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Plans WP2619-CO 23 c . , .. 15091 - Planet Fitness Tigard ltal90 SliJ Wink, +WV 11540 Southwest Durham Road,Tigard,Oregon,US,97224 DEACON To 1 reviewer From Sam Berri RECEIVED sam,berri@deacon.com NOV 2 7 2019 CITY OF TIGARD . Pianet Fitness Tigard - Storefront Shop Drawings BUILDING DIVISION 18,2019 Revise&Resubmit Submittal no. Version Spec section Due date 08 40 00-1 1 08 40 00 NOV 8,2019 Included items z I— No items ISMOujZoP • ;J.. LU,, 0 t--• Et 1-1- I-1-1 ,-:-- la --..., M 0 cr _1 CC, 0 rt .J. CC ,--, CL < '-`-• co Z u- Reviewers Owocnzwui - 1/1 o 0 I-- _j Z 7 --J Lij H (A complete r ‹C Z di c4'.. (-) C.r.5 D 0 " J — 7' " Reviewer co a G- viiR9it response Date Reviewed --1 e, . . --', 1 0 0 frankschmidt@tilandschmidt.com ir.1., 2_ ci3. t..... 0 1— IA Nov 7,2019 , r „,?„c„REVIEWED REVISE AND RESUBMIT - , -. . -- '.:' PON OTIREQUIRED _ Code ' .........REJECTED ..........MAKE CORRECTIONS NOTED 4t4 StrUCtUral Spe,... ty *. Vendor is entirely responsible for performance of his produchs) Corrections or comments made on the sx,nzacdurfromingeaounni2gantis=ore;doemn,Welleve of the i':;frawings and specirciations This Xeck i's only for ' &35I review of general conformance with the design concept of the project and general compiance with'7) Gartblii:Uti.Ar'i IC al..—11.766,,t'i-..,,,,r1 the information given in the contract documents. the ,-.4--if"13 Wialtarild in CI).. , contractor is responsible ton confirming arid correlating a quantities and dimensions selecting 7,, ,...,.., ,.......2,Ramo . fabrication processes and techniques of constructor '' coordinefing work with that of alt ether trades: Stad r4rkftej;cit4,1,trfilertr;400,tAt;c3,:rolvfmdcour. performing work in a safe and satisfactory manner. t,,„,.,) •.:,:=,./.:,... =. . . OS'no SteetTendN , , WA%CONSULTING ENGiNEERS (503)2224453 ';: VI Rit,Imittttn-ffr''.-'.'•iti..-"it.C.It' Pfesimseal 1 ” owe,11/25/19 By S. STENBERG ,I.,...; 41.7.1-,; ,-,',. lfiliing ir-T, 017.i..41'•. ._. '' w - --;:lnrrette -• - , 1 L.,,--1 i 0 cc.n3p),.. _ Materials U --.. , ,, Cl EJ ,,!..7,..„0,..:: „-ti-N:and Filii6§.. TIGARD TOWN (ENTER STOREFRONT ANCHORAGE 16200 SW Pacific Highway Tigard, Oregon 97224 STRUCTURAL CALCULATIONS VLMK Project Number:20190674 Black Line Glazing 1985 16th Street NE Salem, OR 97301 <c0 P ROrt,s, Ncp G I Ne. 3.> 74 656' •E c-eirs- GO ‘,40 O. R US 11-18-19 EXPIRES: 12/31/2020 K Prepared By: Ken Rust, P.E. November 2019 ENGINEERING + DESIGN Structural Calculations:Tigard'Iowa(enter Storefront Anchorage DC- I Project: Tigard Town Center Storefront Project Number: 20190674 Anchorage Project Address: 16200 SW Pacific Highway Document: Structural Calculations for Tigard, Oregon 97224 Building Permit TABLE OF CONTENTS Design Outline and Criteria DC-1 thru DC-2 Special Inspections DC-3 Structural Calculations C-1 thru C-14 G:\A(Gd2019V.0.190674V2 CokulationNO I 90674-DC-Bled(Line Glozing.decx 3933 SW Kelly Avenue Portland;OR 91239 lel= 503.222.4453 fox:503.248.9263 www,vIrrik.corn Structural :fu<°ions: (ErarrCentel Storefront i,L}icrr2 DC.-2 DESCRIPTIONOf STRUCTURAL SCOPE This 'Tigard Town Center Storefront Anchorage' project consists of determining the anchorage of exterior storefront and/or curtainwall to structure by others due to wind loads and checking the deflection of mullions. CODES 2014 Oregon Structural Specialty Code (Based on the 2012 International Building Code) DESIGN LOADS Wind Ultimate Design Wind Speed, Voir 120 mph Nominal Design Wind Speed, Vasd 93 mph Risk Category II Wind Exposure B MATERIALS Drilled Anchors Concrete Screw Anchors Hilti Kwik HUS-EZ Screw Anchor ICC ESR-3027 Masonry Screw Anchors Hilti Kwik HUS-EZ Screw Anchor ICC ESR-3056 Wood Structural Screws Wood Stud and Wood Beam Screws Simpson SDS Heavy-Duty Connector Screw ICC ESR-2236 { ?.067t\P2 ..I uluti �z . I 39.33:3 Sai Kelly uFe PurtIond, OR 91239 tot 503.232 . 