, 6068-T6 94131, 6003-TB 062 �I�3 -1.348�1 ��llll 21 SASH TOP &BOTTOM RAIL N4105, 6053 T5 —���876 .050 1.096--1 T 54 GLAZING BEAD, 5116" NMI). 6063-T6 (USED Wl GRILL KIT) 2. 79 .OB 7 1.081 F�-- 32 SASH MTG. RAIL (14006D, 0003HS-TO +SFr 050 l .078 1.096-i"---�Il��� t 55 GLAZING BEAD 7116" 94222A 6053-T6 O FRAME SILL ADAPTER 94137, 0063TO 1. 67 d�II .062 �1.403+1 17 FIXED MEETING RAIL R40543,6063HO-T6 2 26 Q1 1. 49 I�-1.29r�1 37 SASH SIDE RAIL N4126. 6063-TG .060 1.115 1-f 56 GLAZING BEAD, 7116" N985C,000 (USED W/ORO.L LKI KIT) O SASH STOP COVER N4053,606345 -� f+-2184—+{ 1.363 1I 1 3 A82 13 FLANGE FRAME JAMB N4002A, 0003-TO 050 8-�.878 1.090-{�—�I 7 53 GLAZING BEAD, 5116" N4039B, 0083-T5 01 A50 — i 1.097 59 GLAZING BEAD, 13116" N4067,6063.T5 PRODUCT REVISED Blanp171n9 with the FIe114" vlig coact NOAJt9. 17-U411.08 e+plmtion hate 12/2112021 m = o o � y ti o qdp U' N O� O J 8Ld P a 'N 0 �B sZ 0' Z no a `n o Z N SEE ANCHOR TABLE, SHEET 1 2x WOOD BUCK, SEEANCHOR fF—^r TABLE, SHEET 1 SEEANCHOR TABLE, SHEET 1 NOTE 1 1 3/&' NOTES: 1, WOOD BUCKS DEPICTED IN THE SECTIONS ON THIS PAGE AS 1x ARE BUCKS SEEANCHOR MIN. WHOSE TOTAL THICKNESS IS LESS THAN I IW- ix WOOD BUCKS ARE OPTIONAL IF �• TABLE.SHEETI UNITCAN BE INSTALLED DIRECTLY TO SOLID CONCRETE OR CMU. WOOD BUCKS 1xWOOD v•_ DEPICTED AS 2x ARE 112"THICK OR GREATER. INSTALLATION TO THE SUBSTRATE BUM `_� F _ _ _ OF WOOD BUCKS TO BE ENGINEERED BY OTHERS OR AS APPROVED BY AUTHORITY NOTE 7 — 114'2. HAVING JURISDICTION, 1MAXMAX FOR ATTACHMENT TO METAL' THE METAL STRUCTURAL MEMBER SHALL BE OF MAK SIZE TO PROVIDE FULL SUPPORTTO THE WINDOW FRAME SIMILAR TO THATSHOWN SHIM SHIM IN THESE DETAILS FOR 2x WOOD BUCKS. SEEANCHOR SEEANCHOR TABLE, SHEET DETAILA TABLE, SHEETI DETAILS 3.MATERIALS, INCLUDING BUT NOT LIMITED TO STEEL SCREWS, THAT COME INTO CONTACT WITH OTHER DISSIMILAR MATERIALS SHALL MEET THE REOUI REMENTS OF TYPICAL FLANGE FRAME HEAD SECTIONS FLORIDA BUILDING CODE. 4. 0.131° DIA. MIN. X 210 NAIL AT CORNERS AND 5" O.C. TYPICAL DETAILS G, H & L 1A SHIM ._}I 1318" 1/4"MAXSHIM—"-I Fes— MIN. I SEEANCHOR TABLE, SHEEi1 INTERIOR I ° (JAMB DETAILS RF&I) EXTERIOR 2-12"MIN. EMBEDMENT O - SEEANCHOR SEEANCHOR TABLE, SHEET t EXTERIOR INTERIOR TABLE, SHEET 1 SEEANCHOR . SEE ANCHOR °' HEAb & SILL DETAILS A B, C, D�& H) TABLE, SHEET 1 TABLE, SHEET 1 t BEE NOTE 4 2x WOOD BUCK, NOTE 1 1.WOOD BUCK, NOTE 1 - 5/8°MIN. EDGE DETAIL E DETAIL F —� TYPICAL FLANGE FRAME JAMB SECTIONS 5/&^ MIN. EDGE DETAIL (HEAD) SEEANCHOR SEEANCHOR TABLE, SHEET i TABLE, SHEET I O 1/4" 1/4" A MAX. MAX• SHIE SHIM S/e"MIN. EDGE • SEE ANCHOR '�' 13,07 MIN SEE NOTE — TABLE, SHEET i 2-1/2"MIN. SEE .. .d SEE NOTE4 ANCHOR�j1 I •. . ', .; EMBED TABLE, I Y' I SEEANCHOR 2XWOOD SEE ANCHOR TABLE, SHEET i SHEET? AILTABLE,SHEETI BUCK, DETAIL DETAIL C NOTE 1 2-1/PMIN. EMBED DETAIL I (JAMB) DETAIL