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Home My WebLink AboutT705Smooth Penetrator - Block System No. W -J -3048 F Rating - 2 Hr T Rating - 0 Hr A ,,,.. - �.,Jal !E, �, , . ,_ I I 11 -'':, 'O'W - _A Sectim A-A UL SYSTEM NUMBER W -L -3048 F RATING - 2 HOUR Smooth Penetrator - Block System 1. Wall Assembly - Minimum 6" thick reinforced lightweight or normal weight(100- 150pcf) concrete. Wall may also be constructed of any UL classified Concrete Blocks 2. Cables -- Aggregate cross - sectional area of cables in Smooth Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Smooth Sleeve. Cables shall be rigidly supported on both sides of the wall assembly. 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Smooth steel sleeve device incorporating flat washers secured by sliding compression couplers Device shall be installed in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4 ",2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material * -- Sealant - Minimum of 1" thickness of fill material applied within the Smooth Sleeve, flush with both ends. * Bearing the UL classification Marking Split Sleeve - Block System No. W -J -3047 F Rating - 2 Hr T Rating - 0 Hr � —A _ E ; � " _W -1 , IA Section A =A UL SYSTEM NUMBER W -L -3047 F RATING -2 HOUR Split Sleeve - Block System 1. Wall Assembly - Minimum 6" thick reinforced lightweight or normal weight(100- 150pcf) concrete. Wall may also be consgtructed of any UL classified Concrete Blocks 2. Cables - Aggregate cross - sectional area of cables in the Split Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Split Sleeve Cables shall be rigidly supported on both sides of the wall assembly. 3, Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Threaded Split Sleeve halves incorporating split nuts and split washers sized to fit the specific diameter of the opening Device shall be installed around cables in accordance with the accompanying installation instructions and bushings shall be applied to each end. Device provide in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4 ", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity -- Sealant - Minimum of 1 " thickness of fill material* material applied within the Smooth Sleeve, flush with both ends. * Bearing the UL classification Marking Threaded Penetrator - Block System No. W -J -3049 F Rating - 2 Hr T Rating - 0 Hr —A THROUGH CONCRETE WALL PENETRATIONS Scale = NONE System No. W -L -3218 F Ratings - 1, 2, 3 and 4 Hr (See Item 1) T Ratings - 3/4 and 1 Hr (See Item 3) L Rating At Ambient - 4 or 7 SUM (See Item 3) L Rating At 40OF - 2 or 3 SUM (See Item 3) 1 _A 1 I , ,. j`f III j I „ _. -1 _ !i ! i 1 - �' 1 ; —A Guide XHEZ Section A -A Th,ouy.Penetretcn Fi,. I Systems 1. Wall Assembly — The 1, 2, 3 or 4 hr fire -rated gypsum boarcVstud wall assembly shall be constructed of the materials and in the manner described within the individual L800 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall incorporate the following construction features: A. Studs — Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced max 16 in. (406 mm) t to be min 3 -1/2 in. 89 mm wide OC. Steel studs ( ) and spaced max 24 in. (610 mm) OC. B. Gypsum B oard* — Thickness, t YPe number of layers and fasteners as specified in the individual Wall and Partition Design Opening in gypsum board to be max 1/4 in. (6 mm) larger then width and height dimensions of firestop device(s). The hourly F Rating of the firestop system is dependent upon the hourly rating of the wall in which it is installed 2. Firestop Device* — One, two, three, four or seven firestop device modules ganged together. Each firestop device module consists of a3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining Firestop device modules to be installed in accordance with the accompanying installation instructions The space between the firestop device module(s) and the periphery of the opening shall be mini) in. ( 0 mm, point contact) to max 1/8 in. (3.2 mm). Firestop device module(s) secured in place by means of steel wall plates installed with gasketing material supplied with product Steel wall plates installed on both sides of wall and secured to each device by means of steel set screws provided with device Each four- and seven - gang steel wall plate shall be fastened to the studs with steel screws sized to extend through the gypsum board layers and penetrate 1/2 in. (13 mm) into the framing member Each firestop device module is to be installed with ends projecting an equal distance beyond each surface of the wall assembly. As an alternate, the four- and seven -gang steel wall plates may be installed directly against the studs for walls having 16 and 24 in. (406 and 610 mm) center -to- center stud spacing, respectively, prior to installation of the gypsum board layers The steel wall plates shall be secured to the stud by means of steel screws After installation of the steel wall plates and firestop device modules, the gypsum board shall be installed as specified in the individual U300 or U400 Design with a maximum 1/8 in. (3.2 mm) gap between the firestop device module and the cutout in the gypsum board Gap between the firestop device module and the cutout in the gypsum board may be filled with gypsum joint compound or fill material (Item 4). SPECIFIED TECHNOLOGIES INC — EZ PATH 2A. Firestop Device* — Extension Module— (Optional, Not Shown) — Module attached to ends of 3 by 3 by 10 -1 /2 in. (76 by 76 by 267 mm) long firestop device (Item 3) to increase its length to facilitate installation in thicker walls Each module consists of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long galv steel tube with an intumescent material I ining. Extension module to be installed in accordance with the accompanying installation instructions. When module is used, firestop device (Item 2) and extension module(s) secured in place by means of steel wall plates installed with ga sketing material supplied with product. Steel wall plates installed on both sides of wall and secured to each device or extension module(s) by means of steel set screws provided with wall plates Firestop device and extension module(s) assembly to be installed with ends projecting an equal distance beyond each surface of the wall assembly SPECIFIED TECHNOLOGIES INC — EZ PATH Extension 3. Cables — Within the loading area for each firestop device module, the cables may represent a 0 to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the firestop device module. Cables to be rigidly supported on both sides of the wall assembly. Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) jacketing and insulation. B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and insulation. D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket F. Max fou r pair No. 22 AWG ( or smaller ) co ppe r conductor data cable with PVC or n jacketing plenum rated � u g and insulation G. Max RG/U coaxial cable with fluorinated ethylene insulation and jacketing H. Fiber optic cable with PVC or polyethylene (PE) jacket and insulation having a max diam of 5/8 in. (16 mm). 1. Optical Fiber Raceway+ — Max 1-1/2 in. (38 mm) diam (or smaller) optical fiber raceway ("innerduct') formed of either PVC or polyvinylidene fluoride (PVDF) with optical fiber cable fill. Raceways installed in accordance with Article770 of the National Electrical Code (NFPA 70). When the hourly rating of the wall assembly is hr, the T Rating is 3/4 hr. When the hourly fire rating of the wall assembly is greater than1 hr, the T Rating is 3/4 hr when Item 3A, 36, 3C, 3D or 3E is used. Otherwise the T Rating is 1 hr. When Item 3A, 3B, 3C, 3D or 3E is used, the maximum F Rating is 2 hr. When max 200 pair No. 24 AWG telecommunication cable is used or when Item3F, 3G, 3H or 31 is used, the maximum F Rating is hr. When Item 3A is used, the L Rating for each firestop device module with 100 percent visual fill of cable is cfm at ambient and 3 cfm at 400F. When Item 3F, 3G or 3H is used, the L Rating for each firestop device module with 100 percent visual fill of cable is 7 cfm at ambient and 2 cfm at 400F. 4. Fill, Void or Cavity Materiar — Sealant or Putty— (Not Shown) — As an alternate to gypsum joint compound, the gap between the firestop device module and the cutout in the gypsum board may be sealed with fill material on each side of the wall assembly when fouF and seven -gang steel wall plates are installed directly against the wood or steel studs SPECIFIED TECHNOLOGIES INC — SpecSeal 100, 101. 102, 105, 120 or 129 Sealant, SpecSeal LCI Sealant, SpecSeal Putty *Bearing the UL Classification Mark Smooth Penetrator - Gypsum System No. W -L -3137 F Ratings -1 and 2 Hr (See Item 1) T Ratings - 0 Hr I 7° I 11 _s _...._ _ - - - - -_- , or . L_A p SW—A-A UL SYSTEM NUMBER W- L-3137 F RATING - 1 HOUR OR 2 HOUR Smooth Penetrator - Gypsum System 1. Wall Assembly - The 1 or 2 hour fire -rated gypsum wallboard/stud wall assembly shall be constructed of the materials and in the manner described in the individual L800 or 0400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features: A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4" lumber spaced 16' OC. Steel studs to be minimum 3 -5/8" wide and spaced 24'_OC. m B. Wallboard, Gypsu' 5/8" thick, 4' wide with square or tapered edges The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual LA00 or U400 Series Designs in the UL Fire Resistance Directory. The Hourly F rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed 2. Cables -- Aggregate cross - sectional area of cables in Smooth Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross-sectional area of the Smooth Sleeve. Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System - The firestop system shall consist of the following A. Firestop Device * -- Smooth steel sleeve device incorporating flat washers secured by sliding compression couplers Device shall be installed in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4' device sizes are 1 1/4 ", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material' -Sea lent - Minimum of 1" thickness of fill material applied within the Smooth Sleeve, flush with both ends * Bearing the UL classification Marking Threaded Penetrator - Gypsum System No. W -L -3138 F Ratings - 1 and 2 Hr (See Item 1) T Ratings - 0 Hr [—A 3e, _ = J.. �.^ �__ —` , A UL SYSTEM NUMBER W- L - -3138 F RATING - 1 HOUR OR 2 HOUR Threaded Penetrator- Gypsum System 1. Wall Assembly - The 1 or 2 hour fire -rated gypsum wallboard/stud wall assembly shall be constructed of the materials and in the manner described in the individual L800 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4" lumber spaced 16" OC. Steel studs to be minimum 3 -5/8" wide and spaced 24" OC. B. Wallboard, Gypsum* -- 518" thick, 4' wide with square or tapered edges The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual L1300 or U400 Series Designs in the UL Fire Resistance Directory. The Hourly F rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed 2. Cables - Aggregate cross - sectional area of cables in Threaded Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Threaded Sleeve. Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Threaded steel sleeve device incorporating flat washers secured by threaded couplers Device shall be installed in accordance With the accompanying installation instructions and bushings shall be applied to each end Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4 ", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material* -- Sealant - Minimum of 1 " thickness of fill material applied within the Smooth Sleeve, flush with both ends * Bearing the UL classification Marking Split Sleeve - Gypsum System No. W -L -3136 F Ratings - 1 and 2 Hr (See Item 1) T Ratings - 0 Hr .A I-A :.8` s�, �. =- r: a'- .A Section A -A UL SYSTEM NUMBER W- L - -3136 F RATING - 1 HOUR OR 2 HOUR The Split Sleeve System for Retrofitting Gypsum 1. Wall Assembly - The 1 or 2 hour fire -rated gypsum wallboard/stud wall assembly shall be constructed of the materials and in the manner described in the individual U300 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4" lumbe r spaced ced 16" OC. Steel studs to be minimum 3 -5/8" wide and spaced 24" OC. B. Wallboard, Gypsum* -- 5/8" thick, 4' wide with square or tapered edges The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual LJ300 or U400 Series Designs in the UL Fire Resistance Directory. The Hourly F rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed 2. Cables -- Aggregate cross - sectional area of cables in the Split Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Split Sleeve Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device - Threaded Split Sleeve halves incorporating split nuts and split washers sized to fit the specific diameter of the opening Device shall be installed around cables in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provide in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material* --Sealant -Minimum of 1" thickness of fill material applied within the Smooth Sleeve, flush with both ends. * Bearing the UL classification Marking Syste m No. W -L -3265 F Ratings - 11 2, 3 and 4 Hr (See Items 1 and 3) T Ratings - 3/4, 1 and 1 -1/2 Hr (See Item 3) 2 r. 3 2 w .. 1B �L A ) (1 A Guide XHEZ 1," Through - Penetration Firestop Systems Section A-A 1. Wall Assembly — The 1, 2, 3 or 4 hr fire -rated gypsum board/stud wall assembly shall be constructed of the materials and n in the manner described within the individual 1800 or U400 Series a ma e d s Wall or Partition Designs in the UL Fire Resistance Directory and shall incorporate the following construction features A. Studs — Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced max 16 in. (406 mm) OC. Steel studs to be min 3 -1/2 in. (89 mm) wide and spaced max 24 in. (610 mm) OC. B. Gypsum Board* — Thickness, type, number of layers and fasteners as specified in the individual Wall and Partition Design Max diam of opening to be 4 in. (102 mm). The hourly F Rating of the firestop system is dependent upon the hourly rating of the wall in which it is installed. 2. Firestop Device* — Single firestop device module consisting of a 3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining Firestop device module to be installed in accordance with the accompanying installation instructions The space between the firestop device module(s) and the periphery of the opening shall be mini) in. ( 0 mm, point contact) to max 1/2 in. (13 mm). Firestop device module(s) secured in place by means of circular steel wall plates installed with gasketing material supplied with product Circular steel wall plates installed on both sides of wall and secured to each device by means of steel set screws provided with device Firestop device module is to be installed with ends projecting an equal distance beyond each surface of the wall assembly. SPECIFIED TECHNOLOGIES INC — EZ PATH 2A. Firestop Device — Extension Module — (Optional, Not Shown) — Module attached to ends of by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long firestop device (Item 3) to increase its length to facilitate installation in thicker walls Each module consists of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long gaiv steel tube with an intumescent material lining. Extension module to be installed in accordance with the accompanying installation instructions. When module is used, firestop device (Item 2) and extension module(s) secured in place by means of steel wall plates installed with gasketing material supplied with product. Steel wall plates installed on both sides of wall and secured to each device or extension module(s) by means of steel set screws provided with wall plates Firestop device and extension module(s) assembly to be installed with ends projecting an equal distance beyond each surface of the wall assembly. SPECIFIED TECHNOLOGIES INC — EZ PATH Extension 3. Cables — Within the loading area for the firestop device module, the cables may represent a 0 to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the firestop device module. Cables to be rigidly supported on both sides of the wall assembly. Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) jacketing and insulation. B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and insulation. D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket F. Max four pair No. 22 AWG (or smaller) copper conductor data cable with polyvinyl chloride (PVC) jacketing and insulation. G. Max RG /U coaxial cable with fluorinated ethylene insulation and jacketing H. Fiber optic cable with polyvinyl chloride(PVC) or polyethylene (PE) jacket and insulation having a max diam of5 /8 in. (16 mm). I. Max four pair No. 24 AWG (or smaller) copper conductor data cable with plenum rated j acket and insulation. J. Optical Fiber Raceway+ — Max 1 -1 /2 in. (38 mm) diam (or smaller) optical fiber raceway ( "innerduct') formed of either polyvinyl chloride (PVC) or polyvinylidene fluoride (PVDF) with optical fiber cable fill Raceways installed in accordance with Article 770 of the National Electrical Code (NFPA 70) When the hourly rating of the wall assembly is 1 hr, the T Rating is 314 hr. When the hourly fire rating of the wall assembly is greater than 1 hr, the T Rating is 314 hr when Item 3A, 3139 3C, 3D or 3E is used. Otherwise the T Rating is 1 hr. When no cables are installed within the device module, the T Rating is 1 hr in 1 hr walls and 1 -112 hr for 2, 3 and 4 hr walls. When Item 3A, 3B, 3C, 3D or 3E is used, the maximum F Rating is 2 hr. When max 200 pair No. 24 AWG telecommunication cable is used or when Item3F, 3G, 3H, 31 or 3.1 is used, the maximum F Rating is 4 hr. *Bearing the UL Classification Mark THROUGH GYPSUM BOARD WALL PENETRATIONS Scale = NONE System No. C -AJ -3214 F Rating - 4 Hr T Rating - 1/2 H F A iii; � e- l, 4 . *0 t i ," 2 LA Guide XHEZ IL ThmugMPenetration Firestop Systems Section A -A 1. Floor or Wall Assembly — Min 4-1/2 in. (1 14 mm) thick reinforced lightweight or normal weight (I 00 -150 pcf or 1600 - 2400 kg /m3) concrete. Wall may also be constructed of any UL Classified Concrete Blocks *. Diam of opening to be 4 in. (1 02 mm). See Concrete Blocks category (CAZT) in the Fire Resistance Directory for names of manufacturers. 