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05-0454 273 Shoup Ave W Plans
WALLS AND INTERIOR PARTITIONS, vvoOD-FRAMED GA FILE NO. WP 4135 GENERIC 2 HOUR 40 to 44 STC FIRE SOUND GYPSUM WALLBOARD,WOOD STUDS Base layer 5/a"type X gypsum wallboard or gypsum veneer barje applied at right angles to each side of 2 x 4 wood studs 24"o.c.with 6d coated nails, 17/e"long,0.085"shank,1/4" heads,24"o.c.Face layer 5/8"type X gypsum wallboard or gypsum veneer base applied at right angles to each side with 8d coated nails,23/8"long,0.100"shank, 1/4"heads,8" O.C. Joints staggered 24" each layer and side. Sound tested with studs 16" o.c. and with nails for base layer spaced 6"o.c. (LOAD-BEARING) Thickness: 61/8" Approx.Weight: 12 psf Fire Test: FM WP 360,9-27-74 Sound Test: NGC 2363,4-1-70 GA FILE NO. WP 4136 GENERIC 2 HOUR 40 to 44 STC GYPSUM WALLBOARD,WOOD STUDS FIRE SOUND Base layer 5/a"type X gypsum wallboard or veneer base applied parallel or at right angles to each side of 2 x 4 wood studs 16"o.c.with 11/4"Type W drywall screws 12"o.c.Face layer 5/e"type X gypsum wallboard or veneer base applied parallel or at right angles to each side with 17/8"Type W drywall screws 12" o.c. and offset 6"from screws in base layer. Joints staggered 16"each layer and side. (LOAD-BEARING) Thickness: 61/8" Approx.Weight: 12 psf Fire Test: SWRI 01-5920-614, 12-5-94 Sound Test: See WP 4135 (NGC 2363,4-1-70) GA FILE NO. WP 4230 GENERIC 2 HOUR GYPSUM WALLBOARD,WOOD STUDS, FIRE MINERAL FIBER INSULATION Base layer 5/e"type X gypsum wallboard applied at right angles to each side of 2 x 6 wood studs 24"o.c. with 21/4" Type S or W drywall screws 24" o.c. Face layer 5/8" type X gypsum wallboard applied at right angles to each side with 21/4"Type S drywall screws 8"o.c. 51/2"mineral fiber insulation, nominal 3 pcf,friction fit in stud space. Joints staggered 24"each layer and side. R) Tested at 5,506 Ibs per stud or 100 percent of design load. (LOAD-BEARING) Thickness: 8" Approx.Weight: 13 psf Fire Test: ITS J20-06170.3, 12-00 This Space Left Blank 62 GA-600-2003 i Permit Number Ap- 6, ZI-os Envelope Compliance Certificate Checked By/Date 2003 IECC COMcheck-EZ Software Version 3.0 Release 2 Data filename: C:\Program Files\Check\COMcheck-EZ\Step Ahead.cck Section 1: Project Information Project Name: Step Ahead Leaming Center 273 Shoup Avenue West Designer/Contractor Ivan Stone RECEIVED Document Author: Ivan Stone Notes: Addition to existing building jUN 0 1 2005 Section 2: General Information 13UI OF �GDP FALLS' Building Location (for weather data): Twin Falls, Idaho Climate Zone: 14a Heating Degree Days(base 65 degrees F): 6769 Cooling Degree Days(base 65 degrees F): 329 Project Type: New Construction Window/Wall Ratio: 0.18 Activity TyQ ) Floor Area Classroom/Lecture Hall 3155 Corridor, Restroom, Support Area 1433 Office 1675 Section 3: Requirements Checklist Bldg. Dept. Use Air Leakage, Component Certification, and Vapor Retarder Requirements [ ] 1. All joints and penetrations are caulked, gasketed, weather-stripped, or otherwise sealed. j ] 2. Windows, doors, and skylights certified as meeting leakage requirements. [ ] 3. Component R-values & U-factors labeled as certified. [ ] 4. Stair, elevator shaft vents, and other dampers integral to the building envelope are equipped with motorized dampers. [ ] 5. Cargo doors and loading dock doors are weather sealed. [ ] 6. Recessed lighting fixtures are: (i)Type IC rated and sealed or gasketed; or(ii)installed inside an appropriate air-tight assembly with a 0.5 inch clearance from combustible materials and with 3 inches clearance from insulation material. [ ] } 7. Building entrance doors have a vestibule and equipped with closing devices. Exceptions: Building entrances with revolving doors. Doors that open directly from a space less than 3000 sq. ff. in area. l Climate-Specific Requirements Gross Area or Cavity Cont. Proposed Budget Component Name/Description Perimeter R-Value -Value U-Factor -F to Roof 1: All-Wood Joist/Railer/Truss 6384 38.0 0.0 0.028 0.055 Exterior Wall 1: Wood Frame, Any Spacing 2812 19.0 0.0 0.068 0.080 Window 1: Vinyl Frame:Double Pane, Clear, SHGC 0.62 494 — — 0.500 0.553 Door 1: Solid 160 — -- 0.200 0.128 Floor 1: Slab-On-Grade:Unheated, Vertical 2$. 