G (SILL) aPRODUCT REVISED w cemplying I[N Me Florida BupJiag COOe NOA-No. 17-0411.06 Explmtlen onto 12/21/2021 3N4117: REVISED NOTES TO ANCHOPAGE, AOOEO N E4. re x 0 yy 0 3 ky0 O< o i£ W N zre. u k or OZpQ o LL Or N J J w Z � to OI 9 '0 aAe 0 n Z 2 6 aax my wn .1 TABLE 7: GLASS TYPES: ..6116'F�MI-01WA7.O90-PVB,-t!e'�Ajs B.6/18'LAMI-(1/8-I4S,U 0-PVB /118-H C.7/lVLAMI-(V8'HS,.090'PVB,1/B'H3) D.7/18'LAMI-(3/18'A.O90"PVB, 3/18'A) 'E-7/16"LAMI-(3/18'A,.OBO'PVB, 3116•HS) F. 7116- LAM] -(3/18'HS,.090"PVB, 311V"S) G.13/16-LAMI IG-7I8'OR 3/16•A(MIN.), W16°OR318" SPACE, 5/16-LAMI-(1/8-A,.09D°PVB,118"A) H.13/16'LAMIIG-1/8'OR 311fi'A(MINJ, S/t6'OR 3l8° SPACE,Sl16'LAMI•(1/8'A,.O9O"PVB, 118°HS) 1. 131167AM11O-1/B-OR 3/10°A IN. 5/16°OR 3/8" )' SPACEAMII -116' R3116-,A (MINVB,16.OR J.13/16°LAMI IG-1/8'OR 3/16"A (MIN.), 3l78"OR 1/4' SPACE,7/18'LAMI-(&16'A,.O90'PVB, 3/ifi'A) K.13H6•LAMI IS-1/8. OR 3116-A(MIN.). 3116°OR1/4- SPACE, ?/18"LAMI-(3M8•A,090"PVB, 3/16-HS) L ffi/16'LAMI IG-1f8. OR 3/18°A(MIN.), 3/16.OR 1/4' SPACE,7l16°LAMI-(3H6'HS,.OBO'PVB, 3/18'HS) NOTES WINDOWNTABLE FOR WINDOW ?ES NOT SHOWN, OO TO NEXT LARGER 4)OVERALL FLANGE DIMENSIONS SHOWN. FOR FIN WINDOWS, SUBTRACT I• FROM TABLE SIZE DIMENSIONS. GLASS 3)FOR INSTALLATIONIN VE A TE PERED I.E.E G30 LASS TYPES G-LSFIALL HAVE ATEMPERED GLASS CAPI BOTH THE DP AND ANCHOR QUANTITY REMAIN UNCHANGED. 4)SEE GLASS TYPE DESCRIPTIONS ON SHEET 2 Ign Pm..um,Op(p6Q ,113.1/3.113 Maximum Dvelgn Pmnfium, XOX,IM-112-114 OP(pcq a ..Typo RB,C,D,KI D,E,F,J,T.L Dews poor. DwnO rm"m Oto.Ttpo A6, a of 0,E,F,J.K .Cam 4n w5.ala .a Sax fiP 3p. wo.0 as .evv 4e,0 +7E 45.o .saol4aa .T5,0/45.0 +60.o 14MO +W.01-0OA +7aU1-]6.0 +W0140.0 TT5D145.0 i4• a4' D6' .W.m4ao wo.olfiOA +TEO a9.p w0.D/ono .Wo1w.0 Rfi0r-TS.p wao Ono 1076A146.0 +W.o -0aa 41=1fin0 .7OI2 .0 +9¢Dl4¢0 Ns.0145.0 108J/B' 10fi' PRODUCT REVISED pte +"11h Me Florida emimm+0 ✓"e� xaa-xe. 17-0411.06 aaElmuea 0em1Y/21/ZD21 BY �' wD.al4ao wo.v/4¢o +Ts0/45D wam4na +ra0/45.0 ;Tu +60.01E0.0 .76.01-79.0 wn0/40,0 +TSAlaao sao <nv Naol as.o nr �'� DT +aavr4te0 +00.0Ifi0.0 .fiat -0na +60.olm.o w0.0f�O1.0 wnplsA.o +75.01-70.v +7E0/•75.0 .f60jna +6aa140.0 +]5.0149.0 ev 74' +W,o14a0 +Ts.orasA +aao/-0ot wp.0/.eo.0 N5m-T5D +60.0140.0 .75.0146A eT ea' t0w.'a 1pe' .eat -0¢o +Enpl i0.0 .ia0 d6D mlxm or,o ec Comm w0.014v.0 Na014d0 +60,0140.0 wnal40.o .laol-TSA wavl4v.t wea145.0 .sammo 7s0D/4oD Na0146D ' 3R4/9:Ov0ATEDTPBLE +Wo/-0o.a +T5.OIA50 +fiat/�.0 +e0A1A30 N501-]5.0 .env 4¢o +WDI4oA +rs.0/46.D .76.01-7a.o ttr .e0.a/bl0 wa0/A0.0 .TSDTAs.O 6:6.AT .mnl.eoo wa01.W.0 .7511-Tao .MO140.0 .7691-76.0 +final{OA +rSAI-T6A sm TT 84' OS +W.01-0n0 w0.01-00.0 .11[10140.0 46mplfia0 . QTR.0 +60.01-0n0 .7a0/-Ta0 +TE01-T5D +71101.75.0 J 3 ,q Ire g Z LL 4v 20j� 0 '� Z or 0 m0 U � 0 F 2 O K O = •u W Z 111 W 0 m Z O '° 2 aw wn0 -00,0 N5.01-ia0 .GMOJfi.0 +79.01-75.0 e83'0' +6a0 fi60 O .o +TEOI a6.0 0.0 .6/40.0 +i5.0/a5.0 1003'e' +W -0ao +WAI-fi0. 