2. Steel Sleeve — (Optional) — Nom 4 in. (11 02 mm) diam Schedule 10 to Schedule 40 steel pipe or rigid steel conduit cast or grouted into concrete floor or wall flush with floor or wall surfaces 3. Firestop Device* — One firestop device module centered within the opening The firestop device module consists of a 3 by 3 by 10 -112 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining. Firestop device module to be installed in accordance with the ccompanying installation instructions The space between the firestop device module and the periphery of the opening shall be mini) in. (0 mm, point contact) to max 1/2 in. (13 mm). Firestop device module secured in place by means of steel restraint plates sized to accommodate the firestop device module. Steel restraint plates each provided with a closed cell silicone gasket and sized to lap approx 1/2 in. (13 mm) on floor or wall surfaces Steel restraint plate installed on both sides of floor or wall and secured to firestop device module with steel set screws The firestop device module is to be installed with its ends projecting an equal distance beyond each surface of the floor or wall assembly. As an option, firestop device may be cast or grouted into wall assembly. When device is cast or grouted in place, the steel restraint plates are optional SPECIFIED TECHNOLOGIES INC — EZ PATH 3A. Firestop Device" — Extension Module— (Optional, Not Shown) — Module attached to ends of 3 by 3 by 10 -1 /2 in. (76 by 76 by 267 mm) long firestop device (Item 3) to increase its length to facilitate installation in thicker floors or walls Each module consists of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long galv steel tube with an intumescent material lining. Extension module to be installed in accordance with the accompanying installation instructions When module is used, firestop device (Item 3) and extension module(s) secured in place by means of steel plates installed with gasketing material supplied with product Steel plates installed on both sides of floor or wall and secured to each device or extension module(s) by means of steel set screws provided with plates Firestop device and extension module(s) assembly to be Installed with ends projecting an equal distance beyond each surface of the floor or wall assembly SPECIFIED TECHNOLOGIES INC — EZ PATH Extension 4. Fill, Void or Cavity Materiar — Sealant or Putty — Prior to installation of steel restraint plater min 1 in. (25 mm) thickness of sealant or putty installed in annular space flush with top surface of floor or both surfaces of wall. SPECIFIED TECHNOLOGIES INC — SpecSeal 100, 101, 102, 105, 120 or 129 Sealant, SpecSeal Putty 5. Cables — Within the loading area for each firestop device module, the cables may represent a 0 to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the firestop device module. Cables to be rigidly supported on both sides of the floor or wall assembly Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) jacketing and insulation. B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation. C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and insulation. D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket F. Max 4 pair No. 22 AWG (or smaller) copper conductor data cable with PVC or plenum rated jacketing and insulation. and jacketing G. Max RG /U coaxial cable with fluorinated ethylene insulation Y 1 9 H. Optical fiber cable with PVC or polyethylene (PE) jacket and insulation and having a max diam of 5/8 in. (16 mm). I. Optical Fiber Raceway+ — Max 1 -1/2 in. (38 mm) diam (or smaller) optical fiber P or polyvinylidene fluoride PVDF with raceway ( "innerduct') formed of either VC (PVDF) optical fiber cable fill. Raceways installed in accordance with Article 770 of the National Electrical Code (NFPA 70). When Item 5A, 56, 5C, 5D or 5E is used, the F Rating is 2 hr and the T Rating is 3/4 hr. When max 200 pair No. 24 AWG telecommunication cable is used or when Item6F, 5G, 5H or 51 is used, the F Rating is 4 hr and the T Rating is 1 hr. +Bearing the UL Listing Mark *Bearing the UL Classification Mark System No. F -A -3015 F Rating - 4 Hr T Rating - 1/2 Hr A 4 , i ` 1 A I I Guide XHEZ Section A -A Through - Penetration Firestop Systems 1. Floor Assembly— Min 4 -1/2 in. (1 14 mm) thick reinforced lightweight or normal weight (100- 150 cf or 1600 2400 k / m3 concrete floor. Opening to be min 1/4 in. 6 mm to max 1/2 in. 13 P 9 ) P 9 mm) larger than width and height dimensions of firestop device module(s). 2. Firesto p Device One two three four or seven fi restop device modules ganged together Each firestop device module consists of a3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining. Firestop device modules to be installed in accordance with the accompanying installation instructions The space between the firestop device module(s) and the periphery of the opening shall be min 1/8 in. (3.2 mm) to max 1/4 in. (6 mm). Firestop device module(s) secured in place by means of steel restraint plates sized to accommodate either one two, three, four or seven modules. Restraint plates provided with a closed cell silicone gasket and sized to lap approx 1/2 in. (13 mm) on fl oor surface. Steel restraint plates installed on both sides of fl oor and secured to firestop device module(s) with steel set screws. Each firestop device module is to be installed with ends projecting an equal distance beyond each surface of the floorAs an option, devices may be cast into fl oor assembly When device is cast in place, the restraint plates are optional. SPECIFIED TECHNOLOGIES INC — EZ PATH 3. Fill, Void or Cavity Materiar — Sealant or Putty— Prior to installation of steel restraint plates min 1 in. (25 mm) thickness of sealant or putty installed in annular space flush with top surface of floor. SPECIFIED TECHNOLOGIES INC — SpecSeal 100, 101, 102, 105, 120 or 129 Sealant, SpecSeal Putty 4. Cables Within the loading rea for each firestop device module; the cables may represent a 0 W 9 P e, Y P to 100 percent visual fi II. Cable fi II to be distributed at a uniform height across the width of each firestop device module. Cables to be rigidly supported on both sides of the fl oor or wall assembly Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) insulation and jacketing. B. Max 4 pair No. 22 AWG (or smaller) copper conductor data cable with PVC or plenum rated insulation and jacketing C. Max RG /U coaxial cable with fl uorinated ethylene insulation and jacketing D. Optical fi ber cable with PVC or polyethylene (PE) jacket and insulation and having a max diam of 5/8 in. (16 mm). E. Optical Fiber Raceway+ — Max 1 -1/2 in. (38 mm) diam (or smaller) optical fiber raceway ( "innerduct ") formed of either PVC or polyvinylidene fluoride (PVDF) with optical fiber cable fill. Raceways s installed in accordance with Article 770 of the National P Y Electrical Code (NFPA 70). When Item 5A is used, the max size of cable is 200 pair for the 4 hr F Rating. Otherwise, the F Rating is 2 hr. +Bearing the UL Listing Mark *Bearing the UL Classification Mark Split Sleeve / Threaded Penetrator - Vertical System No. F -A -3010 F Rating - 3 Hr T Rating - 0 Hr —A � � -'1 �'i ,v (. A, , i - - 1 �`' -n i fi! f'1-' - ii 1 7 1,4r - A ;' ' UL SYSTEM NUMBER W- L - -3010 Section A -A F RATING - 2 HOUR OR 3 HOUR Split Sleeve / Threaded Penetrator - Vertical 1. Floor Assembly - Minimum 4 1/2" thick reinforced lightweight or normal weight (1 00-1 50pcf) concrete floor. Wall may also be constructed of any minimum 6" thick hollow -core Precast Concrete Units *. Maximum diameter of opening is 1/2 ". 2. Cables - Aggregate cross - sectional area of cables in Threraded Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Threaded Sleeve Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Threaded Split Sleeve halves incorporating split nuts and split washers sized to fit the specific diameter of the opening Device shall be installed around cables in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provide in nominal 1, 2, and 4' sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 114", 2 7/16 ", and 4 1/2" respectively. Al. Firestop Device * -- (not Shown) as an alternate to item 3A. Threaded steel sleeve device incorporating flat washers secured by threaded couplers Device shall be installed in accordance with the accompanying installation instructions and bushings shall be applied to each end. Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4', 2 7/16", and 4 112" respectively. B. Packing Material - Minimum 4 pcf mineral wool batt insulation compressed and tightly packed to fill device to minimum 3' depth with a minimum 2" depth within the confines of the floor thickness Packing material recessed from the top edge of the device as required to accommodate fill material (item 3C). C. Fill void with cavity material' --Sealant or putty -Minimum of 1/2" thickness of fill material applied within annulus, flush with the top edge of the sleeve * Bearing the UL classification Marking THROUGH FLOOR PENETRATIONS Scale = NONE Membrane Penetrator System No. W -L -3172 F Rating -1 Hr T Rating - 1/4 Hr '� I A� �;_ \ qtr - ' . fI. \' �., 11� 4 j? A — 1, Section A-A 1. Wall Assembly - The 1 hour fire -rated gypsum wallboarcVstud wall assembly shall be constructed of the materials and in the manner described in the individual 0300 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4' lumber spaced 16" OC. Steel studs to be minimum 3- 5/8" wide and spaced 24" OC. B. Wallboard, Gypsum* -- 5/8" thick, 4' wide with square or tapered edges. The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual U300 or U400 Series Designs in the UL Fire Resistance Directory. 2. Cables -- Aggregate cross - sectional area of cables in the Membrane Penetrator not to exceed .4 square inches Cables shall be rigidly supported within 24" of the wall assembly. 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Nominal 1" diameter angled steel conduit in a steel mounting plate provided with plastic tipped molly bolts and a plastic bushing Device shall be driven through gypsum board, above finished ceiling, and secured to the wall assembly in accordance with the accompanying installation instructions B. Fill void with cavity material* -- Sealant - Nominal 1/4" diameter continuous bead applied to form gasket between back of firestop device mounting plate and wall surface around perimeter of conduit prior to installation of molly bolts Minimum of 1" thickness of fill material applied within the steel conduit device, flush end protruding from wall. * Bearing the UL classification Marking SINGLE -SIDE FIRE -WALL PENETRATION Scale = NONE - - y L___ � � , c c ILL hI� ' I_ ___,, � _ �_,__�,_` \ ,cp✓ FS SERIES THRU -WALL FITTING FOR FIRE WALLS 1.1 SCOPE This specification covers firestop de vice s f o r use in through-penetration firestop systems, , which are used to maintain the fire rating of the wall as well as to route and protect power and/or communications cable distribution for commercial institutional, industrial and utility needs. 