232 — 12.0 — — (a)Budget U-factors are used fDr software baseline calculations ONLY,and are not code requirements. FnveIope PASSES: Design 2 5%better than code Section 4: Compliance Statement The proposed envelope design represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed envelope system has been designed to meet the 2003 IECC requirements in COMeheck--EZ Version 3.0 Release 2 and to comply with the mandatory requirements in the Requirements Checklist. Principal Envelope Designer-Name Signature Date Permit Number Checked By/Date Lighting Compliance Certificate 2003 IECC COMckeck--EZ So$ware Version 3.0 Release 2 Data filename: C:\Program Files\Check\COMcheck-EZ\Step Ahead.cck Section 1: Project Information Project Name: Step Ahead Learning Center 273 Shoup Avenue West Designer/Contractor. Ivan Stone Document Author: Ivan Stone Notes: Addition to existing building Section 2: General Information Building Use Description by: Activity Type Project Type: New Construction Floor Area Activity Tvoe(sl 3155 Classroom/Lecture Hall 1433 Corridor, Restroom, Support Area 1675 Office Section 3: Requirements Checklist Bldg. j Dept. j Use J J Interior Lighting ( ] J 1. Total actual watts must be less than or equal to total allowed watts Allowed Watts Actual Watts Complies(Y/1) J 7549 5882 YES J J Exterior Lighting ( ] 1 2. Efficacy greater than 45 lumens/W Exceptions: J Specialized lighting highlighting features ofbistoric buildings; signage; safety or security lighting; 1 low-voltage landscape lighting. 1 J Controls, Switching, and Wiring [ ] J 3. Independent controls for each space(switch/occupancy sensor). 1 Exception: Areas that must be continuously illuminated. ( ] 1 4. Master switch at entry to hotel/motel guest room. ( ] 1 5. Individual dwelling units separately metered. [ ] J 6. Each space provided with a manual control to provide uniform light reduction capability. Exceptions: J Only one luminaire in space; An occupant-sensing device controls the area; The area is a corridor, storeroom, restroom, or lobby; Areas that must be continuously illuminated; J Areas that use less than 0.6 Watts/sq.8. [ ] J 7. Automatic lighting shutoffcontrol in buildings larger than 5,000 sq.R. [ ] 8. Photocell/astronomical time switch on exterior lights. Exceptions: Areas requiring lighting during daylight hours [ ] 9. Tandem wired one-lamp and three-lamp ballasted luminaires. J Exceptions: J Electronic high-frequency ballasts; Luminaires on emergency circuits or with no available pair. Section 4: Compliance Statement The proposed lighting design represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed lighting system has been designed to meet the 2003 IECC, Chapter 8, requirements in COMcheck-EZ Version 3.0 Release 2 and to comply with the mandatory requirements in the Requirements Checklist. Principal Lighting Designer-Name Signature Date 7 Lighting Application Worksheet 2003 IECC COMcheck-EZ So$ware Version 3.0 Release 2 Section 1: Allowed lighting Power Calculation A B C D Total Floor Allowed Allowed Area Watts Watts Area Cateeory (82) (watts/ft2) (a xx_Q Classroom/Lecture Hall 3155 1.4 4417 Corridor, Restroom, Support Area 1433 0.9 1290 Office 1675 1.1 1843 Total Allowed Watts= 7549 Section 2: Actual Lighting Power Calculation A B C D E F Fixture Fixture Description/ Lamps/ #of Fixture ID Lamp Description/Wattage Per Lamp/Ballast Fixture Fixtures Watt. (D x E) 1 48" T8 32W /Electronic 3 61 96 5856 2 Other/Electronic 1 2 13 26 Total Actual Watts = 5882 Section 3: Compliance Calculation If the Total Allowed Watts minus the Total Actual Watts is greater than or equal to zero, the building complies. Total Allowed Watts= 7549 Total Actual Watts= 5882 Project Compliance= 1667 Lighting PASSES: Design 22%better than code Permit Number Mechanical Compliance Certificate Checked By/Date 2003 IECC COMcheck EZ Soflware Version 3.0 Release 2 Data filename: C:\Program