'wtii Na01-T5.0 � Q tOB' ttt' wQ0 M.0 .60.0/d9A w0.01 so.0 +50.0/40D +7fim-R.0 q80 -TSD wn0/-0O.o +T9.a/dfia 4fi .W.OI40.9 .6W/{AO w0.01-W.0 .BOA/i0.0 +la0l-7a0 Na01 iS0 +WD140.0 N5.0/-75D .W.O/40.0 .75.01-T5.0 14' 80. .WOr-00.0 +60.0r4¢0 wn01-WO w0.0fin0 +]Em•i5.0 NE01 -T8.0 +90014O.a N5.0 -76.0 w0.0/40,0 775.01-75.0 86' wOA14a0 +MU.D +Ia0/-75.0 w0.0140.0 Na01-TSA tOw 1I tit• QODI 0.0 +0001400 +00.0l�W.a .WO140A +BA01i 0 +W.a/fiat +7o0145.0 NEOI-ra0 N9.OI46.0 .W.Orfi0.0 +19.01-75.0 wn0 r40.0 NED/-75.0 °- O 11R^n +Da0140.0 T75A175O fi}tm` +fi0.m 40.0 +W.01-0 w¢01-00,0 +75A11. fi0' TT +Baa14v.0 9 ♦-enrol 40 -75.01-75. NSAtd +60.01-00.0 +7a01-TSA +fiat/-0n0 was140.0 o Na01-750 .fip.D1-00.0 +75.014¢0 M' W tW3'0' E08/e' .WO E00 .fi60140.D .WO/� 0 +Wax/40.0 w..01m w0.01 �.0 wOAI-00.0 w "EO -n.0145.0 +T5.01 -T9.0 4SDI-75.0 +TSA I-75.0 gip.( W q df GF d u o +ea0140.0 +]5.fi/-I5.0 w0.u/.W.0 +T"/-75.t +WO/40.0 NEm-TEO 1W +WO 4 o Nn0l4An tit- .e0.0/>mA w0.mfi0.D .1ouimf6.0 +W.0140.0 Na0146.0 59,A8 +WO/40.0 wa0l- u .601-75.0 .B0.01440 +fi0.C140.0 +M01-75.0 «m0140.0 +76.m-T6.0 6R rA o = +W.0 40.0 .WO/40.0 .WD -09A +W.0/40.0 NSA 46.0 +T6.0I-]sA +WOIW.0 +TS.Ur-]a0 ) • .WO/40A 5.0 µ• .m01-WA :750 Na01•]5.0 OC +WO fi00 TWA I4D.0 +fi0.01iO0 .W01-00.0 +iEOI-T8.0 .7a01-76.0 .Wm40.0 +110145.0 100a'Y .60.0140.0 Na01-75.0 t08' wOD 1410 +WD14A6 wn01fi0.0 w0.0Ifi0.0 +TEm-75.0 +TE0146.0 .WO140.0 +TE9/-T5.0 t1P +WO/{0.0 .76.01-7s.0 5&1m• 60, +WW0 WOlfi.a +Ta01-76.0 °++ONY LYNN/1j1f11 �� 1N CEx ��` i U 4-"' C*: Na a9T05 - *� -A '•, 1 JI-.•�: ATE v 41 �.(C�j� '�1`!s1!ONAL Ep.°� aLVI(ABi)iE1R p): p.EF emm Mal.. NE6/-7E0 w.Of4.0 01-75.0 +W0/.soo w• wn0IS0 +7aoi4sY .so.0/fioa +)a0l-Te.0 w0.0/-0O.a Nfi0Li5.0 BF lc03'0' lOB• ttt' w9al b.fi waD/AJ.0 +TA01-]5.0 w0.01 -0OD Na0675.t •E521652 .WDI4D.0 Na01-05.0 w0.m4Oa +r501-05.0 .SO.e141.0 +WB 6a6 w0.0/�.0 +60.afWA. Na01-)a0 .7a01 a6.0 +enOl-00.0 Nam-iao w0.pES NbA. 53tB' W. -01lNa015.0 +env/4oD .75.0145.0 LE SEE SHEET 10. av 7T a• •W.a(4aa mof40.a +W0fb.0 +ra01.]a0 +fia0140.0 +W2l 802 wno/4o.0 +WO/40A +Ta.014ap +]6.0/48.0 OB' 1003I8 IW .52J16>D +uQu1.e0 NE0145.0 +sU1s1a wn0140A +Tb.ol4e.0 Mt' +50.OIi0.D wa0lWD +TED axe. FOR ANCHORAGE SEE SHEET 11. Anchor0uantltlao, XO orOX sNlh Glass Types A. B,C,O, H B I Poll 3N4h 01xN HOW MMGm A Andvxp:o:p0 MNw CmwD WM&S21 J3nh fletl 61p3 Jwrb Ifm36612 Jtlra 3T 21' -I.QN 2 1+441 2 1.R+, 2 4T 514T HQN 2 HQ41 z 1•Q•1 2 1+QN 2 I'Q+1 2 1taRN 2 SP HQN 2 1-0a1 x 1 HQN 3 it To I.Q.1 2 HQ+1 2 1 1+Q.1 z NQ.2 2 1.Q+1 2 I 1+Q•1 2 NQ2 2 I.Q.1 2 11+RN z 3r _ 4P ]a' NQ2 I+Q+1 2 HQ+1 2 1.Q•1 2 1•Q.1 2 143+1 2 1•QH !MW HQ.1 2 1+ 0 2 AQN 2 filr 0a' 1+RN x 1.Q+1 2 1•Q•1 2 HQ+1 2 1HR.1 2 14QN 2 IT Tf NQ2 2 1•R41 2 NQN 2 