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HomeMy WebLinkAboutDesign Calculations(� as SG ais easyseals.com --oo7s REVIEWED FOR CODE COMPLIANCE ST. LUCIE COUNTY SOCC DESIGN CALCULATIONS FOR COCA -COLA 7 WALL -MOUNTED SIGNS 3939 St Lucie Blvd — Ft Pierce GENERAL NOTES: 1. Design is in accordance with the Florida Building Code 6th Edition (2017) for use within and outside the High Velocity Hurricane Zone (HVHZ). 2. Wind loads have been calculated per the requirements of ASCE 7-10 as shown herein. 3. These engineering calculations pertain only to the structural integrity of those systems, components, and/or other construction explicitly specified herein and/or in accompanying engineering drawings. The Index: existing host structure (if any) is assumed to be in good condition, Pg 1 cover capable of supporting the loaded system, subject to building department Pg 2 wind Loads approval. No warranty, either expressed or implied, is contained herein. Pg 3 Anchor Design 4. System components shall be as noted herein. All references to named components and installation shall conform to manufacturer's or industry specifications as summarized herein. 5. Where site conditions deviate from those noted herein, revisions may be y En i�i tLir eal valid required or a separate site engineering evaluation performed. �g ({,� 6. Aluminum components in contact with steel or embedded in concrete `Z`Q'• F '• t��'' shall be protected as prescribed in the 2015 Aluminum Design Manual, No. 6 3 2 Part 1. Steel components in contact with, but not encased in, concrete _ *; shall be coated, painted, or otherwise protected against corrosion. 7. Engineer seal affixed hereto validates structural design as shown only. ��0 �? AT o o-; 6: Use of this specification by contractor, et. Al, indemnifies and saves harmless this engineer for all costs & damages including legal fees & ChrlsY � & (t£ q 67382 apellate fees resulting from deviation from this design. Easy SeMsrrlrrrlG@ Auth q 31124 Federal Hwy, #200 Bocaoca Raton, Easy Seals .com Page 1ton, FL 33432 �7 yseals '/ SCE 7-10 Design Wind Loads WALL -MOUNTED SIGNS Building Specs V = 160 mph Basic wind speed Exposure C Calculations a = 9.5 3-sec gust speed power law exponent zg = 900' Nominal ht. of atmos. boundary layer Gcpi = 0 Internal pressure coeff CALCULATIONS FOR WALL -MOUNTED SIGNS ASD Load Combo Coeff: 0.6 Kd = 0.85 Directionality factor Kzt= 1.0 Topogrophicfactor A = 10 sq ft Tributary area 160 mph - Exp "C" WALL -MOUNTED SIGNS ASD WIND PRESSURES SIGN CENTER CORNER HEIGHT (Zone 4) (Zone 5) r Y Y qz U U N 15 ft 31.2 psf 39.7 psf 0.85 47.3 -1.10 -1.40 20 ft 33.2 psf 42.2 psf 0.90 • 50.2 -1.10 -1.40 25 ft 34.8 psf 44.2 psf 0.95 52.7 -1.10 -1.40 30 ft 36.1 psf 46.Opsf 0.98 54.7 -1.10 -1.40 35 ft 37.3 psf 47.5 psf 1.01 56.5 -1.10 -1.40 40 ft 38.4 psf 48.8 psf 1.04 58.1 -1.10 -1.40 45 ft 39.3 psf 50.1 psf 1.07 59.6 -1.10 -1.40 50 ft 40.2 psf 51.2 psf 1.09 60.9 -1.10 -1.40 55 ft 41.0 psf 52.2 psf 1.12 62.2 -1.10 -1.40 60 ft 41.8 psf 53.2 psf 1.14 63.3 -1.10 -1.40 70 ft 35.3 psf 70.6 psf 1.17 65.4 -0.90 -1.80 f 80 ft 36.3 psf 72.6 psf 1.21 67.3 -0.90 -1.80 90 ft 37.2 psf 74.5 psf 1.24 69.0 -0.90 -1.80 ' 100 ft ..38.1 psf 76.1 psf 1.27 70.5 -0.90 -1.80 110 ft 38.8 psf 77.7 psf 1.29 71.9 -0.90 -1.80 120 ft 39.6 psf 79.1 psf 1.32 73.3 -0.90 -1.80 130 ft 40.2 psf 80.5 psf 1.34 74.5 -0.90 -1.80 140 ft 40.9 psf 81.7 psf 1.36 75.7 -0.90 -1.80 150 ft 41.5 psf 82.9 psf 1.38 76.8 -0.90 -1.80 175 ft 42.8 psf 85.7 psf 1.42 79.3 -0.90 -1.80 200 ft 44.1 psf 88.1 psf 1.46 81.6 -0.90 -1.80 250 ft 46.2 psf 92.3 psf 1.53 85.5 -0.90 -1.80 Page 2 CALCULATIONS FOR WALL -MOUNTED SIGNS Wall Sign Anchor Design Structure Dimensions & Loading Design wind pressure: Sign type: Sign size: Wall material Anchor type/size P = 46.0 psf Letterset A= 35.6 sgft (entire letterset) Metal Steel studs or extrusions/shapes 1/4" Bo It + Nut Ref: AAMATIR-A9-1991, min 3/16" alum Min Embedment: Full Min edge dist: 1" Min Spacing: 1" Anchor tensile capacity: Tcap = 634.1 lb (per anchor) 1 Check Anchors for Pullout s u Total Reaction: Rt= 1636 lb ...=P*A (entire cabinet) No. of anchors req'd: n = 2.6 total anchors ... = Rt/cap Total anchors required: 3 total anchors balanced over letterset OK, use (44) bolts total, located as shown on elev detail. Page 3