1.2 CLASSIFICATION AND USE The firestop device for use in through - penetration firestop systems shall have been examined and tested by Underwriters Laboratories Inc to UL1479 (ASTM E 814) and bear the U.S. and Canadian UL Classification Mark The device shall be classified for use in one -, two -, three -, and four -hour rated gypsum, concrete and block walls and provide a maximum L rating of six cfm. The devices shall also been tested by Underwriters Laboratories Inc. to UL2043 and determined to be suitable for use in air handling spaces. 2.1 MANUFACTURER The firestop device specified herein shall be the FlameStopper ThruWall Fitting as manufactured by The Wiremold Company. Firestop devices of other manufacturers may be considered equal if, in the opinion and the written approval of the engineer, they meet all the performance standards specified herein MATERIALS 2.2.1 Box The firestop device box shall be constructed of16 gage G90 steel. 2.2.2 Intumescent Block The firestop device intumescent block shall be constructed of a graphite base material with expansion starting at 375 F and an unrestrained expansion between6 to 12 times. The intumescent block shall be held securely by the box in order to prevent tampering and damage during installation 2.2.3 Adjustable Doors The firestop device shall have doors which can be adjusted to prevent materials from penetrating the device if the device is empty or completely full The doors shall be constructed of 16 gage G90 steel with No. 10 -32 screws use to adjust opening size. 2.3 SIZES The firestop device shall be available for2" and 4" trade size EMT conduit. 2.4 FINISH The firestop device shall be available in safety yellow powder coat custom colors and an unpainted galvanized finish EXECUTION 3.1 INSTALLATION installation, refer to the s containing Prior to and Burin stem layout or approval drawings c r>, 9 Y Y PP 9 9 all elements of the system. Installer shall comply with complete system instruction sheets. The firestop device shall be installed in accordance with the UL Fire Resistance well as an applicable codes and standards for general building electrical Directory, as y pp g g and firestopping installation practices H WALL [PRESSURIZED THROUG FIRE ASUPPRESSION SYSTEM] SU PPRE 1\,J Scale = NONE SLEEVE AND FIRE — STOPPING NOTES: 1) ALL PENETRATIONS THROUGH BUILDING STRUCTURE (WALL AND /OR FLOORS) FOR COMMUNICATIONS CABLING SHALL BE SLEEVED. 2) ALL SLEEVES THROUGH WALLS OR FLOORS HOLDING A FIRE RATING SHALL BE INSTALLED UTILIZING ONE OF THE APPROVED METHODS FOR A UL LISTED ASSEMBLY AS SHOWN ON THESE SECTIONAL DIAGRAMS. 3) APPROVED MANUFACTURERS FOR UL LISTED SLEEVES SHALL BE SPECIFIED TECHNOLOGY SYSTEMS, UNIQUE FIRESTOP PRODUCTS, AND WIREMOLD. 4) ALL SLEEVES THROUGH FLOORS SHALL BE FIRESTOPPED TO A RATING EQUAL TO OR HIGHER THAN THE FLOOR RATING. 5) ALL UN -USED SLEEVES THROUGH WALLS OR FLOORS HOLDING A FIRE RATING SHALL BE FIRESTOPPED TO A RATING EQUAL TO OR HIGHER THAN THE WALL OR FLOOR RATING. 6) ALL SLEEVES THROUGH WALLS HOLDING A FIRE RATING SHALL BE FIRESTOPPED TO A RATING EQUAL TO OR HIGHER THAN THE WALL RATING. 7) ALL PENETRATIONS SHALL BE PART OF THE RE- USABLE PATHWAY SYSTEM; FIRESTOPPED PENETRATIONS SHALL EITHER BE AN ASSEMBLY WITH FIRESTOP MATERIALS BUILT INTO THE ASSEMBLY OR FIRESTOPPED WITH REMOVABLE PUTTY OR FIRESTOP BAGS. 8) THE DIAGRAMS SHOWN ON THIS PAGE ARE REPRESENTATIVE OF THE SLEEVING REQUIREMENTS FOR COMMUNICATIONS AND SECURITY CABLING SYSTEMS; ADDITIONAL LISTINGS ARE AVAILABLE FROM EACH MANUFACTURER. ! iW i 1 — � CARM E E PEDCOR DESIGN GROUP �. ._ _- il i i! i � , ' TwtmCH[-�'n'r"�'7---�'ilr�"l�f-;�l�"— - `J � , W11 1 1 I" f - i LL -; U � i-, 9+05 East 56th ^trvi2t SU—.:2 150 i. "dL?ir,NAPO! iS IN 462':6 ?i.- _.335 317,524.6335 FA a_tech,lyn.riot P E D C O R'; ?�ewkv�"! ?�* i DEVELOPMENT CO. rTom. - System No. W -J -3145 }I F Rating - 2 Hr T Rating - 3/4 Hr ,, A ,- (2A1 D /2F1 711, —A Section A-A „, I r„ (2o /2F) 2A` -- UL SYSTEM NUMBER W- L - -3049 r I I �_o_. F RATING -2 HOUR _ � Threaded Penetrator - Block System AL z Ll_t_ �, - 1, Wall Assembly - Minimum 6” thick reinforced lightweight or normal weight (I 00- 150pcf) iZB s ) t...- L'A' concrete. Wall may also be constructed of any UL classified Concrete Blocks -1 �'. LA- 2. Cables -- Aggregate cross - sectional area of cables in Threaded Sleeve to be minimum8 Guide XHEZ Section A -A percent to maximum 48 percent of the aggregate cross - sectional area of the Threaded Sleeve Through - Penetration Firestop Systems Cables shall be rigidly supported on both sides of the wall assembly 1. Wall Assembly— Min 6 in. (1 52 mm) thick reinforced lightweight or normal weight(100 -150 pcf 3 -- system shall consist of the following • Firestop System The firestop sys g or 1600 -2400 kg /m3) concrete. Wall may also be constructed of any UL Classified Concrete A. Firestop Device * - Threaded steel sleeve device incorporating flat washers Blocks *. Max area of opening is 192 sq in. (0.12 m2) with max dimensions of 24 in. (610 mm). See secured by threaded couplers Device shall be installed in accordance with the Concrete Blocks (CAZT) category in the Fire Resistance Directory for names of manufacturers accompanying installation instructions and bushings shall be applied to each end Device 2. Firestop System— The firestop shall consist of the following provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, A. Fill, Void or Cavity Materials'— Composite Sheet — Foil -faced sheet with galv and 4" device sizes are 1 1/4", 2 7/16 ", and 4 1/2" respectively. steel sheet backer. Sheets may be installed as one solid sheet cut in two pieces (top B. Fill void with cavity material* -- Sealent - Minimum of 1" thickness of fill material and bottom) or split on one side of the penetrant(s). Opening in composite sheet to be applied within the Smooth Sleeve, flush with both ends. max 3/16 in. (5 mm) larger than width and height dimensions of firestop device(s). 'Bearing the UL classification Marking Sheets cut to lap min of in. (51 mm) on the wall on all sides. Sheets to be installed on � each side of wall with foil facing against wall surface and secured with min3 /16 in. (5 mm) diam by 1 -1/4 in. (32 mm) long steel concrete screws in conjunction with min 1 -1/4 w_ -E w _ 11___„ =ir/ in. (32 mm) diam steel fender washers Spacing of fasteners not to exceed 6 in. (152 mm) OC. SPECIFIED TECHNOLOGIES INC — SpecSeal CS Composite Sheet System No. W -J -3138 B. Fill, Void or Cavity Materials — Putty or Sealant— Nom 3/16 in. (5 mm) wide by 3/16 in. (5 mm) thick putty strips or nom 1/4 in. (6 mm) diam bead of sealant applied F Ratings - 2 and 4 Hr See Item 3 (See beneath composite sheet around entire perimeter of through opening on both sides of wall. T Ratings - 3/4, 1 and 1 -1/2 Hr (See Item 3) SPECIFIED TECHNOLOGIES INC— SpecSeal Putty, SpecSeal 100, 101, 102, 120, rll ;l -. 129 or 105 Sealant or SpecSeal LCI Sealant `A C. Steel Cover Strip— The steel cover strip is required when the sheet is cufsplit to accommodate the firestop devices (Item 2D). Min 2 in. (51 mm) wide strip of min 0.020 i 3 - i in. (0.51 mm) thick (26 gauge) galv steel centered over entire length of each butted seam or slit made in the intumescent sheet(Item 2A). Prior to installation of the steel strip, the 3' 121 -10e` .1 1. 4.% seam or slit in the intumescent sheet shall be covered with a noml /8 by 1/2 in. (3.2 by 12— ' �—� 13 mm) ribbon of putty or a nom 1/4 in. (6 mm) diam bead of sealant (Item 2C). Steel cover strip secured to galv steel sheet backer of intumescent sheet with steel sheet metal _A i 1 screws or rivets spaced max 3 in. (76 mm) OC on each side of seam or slit Gwtle XHEZ Section A -A Through-Peneeetwn D. Firestop Device * — One, two, three, four or seven firestop device modules ganged Firestop Systems together. Each firestop device module consists of a3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining. Firestop device i accordance with the accompanying installation instructions modules to be installed n ac o 1 — reinforced li htwei ht or normal weight 100 -150 pcf .Wall Assembly Min 6 in. 152 mm thick 9 ( P Y ( ) 9 9 The space between the firestop device module(s) and the periphery of the opening shall or 1600 -2400 kg /m3 ) concrete wall. Wall may also be constructed of any UL Classified Concrete be min 0 in. (0 mm, point contact) to max. 1/8 in. (3.2 mm) for square or rectangular Blocks *. Opening to be max 1/4 in. (6 mm) larger than width and height dimensions of firestop plates and min 0 in. (0 mm, point contact) to max 1/2 in. (13 mm) when circular wall device(s). See Concrete Blocks (CAZT) category in the Fire Resistance Directory for names of plates are used. Firestop device module(s) secured in place by means of steel wall manufacturers. plates installed with gasketing material supplied with product Steel wall plates installed 1 A. Steel Sleeve— (Optional, Not Shown) — Nom 4 in. diam (or smaller) on both sides of wall and secured to each device by means of steel set screws provided Schedule 10 (or heavier) steel pipe, rigid steel conduit, or EMT sleeve cast or grouted with wall plates. Four- and seven- gang steel wall plates shall be secured to wall using into concrete wall flush with wall surfaces four steel concrete screws or to composite sheet using four steel sheet metal screws 2. Firestop Device —Single firestop device module consisting of a3 by 3 by 10 -1/2 in. (76 by 76 Each firestop device module is to be installed with ends projecting an equal distance by 267 mm) long galv steel tube with an intumescent material lining Firestop device module to be beyond each surface of the