2 1., 2 HQ•1 2 3r 33So ]+RN 2 taQ+t 2 1+Q•1 2 43' 51VT HQ+1 3 1.QN. 2 1•(:2+1 2 HQN 2 HQN 2 1-CN1 2 olr lur 1•QN z H¢.1 z wQN z ,•¢.t z HQ+1 z iT IT NQ2 2 HQq 3 •CNi 1 NQ2 2 I.02.1 2 HQN 2 W HQ•1 3 1.Q•1 3 1•Q•1 3 4T S3W 'HQN 3 1•QH 3 1+12.1 3 1+Q.1 3 NQN 3 ,+QH 3 or W '•QN 3 1+Q.1 3 1+QN 3 1.M+l 3 HQ.1 3 '+ +f 3 TT Tf NQ.2 3 1+Q.1 3 1+QN 3 NQ.2 3 1.M.1 a 1+Q•1 3 3r SOJIa• HQN 3 1+RN 3 HR+1 3 4tr 53ir or- t+R•1 3 I+M.I 3 I+QN 3 HQ.1 3 1.QN 3 1+Q.1 3 HQN 3 1+Q.I 3 'HQ.1 3 6P TT T4• HGHI 3 HQN 3 itR+l 3 2 m z 3 HQN 3 i.241 3 NM-2 3 1.QN 3 1.CNl 3 3r SP I+Q+1 3 1+Q.1 3 HQN 3 4B 51Va 5M2N J HQN 3 I.Q+I J' HONt J HQN a 3 GD HR.I 3 1+0, 3 HHQN QN 3 SS TT 1f HQN 3 1 1H2N 3 Hb.N 3 2+CH2 3 1 1+QN 3 1 1+QN 3 NR+2 J I.Q+I 3 1 1'Q•1 3 Jr W hrN1 3 HQN 3. 1.Q.t 3 46' 53V0' 1+R41 ] i+Q41 3 1 HQN 3 1.3 i 3 1 HQ.1 3 1 1+ .I 3 BP OD' HCI+1 3 1 1•R•1 3 1 1.Q+1 3 1.0.1 3 1 1-R.1 3 1 HQN 3 R T4' 2+02 J HRH 3 1+CA1 3 302 3 HQ+1 3 HQ.1 3 3r 0' H12.1 3 HQN 3 1•R.1 3 4T 63VT HRN 3 1.Q.t J VQ•I 3 irRN 3 1+Q.1 3 HRH 3 OD' HRN. 3 AQN 3 HQN 3 Bfi' iT 1+R•1 3 HQN 3 Hr1.1 3 NR.2 ] UQN 3 t•Q.1 3 R• NR+2 3 HQ.1 3 HCN1 3 TABLE S' Anchor QuanVDes, XO orOX W¢A Glass TYpes D,E, F, J, K X L Perel W,Aa Qewo HogN McrorC Mcmr(KWa I MM1x6mgc tkJ3a60 Jnnb And a ST Jamb Halaa 60 Amb Jr w 1WY+1 z H041 2 HQIt 2 48' s190' 1.R+i 2 1 1+0.1 3 HRN 2 HCHt z 1 1.mo 2 1. +1 T 6p' HRN 2 1+Ra1 2 +..I 2 or rS 74' 1+tw+t 1 NC1N 2 NRn 2 2.C1.2 z 1 1.n•1 2 ncal 2 NR42 a 1 1.Rat 2 110211 2 3r 3a' HQ.I z 1 Hv+l 2 I.cz.l z 4Y ]}tla' t+ONI 2 1 1.Q+f 2 HQ+1 S hG+t 2 I+M+f T 1.0N 2 64' URN 2 - HRN 2 1.RN 2 39' 2T i4• 1+R+1 2 1.R+1 2 I+R.I 2 2,Q.2 2 11Q.1 2 HR.1 2 2aQ+2 2 1+C1.1 2 I+R+1 1 ar 168 1.m+1 2 I.M.1 2 I+RN 2 4w 321R` 1.R+1 2 HRN 2 I.u.1 2 HRN 3 HQN 2 14R+1 2 JT ¢T 1.R+, 2 0=0 2 HOSN 2 1+ +1 2 HR.I. 2 HRN 2 IT' Tl• S.R+2 2 17RN 2 110.1 2 2+CN2 2 1+CJ+1 2 HRN 2 3r 46' uR+l J 1+0N1 3 I.M.t 3 43' a}t0` 1+QN J 1C0 3 1.RH 3 3 I.M. 3 1aR•1 ] 30' t 3 1.C2.1 3 NQ+1 ] D'. 12' T4'T J 1.t3.1 3 1..1 J 2 J HCNt 3 HC2N 3 J 1.QH ] HQt a 1 J I+R.1 1 1.R+1 3 l a I+R+1 3 1.Q+1 3 I 3 I+M l 3 HRN 3 121�21 ] 1+RN1 9 PR.11 3 ltR+l 3 HQ+1 J 2 ] 1.R.t a Hm+lI a HR•1 3 14 +1 3 9 1.RN 3'HRN 3 9 1tR+1 3 I.RN 3 9 1+..l 3 VRq 3 l4• s !+M+t 3 HR.1 3 ] taC1+1 3 HR+ 3 1tl+1 1 3 1 1+Q+1 9 1-Q+1 a 3r I•RN 2 HRN 3 HRN a 4P a11N' 1+b•t a 1a4 +1 3 14RN 3 HQN 3 I.RH 3 1+C2N J tatlai 3 1.RN ] 3 fiB• aRN 3 taT.1 a HCAI 1.1 a T2• N©42 a 3 1.LNl 3 2.012 a J.0.1 i•R.l J 1+C2+t 3 3r 3r 6S I.R.1 3 1.m.1 3 14C3.1 a bor HRH a 4¢+1 3 I•c2.1 J HR+1 3 14¢N 3 I+RN 3 66• w HRN ] 1.R•1 3 C .1 3 3 14=41 3 1 3 Tx' ]4• 2.R.2 NQ2 ] HQN 3 1a 241 i+Q41 3 2tO 2 a 14RN 3 1.QN a TABLE KEY: O X 1+C2+1 3 -ANCHOR QUANTITY PER JAMB HEAD AND SILLANCHOR QUANTITIES A CLUSTER OF (2) ANCHORS CENTERED ON THE MEETING RAIL PLUS (1) ANCHOR AT OPERABLE PRODUCT REVISED VENT AND FIXED SECTION. (4) as comp) l I-Ith the F1o1133 enn ANCHORS TOTAL AT HEAD qN0 SILL, xing 0A-N. 17-0411.06 (4• MIN. O.C. ANCHOR SPACING) expimlion DoteDate1 LrT 3/4' MAX -H F-4°MIN., 10-1/2' MAX 1 3-I S• MTAX. X O I _ _ MTG. RAIL EXAMPLE CLUSTER W/ QTY. OF (2) ANCHORS (SHOWN IN TABLE KEY ABOVE) NOTES 1) WINDOW DP /ANCHOR QUANTITIES ARE BASED ON THE FOLLOWING DIMENSIONS: HEAD & SILL: 101/2' MAX. ON EACH SIDE OF MEETING RAIL CENTERLINE. 