Files\Check\COMcheck-EZ\Step Ahead.cck Section 1: Project Information Project Name: Step Ahead Learning Center 273 Shoup Avenue West Designer/Contractor. Ivan Stone Document Author. Ivan Stone Notes: Addition to existing building Section 2: General Information Building Location (for weather data): Twin Falls, Idaho Climate Zone: 14a Heating Degree Days(base 65 degrees F): 6769 Cooling Degree Days (base 65 degrees F): 329 Project Type: New Construction Section 3: Mechanical Systems Ust Quotity System Type& DescriptiL)n 1 HVAC System 1: Heating: Duct Furnace, Gas/Cooling: Field-Assembled DX System, Capacity>=65 - <90 kBtu/h, Air-Cooled Condenser/ Single Zone 1 HVAC System 3: Heating: Central Furnace, Gas/Cooling: Field-Assembled DX System, Capacity>=65 - <90 kBtu/h, Air-Cooled Condenser/Single Zone 1 Storage Water Heater 1: Service Water Heater Section 4: Requirements Checklist Bldg. Dept. Use j Requirements Specific To: HVAC System 1 [ ] 1. Equipment minimum efficiency: Duct Furnace(Gas): 80%Ec [ ] 2. Specified equipment consists of field-assembled components-efficiency documentation provided Requirements Specific To:HVAC System 3 [ ] 1. Newly purchased heating equipment meets the heating efficiency requirements [ ] 2. Specified equipment consists of field-assembled components-efficiency documentation provided Requirements Specific To: Storage Water Heater 1 [ ] 1. Heat traps in inlet/outlet fittings [ ] 2. 1/2-in, insulation on 8 1 of inlet/outlet piping ifno integral heat traps [ ] 3. Electric Water Heater efficiency>= 0.85 EF, 291 SL, Btu/h(if> 12 kW) Generic Requirements: Must be met by all systems to which the requirement is applicable [ ] ( 1. Load calculations per 1997 ASHRAE Fundamentals [ ] 2. Plant equipment and system capacity no greater than needed to meet loads -Exception: Standby equipment automatically offwhen primary system is operating -Exception: Multiple units controlled to sequence operation as a function of load [ ] 3. Minimum one temperature control device per system [ ] E 4. Minimum one humidity control device per installed humidification/dehumidification system [ ] ( 5. Thermostatic controls has 5 degree F deadband -Exception: Thermostats requiring manual changeover between heating and cooling [ ] J 6. Automatic Controls: Setback to 55 degree F (heat)and 85 degree F (cool); 7-day clock, 2-hour occupant override, 10-hour backup 1 -Exception: Continuously operating zones -Exception: 2 kW demand or less, submit calculations [ ] 7. Automatic shut-offdampers on exhaust systems and supply systems with airflow>3,000 cfm [ ] 8. Outside-air source fDr ventilation; system capable ofreducing OSA to required minimum [ ] 9. R-5 supply and return air dud insulation in unconditioned spaces R-8 supply and return air duct insulation outside the building R-8 insulation between ducts and the building exterior when ducts are part of building assembly -Exception: Ducts located within equipment -Exception: Ducts with interior and exterior temperature diTmence not exceeding 15 degree F. [ ] 10. Ducts sealed-longitudinal seams on rigid ducts; transverse seams on all ducts; UL 181A or 181B tapes and mastics -Exception: Continuously welded and locking-type longitudinal joints and seams on ducts operating at static pressures less than 2 inches w.g. pressure classification [ ] 11. Mechanical fasteners and sealants used to connect ducts and air distribution equipment [ J 12. Hot water pipe insulation: 1 in. f)r pipes<=1.5 in. and 2 in. for pipes>1.5 in. Chilled water/refrigerant/brine pipe insulation: 1 in. fDr pipes <=1.5 in. and 1.5 in. for pipes>1.5 in. Steam pipe insulation: 1.5 in. tar pipes<=1.5 in. and 3 in, for pipes >1.5 in. -Exception: Piping within HVAC equipment -Exception: Fluid temperatures between 55 and 105 degree F -Exception: Fluid not heated or cooled -Exception: Runouts<4 1 in length [ ] 13. Operation and maintenance manual provided to building owner [ ] 14. Balancing devices provided in accordance with IMC 603.15 ] 15. Newly purchased service water heating equipment meets the efficiency requirements [ J 16. Water heater temperature controls: 110 degree F for dwelling units or 90 degree F { for other occupancies [ ] 17. Stair and elevator shag vents are equipped with motorized dampers Section 5: Compliance Statement The proposed mechanical design represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed mechanical systems have been designed to meet the 2003 IECC requirements in COMcheck-EZ Version 3.0 Release 2 and to comply with the mandatory requirements in the Requirements Checklist. 