0__43 92..3 ,.., Irak .,E Stru tures akulrtrans: I ivard rovirr`enter Storefront F\ chuw e DC-3 SPECIAL INSPECTIONS DURATION INSPECTION COMMENTS AGENCY CONCRETE: Drilled-in Screw Anchors in Concrete per ICC report P Testing Lab MASONRY: Drilled-in Screw Anchors in Masonry per ICC report P Testing Lab Special Inspection Notes: Duration refers to time and frequency of inspection for the portions of work indicated above. C = Continuous inspection in which the special inspector is on site at all times observing the work requiring special inspection. P = Periodic inspection in which the special inspector in on site at time intervals necessary to confirm that the work requiring special inspection is in conformance with approved permit drawings and specifications. The inspection agencies are as follows: Engineer: VLMK Consulting Engineers Testing Lab: To Be Determined Owner shall hire Special Inspector at owner's expense. The contractor shall notify the special inspector when work is ready for inspection and maintain accessibility of work until it is reported to be in conformance and approved by the Building Official. rx ._ .,t B is ( tdoi7. i VVLMK Project Tigard TC Job 20190674 By: KDR Date: 11/19 Sheet#.: C-1 ENGINEERING t DESIGN v3.00-Software Copyright 2015 VLMK Consulting Engineers. All Rights Reserved. Wind Loads - Components and Cladding (10 SF) Based on the 2015 International Building Code and ASCE 7-10, 30.5 (Part 2: Low-Rise Buildings - Simplified) V„lt = 120 mph;' Ultimate Wind Speed 3-Second Gust [Figure 26.5-1A, B, & C] B Exposure Category [Section 26.7.3] II•, •i.,1 Risk Category (II), (I), or (III and IV) [IBC Table 1604.5] mv KZt = 1.00 Topographic Factor [Figure 26.8-1] Roof Slope = 0 to 7 --1:Degrees Effective Area = 10 sf Span Length x Eff. Width (not less than Span Length/3) Load Factor = 1$34j j Ultimate = 1.0W, ASD = 0.6W Design Wind Pressure: Pnet = AKzrPner3o [Equation 30.5-1] Wall Loads: ( 1.0W ULTIMATE LEVEL ) Height Adjustment Wall - Interior Zone 4 Wall - End Zone 5 (ft) A (psf) (psf) 15 1.00 25.9 -28.1 25.9 -34.7 20 1.00 25.9 -28.1 25.9 -34.7 25 1.00 25.9 -28.1 25.9 -34.7 30 1.00 25.9 -28.1 25.9 -34.7 35 1.05 27.2 -29.5 27.2 -36.4 40 1.09 28.2 -30.6 28.2 -37.8 45 1.12 29.0 -31.5 29.0 -38.9 50 1.16 30.0 -32.6 30.0 -40.3 55 1.19 30.8 -33.4 30.8 -41.3 60 1.22 31.6 -34.3 31.6 -42.3 Roof Loads: ( 1.0W ULTIMATE LEVEL ) Height Adjustment Roof Interior Zone 1 I Roof - End Zone 2 i Roof - Corner Zone 3 (ft) A (psf) (psf) (psf) 15 1.00 16.0 -25.9 16.0 -43.5 16.0 -65.4 20 1.00 16.0 -25.9 16.0 -43.5 16.0 -65.4 25 1.00 16.0 -25.9 16.0 -43.5 16.0 -65.4 30 1.00 16.0 -25.9 16.0 -43.5 16.0 -65.4 35 1.05 16.0 -27.2 16.0 -45.7 16.0 -68.7 40 1.09 16.0 -28.2 16.0 -47.4 16.0 -71.3 45 1.12 16.0 -29.0 16.0 -48.7 16.0 -73.2 50 1.16 16.0 -30.0 16.0 -50.5 16.0 -75.9 55 1.19 16.0 -30.8 16.0 -51.8 16.0 -77.8 60 1.22 1 16.0 -31.6 16.0 -53.1 16.0 -79.8 Notes: 1.) Loads shown may be governed by Minimum Wind Design Loads per Section 30.2.2. 2.) Presures shown are applied normal to their respective surfaces. 3.) Plus and minus signs signify pressures acting toward (+) and away (-) from the surfaces. V L M K Project: Tigard TC Job#: 20190674 By: KDR Date: 11/19 Sheet#: C-2 EVGINEERING +i>ES1G^a v3.00-Software Copyright 2015 VLMK Consulting Engineers. All Rights Reserved. Wind Loads - Components and Cladding (20 SF) Based on the 2015 International Building Code and ASCE 7-10, 30.5 (Part 2: Low-Rise Buildings - Simplified) .4y Vuit = 120 ni Ultimate Wind Speed 3-Second Gust [Figure 26.5-1A, B, & C] B -Exposure Category [Section 26.7.3] II Risk Category (II), (I), or (III and IV) [IBC Table 1604.5] • Ka = 1.00; -Topographic Factor [Figure 26.8-1] Roof Slope = 0 to 7 Degrees Effective Area = 20 sf ' Span Length x Eff. Width (not less than Span Length/3) Load Factor = 1.,0 Ultimate = 1.0W, ASD = 0.6W Design Wind Pressure: p net = a KztP net30 [Equation 30.5-1] Wall Loads: ( 1.0W ULTIMATE LEVEL ) Height Adjustment Wall - Interior Zone 4 Wall - End Zone 5 (ft) A (psf) (psf) 15 1.00 24.7 -26.9 24.7 -32.4 20 1.00 24.7 -26.9 24.7 -32.4 25 1.00 24.7 -26.9 24.7 -32.4 30 1.00 24.7 -26.9 24.7 -32.4 35 1.05 25.9 -28.2 25.9 -34.0 40 1.09 26.9 -29.3 26.9 -35.3 • 45 1.12 27.7 -30.1 27.7 -36.3 50 1.16 