16 3/4' MAX FROM CORNERS. JAMBS: 0' MAX FROM CORNERS AND 221/2• MAX O.C. 2) FOR WINDOW SIZES NOT SHOWN, GO TO NEXT LARGER WINDOW INTABLE. 3) OVERALL FLANGE DIMENSIONS SHOWN. FOR FIN WINDOWS, SUBTRACT V FROM TABLE SIZE DIMENSIONS. 4) FOR INSTALLATION IN THE HVHZ A13OVE 30 FT, GLASS TYPES G - L SHALL 14AVEA TEMPERED I.O. GLASS CAP. BOTH THE DP AND ANCHOR QUANTITY REMAIN UNCHANGED. 6) SEE GLASS TYPE DESCRIPTIONS ON SHEET 2. GGG 3 n4111:UPDA7EDTASIEa ELEVATION. TASUE 1b Anahar Wenulive, %O%, 1D -10 •7D wM OYae TYlfae 0. e, C, o, x a I pwap NtAvl Dena Mepd MCMr0.nWA MM1V Pleup6 AMtnr GfeupC roods C. JmpD Ib.d 6aN Yirt x+Na9R Ame 1Y 5Yw Sa' NaN.C2+1 2 1•CN1•a+1 T 1•¢+HCJ.1 2 1.aN.CN1 2 J. NI.M.jj 2 I•nH•np T am U¢N.gN 2 bgaH¢.1 2 HCZ.I+C2H 2 6P )C N¢Nfna ] I+a+ba11 2 N¢N+¢N T N¢Hrtlsl 1 V¢H•aq 2 ttn•i+a•1 2 a,' e6]nP 1+gN+=o 1 1•aNInH '2 Pn.t+W.t 2 4gN,aH 2 btlN.nN 1 1.n.1.CN1 2 eY fi1UY aa' I.aal+co 2 to • • 11 2 1M ON 1 2 i.¢+1+c1+1 a PCNN¢N 2 I+nN.aN n aP OP NCNNCNI 2 Va.1tCZA 2 1.¢.I+CNI 2 4aM+tlN 2 1+CN1.nH a 1.0.11 2 74• &• Wylie- N¢H•aa T I+CNLaN 2 1•n•nN N 2 P¢H.CNI ] T;Wl ¢.t 2 1+tl.NCN1 2 N¢H+CNI ] HCNLCNI 2 1tatl,aN 2 .te' 3&YY 1+a+I+CN1 1 I.P1+i.OY+t 1 1•g11.a.1 2 5Y11P t+aN+CNt 1 1+CN1+aN 1 T.a.Na•I 2 BP HgalttlN 2 4CNN¢N 2 1.a.1•CNI 2 T I+a T iP Hq+NCW 1M-Ial T 3 711 a]]aa92 1.a.NN1 2 2 2 ]YJ .aa¢1 a a 3 Ha+t•CN1 a t+N1.a ] 1.aN+N1 9 3 RaQ1 ] ] ] 1.N1CN J ]P J Y¢H+a,l ] M eGbIwepKeTaeOT6TsdfPlP/;•'••IT 3 I.p*xNi ]a aoIaPa• +, 12 1tl+14N1 3 am PmwcNt M.a+l ncCanCCClNNxNn1•...11t1t11f »11N1aYh1..t•a eaTnB• tlWq.a 3 I+n•+l Na 1+a+1+a.I a Y aYIff +M.I+Nl I+MtI+el 3 N +.-I 1 ] w ,1Nu,H111NI4+.•.•+na¢natlnna¢C]eM.n.Hnt.HN1Hn11l•.+fl++tfanccnCCacnCNN1HN+NH..N11tI1l1 aaa@na¢4q+.N+.N.+•11an1N.•a++ 11 3 In+I+al N. 3 N 0711 NC.+, 3 n P¢NaN 3 I4 C2+1 N 3 IB• 3YVP eP 1•n.1.nM ] t+CNI.nN 3 1+af1+C2.1 a 1•¢.1lC2at 3 1+q.1+CN1 3 ,+C Ii l 3 OP eP iW1Hra.1 a Nn+t+C1+1 3 Pclrt+a.1 9 t.a.na.1 ] 1.q+wa., a »na.cza 3 TI• 1fnM•tlN ] YCNNgN 3 I.MWERI a M Bgll1Y ,+aa.¢.1 3 HaHatla 3 1+¢NwYN J 1+aHaaN ] 1+a+1+q.1 ] Lat1.CNi 3 IY eY2Y 3Y I.C20.M, 3 NCNH¢N 3 3 wtl.an.1 a nan+tl.I a ml •t J aP �' f+CNt+ntl 3 1+a+Ita+I 3 I.