7 Principal Mechanical Designer-Name Signat Date Mechanical Requirements Description 2003 IECC COMcheck--EZ Software Version 3.0 Release 2 Data filename: C:\Program Files\Check\COMcheck-EZ\Step Ahead.eck The following list provides more detailed description of the requirements in Section 4 of the Mechanical Compliance Certificate. Requirements Specific To: HVAC System l 1. The specified heating and/or cooling equipment is covered by the ASHRAE 90.1 Code and must meet the following minimum efficiency: Duct Furnace(Gas): 80%Ee 2. The specified cooling system consists of field-assembled components. Documentation must be submitted showing the system meets ASHRAE 90.1 Code equipment efficiency requirements for a comparable package equipment type and capacity range. Requirements Specific To: HVAC System 3 1. The specified heating equipment is covered by Federal minimum efficiency requirements. New equipment ofthis type can be assumed to meet or exceed ASHRAE 90.1 Code requirements for equipment efficiency. 2. The specified cooling system consists of field-assembled components. Documentation must be submitted showing the system meets ASHRAE 90.1 Code equipment efficiency requirements fz)r a comparable package equipment type and capacity range. Requirements Specific To: Storage Water Heater 1 1. Heat traps are required on noncirculating water heating systems on both inlet and outlet connections. Heat traps may be purchased or field-fabricated by creating a loop or inverted U-shaped arrangement on the inlet and outlet pipes. 2. Pipe insulation for the specified noncirculating service hot water system is required for all piping in the following categories:a)the first 8 fl of outlet piping from any constant-temperature, noncirculating storage systemb)the inlet piping between the storage tank and a heat trap in a noncirculating storage systernPipe insulation must be at least 1/2 in. and have a conductivity no>0.28 Btu-in/(h•$2-degree F). 3. Service water heating equipment used solely for heating potable water, pool heaters, and hot water storage tanks must meet the following miniumum efficiency: Electric Water Heater efficiency>= 0.85 EF, 291 SL, Btu/h(if> 12 kW) Generic Requirements: Must be met by all systems to which the requirement is applicable 1. Design heating and cooling loads for the building must be determined using procedures equivalent to those in Chapters 27 and 28 of the ASHRAE Handbook of Fundamentals or an approved equivalent calculation procedure. 2. All equipment and systems must be sized to be no greater than needed to meet calculated loads. A single piece of equipment providing both heating and cooling must satisfy this provision for one function with the capacity for the other function as small as possible, within available equipment options. -Exception: The equipment and/or system capacity may be greater than calculated loads for standby purposes. Standby equipment must be automatically controlled to be offwhen the primary equipment and/or system is operating. -Exception: Multiple units of the same equipment type whose combined capacities exceed the calculated load are allowed ifthey are provided with controls to sequence operation ofthe units as the load increases or decreases. 3. Each heating or cooling system serving a single zone must have its own temperature control device. 4. Each humidification system must have its own humidity control device. 