28.7 -31.2 28.7 -37.6 55 1.19 29.4 -32.0 29.4 -38.6 60 1.22 30.1 -32.8 30.1 -39.5 Roof Loads: ( 1.0W ULTIMATE LEVEL) Height Adjustment Roof - Interior Zone 1 Roof - End Zone 2 Roof - Corner Zone 3 (ft) A (psf) (psf) (psf) 15 1.00 16.0 -25.2 16.0 -38.8 16.0 -54.2 6 20 1.00 16.0 -25.2 16.0 -38.8 16.0 -54.2 25 1.00 16.0 -25.2 16.0 -38.8 16.0 -54.2 30 1.00 16.0 -25.2 16.0 -38.8 16.0 -54.2 35 1 1.05 16.0 -26.5 16.0 -40.7 16.0 -56.9 40 1.09 16.0 -27.5 16.0 -42.3 f 16.0 -59.1 45 1.12 16.0 -28.2 16.0 -43.5 16.0 -60.7 50 1.16 16.0 -29.2 16.0 -45.0 16.0 -62.9 55 1.19 16.0 -30.0 16.0 -46.2 16.0 -64.5 60 1 1.22 16.0 -30.7 1 16.0 -47.3 16.0 -66.1 Notes: 1.) Loads shown may be governed by Minimum Wind Design Loads per Section 30.2.2. 2.) Presures shown are applied normal to their respective surfaces. 3.) Plus and minus signs signify pressures acting toward (+) and away (-) from the surfaces. i VVLMK Project: Tigard TC Job#.• 20190674 By: KDR Dote: 11/19 Sheet#: C-3 ENGINEERING+ DESIGN v3.00-Software Copyright 2015 VLMK Consulting Engineers. All Rights Reserved. Wind Loads - Components and Cladding (50 SF) Based on the 2015 International Building Code and ASCE 7-10, 30.5 (Part 2: Low-Rise Buildings - Simplified) V„lt = 120 mph Ultimate Wind Speed 3-Second Gust [Figure 26.5-1A, B, & C] B Exposure Category [Section 26.7.3] II Risk Category (II), (I), or (III and IV) [IBC Table 1604.5] KZt = 1.01,4: `,0 Topographic Factor [Figure 26.8-1] Roof Slope = 0 to 7 - Degrees Effective Area = ' 50 sf Span Length x Eff. Width (not less than Span Length/3) Load Factor = 1.0 Ultimate = 1.0W, ASD = 0.6W Design Wind Pressure: pnet = AKztPnet30 [Equation 30.5-1] Wall Loads: ( 1.0W ULTIMATE LEVEL ) Height Adjustment Wall - Interior Zone 4 Wall - End Zone 5 (ft) A (psf) (psf) 15 1.00 23.2 -25.4 23.2 -29.3 20 1.00 23.2 -25.4 23.2 -29.3 25 1.00 23.2 -25.4 23.2 -29.3 30 1.00 23.2 -25.4 23.2 -29.3 35 1.05 24.4 -26.7 24.4 -30.8 40 1.09 25.3 -27.7 25.3 -31.9 • 45 1.12 26.0 -28.4 26.0 -32.8 50 1.16 26.9 -29.5 26.9 -34.0 55 1.19 27.6 -30.2 27.6 -34.9 60 1.22 28.3 -31.0 28.3 -35.7 Roof Loads: ( 1.0W ULTIMATE LEVEL ) Height ' Adjustment Roof - Interior Zone 1 Roof - End Zone 2 Roof - Corner Zone 3 (ft) A (psf) (psf) (psf) 15 1.00 16.0 -24.4 16.0 -32.7 16.0 -39.3 20 1.00 16.0 -24.4 16.0 -32.7 16.0 -39.3 251.00 16.0 -24.4 16.0 -32.7 16.0 -39.3 30 100 16.0 -24.4 16.0 -32.7 16.0 -39.3 35 1.05 16.0 -25.6 16.0 -34.3 16.0 -41.3 40 1.09 16.0 -26.6 16.0 i -35.6 16.0 -42.8 45 1.12 16.0 -27.3 16.0 I -36.6 16.0 -44.0 50 1.16 16.0 -28.3 16.0 -37.9 16.0 -45.6 55 1.19 16.0 -29.0 16.0 -38.9 16.0 -46.8 60 1.22 16.0 -29.8 16.0 I -39.9 16.0 -47.9 Notes: 1.) Loads shown may be governed by Minimum Wind Design Loads per Section 30.2.2. 2.) Presures shown are applied normal to their respective surfaces. 3.) Plus and minus signs signify pressures acting toward (+) and away (-) from the surfaces. V \fLMK Project: Tigard TC Job#: 20190674 By: KDR Date: 11/19 Sheet# C-4 ENGINEERING+ DESIGN v3.00-Software Copyright 2015 VLMK Consulting Engineers. All Rights Reserved. Wind Loads - Components and Cladding (100 SF) Based on the 2015 International Building Code and ASCE 7-10, 30.5 (Part 2: Low-Rise Buildings - Simplified) Vuit = 120 mph.. 'I Ultimate Wind Speed 3-Second Gust [Figure 26.5-1A, B, & C] B Exposure Category [Section 26.7.3] II ,„,,Risk Category (II), (I), or (III and IV) [IBC Table 1604.5] KA = >1. 0 Topographic Factor [Figure 26.8-1] Roof Slope = 0 tC 7 Degrees Effective Area = 1.00', ,,,,,, Span Length x Eff. Width (not less than Span Length/3) Load Factor = 1':(I ;.':,.,‘,,,Ultimate t = 1.0W, ASD = 0.6W Design Wind Pressure: pnet = AKztPnet3o [Equation 30.5-1] Wall Loads: ( 1.0W ULTIMATE LEVEL ) Height Adjustment Wall - Interior Zone 4 Wall - End Zone 5 (ft) A (psf) (psf) 15 1.00 22.0 -24.2 22.0 -26.9 20 1.00 22.0 -24.2 22.0 -26.9 25 1.00 22.0 -24.2 22.0 -26.9 30 1.00 22.0 -24.2 22.0 -26.9 35 1.05 23.1 -25.4 23.1 -28.2 40 1.09 24.0 -26.4 24.0 -29.3 ' 45 1.12 24.6 -27.1 24.6 -30.1 50 1.16 25.5 -28.1 25.5 -31.2 55 1.19 26.2 -28.8 26.2 -32.0 60 1.22 26.8 -29.5 26.8 -32.8 Roof Loads: ( 1.0W ULTIMATE LEVEL ) Height Adjustment Roof - Interior Zone 1 Roof - End Zone 2 Roof - Corner Zone 3 (ft) A (psf) (psf) (psf) 15 1.00 16.0 -23.7 16.0 -28.1 16.0 -28.1 20 1.00 16.0 -23.7 16.0 -28.1 16.0 -28.1 25 1.0016.0 -23.7 16.0 -28.1 16.0 -28.1 30 1.00 . . 