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:z•�»"1KK•]U 4111.11 IKK•]►"1:0LK1IQ110Is] I� 5023 18th STREET ZEPHERHILLS FL PASCO COUNTY CLASSIFICATION BY OCCUPANCY ..................RESIDENTIAL CLASSIFICATION BY GROUP.........................R CONSTRUCTION TYPE................................V SPRINKLER CLASSIFICATION........................UNSPRINKLED FLOOD ZONE: X RISK CATEGORY II WIND ZONE 130 MPH (ASCE 7-16) To the best of my knowledge these plans are drawn to comply with owner's and/ or builder's specifications and any changes made on them after prints are made will be done at the owner's and / or builder's expense and responsibility. The contractor shall verify all dimensions and enclosed drawing. THE DESIGN PROFESSIONAL is not liable for errors once construction has begun. While every effort has been made in the preparation of this plan to avoid mistakes, the maker can not guarantee against human error. The contractor of the job must check all dimensions and other details prior to construction and be solely responsible thereafter. This document is an instrument of a contract and is further protected by copyright laws and intellectual property rights. AREA SQ. FEET 1ST FLOOR CON DITI ON ED 1238 1ST FLOOR UN -CONDITIONED FRONT PORCH 123 GARAGE 460 REAR PORCH 69 TOTAL CONDITIONED 1238 TOTAL UNDER ROOF 18910 TOTAL WI DTH 35r TOTAL DEPTH 59r HEIGHT 18'6 DRIVEWAY 418 WALKWAYS 71 CONC. PAD 9 •I ■ 10 : u : Subsurface information shown on these drawings was obtained solely for use in establishing design controls for the project. The accuracy of this information is not guaranteed and it is not to be construed as part of the plans governing construction of the project. It is the BIDDERS AND OR CONTRACTORS responsibility to inquire of the [owner] if additional information is available, to make arrangements to review the same prior to bidding, to conduct whatever site investigation or testing may be required, and to make his own determinations as to all subsurface conditions. ■144 8 10 11111 Lahpl_ Title Description Cornmpnt D-1 -FOUNDATION PLAN Q-2 FIRST FLOOR PLAN l)-4 - SECTION VIEWS Q-5 ROOF FRAMING PLAN 5-2 -FRAMING DETAILS 1. First floor CMU walls with bearing height at 9'4" feet (U.N.0) 3. Interior non -load bearing walls shall be constructed of spruce pine fur at 16" o.c; interior load bearing walls shall be constructed of southern yellow pine 16" ox 4. All interior doors to be 2 panel 80" masonite 5. Match all door and window header heights at 80" 6. All Base moulding to be pre -primed wood 5 1/4" profile 7. Door casings to be pre -primed wood 2 1/4" profile 8. R301.2.1.2 Protection of openings. Windows in buildings located in wind-borne debris regions shall have glazed openings protected from wind-borne debris. Glazed opening protection for wind-borne debris shall meet the requirements of the Large Missile Test of an approved impact resisting standard or ASTM E 1996 and ASTM E 1886, SSTD 12, ANSI/ DASMA 115 (for garage doors) or TAS 201, 202 and 203 or AAMA 506 referenced therein. THIS REQUIREMENT CAN BE MET THROUGH THE USE OF WOOD STRUCTURAL PANELS THAT MEET THE REQUIREMENTS OF FBC SECTION 301.2.1.2 9. ALL INTERIOR GLAZING WITHIN 18" OF THE FINISHED FLOOR IS TO BE TEMPERED GLASS. 