5. Thermostats controlling both heating and cooling must be capable of maintaining a 5 degree F deadband (a range of temperature where no heating or cooling is provided). -Exception: Deadband capability is not required if the thermostat does not have automatic changeover capability between heating and cooling. b. The system or zone control must be a programmable thermostat or other automatic control meeting the following criteria:a) capable of setting back temperature to 55 degree F during heating and setting up to 85 degree F during coolingb) capable of automatically setting back or shutting down systems during unoccupied hours using 7 different day schedulesc) have an accessible 2-hour occupant ovenided) have a battery back-up capable of maintaining programmed settings fx at least 10 hours without power. -Exception: A setback or shutoffcontrol is not required on thermostats that control systems serving areas that operate continuously. -Exception: A setback or shutoffcontrol is not required on systems with total energy demand oft kW (6,826 Btu/h) or less. 7. Outdoor-air supply systems with design airflow rates>3,000 cfn ofoutdoor air and all exhaust systems must have dampers that are automatically closed while the equipment is not operating. 8. The system must supply outside ventilation air as required by Chapter 4 of the International Mechanical Code. If the ventilation system is designed to supply outdoor-air quantities exceeding minimum required levels, the system must be capable of reducing outdoor-air flow to the minimum required levels. 9. Air ducts must be insulated to the fallowing levels:a) Supply and return air ducts fDr conditioned air located in unconditioned spaces(spaces neither heated nor cooled)must be insulated with a minimum ofR-5. Unconditioned spaces include attics, crawl spaces, unheated basements, and unheated garages.b) Supply and return air ducts and plenums must be insulated to a minimum ofR-8 when located outside the building.c) When ducts are located within exterior components (e.g., floors or roofs), minimum R-8 insulation is required only between the duct and the building exterior. -Exception: Duct insulation is not required on ducts located within equipment. -Exception: Duct insulation is not required when the design temperature difference between the interior and exterior of the duct or plenum does not exceed 15 degree F. 10. All joints, longitudinal and transverse seams, and connections in ductwork must be securely sealed using weldments; .mechanical fastenets with seals, gaskets, or mastics; mesh and mastic sealing systems; or tapes. Tapes and mastics must be listed and labeled in accordance with UL 181A or UL 181B. -Exception: Continuously welded and locking-type longitudinal joints and seams on ducts operating at static pressures less than 2 inches w.g. pressure classification. 11. Mechanical fasteners and seals, mastics, or gaskets must be used when connecting ducts to fans and other air distribution equipment, including multiple-zone terminal units. 12. All pipes serving space-conditioning systems must be insulated as fellows: Hot water piping for heating systems: 1 in. for pipes <=1 1/2-in. nominal diameter 2 in. far pipes >1 1/2-in. nominal diameter. Chilled water, refrigerant, and brine piping systems: 1 in. insulation for pipes <=1 1/2-in. nominal diameter 1 1/2 in. insulation for pipes>1 1/2-in. nominal diameter. Steam piping: 1 1/2 in. insulation for pipes<=1 1/2-in. nominal diameter 3 in. insulation for pipes>I 1/2-in. nominal diameter. -Exception: Pipe insulation is not required for factory-installed piping within HVAC equipment. -Exception: Pipe insulation is not required for piping that conveys fluids having a design operating temperature range bettveLn 55 delis F and 105 degmes F. - i=ention: Pipe insulation is not required fiir piping that conveys fluids that have not been heated or cooled through the use of fossil fuels or electric power. -Exception: Pipe insulation is not rL uired far runout piping not exceeding 4 f in.length and I in. in diameter between the control valve and 1IVAC coil_ 13, =`penalion ind rnainternTwe dok:umentlation roust be provided to the owner that includes at least the fallowing iriomNtion::i) equipment capac-ity(input and output)and required maintenance actionsb) equipment operation and m-lintcrian:e maant also) 14 vAC sy-tctn ccntn)l maintetrance and calibration inf)rmation, including wiring diagrams, schematics, and control sequence descriptions; desired or field-determined set points (bust be permaviently record,vi on control drawings, at control devices, or. Cr digital control syste'.ris, in programming c{,,W,irL`ntsd) compIcte nary`<[fVe of how each system is intended to operate. 