16.0 -23.7 16.0 -28.1 16.0 -28.1 35 1.05 16.0 -24.9 16.0 -29.5 16.0 -29.5 40 1.09 16.0 -25.8 16.0 -30.6 16.0 -30.6 45 1.12 16.0 -26.5 16.0 -31.5 16.0 -31.5 50 1.16 16.0 -27.5 16.0 -32.6 16.0 -32.6 55 1.19 16.0 -28.2 16.0 -33.4 16.0 -33.4 60 1.22 16.0 -28.9 16.0 -34.3 16.0 -34.3 Notes: 1.) Loads shown may be governed by Minimum Wind Design Loads per Section 30.2.2. 2.) Presures shown are applied normal to their respective surfaces. 3.) Plus and minus signs signify pressures acting toward (+) and away (-) from the surfaces. VLMK Project: Tigard TC lobi`. 20190674 By: KDR Date: 11/19 Sheet#: C-5 ENGINEERING •DESIGN v3.00-Software Copyright 2015 VLMK Consulting Engineers. All Rights Reserved. Wind Loads - Components and Cladding Based on the 2015 International Building Code and ASCE 7-10, 30.5 (Part 2: Low-Rise Buildings - Simplified) - INN.N\„•L ®® ,�6 fi�j- �6 j(,� X16 ''i j 12 �) —N-\;<)\ \ " fes'+ -N,,, , <- -6 Flat Roof Hip Roof (7° < 0 < 27°) nP :. t\s, , . i -:,...„,,,,,, „or - 0 07 Gable Roof (0 7°) Gable Roof (70 < 0 < 450) interior Zones , End Zones II Corner Zones sx Roofs-Zonal/Walls-Zoea 4 •oafs-Zane 2/Wails-Zooe 5 R;;t#s-Zone 3 End Zone Length Calculation [Figure 30.5-1, Note #51 L = 178 ft Least Horizontal Dimension h = 25 ft Mean Roof Height 17.8 ft Smaller of 10% of Least Horizontal Dimension 10 ft Smaller of 40% of Mean Roof Height 7.12 ft Not Less Than 4% of Least Horizontal Dimension 3 ft Not Less Than 3 ft a = 10 ft End Zone Length V L M K Project: PLANET FITNESS job# 20190674 By: KDR Date: 11/19 sheet#: C-6 ENGINEERING+ DESIGN STOREFRONT ANCHORAGE: CMU ATTACHMENT(SF1, SF2, SF3, SF5): HILTI KWIK HUS-EZ SCREW ANCHORS Vallow=245# [SEE ICC-3056,TABLE 5] #SCREWS=(31.9psf)(4.83')(5.16')(0.6)/(245#)= 1.95(INTERIOR-SF1) #SCREWS=(34.0psf)(2.50')(5.16')(0.6)/(245#)= 1.08(JAMB-SF1) USE(3)1/2"DIA x 41/4"EMBED AT INTERIOR MULLIONS,(2)AT JAMB MULLIONS CONCRETE ATTACHMENT(SF4—SILL): HILT! KWIK HUS-EZ ANCHORS [SEE PROFIS OUTPUT] Vu=(34.7psf)(1.83')(5.50')=350# (JAMB) Vu=(31.8psf)(4.83')(5.50')=845# (DOOR) USE 3/8"DIA x 2 1/2"EMBED,(2)AT DOOR MULLIONS,(1)AT JAMB MULLIONS _ ..._ WOOD ATTACHMENT(SF4- HEAD): 1/4" DIA x 3" SIMPSON 'SDS' SCREWS Vallow=(420#)(16)(0.6)=403# [SEE ICC-2236,TABLE 2] #SCREWS=(845#)(0.6)/(403#)=1.26(DOOR) USE(3)SCREWS AT ALL MULLIONS 3933 KeyAvenuer 97239 503,222.4453 fox. 503.24.8.926 SW Kelly Portland,OR I . f�: . err C-7 ESR-3056 I Most Widely Accepted and Trusted Page 5 of 6 TABLE 4—ALLOWABLE SHEAR LOADS FOR KWIK HUS-EZ INSTALLED IN THE FACE OF GROUT-FILLED MASONRY WALLS(POUNDS)1•3.6 SHEAR LOADS SPACING EDGE DISTANCE ANCHOR MINIMUM at CCR AND ScR DIAMETER EMBEDMENT ALLOWABLE CRITICAL MINIMUM LOAD CRITICAL MINIMUM LOAD DIRECTION LOAD (INCHES) (INCHES)2 SHEAR LOADS SCR SMIN REDUCTION CCR CMIN PERPENDICULAR DIRECTIOL PARALLEL FOR IBC/IRC (INCHES) (INCHES) FACTOR' (INCHES) (INCHES) TO EDGE TO EDGE 15/8 532 1.00 1/44 4 1.00 4 4 — 1.00 2'!2 650 1.00 3/6 15!8 912 — 6 4 0.94 6 4 0.61 1.00 3'/4 952 0.70 2'/4 1476 0.50 1/2 8 4 0.88 8 4 1.00 43/4 1959 0.40 31/4 2432 0.36 5/8 5 2731 10 4 0.62 10 4 0.34 - 1.00 4 2432 0.36 3/412 12 4 0.36 12 4 1.00 6'/4 2731 0.34 'Anchors shall be installed in base materials in compliance with Section 3.2 of this report. 2Embedment depth is measured from the outside surface of the concrete masonry unit. 3Refer to Section 5.3 of this report for modifying allowable loads in this table for anchors resisting short-term loads. "Allowable loads are based on installation at critical spacing and edge distance.Load reduction factors are applicable at the minimum spacing and edge distance.Linear interpolation of reduction factors is allowed for spacings and edge distances between critical and minimum. 5Tabulated allowable loads for the IBC/IRC are based on a safety factor of 5.0. 