-I. t+atl•aH 3 I.ntltnN 3 l+aH•aN a 1ta+l ] TP iWRtl+nrl J Matt.att 3 cNl 1+atNCN1 ] eY 18alIP ,.aa+n.l a l.aaan•1 3 I+q+acl+t 3 NCNNpN a 4tlN.a+1 3 1.a.ItCN1 ] TARI F 11' A wHh OI]aaatluve,%0%,F,J,K& 1D wOh Ghee Typee 0, E, F, J, K 8 L Pena YMIA Cwn1 FW.M Ma" OwpA NmIm CNWa M Gm c W.Asri An H.deC. And I aon Jmna w 5119• 2V I.M i.00 2 N¢N•aN 1 1•a,NC1N 2 PnN.a+t 2 Naa +tlN 1 H¢H+¢H 1 6P Ia. I.n+i+ +i 2 P¢+N¢ll 2 1+CNI•a.l 2 Nn.1+00 2 1.CbHn.t 2 1.rnt+gH 2 TI' M• 6YTIIC bq.l+tlN 2 N¢Wa+1 2 I.C2+1.n+1 ] N¢N•nN 2 H¢N•n., 1 1+v2.I. A 2 btlN+aH 1 1•aa+a,l 2 H¢+1.aN 1 15• e1tA• �• D¢HaaH 2 Na+l.a.l T Nq+t.a+t 2 Hnq+q+l 9 P¢HICNI 2 I.Cbl1 .l 2 - i- W 1+tl.1+n+l 2 wa.Laal 2 1+0+1 g-1 0a' Tw I wo+CN1 2 1.a+1+CN1 2 N¢Hatl+1 2 1t¢d•¢N 2 1+gH+CN1 2 1+02+1+¢0 T ea' e1T/,P NntN¢H 2 I.a+l+a11 2 f+n+1+q+1 2 Ha+,. II I.=+11 N1 2 11a+Ngtl 2 le• tSIR• 33alY 14tl41.n41 a xn+l+tl+l 2 I.a.1+ 20 2 b¢+1.a0 2 .041•CN1 2 I.C2NWSN ] w or t+a7l ll 1 N=.11 N1 2 Y¢.I•ptl 2 +CN1+¢H T 1+aNtaa, 2 1+q I+aN T Tr M' MT/tw wa.140.1 1 Iacz.nv+l a 1+C 00 2 1+nN.a+l 2 1•¢00¢H 2 ,+=+Itatl 2 1+0.N¢N 2 11GNP¢N 2 T. +qt1 1 .P sa.19• w vq+nn.1 a ,+CE,nCE.I J Lp.,.q., a ugH400 a 14¢0+qH J nq.NCNI ] eP P=-Ti go tl' N� VtlN1C2q J 1+¢Hf¢H a 1.q•Nq+1 J btln.eea a Na.Na.I ] t.a.a¢n 3 &' %1]9l•IP P¢M+aN 3 + +1 3 l+aH•tl+1 3 I N t] 4M+IM.1 ] I.n+. ] t61A` eaNe• .moWMl ] 1+a+1.gN t¢+I¢i a 1.¢MWRIt J t.¢+1+¢.1 a 14ONt+C1+1 ] .a a I+t• a W 11' e&T/1P t t.M+I+Ml ,.gNaH 3 NM+IN1 9 1.CN1tCN1 a H¢N.aM ] 1+a+HCN1 a .M+l+m+i a 1+=H.M+l 1 ] Nn„+ntt 3 aY 13-,9• 4q.Na+1 61• HC2M+tlN a 1+CNI+gN 3 IIn.Ila•l a NgMKYN ] 1+qN+p•1 ] LCN1.q.1 ] W ] /+CnH¢+1 ] 7C2H+¢0 ] aY 1.a a H¢H.¢H a 1•CNN¢H ] t..+I l a a 1+q,Nq+1 a 0ra1• a17110 Ln1.1.1 a 1t.+=.I ¢¢N.I ] f+a+NC2N a t.p I1 .j I I+M.I+n+t 3 1.C241+aN 3 IY IMM. aw 1+¢.1.a+1 ] t+M+1+¢n 3 1+CNtta+l 3 f.gH+M.l ] I.gtl•¢.1 3. ,f¢NIq+1 J eP a,- N¢+I.M+l 3 as+L¢a ] a=-i+ +l 2 HC2H1¢H 3 HgNagM ] NCSH.gH a fl' &' @RIP HpM+tlN ] 1+Rt1+¢H ] H¢+Y¢+I 3 xa11,pN a 1+gN.gq ] NCN1•tl•1 ] Np+1.p.1 J 1tCNNgt1 a 1+aN+MH ] le• a1t2 am 1+g H¢.ua.I 2 1ua.na.1 J »gauga ] N¢H.Ca.I ] 4C1.N¢N ] 1. +t+tl+1 3 eP Co. aa+,aa a uanwxa a ,.glvga a .p., a oq+»qN a t+C1a.¢•t a H• ae NC]N+C]N ] YtlH+CN1 1 HpN+CN1 a tptApH a ,+nH•aH .¢N+¢H ] MT11P xpll+ptl ] N¢H+cZtl J 1+¢+N¢q 9 TABLE KEY: X o X 1+C3+1+C3+i 3 -ANCHOR QUANTITY PER JAMB HEAD AND SILL ANCIIOR QUANTITIES A CLUSTER OF (3) ANCHORS CENTERED ON EACH MEETING RAIL PLUS (1) ANCHORAT EACH OPERABLE VENT PLUS (1) ANCHORS AT FIXED SECTION. (0) ANCHORS TOTAL AT HEAD AND SILL. (a- MIN. O.C. ANCHOR SPACING) 5 W4' MAX MIN., 1G•1/T MAX W MN(. X G X_ MTG. RAIL, TYP. EXAMPLE CLUSTER W1 QTY. OF (3) ANCHORS (SHOWN IN TABLE KEY ABOVE) NOTES `I) WINDOW OP )ANCHOR QUANTITIES ARE BASED ON THE FOLLOWING DIMENSIONS: HEAD a SILL: 101Z MAX ON EACH SIDE OF MEETING RAIL CENTERLINE. 25 3/4' MAX FROM CORNERS. JAMBS: W MAX FROM CORNERS AND 221Q' MAX. O.C. 2) FOR WINDOW SIZES NOT SHOWN, 00 TO NEXT LARGER WINDOW IN TABLE. 3) OVERALL FLANGE DIMENSIONS SHOWN. FOR FIN WINDOWS, SUBTRACT 1-FROM TABLE SIZE DIMENSIONS. 