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Permit M05-181 - BASCO
BASCO 6750 S 180 ST M05 -181 Parcel No.: 3523049095 Address: 6750 S 180 ST TUKW Suite No: Value of Mechanical: $1,200.00 Type of Fire Protection: doc: IMC- Permit City Tukwila Tenant: Name: BASCO Address: 6750 S 180 ST, TUKWILA WA Owner: Name: AMC FAMILY LLC Address: PO BOX 2720, PORTLAND OR Department of Comm :unity Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: ci.tuk►vila.wa.us Contact Person: Name: STEVE SARCH Address: 3611 SE 20, STE 300, PORTLAND OR Contractor: Name: BRUUN CONSTRUCTION Address: P.O. BOX 42188, PORTLAND OR Contractor License No: BRUUNC *0000A Furnace: <100K BTU 0 >100K BTU 0 Floor Furnace 0 Suspended /Wall /Floor Mounted Heater 0 Appliance Vent 0 Repair or Addition to Heat /Refrig /Cooling System Air Handling Unit <10,000 CFM 0 >10,000 CFM 0 Evaporator Cooler 0 Ventilation Fan connected to single duct 0 Ventilation System 0 Hood and Duct 2 Incinerator: Domestic 0 Commercial /Industrial 0 MECHANICAL PERMIT DESCRIPTION OF WORK: SET GAS FIRE PLACE AND PIZZA OVEN WITH ASSOCIATED DUCT WORK Fees Collected: $180.79 International Mechanical Code Edition: 2003 EQUIPMENT TYPE AND QUANTITY * *continued on next page ** M05 -181 Permit Number: Issue Date: Permit Expires On: Phone: Phone: 360 739 -6595 Phone: 503 232 -7106 Expiration Date:10 /08/2007 Steven M. Mullet, Mayor Steve Lancaster, Director M05 -181 01/03/2006 07/02/2006 Boiler Compressor: 0 -3 HP /100,000 BTU 0 3 -15 HP /500,000 BTU 0 15 -30 HP /1,000,000 BTU.. 0 30 -50 HP /1,750,000 BTU.. 0 50+ HP /1,750,000 BTU 0 Fire Damper 0 Diffuser 0 Thermostat 0 Wood /Gas Stove 2 Water Heater 0 Emergency Generator 0 Other Mechanical Equipment... 0 Printed: 01 -03 -2006 Permit Center Authorized Signature City GA Tukwila Department of Comm Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Fax: 206 - 431 -3665 Web site: ci.tukwila.wa.us Steven M. Mullet, Mayor Steve Lancaster, Director Permit Number: M05 -181 Issue Date: 01/03/2006 Permit Expires On: 07/02/2006 Date: 01 I O �J 10(P I hereby certify that I have read an. - amln- • this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating constructi r the performance of work. I am authorized to sign and obtain this mechanical •er it. Signature: ,2,C., Date: I 3 d Print Name: cam - \ - e •re car \ C ' \ This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. doc: IMC- Permit M05 -181 Printed: 01 -03 -2006 1 City of Tukwila Department of Community Development / 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 Parcel No.: 3523049095 Address: 6750 S 180 ST TUKW Suite No: Tenant: BASCO 1: ** *BUILDING DEPARTMENT CONDITIONS * ** PERMIT CONDITIONS Permit Number: M05 -181 Status: ISSUED Applied Date: 11/21/2005 Issue Date: 01/03/2006 2: No changes shall be made to the approved plans unless approved by the design professional in responsible charge and the Building Official. 3: All permits, inspection records, and approved plans shall be at the job site and available to the inspectors prior to start of any construction. These documents shall be maintained and made available until final inspection approval is granted. 4: All construction shall be done in conformance with the approved plans and the requirements of the International Building Code or International Residential Code, International Mechanical Code, Washington State Energy Code. 5: Manufacturers installation instructions shall be available on the job site at the time of inspection. 6: Equipment and appliances having an ignition source and located in hazardous locations and public garages, PRIVATE GARAGES, repair garages, automotive motor -fuel dispensing facilities and parking garages shall be elevated such that the source of ignition is not less than 18 inches above the floor surface on which the equipment or appliance rests. 7: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the Department of Public Health - Seattle and King County (206/296- 4932). 8: All electrical work shall be inspected and approved under a separate permit issued by the Washington State Department of Labor and Industries (206/248- 6630). 9: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. doc: Conditions * *continued on next page ** M05 -181 Printed: 01 -03 -2006 Th City of Tukwila Department of Community Development / 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 I hereby certify that I have read these conditions and will comply with them as outlined. All provisions governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provision of any regulating construction or the performance of work. Signature: Print Name: doc: Conditions M05 -181 Date: J M6 of law and ordinances other work or local laws Printed: 01 -03 -2006 Site Address: CITY OF TUKWIL4 Community Development Department Public Works Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 Name: .7 7`L{l f (1.14 Mailing Address: 3 (a t l 5 E -Mail Address: Building Permit No; Mechanical Permit No Public Works Permit No Project No. Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. * *Please Print ** 4.7SO Sour Tenant Name: (F31/�SCD /n Property Owners Name: p � L CAM-1 LC, L L G Mailing Address: - / c -t( v& ta,erc,4 -.446 d �2 . King Co Assessor's Tax No.: - 1 0 cc I s'O `VrL'a./1"' Suite Number: Floor: City CONTACT'PERSON :: C 7,;_ Z. Zip Fax Number: ,.1(t) (l - Day Telephone: 360 '7 37 c9-0 , L 1f 300 P , 471LI4 -.44 k City (For office use only) New Tenant: .1 .... Yes State State ❑ ..No Zip x GENERAL CONTRACTOR INFORMATION (Mechanical Contractor information on back page) Company Name: kO 1Lt r _ Company Name: Mailing Address: Contact Person: E -Mail Address: Mailing Address: 3 , ( ( �� Contact Person: 160.2r � k t )(),-) E -Mail Address: Vot r Cam_ L. lit, &dk ` C Contractor Registration Number: 5Z'c i)k) C... I 000 q: \\permits plus\icc changes \perrnit application (7.2004) Revised: 6-1.05 bh Page 1 Co pz) 411—k City Day Telephone: Sr4b 3 ' - Z- t d (o Fax Number: ccD : 7' C) A Expiration Date: / I7 Si' , ?o 6 7 * *An original or notarized copy of current Washington State Contractor License must be presented at the ime o permit issuance ** Contact Person: E -Mail Address: State Zip ARCHITECT OF RECORD All lans must be wet stamped by Architect of Record Company Name: Mailing Address: City Day Telephone: Fax Number: State Zip ENGINEER OF :RECORD =All plans must be wet stamped by. Engineer of Record wDy ccf4k3 W eAt) Ito -N(USt tir 1- Qty OA_ (17 a�( I Cit State Zip Ik,& r'o Day Telephone: SO 3 - .