6Special inspection must be provided in accordance with Section 4.3 of this report. TABLE 5—ALLOWABLE TENSION AND SHEAR LOADS FOR KWIK HUS-EZ INSTALLED IN THE TOP OF GROUT-FILLED CONCRETE MASONRY CONSTRUCTION1'3,4,5,6 SHEAR(POUNDS) ANCHOR MINIMUM EDGE MINIMUM MINIMUM LOAD DIRECTION EMBEDMENT END TENSION DIAMETER DEPTH DISTANCE SPACING DISTANCE (POUNDS) PARALLEL TO PERPENDICULAR - (INCHES) (INCHES)2 (INCHES) (INCHES) (INCHES) EDGE OF MASONRY TO EDGE OF WALL MASONRY WALL '/2 4'14 13/4 8 8 540 885 245 5/8 5 13/4 10 10 1045 930 245 'Anchors shall be installed in base materials in compliance with Section 3.2 of this report. 2Embedment depth is measured from the outside surface of the concrete masonry unit. 3Refer to Section 5.3 of this report for modifying allowable loads in this table for anchors resisting short-term loads. "See Figure 3 for details of anchor location in top of CMU wall.Additionally,anchors shall be installed with a minimum 4-inch distance to the head joint. 5Tabulated allowable loads for the IBC/IRC are based on a safety factor of 5.0. 6Special Inspection must be provided in accordance with Section 4.3 of this report. www.hilti.us Profis Anchor 2.8.5 Company: VLMK Engineering and Design Page: 1 Specifier: 8 KDR Project: Planel Fitness C_ Address: Sub-Project I Pos.No.: Door Mullions Phone I Fax: Date: 11/12/2019 v vv E-Mail: Specifier's comments: 1 Input data �.t Anchor type and diameter: KWIK HUS-EZ(KH-EZ)3/8(3 1/4) hef,act=2.500 in., m=3.250 In.Effective embedment depth: Material: Carbon Steel Evaluation Service Report: ESR-3027 Issued I Valid: 6/1/2019 112/1/2019 Proof: Design method ACI 318-11 /Mech. Stand-off installation: eb=0.000 in.(no stand-off);t=0.125 in. Anchor plate: Ix x lY x t=3.000 in.x 5.000 in.x 0.125 in.; (Recommended plate thickness: not calculated Profile: no profile Base material: cracked concrete,4000,fb'=4,000 psi;h=8.000 in. Installation: hammer drilled hole,Installation condition:Dry Reinforcement: tension:condition B,shear:condition B;no supplemental splitting reinforcement present edge reinforcement:none or<No.4 bar -The anchor calculation is based on a rigid anchor plate assumption. Geometry[in.]&Loading[Ib,in.lb] Z 0 3 \ . 7x.-cAli;,". a Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilt AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan 111111 I u i . @ F ` www.hilti.us Profis Anchor 2.8.5 Company: VLMK Engineering and Design Page: 2 Specifier: KDR Project: Planet Fitness Address: Sub-Project I Pos.No.: Door Mullions C-9 Phone I Fax: I Date: 11/12/2019 v E-Mail: 2 Proof I Utilization (Governing Cases) • Design values[Ib] Utilization Loading Proof Load Capacity PN I Status Tension - - - -/- - Shear Concrete edge failure in direction x+ 1,268 1,441 -/88 OK Loading PN Dv Utilization ON v[°/o] Status Combined tension and shear loads - - - - - 3 Warnings • Please consider all details and hints/warnings given in the detailed report! Fastening meets the design criteria! 4 Remarks; Your Cooperation Duties • Any and all information and data contained in the Software concern solely the use of Hilti products and are based on the principles,formulas and security regulations in accordance with Hilti's technical directions and operating,mounting and assembly instructions,etc.,that must be strictly complied with by the user. All figures contained therein are average figures,and therefore use-specific tests are to be conducted prior to using the relevant Hilti product. The results of the calculations carried out by means of the Software are based essentially on the data you put in. Therefore,you bear the sole responsibility for the absence of errors,the completeness and the relevance of the data to be put in by you. Moreover,you bear sole responsibility for having the results of the calculation checked and cleared by an expert,particularly with regard to • compliance with applicable norms and permits,prior to using them for your specific facility. The Software serves only as an aid to interpret norms and permits without any guarantee as to the absence of errors,the correctness and the relevance