4) FOR INSTALLATION IN THE HVHZ ABOVE 30 FT, GLASS TYPES G- L SHALL HAVE A TEMPERED I.G. GLASS CAP. BOTH THE DP AND ANCHOR QUANTITY REMAIN UNCHANGED. 5) SEE GLASS TYPE DESCRIPTIONS ON SHEET 2. PRODUCT REVISED eulial.olyo p wIfh IM1e Plorldo MC .. Eu 17-0411.06 Gphouoa uvjo�1=112031=112021 G 3R417:UPCAT TA Ea hTEYATICN. (ABLE 12: Andlor0umlatky XOX, 114.10.114 wM cbaa Typaa A, B,C,O,H S I a..a 1Ygli Dnal =ght, AndwOiopA Ndm qpl-�I+=" or o c Iiotl4 Bal Y. "d. Gal ArA3N .bnC C ,rn •R.t z w .n . 2 .aafrcN1+CS+t .t 2 .naI.... R+1 rs a+11+LYNQ+1 ] NR•1.4+1 oa-' ] +Q•I 2 iswt• ID,.21 Ilt •R+ a 1.¢.wnl¢nz z .R•1 taCNz.R.I 2 N+I.l 2 Q•1 2 WtIS W 1•Qet+Qaz 2 1* 4PN+4at 2 a '.Q., NCSM+Rn x .1 .an 2 4•.n•1R N• 14.Ya• vw_ nr w¢+N¢ 1 2 1+4+t+Q«I 2 4+1 2 1.4+1+n+1 2 «QII 2 1•R+NQ+ S 1+4«3•n«I a 1+4+1+RN 2 I+RiNQl 2 1+c 2z it 2 bR•wQN 2 wn•2.a+1 2 1+_W +I S 1+R«wmt 2 ba1R lP 2r pS L33- I+GI•RN 2 1+GIaRN 2 1.QN.Q.1 2 1+C 14 z t+R IQ 2 111+4.1 2 144•14441 2 14R+w4+1 2 1iR•w4+1 2 len.NCNt z wRN•aN 2 HR•wRN z R- t0ad'e• tUT tre t•R.xM[N t+4.2+W+1 a z w4+1 M1N w4H+nN 2 2 w¢•44.1 1•LNt+mf x 2 7•572•R.I 2 l+n•NQ.1 2 1•RN•4N 2 P4+z.na1 2 wn4+l 2 l +1•R.1 2 a}lle' m 74• +F 1+R.I+Q+1 3 lrQ i• +1 wn71+WN 3. nnl.RN ] wWm4a a 1 L t+n+l a 1.n.uRN aq' 2a' tO3a'a• 1-w tll' 11W.Ntl+1 3 t+n,IrR«1 a 1•WI+QI 9 1.4•0 ] t+Q•x+nal a I+Q+1.ao 3 w4NM3N 3 w ..1 -3 w4+1•¢ 1 3 1.4•Nn+l ] 11Q•2•nH 3 11 nN•nl 3 IaR.].n+t ] taRy.QN 3 1+ 14 l 3 ai18 M ]P %- IaR+t+n+t ] 1«Rl+Q+t a I+R•1•Rl a 1.4•wn+l 3 1+Q+1+n«I ] l+nN1n•1 a IaRa1.n1 3 1+R1a $ 3 1•CNYR41 3 1+4•S.al 3 MCN1+Rl a wQ I• +' ] 100.M1a' lOT 111• 1+CHIMIN 3 1 421G1 3 wQr1+R ] t+GS.3•n.l a wQn+n.t a 1+n+w=l 3 w44Ntl•1 8 1+Q.2•0Il 1 w44Nn'I.1 E aiila' 4' i4' N• Q fCe3'6' t+Chf+nN a wRl+nl a I+cH1+¢+1 3 t+Q•t+Q.l 3 w1.Y•tKMi 3 1+Q+t+411 ] 1•Q+lan+l 3 t+CSla 3 I.RI ] 1+4+2+R+1 3 1+n+1+R,i l a +=I 1+13.wRa a 1+R+NCN1 ] t.a.2•Q.1 3 1. . 3 t1n.3+CNt a wz1n R.. 3 +R0+nl 11% 3 l0a' tlr 1rCE+NCN1 3 1+4+z.+1 ] 1•Q+11Q•1 ] 1.4.N4N a 1.4.21 1 3 f+R•N4a1 ] 6f/T w ]P W' 2Y tW]'a' tw rw-,I @ 1•Rl+n•1 3 1+QN1n1 a TZ5714N1 ] I+41•tl+1 a 1.4+1+Q.1 ] 1+¢N+¢.1 ] l+Ala41 a 1•Rl•Ra1 1+Q+Nn1 3 11R+iMS•1 ] MF2: mo ] t•FNNQ+1 3 1.6.2WZ1 3 f+ R+l+nl ] MQ434cH1 3 1.4•2.RI ] t+R+w41 ] t+o+3+Cwt a 3 MQ+wnl a w 1 a 1•R.I+n+1 34WL W` 1Ma9• 3 1.¢+MQl ] 1+C1+I+R+1 3 3 14Qr1K2.1 3 1+n414R+t3r 3a +I.Q+I 3 a 1.4+4R•1 3 is t+tl.wQa 3 R�j 3 1•Q+2+R 3 1.CNt4n+1 ] a l 1.4.2H21 ] 14tl+wQ.11HQ+1 ] a 1.l 3 1m•z.n+l 3 A wMGffae.Typ0 X,E,F,J,K -1N wNS Olaaa TYP1 O, K& L pwgp 33fJN M,N MyM1I AneM1a6vpP o riir AmMmeip3 1 NrlgC lueea3n mm3 Ima&ea a,me xsa 4ar4 ®4&50 1 ar . , .1 .a. +a,l 2 •R, . • z t+a+wml z t+mw4n 2 .Rl•al z ia• M- t+a.a,CN 2 t•aa4CNl 2 4a•1aa,t ] NCNz+4. z t•Rat+arl z La.na.t I GB' 11c]'S Kltl•a.l z t.nl.an z 1.a.nR. 2 +ma4¢+1 : 1+W.z+a41 2 w4•1.Q+1 z Iry n• 1,ua z wa•2WWa1 z l+R+l+Q+l a f+w.Q•NQla+1 z 1+a+2.Q+1 2 Mal.aa z a}va• m .c2+t+R,l S was .R.