10. ALL GLAZING WITHIN 60" ABOVE OR ADJACENT TO TUBS AND SHOWERS IS TO BE TEMPERED. 11. CONTRACTOR TO PROVIDE WINDOW & DOOR MANUFACTURER SPECIFICATIONS AND FLORIDA PRODUCT APPROVAL CODES. 12.R310.2 EMERGENCY ESCAPE AND RESCUE OPENINGS EMERGENCY ESCAPE AND RESCUE OPENING SHALL HAVE MINIMUM DIMENSIONS AS SPECIFIED IN THIS SECTION R310.2.1 MINIMUM OPENING AREA EMERGENCY AND ESCAPE RESCUE OENINGS SHALL HAVE A NET CLEAR OPENING OF NOT LESS THAT 5.7 SQUARE FEET(0.530 M2). THE NET CLEAR OPENING DIMENSIONS REQUIRED BY THIS SECTION SHALL BE OBTAINED BY THE NORMAL OPERATION OF THE EMERGENCY ESCAPE AND RESCUE FROM THE INSIDE. THE NET CLEAR HEIGHT OPENING SHALL BE NOT LESS THAN 24 INCHES (610 MM) AND THE NET CLEAR WIDTH SHALL BE NOT LESS THAN 20 INCHES (508 MM). EXCEPTION: GRADE FLOOR OR BELOW GRADE OPENINGS SHALL HAVE A NET CLEAR OPENING OF NOT LESS THAN 5 SQUARE FEET (0.465 M2). R310.2.2 WINDOW SILL HEIGHT WHERE A WINDOW IS PROVIDED AS THE EMERGENCY ESCAPE AND RESCUE OPENING, IT SHALL HAVE A SILL HEIGHT OF NOT MORE THAN 44 INCHES (118 MM) ABOVE THE FLOOR: WHERE THE SILL HEIGHT IS BELOW GRADE, IT SHALL BE PROVIDED WITH A WINDOW WELL IN ACCORDANCE WITH SECTION R310.2.3 13. WINDOWS WILL COMPLY WITH INSULATION AND FENESTRATION REQUIREMENTS PER TABLE 402.1.1 14. IT IS THE CONTRACTORS RESPONSIBILITY TO VERIFY ROUGH OPENING SIZES PRIOR TO CONSTRUCTION. 15. GUTTERS AND DOWNSPOUTS TO BE COORDINATED BETWEEN OWNER AND CONTRACTOR 16. WET AREAS All shower and wet areas including tile and shower pans to refer the latest edition of the TCNA Handbook for Ceramic, Glass, Stone Tile Installation, typ* All wet areas to use Durock Cement board (recommended for all tile areas) Acceptable USG Durock Glass -Mat Mold Tough u ■A _ OkAl_ uV I IN ACCORDANCE WITH CHAPTER 471.003(2)(1) OF THE FLORIDA ADMINISTRATIVE CODE; ELECTRICAL, PLUMBING AND MECHANICAL SYSTEMS SHALL BE DESIGNED BY THE RESPECTIVE CONTRACTORS TO MEET ALL APPLICABLE CODES. ANY MECHANICAL, ELECTRICAL, OR PLUMBING SYSTEMS DRAWN HEREON ARE BASED UPON THE OWNERS AND OR CONTRACTOR REQUIREMENTS AND OR SUGGESTIONS. ALL ELECTRICAL OUTLETS IN BATHROOMS, KITCHEN (WITHIN 6 FEET OF SINKS), GARAGE AND AT EXTERIOR LOCATIONS SHALL BE WIRED INTO A GROUND FAULT CIRCUIT INTERRUPTER "GFI" CIRCUIT. ALL OTHER ELECTRICAL OUTLETS SHALL BE WIRED INTO AN ARC - FAULT INTERRUPTER "AFI" CIRCUIT LOCATIONS OF ALL HOSE BIBS SHALL BE COORDINATED IN THE FIELD WITH CONTRACTOR AND OWNER PRIOR TO INSTALL Approved Product List Product category Sub category Manufacturer State of FL Approval # Structural Components SP4 Wood Connector Simpson FL10456.43 H10 Wood Connector Simpson FL10456.6 META24 Masonary Connector Simpson FL11473.18 HETA20 Masonary.Connector Simpson FL11473.3 META14 Truss Connector Simpson FL11473.17 META16 Masonary Connector Simpson FL11473.17 META18 Masonary Connector Simpson FL11473.18 HHETA20 Masonary Connector Simpson FL11473.9 MGT Masonary Connector Simpson FL11470.9 HTT16 Masonary Connector Simpson FL11496.1 LTT208 Masonary Connector Simpson FL11496.3 U24 Wood