14. Each supply air outlet or diflrser and each zone terminal device(such as VAV or mixing box)must have its own 16 balancing device. Acceptable balancing devices include adjustable dampers located within the ductwork, terminal devices, and supply air diffizsers. 15. Service water heating equipment must meet minimum FOeral efficiency requirements included in the National Appliance Energy Conservation Act and the Energy policy Act of 1992, which meet or exceed ASHRAE 90.1 Code. New service water heating equipment can be assumed to meet these requirements. 16. Water-herring egiainment inust be provided with controli that allow the user to set the water temperature to 110 degree F fDr dwelling units and 90 degree F tar other occopancie-s. Controls must limit output tc:�;pertrtrr=ts of lavatories in public facility restrooms to 110 degree F. 17. Stair and elevator shag vents must be equipped with motorizes dampers capable ofbcing uutoink ically closed&Irinc r:amial build ng operation and interiocked to open as required by fire and smoke detection systems. All gravity nut€#.,or air supply and exhaust hoods, vents, aid ventilators must be equipped with motorized dampers that will a:tn-r,mLicaliy shut wl:er the spa.;, served are not in use. xcentions: -Gravity(non-motorized)dampers are acceptable in buildings less than three stories in height above grade. - Ventilation s}stems serving unconditioned spaces. Zq5•�33 _ it r Y�1J la o 120 0' K . A t �, Q\NC Fn,z CDVGATO`•) \L J J E- 1 I � T� _ i — C�J1`) :,`T C?J C-C\�J�J V-N ALLO W A,_i.!` � r• 9.100 '��:�4°I° 13U1L.DfJ(, S.F, '1482 -- �Bi anshaveienwgePand ap oved ONE. 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C I2'-\T G2f\T� ZOOS 3UILOINC. �DD1"CION �IS12 SF �512 • t:G -.'75�12 .� Fni3RIC .75 1S f3LDG(_97) Lt=SS LAWN<.20) ySl C.F_ 40/ 1128 C.F. 40v VO!D GCZAVLl1),t; uNCP �1`5 Nl_In1 v1 , RGC�if 1laG� PlT IN T-- `;T\Q(G PtZA)WACrz LOW 'PONT I i _r ARN1Iv G CENTcR AFR!L 27 2J'�` m 41, — — it � I Ii I � II II � � 22' 'S' L_� �_ 23 l: I l I 4 9• _ I'1 0 �" l 1 1,1 R-38 I G DyP I9 -� r li x - N° CONC SLAII W/ Ian 7 JZI-_2 DT-- `-f ARD I I I S' BRIT nio s1ATc 8'. �ASC1A✓ �eNTcca c RNI cr J - 5Je' cy?o 2.( O 2'o ` i i N40OT 4,0 ^2•C TRCATEO k-- 2"l. TRCA?ReA U.0 Ilz'AA. 6� � ! a •4 \ltRT O 5'0" WALL SECT)ON VT 1'-0' 22 0" 21' Ci A 1 01 4dU. (p o� Jun-15-2005 08:30 From-BOISE EWP WHITE CITY OR +95418260219 T-253 P.001/003 F-851 ds «} Eloise Building Solutions Engineered Wood Products Product Applications P.O_Box 2400 White City,Oregon 97503-0400 Phone:800-232-0788 RECEIVED Fax:541-82M219 JUN 21 2005 DATE: 6/15/06 CITY OF TWIN FALLS BUILDING DEPT. TO: Ivan Stone FROM: Boise EWP RE: 2 hr assetAbly Please see attached. Thank you David BGI6Joists,Versa-Lam®&Boise Glulam Products tagineeeed to,Build Repuludom 1 ,11-16-2005 08:30 From-BOISE EWP WHITE CITY OR +95418260219 T-253 P-002/003 F-851 7 Engineered Wood Products It Finish Flooring: 5/8*thick or thicker sheets of interior plywood or oriented strand board, Manufactured with exterior glue having tongue and groove edges along the 8 ft side of 4 It x a It sheets,shall be installed perpendicular to the joists with the end joints centered overthe top flange of the I-joists,and placed so the end joints are staggered. The application of the plywood or oriented strand board(OSR)shall comply with the specifications and recommendations provided by the American Plywood Association. A lightweight concrete topping may be(but does not have to be)applied over the plywood or OSB.Generally,this topping should be 3/4"thick or thicker,following the architectural specification and topping manufacture's