- . '/ /1 1A) W W , way 1, Fax Number: - .2.2. ; BUILDING .PERMIT: INFORMA - LbN = 206 -431- 3670 Valuation of Project (contractor's bid price): $ Existing Building Valuation: $ Scope of Work (please provide detailed information): Will there be new rack storage? ❑ ..Yes ❑ .. No If "yes ", see Handout No. for requirements. Provide All Building. Areas in Square Footage Below PLANNING DIVISION: Single - family building footprint (area of the foundation of all structures, plus any decks over 18 inches and overhangs greater than 18 inches) For an Accessory dwelling, provide the following: Lot Area (sq ft): Floor area of principal dwelling: Floor area for accessory dwelling: *Provide documentation that shows that the principal owner lives in one of the dwellings as his or her primary residence. Number of Parking Stalls Provided: Standard: Compact: Handicap: Will there be a change in use? ❑ ....Yes ❑ ..No If "yes ", explain: FIRE PROTECTION/HAZARDOUS MATERIALS: 0.. Sprinklers ❑ ..Automatic Fire Alarm ❑..None ❑ . Other (specify) Will there be storage or use of flammable, combustible or hazardous materials in the building? ❑ .. Yes ❑ .. No If ':yes", attach list of materials and storage locations on a separate 8 -1/2 x 11 paper indicating quantities and Material Safety Data Sheets. g1\permiis plus \icc changes \permit application (7.2004) Revised 6.1.05 Page 2 bh Existing Interior . Remodel Addition to Existing Structure New Type of Construction per IBC Type of Occupancy per IBC 1" Floor 2 ndd Floor 3 Floor Floors thru Basement Accessory Structure* Attached Garage Detached Garage •. . Attached Carport Detached Carport Covered Deck Uncovered Deck ; BUILDING .PERMIT: INFORMA - LbN = 206 -431- 3670 Valuation of Project (contractor's bid price): $ Existing Building Valuation: $ Scope of Work (please provide detailed information): Will there be new rack storage? ❑ ..Yes ❑ .. No If "yes ", see Handout No. for requirements. Provide All Building. Areas in Square Footage Below PLANNING DIVISION: Single - family building footprint (area of the foundation of all structures, plus any decks over 18 inches and overhangs greater than 18 inches) For an Accessory dwelling, provide the following: Lot Area (sq ft): Floor area of principal dwelling: Floor area for accessory dwelling: *Provide documentation that shows that the principal owner lives in one of the dwellings as his or her primary residence. Number of Parking Stalls Provided: Standard: Compact: Handicap: Will there be a change in use? ❑ ....Yes ❑ ..No If "yes ", explain: FIRE PROTECTION/HAZARDOUS MATERIALS: 0.. Sprinklers ❑ ..Automatic Fire Alarm ❑..None ❑ . Other (specify) Will there be storage or use of flammable, combustible or hazardous materials in the building? ❑ .. Yes ❑ .. No If ':yes", attach list of materials and storage locations on a separate 8 -1/2 x 11 paper indicating quantities and Material Safety Data Sheets. g1\permiis plus \icc changes \permit application (7.2004) Revised 6.1.05 Page 2 bh UBLIC WORKS PERMIT INF Water District ❑ ...Tukwila 0... Water District #125 ❑ ...Water Availability Provided Submitted with Application (mark boxes which apply): ❑...Civil Plans (Maximum Paper Size -22" x 34 ") ❑ ...Technical Information Report (Storm Drainage) ❑ ...Bond ❑ .. Insurance ❑ .. Easement(s) Proposed Activities (mark boxes that apply): ❑ ...Right -of -way Use - Nonprofit for less than 72 hours ❑ ...Right -of -way Use - No Disturbance ❑ ...Construction/Excavation/Fill - Right -of -way Non Right -of -way ❑ ...Total Cut ❑ ...Total Fill cubic yards cubic yards ❑ ...Sanitary Side Sewer ❑ ...Cap or Remove Utilities ❑ ...Frontage Improvements ❑ ...Traffic Control ❑ ...Backflow Prevention - Fire Protection Irrigation Domestic Water ❑ ...Permanent Water Meter Size... ❑ ...Temporary Water Meter Size.. ❑ ...Water Only Meter Size ❑ ...Sewer Main Extension Public _ ❑ ...Water Main Extension Public _ q: \\permits plus \icc changes\permit application (7.2004) Revised: 641-05 bh , , „ „ ATION - 206433 -0179 Scope of Work (please provide detailed information): Call before you Dig: 1- 800 - 424 -5555 Please refer to Public Works Bulletin #1 for fees and estimate sheet. Sewer District ❑ ...Tukwila 0... ValVue ❑ .. Renton ❑ ...Seattle ❑ ...Sewer Use Certificate 0... Sewer Availability Provided ❑ .. Approved Septic Plans Provided ❑ ...Septic System - For onsite septic system, provide 2 copies of a current septic design approval by King County Health Department. ❑ .. Abandon Septic Tank ❑ .. Curb Cut ❑ .. Pavement Cut ❑ .. Looped Fire Line „ WO# WO# WO# Private Private ❑ .. Highline ❑ .. Geotechnical Report ❑...Traffic Impact Analysis ❑ .. Maintenance Agreement(s) 0... Hold Harmless ❑ .. Right -of -way Use - Profit for less than 72 hours ❑ .. Right -of -way Use — Potential Disturbance ❑ .. Work in Flood Zone ❑ .. Storm Drainage Page 3 ❑ ...Renton ❑ .. Grease Interceptor ❑ .. Channelization ❑ .. Trench Excavation ❑ .. Utility Undergrounding ❑ ...Deduct Water Meter Size FINANCE INFORMATION Fire Line Size at Property Line ❑ ...Water ❑ ...Sewer ❑ ...Sewage Treatment Monthly Service Billing to: Name: Mailing Address: Number of Public Fire Hydrant(s) Water Meter RefundBillingj Name: Mailing Address: Day Telephone: City State Zip Day Telephone: City State Zip Unit Type: Qty Unit Type: Qty Unit Type: Qty Boiler /Compressor: Qty Furnace <100K BTU Air Handling Unit >10,000 CFM Fire Damper 0 -3 HP /100,000 BTU Fumace>100K BTU Evaporator Cooler Diffuser 3 -15 HP /500,000 BTU • Floor Furnace Ventilation Fan Connected to Single Duct Thermostat 15 -30 HP /1,000,000 BTU • Suspended /Wall /Floor Mounted Heater Ventilation System Wood /Gas Stove 30 -50 HP /1,750,000 BTU Appliance Vent Hood and Duct Water Heater 50+ HP /1,750,000 BTU Repair or Addition to Heat/Refrig/Cooling System Incinerator - Domestic Emergency Generator Air Handling Unit <10,000 CFM Incinerator — Comm/Ind Other Mechanical Equipment MECHANICAL PERMIT INFORMATION — 206 - 431 -3670 E -Mail Address: MECHANICAL CONTRACTOR INFORMATION ,1 OQ Company Name: ( 'Z_ ?0 (hi N Mailing Address: c, ( SC's aZ Contact Person: .577016' 6 City State . Day Telephone: (pt'2 731 S ? S S Fax Number: ;246 2_ 6 z- 72_ Contractor Registration Number: Z3eel 11/ C ©o6 0A Expiration Date: /1)t��r>be ,. 9 7 * *An original or notarized copy of current Washington State Contractor License must be presented at a ti of permit issuance ** co Valuation of Project (contractor's bid price): $ r 2—c` c. Scope of Work (please provide detailed information): 5 LC ` ' ( kt3 RAC-8" ft �i Dik tsct (Asa 2, Avvey ,Dacr e,a0 Use: Residential: New .... ❑ Replacement ❑ Commercial: New ....' Replacement ❑ Fuel Type: Electric ❑ Gas Other: .? 