Connector Simpson FL10655.141 H4 Wood Connector Simpson FL10456.14 MTS12 Wood Connector Simpson FL10456.33 HTS20 Wood Connector Simpson FL10456.23 H16 Wood Connector Simpson FL11470.1 CS16 Wood Connector Simpson FL13872.1 HGT2 Girder Connector Simpson FL10456.18 HGT3 Girder Connector Simpson FL10456.19 HGT4 Girder Connector Simpson FL10456.20 MTSM16 Connector Simpson FL11473.2 LSTA12 Wood Connector Simpson FL13872.5 LSTA18 Wood Connector Simpson FL13872.5 LSTA24 Wood Connector Simpson FL13872.5 LSU26 Joist Connector Simpson FL10447.14 A35 Framing Connector Simpson FL10446.4 Engineered Lumber Laminated Wood Beam Boise Engineered Wood Products FL1644.1 Doors Garage Doors 16'W3 CLOPAY Building Products FL15279.7 Doors Garage Doors 9'W4 CLOPAY Building Products FL15279.12 Doors Garage Doors 16'W4 CLOPAY Building Products FL15279.20 Doors Metal Exterior outswing PGT FL15443 Doors Sliding Glass Door PGT FL251-R30 Doors Fiberglass Exterior Masonite International FL18582.1 Windows Casement PGT FL243 Windows Single Hung PGT FL239 Windows Fixed Glass PGT FL 243-R20 Windows Mullions PGT FL261 Windows Horizontal Slider PGT FL242 Roofing Metal Roofing STEEL ROOFING SYSTEMS FL15837 Roofing Modified Bitumen Roof System GAF Materials Corp. FL16732.1 Roofing Asphalt Shingles Timberlane30 GAF Materials Corp. FL10124.1 Roofing Roofing Tiles Boral Roofing / US Tile FL11647.1 Roofing VentSure Ridge Vent Owens Corring FL10758.1 Roofing Underlayment Owens Corring FL9777.1 Panel Walls Siding James Hardie Building Products Inc. FL15867 Panel Walls Soffits- Vinyl Kaycan LTD FL16503.2 Panel Wails Soffits -Aluminum Kaycan LTD FL12198.1 Panel Walls Siding Kaycan LTD FL15867 Shutters Hurricane Storm Shutters IStomn Smart Industries IFL11291.2 I h <= 90' t m Load Case A Q 4 Gl o" o Load Case B Basic Load Cases Case B Torsion Transverse Direction Longitudinal Direction Torsional Load Cases WIND LOADING ANALYSIS - Main Wind -Force Resisting System Per ASCE 7.16 Code for Enclosed or Partially Enclosed Buildings Using Method 2: Analytical Procedure Section 27 & 28 for Low -Rise Buildings Job Name: 15023 18TH STREET I Sub`ect: Job Number: I 10riginatorlChecker: Input Data: -�^ Wind Speed, V = 130 mph (Wind Map, Figure 26.5-1A-C) Bldg. Classification = II (Table 1.5-1 Risk Category) Wind Exposure Category = l3 (Sect. 26.7) B Ridge Height, hr = 18.50 ft. (hr - he) Eave Height, he = 10.D0 ft. (he - hr) Building Width = 35.00 ft. (Normal to Building Ridge) Building Length = 59.00 ft. (Parallel to Building Ridge) L Roof Type = Monoslope (Gable or Monoslope) Topo. Factor, Kzt = 1.00 (Sect. 26.8 & Figure 26.8-1) Plan Direct. Factor, Kd = 0.85 (Table 26.6) Enclosed? (Y/N) Y (Sect. 26.2 & Table 26.11-1) Hurricane Region? N 0 hr h<=60' Resultina Parameters and Coefficients: Ih. Roof Angle, 0 =1 13.65 Ideg. L Mean Roof Ht., h = 1 14.25 ft. (h = (hr+he)/2, for angle >10 deg.) Elevation Check Criteria for a Low -Rise Building: 1. Is h - 60' ? F es, O.K. 2. Is h - Lesser of L or B? External Pressure Coeffs., GCpf (Fig. 28.4-1): (For values, see following wind load tabulations.) Positive & Negative Internal Pressure Coefficients, GCpf (Table 