guidelines- •Structural Members: A minimum 9-1/2"deep wooden 116ist Spaced at a maximum of 244 o.c. can be used in this assembly.The joist application should follow the installation recommendations developed by BOISE.Holes may be cut into the web in accordance with the BOISE installation guidelines. •Gypsum Wallboard Ceiling: Three layers of Type C gypsum wallboard are used in this assembly. Each sheet is assumed to be a minimum of 4 ft wide.The gypsum wallboard attached directly to the 1-joist shall be Placed perpendicular to the I-joist.The gypsum wallboard attached to the furring channels is assumed to be installed perpendicular to the furring channels.The ceiling is created as follows: Wallboard Layer 1:The first 518"layer of gypsum wallboard is attached directly to the bottom chord of the I-joist using 1-1/4'Type S bugle-head screws spaced 6"o.c_along wallboard ends and edges.and 121 o.c.in the field.The application of the Type C gypsum wallboard shag follow the manufacture's installation instructions.The wallboard end joints-should be centered on the bottom flange of the 1-joist,and should be staggered.The minimum end distance(di in from 4 ft end of wallboard i-e-,butt end)allowed for the base st ce stance distance(distance from 8'. 10',Oct,side of wallboard)is 1-1/2"layer is 3/8.The minimum edge •Furring Channel: Resilient or inverted hat-type furring channels are placed over the top of the first layer of 5181 Type 0 gypsum wallboard.The channels are made of 25 gauge galvanized steel, and installed perpendicular to the structural members.The channels are spaced at a maximum of 24"o.c.,and attached to each I-joist(through the gypsum)with one 1-7/8"Type S screw- •Wallboard Layer 2;This layer of 5181 Type 0 gypsum wallboard is then attached to the furring or resilient channels.Layer 2 is attached with 1"or 1-1/4"Type S screws spaced at a maximum of 6"o.c.The end joints of each gypsum wallboard sheet shall be centered on the resilient or furring channel.End distance shall be a minimum of 5/8". Edge distance shall be a minimum of 1-1/2". Wallboard Layer 3:The finish layer of 518"Type C gypsum wallboard shall be attached to each resilient or furring channel with 1-518"or 1-7/8"Type S screw that passes through the wallboard layer 2.The screws shall be spaced at a maximum of 6"o.c.End distance shall be a Minimum of 518".Edge distance shall be a minimum of 1-1/2".The end and edge joints of the finish layer of gypsum should be staggered at a minimum of 2411 from the joints that exist in layer 2.The and joints of the face layer must be centered on the furring channels.H this is not the case,end joints shall be attached to wallboard layer 2 with 1-1/2"type G screws spaced a d n en and edge distance of 1-1/2'. ce All screws shall be set so that are flush with the face of the wallboard and do not damage the care of the wallboard. •Wallboard Screws: Type S bugle head screws that are self drilling and self tapping shall be used_ Whereneeded,Type G wallboard screws Can also be used.Screws shall meetASTM C102 or ASTM C954 standards. Finishing Systems: The face layer joints shall be covered with tape and coated with joint Compound. Screws shall also be covered with joint Compound- 2 Hr Assembly Page 2 of 2 JL11Y 2004 2 n-15-2005 08:31 From-BOISE EWP WHITE CITY OR +95418260219 T-253 P-003/003 F-851 'Ya Engineered Wood Products a "'00S yl Alt INSTALL 2 HOUR ASSEMBLY PER INSTRUCTIONS ON PAGE 2/2 SUB-FLOORING BOI"!D JOIST 24�' 0.C. MAX, > FURRING CHANNELS (SIMILAR) (3) LAYERS OF GYPSUM WALLBOARD SIDE VIEW NTS S 16 JOIST -(SIMILAR) � 24" Q_C. MAX. (3)LAYERS OF TYPE"C" GYPSUM WALLBOARD END VIEW NTS 2 Hr Asaambly Page I of 2 July 2004 3 24'o' c o 4' o 2l$G O 2 2 -- -- -- - - - o" `� o• 1' r.• _ s' � __s.o_' t 7 0 Nc. c. 9' a �' _. S S' �" e � - b-o" S °'_ - -� ° --3 - G O---;--5 3`_-{• J OI p � -JuNc 19.2005 I s, Ali A O Q A A A Cc 1 I o •n 9'O° CerU1JG I 10'O C@IL11V(, 301.0 'CLASSROOM � � cr_MNG w n Q A A N - - _ RECEIVED D � z ua rya N 2 0 2005, jn O CITY OF TWIN FALLS BUILDING DEFT. 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