7 2iec [n U & I S w (90 ( i L Indicate type of mechanical work being installed and the quantity below: PERMIT APPLICATION NOTES - Applicable to all permits in this application Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Permit Center to comply with current fee schedules. Expiration of Plan Review — Applications for which no permit is issued within 180 days following the date of application shall expire by limitation. The Building Official may grant one or more extensions of time for additional periods not exceeding 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 International Building Code (current edition). I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWN :4! . d IZED AGENT: Signature: '. � G -�-- /04 0 6 Print Name: 22 /K14tio,4 -1 Mailing Address: 3G f ( S'C c9- Date Application Accepted: q: \\permits ptus\icc changes\permit application (7.2004) Revised: 6.1-OS bh 1I.11.vs Date Application Expires: Page 4 Date: // -. / r- 2.o f Day Telephone: S"0,3 7?( S" 3 3 7 Aer • f72oL City State Zip OS • 21 otp I Staff Initials: Parcel No.: Address: Suite No: Applicant: Payee: doc: Receipt City of Tukwila 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 a: W 2' Permit Number: M05 -181 o ; Status: PENDING j N a Applied Date: 11/21/2005 I W W! Issue Date: N LLi ' W Oi Receipt No.: R05 -01694 Payment Amount: 150.6 J; Initials: 7EM Payment Date: 11/22/2005 12:26 PM '" w ' User ID: 1165 Balance: $0.00 w , z 3523049095 6750 S 180 ST TUKW BASCO LORENTZ BRUUN CO., INC. TRANSACTION LIST: • .Type Method Description Amount YP P 150.63 111 N Z Payment Check 1229 ACCOUNT ITEM LIST: Description MECHANICAL - NONRES RECEIPT Account Code Current Pmts 000/322.100 150.63 Total: 150.63 9604 11./22 9716 TOTAL 208.63 Printed: 11 -22 -2005 z!— W W` =U Parcel No.: Address: Suite No: Applicant: Receipt No.: Initials: User ID: Payee: City of Tukwila 3523049095 6750 S 180 ST TUKW BASCO R05 -01688 )EM 1165 LORENTZ BRUUN CO., INC. TRANSACTION LIST: Type Method ACCOUNT ITEM LIST: Description .. doc: Receipt 6300 Southcenter BL, Suite 100 / Tukwila, WA 98188 / (206) 431 -3670 Payment Check PLAN CHECK - NONRES Description 1224 RECEIPT Account Code 000/345.830 Permit Number: Status: Applied Date: Issue Date: Payment Amount: Payment Date: Balance: Amount 30.16 Current Pmts 30.16 Total: 30.16 M05 -181 PENDING 11/21/2005 30.16 11/21/2005 12:13 PM $150.63 99546 11/21 9716 TOTAL 30.16 Printed: 11 -21 -2005 Project: Sl0 Type of Inspection: N. Address: Date Called: S strructions: Date Wanted:'; 7 • Requester: Phone No: 0, Approved per applicable codes. COMMENTS: INSPEC NO. INSPECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (20 / --? /9,-)1t41/C--/`2-7 , , lg i e.i,,, S tei l ",G 624 R Corrections required prior to approval. El $58.00 REINSPECTION EE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection. 1 RceIpt No.: !Date: Project: je , < Type of Inspection: 7d7`' - /l1 - .O[s/k 2 Address: / mate Called: Special nstructions: Date Wanted: /--�ji --OK, 0 P.m. Requester: Phone No: INSPECT ON NO. INSPECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 0 (2 116)431 -367 El Approved per applicable codes. 114 Corrections required prior to approval. COMMENTS: s q — od" /�s it5 0 r.,7 4 A44-, / 1-ate/ f2 Ze,,,„; !�!i h /l //4 1.0 Z,r9. /� A `c ./..� a $58.00 REINSPECTIONI EE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to sechedule reinspection. Receipt No.: !Date: Memorandum To: Fire & Building Inspectors From: Jack Mitten Date: 12/13/2005 Re: Basco Display Sir, The proposed use of the live gas appliances installed in the BASCO showiliom is primarily to allow consumers to compare a burner's flame pattern and simmer.apability from one brand to another. Since there are a variety of performance choices, consumers feel more comfortable making a final decision when they can see for themselves. No more then three ranges will have more then one burner on at the same time. The ventilation system, hood fans that are being shown in live application are to demonstrate the performance and the noise level that each hood produces. Tlie noise issue in particular is one of real concern to consumers and, since some of these hoods can get expensive, they want to know what they are buying. This showroom is being built to give the builder, architects and designers a place to bring their clients and view product in an actual kitchen setting. Cooking will be very contained and consist primarily of manufacturers reps demonstrating their products from time to time. This will not be a daily or even a monthly occurrence, but a rare occurrence. The pizza oven, outside the curing process, will only be used for major events, which might occur 3 to 4 times a year. There will be no grease laden food prepared on the equipment. We want to keep these products looking sharp, so most of the cooking will be done in ovens. Employees will not be using these products to prepare meals for themselves. This is a showroom, not a lunch room or a cooking school. If you have any questions feel free to contact me at any time. c Jack Mitten BASCO Sales Manager 6750 So. 180 St Kent, WA. 98188 (206)352 -2726 FILE copy Permit: No. CODE COMPD IN FOR eoaenuta fl DEC 2 7 2005 0f Tukwila ®IJTI_f� Nf� flT IT ITON BUILDfiR'S APPLIANCE SUPPLY COMPANY -71 Omissions. .7ar(ze , ipt RECEIVED CITY OF TUKWILA DEC 2 2 2005 PERMIT CENTER CORRECTION 1 LTR# otits ll METALFAD INC. INSTALLATION 1p C e � INSTRUCTIONS MODEL IPIC GREASE DUCT This symbol on the nameplate means the product is listed by Underwriters Laboratories, Inc. and by Underwriters Laboratories of Canada. A MAJOR CAUSE OF GREASE DUCT AND CHIMNEY RELATED FIRES IS FAILURE TO MAINTAIN REQUIRED CLEARANCES (air spaces) TO COMBUSTIBLE MATERIALS. IT IS OF UTMOST IMPORTANCE THAT THE GREASE DUCT OR CHIMNEY BE INSTALLED ONLY IN ACCORDANCE WITH THESE INSTRUCTIONS. IMPORTANT: DO NOT INSTALL CHIMNEY OR GREASE DUCT WITHOUT FIRST READING THESE INSTRUCTIONS VERY CAREFULLY. Metal -Fab's Model IPIC Chimney has been fully tested and listed by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada. Chimneys installed In accordance with these installation instructions will comply with national safety standards and building codes. Metal -Fab's Grease Duct Systems has been fully tested and are listed by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada. Grease Ducts installed per these instructions meet the requirements of NFPA96. This booklet contains complete information on details concerning dimensions, installation, clearances to combustibles, and use of non - combustible enclosures. For any additional construction information, refer to Model IPIC parts catalog. • BREECHING APPLICATIONS • BOILER EXHAUST APPLICATIONS • ENGINE /TURBINE EXHAUST APPLICATIONS/ l.