wall assembly installed in accordance with the accompanying installation instructions The space between the SPECIFIED TECHNOLOGIES INC — EZ PATH. firestop device module(s) and the periphery of the opening shall be mini) in. ( 0 mm, point contact) E. Firestop Device* — Extension Module — (Optional, Not Shown) — Module to max 1/2 in. (13 mm). Firestop device module(s) secured in place by means of circular steel wall attached to ends of 3 by 3 by 10 '% in. (76 by 76 by 267 mm) long firestop device (Item plates installed with gasketing material supplied with product Circular steel wall plates installed on 2D) to increase its length to facilitate installations in thicker walls Each module consists both sides of wall and secured to each device by means of steel set screws provided with device of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long galv steel tube with an intumescent Firestop device module is to be installed with ends projecting an equal distance beyond each material lining. Extension module to be installed in accordance with the accompanying surface of the wall assembly. installation instructions When module is used, firestop device (Item 2D) and extension SPECIFIED TECHNOLOGIES INC — EZ PATH module(s) secured in place by means of steel wall plates installed with gasketing material 2A. Firestop Device* — Extension Module — (Optional, Not Shown) — Module supplied with product. Steel wall plates installed on both sides of wall and secured to attached to ends of 3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long firestop device (Item each device or extension module(s) by means of steel set screws provided with wall 3) to increase its length to facilitate installation in thicker walls Each module consists of a plates. Firestop device and extension module(s) assembly to be installed with ends 3 by 3 by 6 in. (76 by 76 by 152 mm) long galv steel tube with an intumescent material projecting an equal distance beyond each surface of the wall assembly lining. Extension module to be installed in accordance with the accompanying installation SPECIFIED TECHNOLOGIES INC — EZ PATH Extension instructions. When module is used, firestop device (Item 2) and extension module(s) F. Firestop Device* — One firestop device module consisting of a 1.4 by 1.4 by 10 -1/2 secured in place by means of steel wall plates installed with gasketing material supplied in. (36 by 36 by 267 mm) long galv steel tube with an intumescent material lining with product. Steel wall plates installed on both sides of wall and secured to each device Firestop device module to be installed in accordance with the accompanying installation or extension module(s) by means of steel set screws provided with wall plates Firestop instructions. The space between the firestop device module and the periphery of the device and extension module(s) assembly to be installed with ends projecting an equal opening shall be min 0 in. (0 mm, point contact) to max 1/8 in. (3.2 mm). Firestop device distance beyond each surface of the wall assembly module secured in place by means of steel wall plates installed with gasketing material SPECIFIED TECHNOLOGIES INC — EZ PATH Extension supplied with product. Steel wall plates installed on both sides of wall and secured to 3. Cables — Within the loading area for the firestop device modulo the cables may represent a 0 each device by means of steel set screws provided with device The firestop device to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the module is to be installed with ends projecting an equal distance beyond each surface of firestop device module. Cables to be rigidly supported on both sides of the wall assembly Any the wall assembly. combination of the following types of cables may be used SPECIFIED TECHNOLOGIES INC — EZ PATH Mini A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable 3. Cables — The cables may represent a 0 to 100 percent visual fill within the loading area for with polyvinyl chloride (PVC) jacketing and insulation. each firestop device module (Items 2D through 2F). Cable fill to be distributed at a uniform height B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation across the width of the firestop device module Cables to be rigidly supported on both sides of the C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and wall assembly. Any combination of the following types of cables may be used insulation. A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket with polyvinyl chloride (PVC) jacketing and insulation or with plenum rated jacketing E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket and insulation. F. Max four pair No. 22 AWG (or smaller) copper conductor data cable with B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation polyvinyl chloride (PVC) jacketing and insulation. C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and G. Max RG /U coaxial cable with fluorinated ethylene insulation and jacketing insulation. H. Fiber optic cable with polyvinyl chloride (PVC) or polyethylene (PE) jacket and D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket insulation having a max diam of 5/8 in. (16 mm). E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket 1. Max four pair No. 24 AWG (or smaller) copper conductor data cable with plenum rated j F. Max four pair No. 22 AWG (or smaller) copper conductor data cable with PVC or acket and insulation. plenum rated jacketing and insulation J. Optical Fiber Raceway+ — Max 1 -1/2 in. (38 mm) diam (or smaller) optical fiber G. Max four pair No. 22 AWG (or smaller) copper conductor data cable with PVC or raceway ( "innerduct ") formed of either polyvinyl chloride (PVC) or polyvinylidene fluoride plenum rated jacketing and insulation (PVDF) with optical fiber cable fill. Raceways installed in accordance with the National H. Max RG /U coaxial cable with fluorinated ethylene insulation and jacketing Electrical Code (NFPA 70). I. Fiber optic cable with PVC or polyethylene (PE) jacket and insulation having a max When Item 3A, 3B, 3C, 3D or 3E is used, the F Rating is 2 hr and the T Rating is 3/4 hr. When diam of 518 in. (16 mm). max 200 pair No. 24 AWG telecommunication cable is used or when Item3F, 3G, 3H, 31 or 3.1 J. Optical Fiber Raceway+ — Max 1 -1 /2 in. (38 mm) diam (or smaller) optical fiber is used, the F Rating is 4 hr and the T Rating is 1 hr. raceway ("innerduct') formed of either PVC or polyvinylidene fluoride(PVDF) with optical *Bearing the UL Classification Mark fiber cable fill. Raceways installed in accordance with the National Electrical Code (NFPA 70). +Bearing the UL Listing Mark *Bearing the UL Classification Mark THROUGH CONCRETE WALL PENETRATIONS Scale = NONE System No. W -L -3218 F Ratings - 1, 2, 3 and 4 Hr (See Item 1) T Ratings - 3/4 and 1 Hr (See Item 3) L Rating At Ambient - 4 or 7 SUM (See Item 3) L Rating At 40OF - 2 or 3 SUM (See Item 3) 1 _A 1 I , ,. j`f III j I „ _. -1 _ !i ! i 1 - �' 1 ; —A Guide XHEZ Section A -A Th,ouy.Penetretcn Fi,. I Systems 1. Wall Assembly — The 1, 2, 3 or 4 hr fire -rated gypsum boarcVstud wall assembly shall be constructed of the materials and in the manner described within the individual L800 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall incorporate the following construction features: A. Studs — Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced max 16 in. (406 mm) t to be min 3 -1/2 in. 89 mm wide OC. Steel studs ( ) and spaced max 24 in. (610 mm) OC. B. Gypsum B oard* — Thickness, t YPe number of layers and fasteners as specified in the individual Wall and Partition Design Opening in gypsum board to be max 1/4 in. (6 mm) larger then width and height dimensions of firestop device(s). The hourly F Rating of the firestop system is dependent upon the hourly rating of the wall in which it is installed 2. Firestop Device* — One, two, three, four or seven firestop device modules ganged together. Each firestop device module consists of a3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining Firestop device modules to be installed in accordance with the accompanying installation instructions The space between the firestop device module(s) and the periphery of the opening shall be mini) in. ( 0 mm, point contact) to max 1/8 in. (3.2 mm). Firestop device module(s) secured in place by means of steel wall plates installed with gasketing material supplied with product Steel wall plates installed on both sides of wall and secured to each device by means of steel set screws provided with device Each four- and seven - gang steel wall plate shall be fastened to the studs with steel screws sized to extend through the gypsum board layers and penetrate 1/2 in. (13 mm) into the framing member Each firestop device module is to be installed with ends projecting an equal distance beyond each surface of the wall assembly. As an alternate, the four- and seven -gang steel wall plates may be installed directly against the studs for walls having 16 and 24 in. (406 and 610 mm) center -to- center stud spacing, respectively, prior to installation of the gypsum board layers The steel wall plates shall be secured to the stud by means of steel screws After installation of the steel wall plates and firestop device modules, the gypsum board shall be installed as specified in the individual U300 or U400 Design with a maximum 1/8 in. (3.2 mm) gap between the firestop device module and the cutout in the gypsum board Gap between the firestop device module and the cutout in the gypsum board may be filled with gypsum joint compound or fill material (Item 4). SPECIFIED TECHNOLOGIES INC — EZ PATH 2A. Firestop Device* — Extension Module— (Optional, Not Shown) — Module attached to ends of 3 by 3 by 10 -1 /2 in. (76 by 76 by 267 mm) long firestop device (Item 3) to increase its length to facilitate installation in thicker walls Each module consists of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long galv steel tube with an intumescent material I ining. Extension module to be installed in accordance with the accompanying installation instructions. When module is used, firestop device (Item 2) and extension module(s) secured in place by means of steel wall plates installed with ga sketing material supplied with product. Steel wall plates installed on both sides of wall and secured to each device or extension module(s) by means of steel set screws provided with wall plates Firestop device and extension module(s) assembly to be installed with ends projecting an equal distance beyond each surface of the wall assembly SPECIFIED TECHNOLOGIES INC — EZ PATH Extension 3. Cables — Within the loading area for each firestop device module, the cables may represent a 0 to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the firestop device module. Cables to be rigidly supported on both sides of the wall assembly. Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) jacketing and insulation. B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and insulation. D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket F. Max fou r pair No. 22 AWG ( or smaller ) co ppe r conductor data cable with PVC or n jacketing plenum rated � u g and insulation G. Max RG/U coaxial cable with fluorinated ethylene insulation and jacketing H. Fiber optic cable with PVC or polyethylene (PE) jacket and insulation having a max diam of 5/8 in. (16 mm). 1. Optical Fiber Raceway+ — Max 1-1/2 in. (38 mm) diam (or smaller) optical fiber raceway ("innerduct') formed of either PVC or polyvinylidene fluoride (PVDF) with optical fiber cable fill. Raceways installed in accordance with Article770 of the National Electrical Code (NFPA 70). When the hourly rating of the wall assembly is hr, the T Rating is 3/4 hr. When the hourly fire rating of the wall assembly is greater than1 hr, the T Rating is 3/4 hr when Item 3A, 36, 3C, 3D or 3E is used. Otherwise the T Rating is 1 hr. When Item 3A, 3B, 3C, 3D or 3E is used, the maximum F Rating is 2 hr. When max 200 pair No. 24 AWG telecommunication cable is used or when Item3F, 3G, 3H or 31 is used, the maximum F Rating is hr. When Item 3A is used, the L Rating for each firestop device module with 100 percent visual fill of cable is cfm at ambient and 3 cfm at 400F. When Item 3F, 3G or 3H is used, the L Rating for each firestop device module with 100 percent visual fill of cable is 7 cfm at ambient and 2 cfm at 400F. 4. Fill, Void or Cavity Materiar — Sealant or Putty— (Not Shown) — As an alternate to gypsum joint compound, the gap between the firestop device module and the cutout in the gypsum board may be sealed with fill material on each side of the wall assembly when fouF and seven -gang steel wall plates are installed directly against the wood or steel studs SPECIFIED TECHNOLOGIES INC — SpecSeal 100, 101. 102, 105, 120 or 129 Sealant, SpecSeal LCI Sealant, SpecSeal Putty *Bearing the UL Classification Mark Smooth Penetrator - Gypsum System No. W -L -3137 F Ratings -1 and 2 Hr (See Item 1) T Ratings - 0 Hr I 7° I 11 _s _...._ _ - - - - -_- , or . L_A p SW—A-A UL SYSTEM NUMBER W- L-3137 F RATING - 1 HOUR OR 2 HOUR Smooth Penetrator - Gypsum System 1. Wall Assembly - The 1 or 2 hour fire -rated gypsum wallboard/stud wall assembly shall be constructed of the materials and in the manner described in the individual L800 or 0400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features: A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4" lumber spaced 16' OC. Steel studs to be minimum 3 -5/8" wide and spaced 24'_OC. m B. Wallboard, Gypsu' 5/8" thick, 4' wide with square or tapered edges The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual LA00 or U400 Series Designs in the UL Fire Resistance Directory. The Hourly F rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed 2. Cables -- Aggregate cross - sectional area of cables in Smooth Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross-sectional area of the Smooth Sleeve. Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System - The firestop system shall consist of the following A. Firestop Device * -- Smooth steel sleeve device incorporating flat washers secured by sliding compression couplers Device shall be installed in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4' device sizes are 1 1/4 ", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material' -Sea lent - Minimum of 1" thickness of fill material applied within the Smooth Sleeve, flush with both ends * Bearing the UL classification Marking Threaded Penetrator - Gypsum System No. W -L -3138 F Ratings - 1 and 2 Hr (See Item 1) T Ratings - 0 Hr [—A 3e, _ = J.. �.^ �__ —` , A UL SYSTEM NUMBER W- L - -3138 F RATING - 1 HOUR OR 2 HOUR Threaded Penetrator- Gypsum System 1. Wall Assembly - The 1 or 2 hour fire -rated gypsum wallboard/stud wall assembly shall be constructed of the materials and in the manner described in the individual L800 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4" lumber spaced 16" OC. Steel studs to be minimum 3 -5/8" wide and spaced 24" OC. B. Wallboard, Gypsum* -- 518" thick, 4' wide with square or tapered edges The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual L1300 or U400 Series Designs in the UL Fire Resistance Directory. The Hourly F rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed 2. Cables - Aggregate cross - sectional area of cables in Threaded Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Threaded Sleeve. Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Threaded steel sleeve device incorporating flat washers secured by threaded couplers Device shall be installed in accordance With the accompanying installation instructions and bushings shall be applied to each end Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4 ", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material* -- Sealant - Minimum of 1 " thickness of fill material applied within the Smooth Sleeve, flush with both ends * Bearing the UL classification Marking Split Sleeve - Gypsum System No. W -L -3136 F Ratings - 1 and 2 Hr (See Item 1) T Ratings - 0 Hr .A I-A :.8` s�, �. =- r: a'- .A Section A -A UL SYSTEM NUMBER W- L - -3136 F RATING - 1 HOUR OR 2 HOUR The Split Sleeve System for Retrofitting Gypsum 1. Wall Assembly - The 1 or 2 hour fire -rated gypsum wallboard/stud wall assembly shall be constructed of the materials and in the manner described in the individual U300 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4" lumbe r spaced ced 16" OC. Steel studs to be minimum 3 -5/8" wide and spaced 24" OC. B. Wallboard, Gypsum* -- 5/8" thick, 4' wide with square or tapered edges The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual LJ300 or U400 Series Designs in the UL Fire Resistance Directory. The Hourly F rating of the firestop system is equal to the hourly fire rating of the wall assembly in which it is installed 2. Cables -- Aggregate cross - sectional area of cables in the Split Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Split Sleeve Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device - Threaded Split Sleeve halves incorporating split nuts and split washers sized to fit the specific diameter of the opening Device shall be installed around cables in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provide in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4", 2 7/16 ", and 4 1/2" respectively. B. Fill void with cavity material* --Sealant -Minimum of 1" thickness of fill material applied within the Smooth Sleeve, flush with both ends. * Bearing the UL classification Marking Syste m No. W -L -3265 F Ratings - 11 2, 3 and 4 Hr (See Items 1 and 3) T Ratings - 3/4, 1 and 1 -1/2 Hr (See Item 3) 2 r. 3 2 w .. 1B �L A ) (1 A Guide XHEZ 1," Through - Penetration Firestop Systems Section A-A 1. Wall Assembly — The 1, 2, 3 or 4 hr fire -rated gypsum board/stud wall assembly shall be constructed of the materials and n in the manner described within the individual 1800 or U400 Series a ma e d s Wall or Partition Designs in the UL Fire Resistance Directory and shall incorporate the following construction features A. Studs — Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nom 2 by 4 in. (51 by 102 mm) lumber spaced max 16 in. (406 mm) OC. Steel studs to be min 3 -1/2 in. (89 mm) wide and spaced max 24 in. (610 mm) OC. B. Gypsum Board* — Thickness, type, number of layers and fasteners as specified in the individual Wall and Partition Design Max diam of opening to be 4 in. (102 mm). The hourly F Rating of the firestop system is dependent upon the hourly rating of the wall in which it is installed. 