+ x •cz.t.ml z L4retll 3 .R,1•¢+1 a U• B+" f+Q.1+R, z ,a+ z 1•a•2+a+1 2 +. 1 -.I NRq•RN 2 4.+ +¢,PQ+ 2 9w IOBSII' 1m` 11t' T+a•21Q11 +a.z.a+1 ++RN 2 I+Q+a,RN 2 1.Qr3.a11 a w.VC2. 2 1+R+3+a.1 2 I1.+1+1 2 2 taR+3•cNl 2 11 1•R•I+4N 2 I..21Q.1 1.R+2•R+1 2 6}1N' TV H¢+HCNt 2 ItWN+RN 2 irQ,wtl11 ] 2 wa+b¢N 2 NRN.a11 x M' ;+ wW+VC l 3 ua+2.R+t 2 t@N,WN 2 I 1,Rat+INN Ma.waN 2 z or or 10-- I7 tll' Ra1B• MQu+c .M.wR.I 1+n12+R+1 2 f.ca4l.al 2 wW13+ 1 2 l 2 2 wR.NWN 2 bW9a.1 2 11W+2+WN wW.3.¢ry ] HRMQN I LW+3+WH 2 1•W+2fW.l 2 1+R,3+Q+1 2 aUvr 1•R.IG l 3 uW+Mal 3 I+W+PR+1 a aY A' 1K3.1M1.1 3 115N.WN 3 1R41.W1 ] 1R1+, l 3all wa.MWl 3 wR.MRN a pr Po'- laJW 11P III- 1•CC,2+W.1 a wWN.Wa 3 uCNMRq > 1.¢+arW1 3 al 3 I+Q+w +t 3 w12.mWa a liczv 1•¢12.W1 3 l-a+ +l 3 a=,t 3 uM+2-=l 3 a+t 3 J+Mt 1+Q•3+W1 3 140H•MN 3 1+=+X f+ +J+ 3 N1/a- or A' N' MC2.1fR1 9 MQg1Wl 3 fl 1•QN+aN a 1•W1wa1 3 1aRN+WN a LaN1n.t 3 1,Q+I+RN 3 wW+wRl 3 Pa+wa+t 3 1+a,UW1 a I.Rq,W+I 3 I•R+HR.1 a BY 10_m IW nr MR@ 1•W,.,, 3 wa•2•W.1 a 1+W.t+INN 3 3 I+R421RN 3 1KH3+Rl 3 1+=3+Wl NID.3+Wl 3 wR421R11 3 wRl+a.f 3 wlau,wt a I.W.11M.l 3 MW+t.+I a W1R' WMWwWI wal•WII 3 I+Ra1•QN 3 3 3 I.Wq.RN 3 l.t...1 PR+Mal a Ir YT nciez.W11 3 1+Ci.wW.119�1�+i a+ll2+1IXNM3.1 3 wW3 3 1•R•34RNM.2 W11I,cH3+RN *! 3 I+W+2.W1a+2+a+1 a a t+aa•WlW1i.al a 41+ +13 1+W+IaRIG1saN 3 a wal+a•141•a+lit 1•d3.CM1 3 1+a,wWN W+IM[ 3 I.Wfj a 1+411aW.1R+wpN t 3 IegNCNt 3 wa.NW.I+2+Rl 3 3 1M+Z lCw].Mr 3 3 3 3 0=12.R11af2+ttl 4ar]•aa1,PW+l 2 m"r. 3 3 ita+MWN 3 3 3 i+n144+1 3 a 2 ] 3 OlXW Nl 3 3 011 a K1+M+2W+1' 1•a.wW.l 3 3 wWNQl 3 3 3 1* + l 3 1 a 3 I.W.NWtI a TABLE KEY: X O x 1+C2+2+C211 3 -ANCHOR QUANTITY PER JAMB HEAD AND SILLANCHOR QUANTITIES A CLUSTER OF (2) ANCHORS CENTERED ON EACH MEETING RAIL PLUS (1) ANCHORAT EACH OPERABLE VENT PLUS (2) ANCHORS AT FIKFD SECTION. (8)ANCHORS TOTAL AT HEAD AND SILL. (4+MIN. D.C. ANCHOR SPACING) 25 314° MAX. --{ 1--4-MIN��, 10-112¶¶°MAXX 8° MAX X O II % I MTG. RAIL, TYR EXAMPLE CLUSTER W1 QTY. OF (2) ANCHORS (SHOWN IN TABLE KEY ABOVE) NOTES 1) WINDOW DP )ANCHOR QUANTITIES ARE BASED ON THE FOLLOWING DIMENSIONS: HEAD & SILL• 101lZ' MAX. ON EACH SIDE OF MEETING RAIL CENTERLINE, 25314' MAX FROM CORNERS. JAMBS: W MAXFROM CORNERS AND 22112- MAX D.C. 2) FOR WINDOW SITES NOTSHOWN, GO TO NEXT LARGER WINDOW IN TABLE 3) OVERALL FLANGE DIMENSIONS SHOWN. FOR FIN WINDOWS, SUBTRACT 1' FROM TABLE SIZE DIMENSIONS. 4) FOR INSTALLATION IN THE HVHZ ABOVE 30 FT, GLASS TYPES G - L SHALL HAVE A TEMPERED I.G. GLASS CAP. BOTH THE DP AND ANCHOR QUANTITY REMAIN UNCHANGED. 5) SEE CLASS TYPE DESCRIPTIONS ON SHEET 2. PRODUCT REVISED as y complCode Poo Florida NoAlft. 17-0411.00 M,plortl.. Veto 12/21/2021 By Mlpml-p m YCI Gon4a1 GGG &24117:UF[MW0TABLE& ELEVATION. 3 Fe M p o N O[L Y.InYa. ILI N ILI � Z�m .£ Fa IX GAS � y ~z H X 01132 o o = O n