of the results or suitability for a specific application. • You must take all necessary and reasonable steps to prevent or limit damage caused by the Software. In particular,you must arrange for the regular backup of programs and data and,if applicable,carry out the updates of the Software offered by Hilti on a regular basis.If you do not use the AutoUpdate function of the Software,you must ensure that you are using the current and thus up-to-date version of the Software in each case by carrying out manual updates via the Hilti Website. Hilti will not be liable for consequences,such as the recovery of lost or damaged data or programs,arising from a culpable breach of duty by you. Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilt'AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan ,4 ESR-2236 I Most Widely Accepted and Trusted Page 4 of 5 c-#1 I TABLE 2—REFERENCE LATERAL DESIGN VALUES(Z)FOR SINGLE SHEAR STEEL-TO-WOOD CONNECTIONS WITH SDS SCREWS''Z IIIINIIIIIIIIIIIIIIIIIIIIIIIII,I1MWSOACer#Walggktttrnat gSCREWIENGTHR HillgeniaAW4twommonsampitairifiskignmmtmo2eattoE ,,,,,,,,,,,,,„c, 5 0.2405 ; ,.. (Inches) (No"16 gage) , '(Noy 14 9age). M)2 gage),41116.ataggikandag (No ge), , ".(No.3 gage)„ iganignilligeoi i. rl L.aterltDesignVe}° `A '.,, '. 11/2 250 250 250 250 250 250 ." " )s/4 ... . ;250 1 2.50 , 0 %„//yam 2`} 2 2550 ..,.moi 2 250 290 290 290 290 290 -17111111111111111.11100111111111110•111111101117-?11111 figte . .tea... 42'0 ..`(tfir,.. 420- '%° 3 250 rn, 420 420 420 420 31 1° 0. 420 ;< ; I 420 ,, 42 t "', .� �� .��`�- f��' �.�. ...•�; ..,z ,✓., ,,,,fir„ .,,;�., s� .. lD 41/2. 250 420 420 420 420 420 1111111111111110.0111111111111113111111111111011111111111111111111111•11140,11111111111110111111 6 250 420 420 420 420 420 131111111111111111111111 . 1 1 25211111,001111111111111511111M2f 1 1q 01 gg � For SI: 1 inch=25.4 mm,1 lbf=4.45 N,1 ksi=6.89.MPa. 'The side member must be steel having a minimum tensile strength(F,,)equal to 45 ksi when the steel member design thickness is from 0.0584 inch to 0.1795 inch,and a minimum F„equal to 52 ksi when the steel member design thickness is 0.2405 inch. 2The main member must be wood having a minimum assigned specific gravity of 0.50,such as Douglas fir–larch,and must be sufficiently sized to accommodate the screw length less the thickness of the side member.Values are also applicable for fasteners installed into the face of engineered wood described in Section . 'The uncoated minimum steel thickness of the cold-formed product delivered to the jobsite must not be less than 95 percent of the tabulated design thickness.ts. 'Holes in the steel side member must be predrilled or prepunched.Hole diameter must complywith Section 222 of this report. 5Tabulated lateral design values(Z)must be multiplied by all applicable adjustment factors,including the load duration factor, CD,from the NDS as referenced in the IBC or IRC. 6Screws must be installed into the side grain of the wood main member with the screw axis perpendicular to wood fibers. 'Minimum fastener penetration must be equal to the screw length less the thickness of the metal side plate. TABLE 3—REFERENCE LATERAL DESIGN VALUES(Z)FOR SINGLE • SHEAR WOOD-TO-WOOD CONNECTIONS WITH SDS SCREWS u�a - �ti� i'r f/ a° s 'k ,�� < OOD SIDEM OBER ACTUAL THI S,,is(Inctes� �� a, x l$REW LENGTHz c g s i. / �". s a g��r 04' A �' lti �° * i 4 a a3 F fLaferaP1000gn Value(Zj ,,4 , , 21/2 190 — 3 3 .,.., . .;F<.,,, 210 .. a.' ,." sem' 31/2 340 340 ,:.II,KCNIII.IIII.11 inill1111111111040111!t,11111111111111111illiellillon0401110smomanumg 5 350 340 11111111111111113,11111112111111111111,11111e7 lir 4,111111,111111,1111111111.11211111,111,1111111111111 8 350 340 For SI: 1 inch=25.4 mm,1 lbf=4.45 N. 'The actual thickness of the wood side member,ts,must be either 02 or 134 inches,as specified in the table.The wood side member thickness is an absolute value,and is nota minimum or maximum value. 2The tabulated lateral design values(Z)are based on wood members having a minimum assigned specific gravity of 0.50,such as Douglas fir–larch.Values are also applicable for fasteners installed into the face of engineered wood described in Section 3.2.2. 