� METAL -FAB, INC. • P.O. BOX 1138, WICHITA, KANSAS 67201 • (316) 943 -2351 A • Fig. # 14 WALL THIMBLE AND VENT MUST NOT PROTRUDE BEYOND SIDING Fig. # 15 Vent System Components TCVT.811 X 12 TCVT.811 X18 TCVT.811 X24 TCVT.811 X48 TCVT.811 X12ADJ TCVT.811 XLB45 TCVT.811 XLB90 TCVT.811 XOS 12" Pipe Length 18" Pipe Length 24" Pipe Length 48" Pipe Length 12" Adjustable Pipe Extension 45° Elbow 90° Elbow Wall /Offset Support Town & Country Wall Termination Kit TCVT.WTA Roof Termination Kit TCVT.RTA Wall Shield/Ceiling Firestop TCVT.THIMA Roof Flashing, Adjustable TCVT.811 FLADJ Roof Flashing, Flat TCVT.811 FLFLT Roof Flashing, Steep TCVT.811 FLSTP or any that fits 11" pipe Wall thimble: Where a vent pipe passes through a combustible wall, a wall thimble /shield must be used to retain insulation and maintain proper clearances. The wall thimble may be cut to length for various wall thicknesses up to 12" thick. Measure the wall thickness including the siding. Trim the shield to match the wall thickness. Position the wall thimble from inside through the 14 -1/2" opening. Properly trimmed, the thimble should be flush with the outer wall surface. mi+ TTST n r, /NT TI, TTTITT T1TTl li TIT A/'"T. Tr .40 R9 nano 11 S�� c I EARTHSTONE OVENSINSTALLATION INSTRUCTIONS U.L. LISTED RESIDENTIAL DIRECT VENTING FOR ORDERING PARTS MENTIONED ON THIS PAGE CONTACT EARTHSTONE 800.840 -4915 OR YOUR SUPPLIER. MODELS 60 & 90 & 110 USE 6 INCH INSIDE DIAMETER GREASE DUCT /BUILDING HEATING APPLIANCE CHIMNEY CHIMNEY ROUND TOP (P -CT) EXISTING ROOF IF A CEILING OR WALL DOES NOT HAVE A FIRE RESISTANCE RATING AND IS PENETRATED BY A MODEL PS GREASE DUCT INSTALLED AT THE CORRECT MINIMUM CLEARANCE FOR UNENCLOSED DUCT, THEN AN ENCLOSURE MAY NOT BE REQUIRED AROUND THE DUCT SHAFT. CHASES MUST BE CONSTRUCTED OF NONCOMBUSTIBLE MATERIALS. REFER TO LOCAL JURISDICTION AUTHORITIES. EXISTING CEILING 3" MIN CLEARANCE TO COMBUSTIBLES REQUIRED FOR SELKIRK METALBESTOS MODEL IPS C1 ty O f Tu Boron n R IEWED FOR CODE COMPLIAICE poo nmog n DEC 2.7 2005 STORM COLLAR (SC -C1) FIGURE 18 MX copy PPrrn t Mo CHIMNEYS FOR RESIDENTIAL -TYPE LOW -HEAT APPLIANCES SHOULD EXTEND AT LEAST 3 -FT ABOVE THE HIGHEST POINT WHERE THEY PASS THROUGH THE ROOF OF A BUILDING AND AT LEAST 2 FT. HIGHER THAN ANY PORTION OF A BUILDING WITHIN 10 FT. OF THE CHIMNEY. f--- ROOF BRACE KIT (RBK) IF REQUIRED SELKIRK METALBESTOS IPS-C1 OR METAL FAB MODEL IPIC -1 UL LISTED GREASE DUCT/BUILDING HEATING APPLIANCE CHIMNEY 3" MIN. CLEARANCE TEMP. GAUGE FLUE TO PRIMARY HOOD VIA ADAPTER SLEEVE FOR SELKIRK MODEL IPS-C1 (SUPPLIED) CT HEATING APPLIANCE CHIMNEY ATTACHED TO PRIMARY HOOD CITY F TUKWILA NOV 2 12005 PERMIT CENTER THIS DIAGRAM GENERALLY DEPICTS THE INSTALLATION REQUIRED TO MAINTAIN THE U.L. LISTING OF THE OVEN FOR THIS TYPE OF VENTING APPLICATION. FOR SPECIFIC INSTALLATION REQUIREMENTS REFER TO SELKIRK METALBESTOS MODEL IPS GREASE DUCT INSTALLATION 8. MODEL PS AND IPS GREASE DUCT COMPLIES WITH NFPA, SBCCI, ICBOAND BOCA WHEN PROPERLY INSTALLED PER ITS INSTALLATION INSTRUCTIONS. CONTACT LOCAL AUTHORITY HAVING JURISDICTION REGARDING FIRE RATED DUCT SHAFT NOTE: OTHER U.L. LISTED SYSTEMS MAY BE SUBSTITUTED FOR THE METALBESTOS SYSTEM DEPICTED IN THIS DIAGRAM. TO MAINTAIN THE U.L. LISTING OF THE OVEN THE SYSTEM MUST BEA U.L. LISTED GREASE DUCT WHICH IS ALSO A U.L. LISTED BUILDING HEATING APPLIANCE CHIMNEY INSTALLED IN ACCORDANCE WITH THE MANUFACTURER'S GREASE DUCT INSTALLATION INSTRUCTIONS. cc— I I EARTHSTONE OVENSINSTALLATION INSTRUCTIONS U.L. LISTED VENTING APPLICATION This cooking equipment is to be connected to a U.L. Listed Building Heating Appliance Chimney which is also Listed as a Grease Duct for Restaurant Cooking Appliances. The Chimney is to be installed per the chimney manufacture's grease duct installation instructions. Refer to the oven installation instructions for additional chimney termination requirements. IT IS NEVER APPROPRIATE TO USE "CLASS A" OR "B VENT" IN ANY PART OF THE EXHAUST SYSTEM. EXHAUST SYSTEMS SERVING SOLID -FUEL EQUIPMENT MAY NOT BE COMBINED WITH EXHAUST SYSTEMS SERVING OTHER (NON -SOLID FUEL) COOKING EQUIPMENT Chases must be constructed out of non- combustable materials. VENTING DETAIL SELKIRK METALBESTOS IPS -C1 OR METAL -FAB IPIC -1 DUCT (6 "ID - 8 "OD) Model 90 and 110 - 5 ' /2" Model 60 - 12" ADAPTER PLATE MODEL 60 - 25" MODEL 90 - 22" —� MODEL 110 - 23 1/2" ii : F E ADAPTER 020205-8 Fireplace and Venting Specifications for architects, designers and builders. TOWN & COUNT FIREPLACES" TC42 Series B FILE COPY Permit No. REVIEWED FOR CODE COMPLIANCE ijenanliCn DEC 2 7 2005 Ci Of Tukwila ila BUTt_fTilir t T ITcTON CITY OF TUKWILA — - NOV 2 12005 PERMIT CENTER IMPORTANT This booklet is intended as a basic specification guide for architects, designers and builders. Please refer to the TC42 Series B Instruction Manual supplied with the fireplace for detailed information regarding installation and operation. Product installation manuals can also be viewed at www .townandcountryfireplaces.net. MODEL TC42 Series B Modular TC42_B Architoct/Dosignor Handbook — 's1ons. -tze Fireplace Dimensions TC42 B Architect.dwg Available on CD ROM and web site CENTER OF FLUE OUTLET 1211/16 ------ --- -14 1/4 42 3/16 - - --- -267/8 -- CAUTION: When selecting a location, ensure that there is adequate room on the right or left hand side of the fireplace for the control box. TOP —.. STANDOFFS \ Examples of Common Locations 020205-8 2 TC42_8 Archilect/Dosignor Handbook -1 U 0 0 U) 0 tO W c Q. U) H W z 1.• Lu O: W D p O N 0 — W tll . o Z . 1.1 co , 0 z REF. * MANTLE CLEARANCE REF. ** MANTLE DEPTH A 9" D 12" B 6" E 6 3/4" C 3" F 1 1/2" Mantel Clearance Chart COMBUSTIBLE FRAMING AND FINISH WALL ABOVE STANDOFFS MAY USE COMBUSTIBLE FACING MATERIAL IN THIS AREA NONCOMBUSTIBLE FINISH MATERIAL T FIREPLACE FRONT B TOP OF SHEET METAL STEEL FRAMING STANDOFFS NON - COMBUSTIBLE ZONE. DO NOT INSTALL ANY COMBUSTIBLE MATERIAL, ELECTRICAL WIRING, INSULATION, PLASTIC VAPOUR BARRIER OR GAS PLUMBING IN THIS AREA Minimum Clearances to Combustibles Side standoffs 0 in. (0 mm) Back standoffs 0 in. (0 mm) Top standoffs 0 in. (0 mm) Bottom of appliance 0 in. (0 mm) Adjacent sidewall 4 in. (102 mm) Ceiling to appliance 24 in. (610 mm) Mantel to appliance See above Maximum mantel extension See above Mantel support 4 in. (102 mm) Vertical vent pipe 1 -3/4 in. (45 mm) Horizontal vent pipe Top 1 -3/4 in. (45 mm) Sides 1 -3/4 in. (45 mm) Bottom 1 -314 in. (45 mm) UNIT MAY BE RECESSED UP TO 6" WITH NON - COMBUSTIBLE MASONRY TYPE MATERIAL 020205.8 3 TC42_B Architect/Designer Handbook re 2 vO CI WO 2 u. Q, N , W I . Z �... F— 0 Z 27 V O O co CI I` W III O W O Z Steel Stud Framing Kit Dimensions Concrete Board Detail (TC42.FRKITB) 020205-8 Non - combustible Zone. Do not install any combustible material, electric wiring, insulation, plastic vapour barrier or gas plumbing within the steel 12" stud frame. All other framing can be done with conventional lumber. Minimum Combustibles Framing Dimensions 61 3/4" 26 1/8" LTZL 54" Including Sheetrock 54" 3/4" 53 3/4" CAUTION: When framing for the fireplace, ensure adequate space is provided for the control box. Do not install the control box above the fireplace. 