26.11-1): +GCpi Coef. = 0.18 _ (positive internal pressure) -GCpi Coef. = -0.18 (negative internal pressure) If h < 15 then: Kh = 2.01*(15/zg)^(2/a) (Table 28.3-1) If h - 15 then: Kh = 2.01 * z/z ^(2/a) (Table 28.3-1) (Note: z not < 30' for Exp. B) a = 7.00 (Table 26.9-1) zg = _ 1200 (Table 26.9-1) Kh = 0.70 1 (Kh = Kz evaluated at z = h) Velocity Pressure: qz = 0.00256*Kz*Kzt*Kd *VA 2 (Sect. 28.3.2, Eq. 28.3-1) qh = 25.76 psf qh = 0.00256*Kh*Kzt*Kd *VA 2 (qz evaluated at z = h) Design Net External Wind Pressures (Sect. 28.4.1): p = qh*[(GCpf) - (+/-GCpi)] (psf, Eq. 28.4-1) Wall and Roof End Zone Widths 'a' and '2*a' (Fig. 28.4-1): a = 3.50 7 ft. 2*a =1 7.00 ft. MWFRS Wind Load for Load Case A MWFRS Wind Load for Load Case B Surface GCpf p = Net Pressures(psi),Surface *GCpf p = Net Pressures s w/ +GC i w/ -GCpi) w/ +GC i w/ -GCpi) Zone 1 0.47 7.60 16.87 Zone 1 -0.45 -16.23 6 96 Zone 2 -0.69 -22.41 13.14 Zone 2 -0.69 -22.41 -13.14 Zone 3 -0.43 -15.80 -6 53 Zone 3 -0.37 -14.17 -4.90 Zone 4 -0.37 -14.19 4 91 Zone 4 -0.45 -16.23 -6.96 Zone 5 --- --- --- Zone 5 0.40 5.67 14 94 Zone 6 --- - --- Zone 6 -0.29 -12.11 -2.83 Zone 1 E 0.72 13.90 23.18 Zone 1 E -0.48 -17.00 -7.73 Zone 2E -1 07 32 20 -22 93 Zone 2E -1.07 -32.20 -22.93 Zone 3E -0 62 -20.67 -11.39 Zone 3E -0.53 18.29 -- 9.02 Zone 4E -0.55 -18.84 -9.56 Zone 4E -0.48 17.00 -7.73 Zone 5E --- --- --- Zone 5E 0.61 11.08 _ 20.35 Zone 6E --- --- -- Zone 6E -6.43 15.72 -6.44 *Note: Use roof angle 0 = 0 degrees for Longitudinal Direction. For Case A when GCpf is neg. in Zones 2/2E: For Case B when GCpf is neg. in Zones 2/2E: Zones 2/2E dist. = 17.50 ft. Zones 2/2E dist. =1 25.00 Ift. Remainder of roof Zones 2/2E extending to ridge line shall use roof Zones 3/3E pressure coefficients. MWFRS Wind Load for Load Case A, Torsional Case MWFRS Wind Load for Case B Torsional Case Surface GCpf p = Net Pressure s Surface GCpf p = Net Pressure s w/ +GC i w/ -GCpi) w/ +GC i w/ -GCpi) Zone 1T -- 1.90 4.22 Zone 1T -- -4.06 -1.74 Zone 2T --- -5.60 -3,28 Zone 2T - - -5.60 - - -3.28 Zone 3T --- -3.95 -1.63 Zone 3T -- 3.54 1 22 Zone 4T --- -3.55 -1.23 Zone 4T --- -4.06 -1.74 Zone 5T - -- - Zone 5T - 1.42 3.74 Zone 6T -- -- --- Zone 6T --- -3.03 -0.71 Notes: 1. For Load Case A (Transverse), Load Case B (Longitudinal), and Torsional Cases: Zone 1 is windward wall for interior zone. Zone 1 E is windward wall for end zone. Zone 2 is windward roof for interior zone. Zone 2E is windward roof for end zone. Zone 3 is leeward roof for interior zone. Zone 3E is leeward roof for end zone. Zone 4 is leeward wall for interior zone. Zone 4E is leeward wall for end zone. Zones 5 and 6 are sidewalls. Zone 5E & 6E is sidewalls for end zone. Zone 1T is windward wall for torsional case Zone 2T is Windward roof for torsional case. Zone 3T is leeward roof for torsional case Zone 4T is leeward wall for torsional case. Zones 5T and 6T are sidewalls for torsional case. 2. (+) and (-) signs signify wind pressures acting toward & away from respective surfaces. 3. Building must be designed for all wind directions using the 8 load cases shown below. The load cases are applied to each building corner in turn as the reference corner. 