3The wood main member must be equal to or greater than the screw length less the thickness of the wood side member. 'Tabulated lateral design values(Z)must be multiplied by all applicable adjustment factors,including the load duration factor, CD,from the NDS as referenced in the IBC or IRC. SScrews must be installed into the side grain of the wood members with the screw axis perpendicular to wood fibers. • • ESR-2236 I Most Widely Accepted and Trusted Page 5 of 5 C-01 TABLE 4—CONNECTION GEOMETRY MINIMUM[31STANCE OR CCINDITt01+4 Perpendicular to grain loading 11/2 Edge distance (Loaded or unloaded edge) Parallel to grain loading 1 Perpendicular to,td 9 ib4dtng�✓� �� 4 End distance : I� araliel ta, Ioadit (LD 'ittg toward 4Y . frofrl.,.end)• Between fasteners in a row 3 • Spacing Between rows 3 (Loading parallel or perpendicular to grain) Between staggered rows 11/2 For SI: 1 inch=25.4 mm. 'Edge distances,end distances and spacing of the screws must be sufficient to prevent splitting of the wood,or as required by this table,whichever is the more restrictive. 2 Values for spacing between staggered rows apply where screws in adjacent rows are offset by half of the spacing between screws in a row. TABLE 5—REFERENCE WITHDRAWAL DESIGN VALUE FOR SDS SCREWS INSTALLED IN THE SIDE GRAIN OF A WOOD MAIN MEMBER S1545 OD SCREW DIMENSIONS to -/) REFS; �I CE WITHDRAWAL -iii; AWAI! r ( D N 4/ALUE a a W Screw Lengi Tread Length', T 'y #las/t 11ch, • 1'/2 1 a € 1'J# 2 1'/4 3 ? 172 ;22,74/2 23/4 6 3'/4 reL hs .,� � <.� � .�. For SI: 1 inch=25.4 mm,1 lbf/inch=4.44 kPa. 'The tabulated reference withdrawal design value(W=172 lbs/inch)is in pounds per inch of the thread penetration into the side grain of the main member. 2Tabulated reference withdrawal design values(W=172 lbs/inch)must be multiplied by all applicable adjustment factors from the NDS as referenced in the IBC or IRC. 3Embedded thread length is that portion held in the main member including the screw tip. 4The tabulated withdrawal design value(W)is based on wood members having a minimum assigned specific gravity of 0.50,such as Douglas fir—larch.Values are also applicable for fasteners installed into the face of engineered wood described in Section 322. TABLE 6—RECOGNIZED EXPOSURE CONDITIONS FOR SIMPSON STRONG-TIE SDS FASTENERS WITH DOUBLE BARRIER COATING EXPOSURE` TYPICAL APPLICATIONS � RECOGNITION LIMITATIONS CONDITION Limited to use where equilibrium moisture content of the chemically 1 Treated Wood in dry use applications treated wood meets the dry services condition as described in the NDS Limited to freshwater and chemically treated wood exposure,e.g.,no 3 hh General eonsfructiott saltwater exposure. SERIES 3000-MP-CENTER SET STOREFRONT - WINDLOAD CHARTS C-12 Data is based on deflection limitations in accordance with AAMA TIR-A11 of L/175 up to 13'-6" and L/240 +1/4" above 13'-6", with a maximum deflection of 1 1/4". All curves reflect single span conditions, unless noted otherwise. These curves reflect the limiting value for mullions with horizontals and are based on allowable windload stress for T6 aluminum (15,000 psi) and A36 steel (20,000 psi). A 4/3 increase in allowable stress is not reflected in these curves. For special applications not covered by these curves, please consult your local Oldcastle BuildingEnvelope® facility for assistance. TYPE = SF3 INTERMEDIATE (INTERIO ZONE) AREA = (5.661(10.33') = 58 sqft WIND LOAD = 25.2psf(0.6) = 15.2psf ALLOWED WIND LOAD = 16.5psf (OK) 15 15 FG-34951413 FG-3328 14 \\ *NN%'%%"'... u LL FG 3514 FG-3329 12 Zaai 12 11 r 1131 0 ol •= 10 I• 10 15 PSF \\4\\ N C C 0 9 15 PSF ° 9 .....\\ ..........." 