4 CONCRETE BOARD Concrete board (or other non- combustible material) must extend 12" above and 5" to the sides of the framing edges. WARNING: Framing dimensions will vary with location of fireplace, which may need to be adjusted to accommodate control box placement and vent installation. Fireplace should be in its final location before framing. TC42_B Architect/Dosignor Handbook Control Box Assembly Location and Framing Detail , L • A 2 foot service access clearance is recommended in front of the control box. • If recessed into a masonry wall, allow for control door and frame removal. • If flush mounted on masonry wall, allow for conduit to exit out the bottom control box. The control may be repositioned from the right side of the fireplace to the left side. The control may not be positioned directly above the fireplace. TCVT Roof Vent.dwg Available on CD ROM and web site ,6 Caution: When positioning the control box, do not overbend the conduit or use excessive force, as damage may occur. POSSIBLE CONTROL BOX LOCATIONS LEFT OR RIGHT OF THE FIREPLACE The control may not be positioned directly above the fireplace. • 0 TC Control Box.dwg Available on CD ROM and web site Roof and Wall Vent DWG files TCVT Wall Vent.dwg Available on CD ROM and web site 020205.8 5 TC42_B ArchitocUDesignor Handbook Hearth Extension WINDOW FRAME HEARTH EXTENSION • 1" MAX 1/4" WINDOW TRACK SUB - FLOOR HEARTH EXTENSION While a hearth extension is not required for this fireplace, one is recommended for aes- thetic reasons. The hearth extension should be noncombustible and must not be any more than 1" above the bottom of the fire- place. If thicker, fireplace must be raised up accordingly. Caution: Hearth extensions thicker than 1" will Interfere with the window frame. Through the Wall Installation WALL SHIELD THIMBLE 74 1 /4" HORIZONTAL TERMINAL 141/2" FRAMED OPENING * Minimum height from the floor to center of the opening. May need to be increased with longer horizontal pipe. 020205.8 6 TC42_B Archiloct/Dosignar Handbook A Min. rise B Pipe length C Max. run D Pipe length Max. 74 1/4" 24" 18" 1' 80 1/4" 30" 76" 5' 86 1/4" 36" 11' 2 1/8" 10' 92 1/4" 42" 16' 1/8" 15' 98 1/4" 48" 20' 10 1/4" 20' For other rise /run combinations see chart on right A Min. rise B Pipe length C Max. run D pipe length Max. 74 1/4" 24" 18" 1' 80 1/4" 30" 78 1/8" 5' 86 1/4" 36" 11' 6 1/4" 10' 92 1/4" 42" 16' 6 1/2" 15' 98 1/4" 48" 21' 6 5/8" 20' For other rise /run combinations see chart on right Wall Termination Venting Charts 48' MAX. 46' 44' 47 10' 8' 6' 4' Roof Termination Venting Charts 48' 1 i =,� MAX. 46' 44' 42' 10' 8' 6' 4' .f -- 8 it➢ 24 Pipe Length Min. * 74 t/4" I 24 Pipe Length Min. 1' 6' NOTE: The vent must not exceed a total length of 68 feet. Any combination of rise and run may be used but must bo constrained to the boundaries of this chart. A total of 3 90' elbows or combination of other elbows equalling 90' can be used without reducing horizontal run. For each addi- tional 90' elbow, or an equal combination of elbows, reduce horizontal vent run by 2 feet. Ensure vent pipe is properly supported. * Minimum Vent Pipe Centerline Height r iy 1 0' 1 20' MAX. I M A ) NOTE: Tho vent must not exceed a total length of 68 feet. Any combination of rise and run may be used but must be constrained to the boundaries of this chart. A total o14 90' elbows or combination of other elbows equalling 90' can bo used without reducing horizontal run. For each addi- tional 90' elbow, or an equal combination of elbows, reduce horizontal vent run by 2 foot. Ensure vent pipe is properly supported. 48" Min 020205-8 7 TC42_B Architect/Designer Handbook uj QQ G J 0 0 O W = J NLL w 0 2 g LIZ d Z �. 0 uj D 0 0 to 0 H. W LL � O its z co `. Vent Terminal Minimum Clearances 020205 -B A= B= C= D= E= F= G= Minimum clearances to the vent terminal must be maintained as shown below. Measure clearances to the nearest edge of termination hood. NOTE: Vent terminal must not be recessed Into a wall or siding. NOTE: LOCAL CODES OR REGULATIONS MAY REQUIRE DIFFERENT CLEARANCES. VENT TERMINAL ® AIR SUPPLY INLET INSIDE CORNER DETAIL clearances above grade, veranda, porch, deck, or balcony [' 12 inches (30 cm) minimum] clearance to window or door that may be opened [• 12 inch- es (30 cm) minimum] clearance to permanently closed window [minimum 12 inch- es (30 cm) recommended to prevent condensation on win- dow] vertical clearance to ventilated soffit located above the ter- minal within a horizontal distance of 2 feet (60 cm) from the center -line of the terminal [30 inches (76 cm) minimum] clearance to unventilated soffit [30 inches (76 cm) mini- mum] clearance to outside corner [6 inches (15 cm) minimum] clearance to inside corner [6 inches (15 cm) minimum] AREA WHERE TERMINAL 61 GAS METER IS NOT PERMITTED H= • not to be installed above a meter /regulator assembly within 3 feet (90 cm) horizontally from the center -line of the regula- tor 1= clearance to service regulator vent outlet [• 6 feet (1.8 m) minimum] J= clearance to nonmechanical air supply inlet to building or the combustion air inlet to any other appliance [• 12 inches (30 cm) minimum] K= clearance to a mechanical air supply inlet [• 6 feet (1.8 m) minimum] L= A clearance above paved side -walk or a paved driveway located on public property [' 7 feet (2.1 m) minimum] M= clearance under veranda, porch, deck, or balcony [30 inches (76 cm) minimum"] A a vent shall not terminate directly above a side -walk or paved driveway which is located between two single family dwellings and serves both dwellings* • only permitted it veranda, porch, deck, or balcony is fully open on a minimum of 2 sides beneath the floor' • as specified In CGA B149 Installation Codes, Note: local Codes or Regulation may require different clearances • for U.S.A. Installations follow the current National Fuel Gas Code, ANSI Z223.1 TOWN & COUNTRY FIREPLACES'" Web: www .townandcountryfireplaces.net 2975 Allenby Road, Duncan, BC Canada V9L 6V8 Phone: 1- 888 - 223 -0088 Printed in Canada 8 TC42_B Architoct/Designer Handbook I I W D" • rnd. z�. W U O. • 'O— 0 I• W U Z UN O Z Traditional Herringbone Panels Available for the TC42, TC36, TCArch, TC See -Thru The long established look of formal elegance is achieved with the traditional Herringbone Panels. Black Porcelain Panels Tuscan Panels Available for the TC42, TC36, TCArch, TC See -Thru A beautiful reflection of elegant living, Town & Country Fireplaces' Black Porcelain panels create the ultimate in clean, contemporary design, with flames amplified in the polished finish only black porcelain can provide. Available for the TC42, TC36, TCArch, TC See -Thru Complete your Town & Country with the look of rustic country living. Tuscan panels bring the flair of southwest living into your hone. z,. The Classic Series Screen The Classic Sliding Fireplace Screen and Andirons have been designed to further accent the firebox. The Classic Series offers time honored craftsmanship in a heavy metal frame equipped