4. Wind loads for torsional cases are 25% of respective transverse or longitudinal zone load values. Torsional loading shall apply to all 8 basic load cases applied at each reference comer. Exception: One-story buildings with "h" - 30', buildings - 2 stories framed with light frame construction, and buildings 2 stories designed with flexible diaphragms need not be designed for torsional load cases. 5. Per Code Section 28.4.4, the minimum wind load for MWFRS shall not be less than 16 psf. FDJ ENGINEERING AND DE510N, LLG CERT. OF AUTHORIZATION 0 30968 FRANKOFD.IENG.rOM ENGINEERING GERTIFICATIGA.TION I HEREBY CERTIFY THAT I HAVE REVIEWED THE ATTACHED DE51(5N AND FOUND IT TO BE IN COMPLIANCE WITH THE FLORIDA BUILDING CODE, 9TH EDITION (2020) - RESIDENTIAL THIS DRAWING AND DE516N 15 VALID FOR 12 MONTHS AFTER THE DATE IT 15 51GNED AND SEALED THIS DRAWING AND DESIGN 15 516NED AND SEALED FOR 5TRUCTURAL ENGINEERING ONLY. FRANK A DEJ05E PE FL PE #1353q 0 .7 1 - i Basic Building Structural Information This table was prepared using Windload Calculator Plus Software available from www.windcalcs.com This information was created in accordance with Chapter 16 of the 2020 Florida Building Code. The Component and Cladding Pressures were generated using the method in Part 2 of Chapter 30 of ASCE 7-16. Floor & Roof Live Loads ( R-3 - Single -Family Dwellings) Attics: 20 psf w/ storage, 10 psf w/o storage Habitable Attics, Bedroom: 30 psf All Other Rooms: 40 psf Garage: 40 psf Roofs: 20 psf (Balcony and Deck live loads are 150% of the adjacent space served.) Wind Design Data Ultimate Wind Speed: 130 mph Nominal Wind Speed: 101 mph Risk Category: II Wind Exposure: B Enclosure Classification: Enclosed End Zone Width (a): 4.00 ft. Internal Pressure Coefficient: 0.18 Roof Geometry: Gable Roof Slope: 6.0 in 12 ( 26.60) Mean Roof Height: 19 ft. (The Ultimate Wind speed was used to determine the Component and Cladding design pressures.) (This Building is not in a Wind -Borne Debris Region, and opening protection is not required.) Components and Claddina Roof Zone 1: Roof Zone 2e: Roof Zone 2n: Roof Zone 2r: Roof Zone 3e: Roof Zone 3r: Overhang at Roof Zone 1: Overhang at Roof Zone 2e: Overhang at Roof Zone 2n: Overhang at Roof Zone 2r: Overhang at Roof Zone 3e: Overhang at Roof Zone 3r: Wall Zone 4: Wall Zone 5: 16' X 7' Garage Door: Design Soil Bearing Capacity: +16.4 psf max., -38.5 psf min. +16.4 psf max., -38.5 psf min. +16.4 psf max., -61.4 psf min. +16.4 psf max., -61.4 psf min. +16.4 psf max., -61.4 psf min. +16.4 psf max., -79.2 psf min. -45.8 psf min. -45.8 psf min. -68.8 psf min. -68.8 psf min. -82.5 psf min. -95.6 psf min. +27.1 psf max., -29.4 psf min. +27.1 psf max., -36.2 psf min. +23.1 psf max., -25.8 psf min. 2,000 psf ALL WORK SHAD - COMPLY WITH CODES FLORIDA t9UIt_DING ('Cf)F NATIONAL ELECTRIC CODE, AND THE CITY or, 7Fpf4-,Hll_!._S ORDINANCFG REVIEW DATE CITY OF ZEPNY LLS-- PLAN EXAMINER r cz� 2 �7 a V w Q } LU J ED w it-- LO O } w tll w lw Q 0 w m z L PROVIDED BY: 2721 Agnes St Tampa FL 33619 813 313 0045 C _ c L c DATE: 11/17/2021 SCALE : SHEET: 0-1