20 2 20 25 8 25 8 30 I= 3.328 30 1=4.100 40 . S= 1.479 7 SF1 SF3 40 6 S=1.787 7 5 I I 5 0 1 2 3 4 5 6 7 8 0 1 2 3 4 5 6 7 8 Mullion Spacing(Feet) Mullion Spacing(Feet) TYPE = SF1 INTERMEDIATE (END ZONE) AREA = (4.831(10.331 = 50 sqft WIND LOAD = 29.3psf(0.6) = 17.6psf ALLOWED IND LOAD = 19.0psf (OK) 15 15 FG-3595 FG-3514 14 FG-3215 14 ..... FG-3215 13 13 °' 12 12 if E 15 PSF L 11 ` X11 15 PSF lii 0) = 10o 20 s 10 20 C 25 9 30 r3 a) =9 25 2 0 30 I = 6.044 8 40 8 s=2.576 I=5.514 2 40 7 S=1.836 7 6 6 5 5 0 1 2 3 4 5 6 7 8 0 1 2 3 4 5 6 7 8 Mullion Spacing(Feet) Mullion Spacing(Feet) Phone: 1-866-OLDCASTLE(653-2278) February 2015 3 Web Address:www.oldcastlebe.com C-13 REGIONS U Area: 1.0147 Perimeter: 20.4595 Bounding box: X: -1.4202 -- 0.5798 Y: -2.2517 -- 2.2483 Centroid: X: 0.0000 Y: 0.0000 Moments of inertia: X: 2.9510 Y: 0.4432 Product of inertia: XY: -0.0008 Radii of gyration: X: 1.7053 Y: 0.6609 Principal moments and X-Y directions about centroid: I: 2.9510 along [1.0000-0.0003] J: 0.4432 along [0.0003 1.0000] • Ix = 2.951 in4 Sx = 1.312 in3 CONTROLLING TYPE = SF4 (END ZONE) AREA = (4.83')(11.0') = 53 sqft WIND LOAD = 29.2psf(0.6) = 17.6psf DEFLECTION CHECK: L/175 = 0.754" D = (5)(17.6psf)(4.83')(11.0')(132")^3 = 0.940" < X.XX" (OK) (384)(10,100,000psi)(2.951 in4) STRESS CHECK: M = (XX.Xpsf)(X.X1(X.X1^2(1/8) = XXX #' Sreq = (XXX #1(12)/(15,152psi) = X.XXX in3 < 1.312 in3 (OK) FG-2000 STOREFRONT - WINDLOAD CHARTS C-14 Data is based on deflection limitations in accordance with AAMA TIR-A11 of L/175 up to 13'-6" and L/240 +1/4" above 13'-6", with a maximum deflection of 1 1/4". All curves reflect single span conditions, unless noted otherwise. These curves reflect the limiting value for mullions with horizontals and are based on allowable windload stress for T6 aluminum (15,000 psi) and A36 steel (20,000 psi). For special applications not covered by these curves, please consult your local Oldcastle BuildingEnvelope' facility for ' assistance. • FG-2100 FG-2100 FG-2102 FG-2102 i I 15 15 14 14 13 `-; 13 • 15 PSF :2, ow 12FG 2103 FG-2103 -FG-2102R 1FG-2102 • 11 ' 20 m = 10 -- i 10 o 25 o / o 9 1 9 2 15 PSF ' 30 8 20 1 8 40 .." 7 25 30 I• •` 7 ---' 6 40 6 I=2.607 I=2.607 5= 1.159 5 0 1 2 3 4 5 6 7 8 S= 1.159 5 0 1 2 3 4 5 6 7 8 Mullion Spacing(Feet) RS-1 Steel Mullion Spacing (Feet) I=2.100 TYPE = SF5 INTERMEDIATE (INTERIOR) S= 1.003 INTERIOR L. = S. psf minimum ALLOWED = 17. psf (OK) 15 15 FG-2101 14 FG-2101 14 FG-2102 \'\' FG-2102 13 13 15 PSF 0 12 i� 12 I oU- r 11 1 11 20 i 0) = 10 j = 10 25 o I c o 9 15 PSF - �•J 0 g 30 H2 20 2 I=3.220 8 25 I=3.220 8 40 S= 1.43130 S= 1.431 7 7 40 • 6 RS-1 Steel 6 I =2.100 5 S= 1.003 5 0 1 2 3 4 5 6 7 8 0 1 2 3 4 5 6 7 8 Mullion Spacing (Feet) Mullion Spacing (Feet) TYPE= SF (INTERIOR) INTERIOR LOAD = 5.0psf minimum Phone: 1-866-OLDCASTLE(653-2278) )VEMBER;ALLOWED LOAD = 14.0psf (OK) 1 Web Address:www.oldcastlebe.com FOR OFFICE USE ONLY-SITE ADDRESS: This form is recognized by most building departments in the Tri-County area for transmitting information. Please complete this form when submitting information for plan review responses and revisions. This form and the information it provides helps the review process and response to your project. III City of Tigard • COMMUNITY DEVELOPMENT DEPARTMENT = Transmittal Letter TIGARD 13125 SW Hall Blvd. • Tigard, Oregon 97223 • 503.718.2439 • www.tigard-or.gov TO: l r1.1 DAT, (m V C DEPT: BUILDING DIVISION NOV 2 7 2019 CITY OF TIGARD FROM: {-kin Slrvl r ; BUILDING DIVISION COMPANY: `(�e 4 c-4-to PHONE: SO3 3`'1 -01 H9 15-13- !„,Y ” By: RE: / ((2_00 5iAd 1i(Site Address) ,J (‘27Z1,( rmiumber) Play,* ('0-h e.SS (Project name or subdivision name and lot number) ATTACHED ARE THE FOLLOWIN ITE Copies: Description: \ /` p` s: Description: Additional set(s) of plans. � Revisions: Z_ Cross section(s) and details. `! \ll► Wall bracing and/or lateral analysis. Floor/roof framing. Basement and retaining walls. Beam calculations. 2- Engineer's calculations. Other(explain): REMARKS: OR OFFICE J.ISE ONLY Routed to Permit Technician: Date: )_ ) 1 Initial Fee1304‹...g Yes ❑ No Fee P'escription: Amounts e: • Hr $ 9 -d-' $ $ $ Special F A. 19 x . - -rr Instructions: i-- (' 8• x 1.�` = Reprint Permit(per PE): ❑ Yes 0 3 7 , E'U ❑ Done Applicant Notified:ye i Date: /„L/Z//q = /g.5-0 Initials:// -fr 5-:( ) � I:\Building\Forms\TransmittalLetter-Revisions_061316.doc l4'/�"'G ��G