with sliding mesh screens and cast iron andirons to complete the illusion of a real wood burning fireplace. Partners, the following manufacturers have products suitable for use with Town and Country products. • DDXU.Guidelnfo - Chimneys, Residential Type and Building Heating Appliance Page 1 of 2 ary RECENED DEVCL "eI�vr Chimneys, Residential Type and Building Heating Appliance View Listings Page Bottom [Chimneys, Fireplaces, Vents and Solid Fuel Burning Appliances] (Chimneys) Chimneys, Residential Type and Building Heating Appliance See General Information for Chimneys USE AND INSTALLATION This category covers residential type and building heating appliance chimneys intended for venting flue gases at a temperature not exceeding 1000 °F (540 °C), under continuous operating conditions, from gas, liquid aneresidential type appliances and building heating appliances specified In the Chimney Selection Chart of NFPA 211, " andard for Chimneys, Fireplaces, Vents, and Solid Fuel- Burning Appliances." Factory-built residential type and building heating appliance chimneys used with residential wdod bUrnlnff;type with closed combustion chamber, shall be of the."Type HT "'designation. Each residential type chimney consists of one or more chimney sections, a support assembly (ceiling support or tee section), flrestop spacers to be employed at each floor and ceiling penetrated if a support is not Installed at that location, a roof assembly, a chimney cap, flashing and other parts as designated in the Installation and maintenance instructions provided with each chimney system and required to complete the particular installation, Chimneys Listed as suitable foropwrairepioceMare Intended to employ the appropriate fireplace adaptor specified in the individual Listings. These chimneys are intended to be installed In accordance with the installation instructions provided with each chimney support assembly. Minimum air space clearance to combustible materials should be maintained as marked on the chimney sections. Residential chimneys may have the support assembly located at any floor level with the chimney extending vertically upward (30° maximum offset) through the floors, ceilings, and roof of the building to a height not greater than indicated in the Individual Ustings. Portions of the chimney which may extend through accessible spaces should be enclosed in all cases to avoid personal contact with or damage to the chimney. Some residential chimney models are designated "Type. HT" In the individual Listings and marked on the chimney parts. These chimneys are intendedforJnstallations ;where-required by theAuthoritjr .Havingi-Jurisdiction.. Chimneys designated in the individual Listings and on the individual chimney parts as only a Building Heating Appliance Chimney are intended for Installation in, or exterior to, other than one- or two - family dwellings. These chimneys are intended to be Installed in accordance with the installation Instructions provided with the chimney. They are not intended to be enclosed within combustible construction. An interior chimney is intended to be enclosed in a noncombustible, fire resistive shaft of appropriate size where the chimney extends through any story of a building above that in which the connected appliance is located. An unenclosed chimney may be placed adjacent to walls of combustible construction at the air space clearances specified on each chimney section and In the individual Ustings. Consult Authorities Having Jurisdiction. Each Building Heating Appliance Chimney consists of one or more chimney sections, a chimney cap, lateral supports, thimble and flashing assembly and other parts as designated in the installation and maintenance Instructions provided with each chimney system. ADDITIONAL INFORMATION For additional information, see Building Materials (AABM) and Heating, Cooling, Ventilating and Cooking Equipment (AAtIC). REQUIREMENTS The basic standard used to investigate products in this category is UL 103, "Factory-Built Chimneys for Residential Type and Builds g Heating Appliances. "1 Vr UL MARK A05•0 ER polt http: // database. ul .com /cgi- bin/XYV /template/LISEXT /1 FRAME /showpage.html? &name =... 1/6/2006 �N 1 S7 .. Residential & Building Heating Appliance Model Chimney Size In. Min Clearance In. Max Vertical Height (Ft) TG +, Type HT 6, 7, 8 1 -1/2 ++ TG +, Type HT 10, 12, 14 2 ++ TG 16 and 18 2 ++ Building Heating Appliance Model Chimney Size In. Min Clearance In. Max Vertical Height (Ft) PIC* 6 -16 4 ++ PIC* 18 5 ++ PIC* 20 6 ++ PIC* 22 7 ++ PIC* 24 8 ++ PIC* 26 9 ++ PIC* 28 -48 10 ++ DDXU.MH8251 - Chimneys, Residential Type and Building Heating Appliance Page 1 of 2 UL Online Certifications Directory DDXU.MH8251 Chimneys, Residential Type and Building Heating Appliance Eage pttom METAL -FAB INC 3025 MAY AVE PO BOX 1138 WICHITA, KS 67201 USA Chimneys, Residential Type and Building Heating Appliance See General Information for Chimneys, Residential Type and Building Heating Appliance MH8251 These chimneys shall be installed with all required Listed parts specified in the Installation and Maintenance Instructions provided with each chimney system. Residential Type Chimneys shall be Installed with the specified minimum clearance (air space) to combustible enclosing walls and roof structure and with clearances at floors, joists and ceilings as established by the installation of designated factory furnished supports and firestop spacers. tame"' e 1j�e Chimneys for buildings other than one or two family dwellings are to be Installed unenclosed, at the spec fled m n(( tc earanc o combustible material. Chimneys for use with offsets shall incorporate no more than the maximum number of elbows with the related maximum chimney height as specified in the installation instructions. The chimney heights indicated in the following table represent a specific support system that provides for the maximum chimney height. The maximum chimney height shall not exceed the specified height for the support system indicated in the instructions. http: // database. ul. com /cgi- bin/XYV /template/LISEXT /1 FRAME /showpage.html ?name =DD... 1/6/2006 "IcE1413111'°f 4t . SPA \ 3 2006 PERK COTE Model Chimney Size In. Min Clearance In. Max Vertical Height (Ft) PIC 6 -16 4 + PIC 18 6 + PIC 20 8 + PIC 22 9 + PIC 24 -48 10 ++ r 1 "a J r U '..