2. Firestop Device* — Single firestop device module consisting of a 3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining Firestop device module to be installed in accordance with the accompanying installation instructions The space between the firestop device module(s) and the periphery of the opening shall be mini) in. ( 0 mm, point contact) to max 1/2 in. (13 mm). Firestop device module(s) secured in place by means of circular steel wall plates installed with gasketing material supplied with product Circular steel wall plates installed on both sides of wall and secured to each device by means of steel set screws provided with device Firestop device module is to be installed with ends projecting an equal distance beyond each surface of the wall assembly. SPECIFIED TECHNOLOGIES INC — EZ PATH 2A. Firestop Device — Extension Module — (Optional, Not Shown) — Module attached to ends of by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long firestop device (Item 3) to increase its length to facilitate installation in thicker walls Each module consists of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long gaiv steel tube with an intumescent material lining. Extension module to be installed in accordance with the accompanying installation instructions. When module is used, firestop device (Item 2) and extension module(s) secured in place by means of steel wall plates installed with gasketing material supplied with product. Steel wall plates installed on both sides of wall and secured to each device or extension module(s) by means of steel set screws provided with wall plates Firestop device and extension module(s) assembly to be installed with ends projecting an equal distance beyond each surface of the wall assembly. SPECIFIED TECHNOLOGIES INC — EZ PATH Extension 3. Cables — Within the loading area for the firestop device module, the cables may represent a 0 to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the firestop device module. Cables to be rigidly supported on both sides of the wall assembly. Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) jacketing and insulation. B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and insulation. D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket F. Max four pair No. 22 AWG (or smaller) copper conductor data cable with polyvinyl chloride (PVC) jacketing and insulation. G. Max RG /U coaxial cable with fluorinated ethylene insulation and jacketing H. Fiber optic cable with polyvinyl chloride(PVC) or polyethylene (PE) jacket and insulation having a max diam of5 /8 in. (16 mm). I. Max four pair No. 24 AWG (or smaller) copper conductor data cable with plenum rated j acket and insulation. J. Optical Fiber Raceway+ — Max 1 -1 /2 in. (38 mm) diam (or smaller) optical fiber raceway ( "innerduct') formed of either polyvinyl chloride (PVC) or polyvinylidene fluoride (PVDF) with optical fiber cable fill Raceways installed in accordance with Article 770 of the National Electrical Code (NFPA 70) When the hourly rating of the wall assembly is 1 hr, the T Rating is 314 hr. When the hourly fire rating of the wall assembly is greater than 1 hr, the T Rating is 314 hr when Item 3A, 3139 3C, 3D or 3E is used. Otherwise the T Rating is 1 hr. When no cables are installed within the device module, the T Rating is 1 hr in 1 hr walls and 1 -112 hr for 2, 3 and 4 hr walls. When Item 3A, 3B, 3C, 3D or 3E is used, the maximum F Rating is 2 hr. When max 200 pair No. 24 AWG telecommunication cable is used or when Item3F, 3G, 3H, 31 or 3.1 is used, the maximum F Rating is 4 hr. *Bearing the UL Classification Mark THROUGH GYPSUM BOARD WALL PENETRATIONS Scale = NONE System No. C -AJ -3214 F Rating - 4 Hr T Rating - 1/2 H F A iii; � e- l, 4 . *0 t i ," 2 LA Guide XHEZ IL ThmugMPenetration Firestop Systems Section A -A 1. Floor or Wall Assembly — Min 4-1/2 in. (1 14 mm) thick reinforced lightweight or normal weight (I 00 -150 pcf or 1600 - 2400 kg /m3) concrete. Wall may also be constructed of any UL Classified Concrete Blocks *. Diam of opening to be 4 in. (1 02 mm). See Concrete Blocks category (CAZT) in the Fire Resistance Directory for names of manufacturers. 2. Steel Sleeve — (Optional) — Nom 4 in. (11 02 mm) diam Schedule 10 to Schedule 40 steel pipe or rigid steel conduit cast or grouted into concrete floor or wall flush with floor or wall surfaces 3. Firestop Device* — One firestop device module centered within the opening The firestop device module consists of a 3 by 3 by 10 -112 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining. Firestop device module to be installed in accordance with the ccompanying installation instructions The space between the firestop device module and the periphery of the opening shall be mini) in. (0 mm, point contact) to max 1/2 in. (13 mm). Firestop device module secured in place by means of steel restraint plates sized to accommodate the firestop device module. Steel restraint plates each provided with a closed cell silicone gasket and sized to lap approx 1/2 in. (13 mm) on floor or wall surfaces Steel restraint plate installed on both sides of floor or wall and secured to firestop device module with steel set screws The firestop device module is to be installed with its ends projecting an equal distance beyond each surface of the floor or wall assembly. As an option, firestop device may be cast or grouted into wall assembly. When device is cast or grouted in place, the steel restraint plates are optional SPECIFIED TECHNOLOGIES INC — EZ PATH 3A. Firestop Device" — Extension Module— (Optional, Not Shown) — Module attached to ends of 3 by 3 by 10 -1 /2 in. (76 by 76 by 267 mm) long firestop device (Item 3) to increase its length to facilitate installation in thicker floors or walls Each module consists of a 3 by 3 by 6 in. (76 by 76 by 152 mm) long galv steel tube with an intumescent material lining. Extension module to be installed in accordance with the accompanying installation instructions When module is used, firestop device (Item 3) and extension module(s) secured in place by means of steel plates installed with gasketing material supplied with product Steel plates installed on both sides of floor or wall and secured to each device or extension module(s) by means of steel set screws provided with plates Firestop device and extension module(s) assembly to be Installed with ends projecting an equal distance beyond each surface of the floor or wall assembly SPECIFIED TECHNOLOGIES INC — EZ PATH Extension 4. Fill, Void or Cavity Materiar — Sealant or Putty — Prior to installation of steel restraint plater min 1 in. (25 mm) thickness of sealant or putty installed in annular space flush with top surface of floor or both surfaces of wall. SPECIFIED TECHNOLOGIES INC — SpecSeal 100, 101, 102, 105, 120 or 129 Sealant, SpecSeal Putty 5. Cables — Within the loading area for each firestop device module, the cables may represent a 0 to 100 percent visual fill. Cable fill to be distributed at a uniform height across the width of the firestop device module. Cables to be rigidly supported on both sides of the floor or wall assembly Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) jacketing and insulation. B. Max 350 kcmil single copper conductor power cable with XLPE jacket and insulation. C. Max 7/C No. 12 AWG copper conductor control cable with PVC or XLPE jacket and insulation. D. Max 3/C No. 10 AWG metal clad or armored cable with steel or aluminum jacket E. Max 3/C No. 8 AWG NM cable (Romex) with PVC insulation and jacket F. Max 4 pair No. 22 AWG (or smaller) copper conductor data cable with PVC or plenum rated jacketing and insulation. and jacketing G. Max RG /U coaxial cable with fluorinated ethylene insulation Y 1 9 H. Optical fiber cable with PVC or polyethylene (PE) jacket and insulation and having a max diam of 5/8 in. (16 mm). I. Optical Fiber Raceway+ — Max 1 -1/2 in. (38 mm) diam (or smaller) optical fiber P or polyvinylidene fluoride PVDF with raceway ( "innerduct') formed of either VC (PVDF) optical fiber cable fill. Raceways installed in accordance with Article 770 of the National Electrical Code (NFPA 70). When Item 5A, 56, 5C, 5D or 5E is used, the F Rating is 2 hr and the T Rating is 3/4 hr. When max 200 pair No. 24 AWG telecommunication cable is used or when Item6F, 5G, 5H or 51 is used, the F Rating is 4 hr and the T Rating is 1 hr. +Bearing the UL Listing Mark *Bearing the UL Classification Mark System No. F -A -3015 F Rating - 4 Hr T Rating - 1/2 Hr A 4 , i ` 1 A I I Guide XHEZ Section A -A Through - Penetration Firestop Systems 1. Floor Assembly— Min 4 -1/2 in. (1 14 mm) thick reinforced lightweight or normal weight (100- 150 cf or 1600 2400 k / m3 concrete floor. Opening to be min 1/4 in. 6 mm to max 1/2 in. 13 P 9 ) P 9 mm) larger than width and height dimensions of firestop device module(s). 2. Firesto p Device One two three four or seven fi restop device modules ganged together Each firestop device module consists of a3 by 3 by 10 -1/2 in. (76 by 76 by 267 mm) long galv steel tube with an intumescent material lining. Firestop device modules to be installed in accordance with the accompanying installation instructions The space between the firestop device module(s) and the periphery of the opening shall be min 1/8 in. (3.2 mm) to max 1/4 in. (6 mm). Firestop device module(s) secured in place by means of steel restraint plates sized to accommodate either one two, three, four or seven modules. Restraint plates provided with a closed cell silicone gasket and sized to lap approx 1/2 in. (13 mm) on fl oor surface. Steel restraint plates installed on both sides of fl oor and secured to firestop device module(s) with steel set screws. Each firestop device module is to be installed with ends projecting an equal distance beyond each surface of the floorAs an option, devices may be cast into fl oor assembly When device is cast in place, the restraint plates are optional. SPECIFIED TECHNOLOGIES INC — EZ PATH 3. Fill, Void or Cavity Materiar — Sealant or Putty— Prior to installation of steel restraint plates min 1 in. (25 mm) thickness of sealant or putty installed in annular space flush with top surface of floor. SPECIFIED TECHNOLOGIES INC — SpecSeal 100, 101, 102, 105, 120 or 129 Sealant, SpecSeal Putty 4. Cables Within the loading rea for each firestop device module; the cables may represent a 0 W 9 P e, Y P to 100 percent visual fi II. Cable fi II to be distributed at a uniform height across the width of each firestop device module. Cables to be rigidly supported on both sides of the fl oor or wall assembly Any combination of the following types of cables may be used A. Max 400 pair No. 24 AWG (or smaller) copper conductor telecommunication cable with polyvinyl chloride (PVC) insulation and jacketing. B. Max 4 pair No. 22 AWG (or smaller) copper conductor data cable with PVC or plenum rated insulation and jacketing C. Max RG /U coaxial cable with fl uorinated ethylene insulation and jacketing D. Optical fi ber cable with PVC or polyethylene (PE) jacket and insulation and having a max diam of 5/8 in. (16 mm). E. Optical Fiber Raceway+ — Max 1 -1/2 in. (38 mm) diam (or smaller) optical fiber raceway ( "innerduct ") formed of either PVC or polyvinylidene fluoride (PVDF) with optical fiber cable fill. Raceways s installed in accordance with Article 770 of the National P Y Electrical Code (NFPA 70). When Item 5A is used, the max size of cable is 200 pair for the 4 hr F Rating. Otherwise, the F Rating is 2 hr. +Bearing the UL Listing Mark *Bearing the UL Classification Mark Split Sleeve / Threaded Penetrator - Vertical System No. F -A -3010 F Rating - 3 Hr T Rating - 0 Hr —A � � -'1 �'i ,v (. A, , i - - 1 �`' -n i fi! f'1-' - ii 1 7 1,4r - A ;' ' UL SYSTEM NUMBER W- L - -3010 Section A -A F RATING - 2 HOUR OR 3 HOUR Split Sleeve / Threaded Penetrator - Vertical 1. Floor Assembly - Minimum 4 1/2" thick reinforced lightweight or normal weight (1 00-1 50pcf) concrete floor. Wall may also be constructed of any minimum 6" thick hollow -core Precast Concrete Units *. Maximum diameter of opening is 1/2 ". 