} j„ N. 4,J` Y ` Y 7 ;� ( q IPIC -1 8 -16 2 + IPIC -1 18 -26 3 + IPIC -1 28 -32 4 + IPIC -1 34 -40 5 + IPIC -1 42 -48 6 + IPIC -2 6 -34 1 + IPIC -2 36 -48 3 + IPIC -4 6 -34 1 + IPIC -4 36 -48 3 + DDTZ.MH8251 - Chimneys, 1400 Degree Fahrenheit Page Bottom S General Information for Chimneys, 1400 Degree Fahrenheit METAL -FAB INC 3025 MAY AVE PO BOX 1138 WICHITA, KS 67201 USA UL Online Certifications Directory DDTZ.MH8251 Chimneys, 1400 Degree Fahrenheit • MH8251 Page 1 of 2 These chimneys are intended for Installation in buildings other than one or two family dwellings and are to be Installed unenclosed, at the specified minimum clearance to combustible materials and with clearance at the roof structure as established by the installation of designated factory furnished roof thimbles and supports. These chimneys shall be installed with all required UL Listed parts specified in the Installation and Maintenance Instructions provided with each chimney system. The maximum chimney height shall not exceed the specified height for the support system indicated in the instructions. +Refer to manufacturer's installation instructions for specific height per support method. RECEIVED C OF TUKWILA JAN 1 3 2006 PERMIT CENTER http: // database. ul. com /cgi- bin/XYV /template/LISEXT /1 FRAME /showpage.html ?name =DD... 1/6/2006 • DDTZ.MH8251 - Chimneys, 1400 Degree Fahrenheit Page 2 of 2 • Wst Updated on 2002 -09 -05 Questions? Notice of Disclaimer Page Top Copyright © 2006 Underwriters Laboratories Inc.® The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow -Up Service. Only those products bearing the UL Mark should be considered to be Listed and covered under UL's Follow -Up Service. Always look for the Mark on the product. UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Designs and /or Listings (files) must be presented in their entirety and in a non - misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc." must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice In the following format: "Copyright © 2006 Underwriters Laboratories Inc.®" An Independent organization working for a safer world with integrity, precision and knowledge. 41:0, MEMO OITY OF TUKWILA JAN 1 3 2006 PERMIT CENTER http: // database. ul. com /cgi- bin/XYV /template/LISEXT /1 FRAME /showpage.html ?name =DD... 1/6/2006 HNOB.R15388 - Grease Ducts Page 1 of 1 page Bottom See General Information for Grease Ducts METAL -FAB INC 3025 MAY AVE PO BOX 1138 WICHITA, KS 67201 USA Last Updated on 2004 -03 -24 UL Online Certifications Directory HNOB.R15388 Grease Ducts Grease Ducts R15388 IPIC Series 4G (IPIC -4G) Grease Duct for use in Grease Duct Assembly No. G_1. Assembly Classified in accordance with 1) the SBCCI Public Safety Testing and Evaluation Services Inc. Evaluation Guide on Fire Resistance Construction (Flexible Duct Wrap Enclosure Systems), dated January 1, 1998, as an alternate to 3 Hr fire rated shaft enclosures with a minimum zero clearance to combustibles and 2) the requirements of Standard, "Tests of Fire Resistive Duct Enclosure assemblies ", UL 2221 as an alternate to 2 Hr fire resistive shaft enclosures with a minimum zero clearance to combustibles. Duct evaluated in accordance with the • requirements for duct enclosure Condition A. IPIC Series 2G (IPIC -2) Grease Duct for use in Grease Duct Assembly No. G -13. Assembly Classified in accordance with the SBCCI Public Safety Testing and Evaluation Services Inc. Evaluation Guide on Fire Resistance Construction (Flexible Duct Wrap Enclosure Systems), dated January 1, 1998, as an alternate to 2 Hr fire rated shaft enclosures with a minimum 1 and 2 in clearance to combustibles for max 18 in. and 32 In. diam grease ducts, respectively. IPIC -1) Grease Duct for use in Grease Duct Assembly No. G -15. Assembly Classified in accordance with the SBCCI Pu Ilc Safety Testing and Evaluation Services Inc. Evaluation Guide on Fire Resistance Construction (Flexible Duct Wrap Enclosure Systems), dated January 1, 1998, as an alternate to 1 Hr fire rated shaft enclosures with a minimum 2, 3 and 4 in clearance to combustibles for max 6 in., 18 in. and 24 in. diem grease ducts, respectively. Questions? Notice of Disclaimer Page Top copyright © 2006 Underwriters Laboratories Inc.® The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow -Up Service. Only those products bearing the UL Mark should be considered to be Listed and covered under UL's Follow -Up Service. Always look for the Mark on the product. UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Designs and /or Listings (files) must be presented in their entirety and in a non - misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from Underwriters Laboratories Inc." must appear adjacent to the extracted material. In addition, the reprinted material must Include a copyright notice in the following format: "Copyright © 2006 Underwriters Laboratories Inc.®" An independent organization working for a sate world with integrity, precision and knowledge. CITY OF JAN 1 3 2006 PERMIT CENTE6 http: // database. ul. com /cgi- bin/XYV /template/LISEXT /1 FRAME/showpage.html ?name =HN... 1/6/2006 e r • BREECHING APPLICATIONS L22L•fAL TI • , I � INSTRUCTIONS MODEL IPIC GREASE DUCT PIC C This symbol on the nameplate means the product is listed by Underwriters Laboratories, Inc. and by Underwriters Laboratories of Canada. A MAJOR CAUSE OF GREASE DUCT AND CHIMNEY RELATED FIRES IS FAILURE TO MAINTAIN REQUIRED CLEARANCES (air spaces) TO COMBUSTIBLE MATERIALS. IT IS OF UTMOST IMPORTANCE THAT THE GREASE DUCT OR CHIMNEY BE INSTALLED ONLY IN ACCORDANCE WITH THESE INSTRUCTIONS. IMPORTANT: DO NOT INSTALL CHIMNEY OR GREASE DUCT WITHOUT FIRST READING THESE INSTRUCTIONS VERY CAREFULLY. Metal -Fab's Model IPIC Chimney has been fully tested and listed by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada. Chimneys installed in accordance with these installation instructions will comply with national safety standards and building codes. Metal -Fab's Grease Duct Systems has been fully tested and are listed by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada. Grease Ducts installed per these instructions meet the requirements of NFPA96. This booklet contains complete information on details concerning dimensions, installation, clearances to combustibles, and use of non - combustible enclosures. For any additional construction information, refer to Model IPIC parts catalog. t'.tf {'r � lK WN • BOILER EXHAUST APPLICATIONS p cG • ENGINE /TURBINE EXHAUST APPLICATIONS Mr' JA1 -F AR INC • P 0 R(>X 1 1 "eft WI( ;HITA KANSAS 67;'(11 . CM;) 11- 1'3 -7:3r, 1 GENERAL INFORMATION LISTINGS Metal -Fab Model IPIC Chimney is "listed" by Underwriters Laboratories, Inc (UL File No. MH8251) as "Building Heating Appliance Chimney" for continuous operation at 1000°F and intermittent operation (less than one hour) at 1400°F. For higher temperature applications, it is also listed" as "1400 °F Factory Built Chimney" for continuous operation at 1400°F and intermittent operation at 1800 °F. IPIC Chimney is 'listed" by Underwriters Laboratories of Canada (ULC File No. CMH1272) as a continuous operation "760°C Factory-Built Chimney." IPIC is also "listed" for grease duct applications for continuous operation at 500 °F and intermittent operation at 2000 °F. IPIC