2. Cables - Aggregate cross - sectional area of cables in Threraded Sleeve to be minimum8 percent to maximum 48 percent of the aggregate cross - sectional area of the Threaded Sleeve Cables shall be rigidly supported on both sides of the wall assembly 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Threaded Split Sleeve halves incorporating split nuts and split washers sized to fit the specific diameter of the opening Device shall be installed around cables in accordance with the accompanying installation instructions and bushings shall be applied to each end Device provide in nominal 1, 2, and 4' sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 114", 2 7/16 ", and 4 1/2" respectively. Al. Firestop Device * -- (not Shown) as an alternate to item 3A. Threaded steel sleeve device incorporating flat washers secured by threaded couplers Device shall be installed in accordance with the accompanying installation instructions and bushings shall be applied to each end. Device provided in nominal 1, 2, and 4" sizes. Maximum diameter of opening in wall for 1, 2, and 4" device sizes are 1 1/4', 2 7/16", and 4 112" respectively. B. Packing Material - Minimum 4 pcf mineral wool batt insulation compressed and tightly packed to fill device to minimum 3' depth with a minimum 2" depth within the confines of the floor thickness Packing material recessed from the top edge of the device as required to accommodate fill material (item 3C). C. Fill void with cavity material' --Sealant or putty -Minimum of 1/2" thickness of fill material applied within annulus, flush with the top edge of the sleeve * Bearing the UL classification Marking THROUGH FLOOR PENETRATIONS Scale = NONE Membrane Penetrator System No. W -L -3172 F Rating -1 Hr T Rating - 1/4 Hr '� I A� �;_ \ qtr - ' . fI. \' �., 11� 4 j? A — 1, Section A-A 1. Wall Assembly - The 1 hour fire -rated gypsum wallboarcVstud wall assembly shall be constructed of the materials and in the manner described in the individual 0300 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following construction features A. Studs - Wall framing shall consist of either wood studs or steel channel studs Wood studs to consist of nominal 2" by 4' lumber spaced 16" OC. Steel studs to be minimum 3- 5/8" wide and spaced 24" OC. B. Wallboard, Gypsum* -- 5/8" thick, 4' wide with square or tapered edges. The gypsum wallboard type, thickness, number of layers, fastener type, and sheet orientation shall be as specified in the individual U300 or U400 Series Designs in the UL Fire Resistance Directory. 2. Cables -- Aggregate cross - sectional area of cables in the Membrane Penetrator not to exceed .4 square inches Cables shall be rigidly supported within 24" of the wall assembly. 3. Firestop System -- The firestop system shall consist of the following A. Firestop Device * -- Nominal 1" diameter angled steel conduit in a steel mounting plate provided with plastic tipped molly bolts and a plastic bushing Device shall be driven through gypsum board, above finished ceiling, and secured to the wall assembly in accordance with the accompanying installation instructions B. Fill void with cavity material* -- Sealant - Nominal 1/4" diameter continuous bead applied to form gasket between back of firestop device mounting plate and wall surface around perimeter of conduit prior to installation of molly bolts Minimum of 1" thickness of fill material applied within the steel conduit device, flush end protruding from wall. * Bearing the UL classification Marking SINGLE -SIDE FIRE -WALL PENETRATION Scale = NONE - - y L___ � � , c c ILL hI� ' I_ ___,, � _ �_,__�,_` \ ,cp✓ FS SERIES THRU -WALL FITTING FOR FIRE WALLS 1.1 SCOPE This specification covers firestop de vice s f o r use in through-penetration firestop systems, , which are used to maintain the fire rating of the wall as well as to route and protect power and/or communications cable distribution for commercial institutional, industrial and utility needs. 1.2 CLASSIFICATION AND USE The firestop device for use in through - penetration firestop systems shall have been examined and tested by Underwriters Laboratories Inc to UL1479 (ASTM E 814) and bear the U.S. and Canadian UL Classification Mark The device shall be classified for use in one -, two -, three -, and four -hour rated gypsum, concrete and block walls and provide a maximum L rating of six cfm. The devices shall also been tested by Underwriters Laboratories Inc. to UL2043 and determined to be suitable for use in air handling spaces. 2.1 MANUFACTURER The firestop device specified herein shall be the FlameStopper ThruWall Fitting as manufactured by The Wiremold Company. Firestop devices of other manufacturers may be considered equal if, in the opinion and the written approval of the engineer, they meet all the performance standards specified herein MATERIALS 2.2.1 Box The firestop device box shall be constructed of16 gage G90 steel. 2.2.2 Intumescent Block The firestop device intumescent block shall be constructed of a graphite base material with expansion starting at 375 F and an unrestrained expansion between6 to 12 times. The intumescent block shall be held securely by the box in order to prevent tampering and damage during installation 2.2.3 Adjustable Doors The firestop device shall have doors which can be adjusted to prevent materials from penetrating the device if the device is empty or completely full The doors shall be constructed of 16 gage G90 steel with No. 10 -32 screws use to adjust opening size. 2.3 SIZES The firestop device shall be available for2" and 4" trade size EMT conduit. 2.4 FINISH The firestop device shall be available in safety yellow powder coat custom colors and an unpainted galvanized finish EXECUTION 3.1 INSTALLATION installation, refer to the s containing Prior to and Burin stem layout or approval drawings c r>, 9 Y Y PP 9 9 all elements of the system. Installer shall comply with complete system instruction sheets. The firestop device shall be installed in accordance with the UL Fire Resistance well as an applicable codes and standards for general building electrical Directory, as y pp g g and firestopping installation practices H WALL [PRESSURIZED THROUG FIRE ASUPPRESSION SYSTEM] SU PPRE 1\,J Scale = NONE SLEEVE AND FIRE — STOPPING NOTES: 1) ALL PENETRATIONS THROUGH BUILDING STRUCTURE (WALL AND /OR FLOORS) FOR COMMUNICATIONS CABLING SHALL BE SLEEVED. 2) ALL SLEEVES THROUGH WALLS OR FLOORS HOLDING A FIRE RATING SHALL BE INSTALLED UTILIZING ONE OF THE APPROVED METHODS FOR A UL LISTED ASSEMBLY AS SHOWN ON THESE SECTIONAL DIAGRAMS. 3) APPROVED MANUFACTURERS FOR UL LISTED SLEEVES SHALL BE SPECIFIED TECHNOLOGY SYSTEMS, UNIQUE FIRESTOP PRODUCTS, AND WIREMOLD. 4) ALL SLEEVES THROUGH FLOORS SHALL BE FIRESTOPPED TO A RATING EQUAL TO OR HIGHER THAN THE FLOOR RATING. 5) ALL UN -USED SLEEVES THROUGH WALLS OR FLOORS HOLDING A FIRE RATING SHALL BE FIRESTOPPED TO A RATING EQUAL TO OR HIGHER THAN THE WALL OR FLOOR RATING. 6) ALL SLEEVES THROUGH WALLS HOLDING A FIRE RATING SHALL BE FIRESTOPPED TO A RATING EQUAL TO OR HIGHER THAN THE WALL RATING. 7) ALL PENETRATIONS SHALL BE PART OF THE RE- USABLE PATHWAY SYSTEM; FIRESTOPPED PENETRATIONS SHALL EITHER BE AN ASSEMBLY WITH FIRESTOP MATERIALS BUILT INTO THE ASSEMBLY OR FIRESTOPPED WITH REMOVABLE PUTTY OR FIRESTOP BAGS. 8) THE DIAGRAMS SHOWN ON THIS PAGE ARE REPRESENTATIVE OF THE SLEEVING REQUIREMENTS FOR COMMUNICATIONS AND SECURITY CABLING SYSTEMS; ADDITIONAL LISTINGS ARE AVAILABLE FROM EACH MANUFACTURER. ! iW i 1 — � CARM E E PEDCOR DESIGN GROUP �. ._ _- il i i! i � , ' TwtmCH[-�'n'r"�'7---�'ilr�"l�f-;�l�"— - `J � , W11 1 1 I" f - i LL -; U � i-, 9+05 East 56th ^trvi2t SU—.:2 150 i. "dL?ir,NAPO! iS IN 462':6 ?i.- _.335 317,524.6335 FA a_tech,lyn.riot P E D C O R'; ?�ewkv�"! ?�* i DEVELOPMENT CO. rTom. }I L i 1 ', , r 14' t II AL z =. l .,.» -1 �'. LA- W%1_ ts. ,e_ INIII �- .a ,;,s -- .- 3 _ 'y �, .w:,- a 0. Q P: e C , *,- .— e 1' w- a ll% .�.< _ F-1110-169 � -A'*_t .ar�..r r .. sr a_ w_ -E w _ 11___„ =ir/ 9 oN. �� -' � . :;_ ' Iw ' I" ^ 4.f , ,, �_ �. rll ;l -. T - _"-s-4 .- -0 x: I - twi.4--l-I -10e` .1 1. 4.% &�e e k " It 'nlippe-OF o,_;. b- "ill I s 3 lv ,.,, 1.z, I" ._ ,-,--cri.-`,,,1 _1 . 71!,; Z;,-, "'! � I 5 - - - i � I .1 i I i 1) ;F U10- i z ";;nel�; ` i;.':. PENETRATIONS - ,el. 7 ' t.t: I .... i.-Y`. T i0:i