Chimney is "listed" for use at maximum 60 -inch water column (2.19 psig) positive internal pressure when installed in accordance with the section "PIPE AND FITTING ASSEMBLY" for 60 in.wc. in these instructions. See Table 1 for clearances. APPLICATIONS Model IPIC building heating appliance chimneys are suitable for use with building heating appliances and other low heat appliances as described In the Chimney Selection Chart of the National Fire Protection Association Standard No. 211, which produce exhaust flue gas at a temperature not exceeding 1000°F continuous. IPIC Chimneys are also suitable for use as complete exhaust systems for diesel engines and gas turbines. The Model IPIC product line is listed for higher heat applications where continuous temperatures are not in excess of 1400°F and where the intermittent maximum temperatures are less than 1800°F. These chimneys are to be installed as required by NFPA for Factory Built Chimneys and Chimney Units. They are not to be enclosed within combustible construction. An interior exhaust system is to be enclosed in a fire resistive shaft of appropriate size and rating where the exhaust system extends through any story of a building above that in which the connected appliance is located. An unenclosed chimney may be placed adjacent to walls of combustible construction at the clearances specified herein. Consult local authorities having jurisdiction. Model IPIC chimneys are intended for use as complete systems connecting the appliance, engine or duct to the outdoors, or as appliance connector, flue gas collector and breeching conveying flue gas to a stack built in conformance with NFPA 211, while operating under positive forced draft, negative draft or neutral gravity flow internal pressure conditions. The Model IPIC pipe is ideally suited to this application because it is a circular cross section (low friction loss), double -wall insulated, high - strength to weight ratio design using high quality stainless steels. Complete system size and capacity information can be obtained from the ASHRAE Handbook, Equipment Volume or by contacting Metal -Fab, Inc., PO Box 1138, Wichita, KS 67201. Refer to Metal -Fab Model IPIC System Catalog for description of all necessary components. MULTI - ENGINE EXHAUSTS NOT RECOMMENDED Where multiple engines are being considered, it is recommended that they not be connected into one common exhaust system. Exhaust gases tend to flow to cooler, non - operating engines, thereby causing formation of condensation. Consult with your engine manufacturer before the installation of multiple engines vented into a common exhaust. When designing engine exhaust systems: • Provide correct pipe diameter and keep runs short with the minimum number of turns possible. • Ensure that exhaust system is properly supported and is isolated from vibration. • Pay particular attention to thermal expansion and placement of bellows joints. • Provide proper condensation traps and drains. EXPLOSION PROTECTION The use of IPIC fittings such as lateral tees, wyes and elbows should be kept to a minimum to reduce back pressure and accumulation of unburned fuels. When a change of direction is required in and engine exhaust system, fittings used for direction change must be reinforced by means of plate support or wall support assemblies to prevent damage if an explosion caused by ignition of unburned fuel should occur. Additionally, the exhaust system should be equipped with a relief valve if possible. For methods of reinforcement and placement of relief valve, see section titled "ENGINE EXHAUST SYSTEM PRECAUTIONS." GREASE DUCT APPLICATIONS Metal -Fab Model IPIC chimney is listed as grease duct for continuous temperature of 500°F and intermittent temperatures of 2000 °F. Refer to the "Grease Duct" section of these instructions for specific application information. OPERATING PRECAUTIONS CREOSOTE AND SOOT — Formation and Need for Removal When wood is burned slowly, it produces tar and organic vapors which combines with expelled moisture to form creosote. The creosote vapors condense in the relatively cool chimney flue of a slow burning fire. As a result, creosote residue accumulates on the flue lining. If ignited, this creosote makes an extremely hot fire. For this reason, the chimney should be inspected at least once every two months during the heating season to determine If a creosote or soot buildup has occurred. If creosote or soot has accumulated, it should be removed to reduce risk of chimney fire. A licensed or qualified chimney sweep should be contacted to clean the chimney. Contact local building or fire officials about restrictions and installation inspection in your area. Adequate clearance is required around cleanouts to assure accessibility for removal of caps and products accumulated within the chimney. NOTE: Dimensions In these instructions are in American standard (feet and Inches), with Metric (mm) In parenthesis except stated otherwise. 2 CHIMNEY ENVIRONMENT It Is suggested that a chimney being installed in a corrosive atmosphere be constructed of Type 316 stainless steel. Type 316 stainless is resistant to corrosion and will add to the life expectancy of the installation. Chemicals containing halogen compounds should not be allowed to contaminate the combustion air supplied to the heating equipment. Storage or use of chemicals containing chlorine or chlorides in the vicinity of equipment, or the presence of these compounds in the fuel, or combustion air supply may lead to early deterioration of the chimney. Chemicals which may cause attack on chimney materials include (but are not limited to): • chlorinated or halogenated dry cleaning solutions, • fluorocarbon refrigerants, • hydrochloric (muriatic), sulfuric or other acids, • fluorocarbon aerosol propellants, • vinyl plastics (when burned), • chlorine bleach and cleaning solutions, • titanium tetrachloride, or • plating or etching baths or solutions. Any of these chemicals passing through the combustion process produce acids which can corrode the heating equipment and the chimney. If corrosion is found, an immediate investigation should be undertaken of the entire area. Any corrosive materials should be removed to avoid future contamination. A contaminate -free atmosphere for combustion and ventilation air must be obtained. It may be necessary to pressurize the equipment room with Its own air supply. Any surface discoloration should be carefully studied as it may be caused by contaminates in the fuel, or corrosion of mild steel components of the chimney system, the breeching system, or the vented and may be indicative of deterioration of of Whenever the local atmosphere is high in pollutants, constantly or intermittently, it is recommended that the chimney components be of all stainless steel construction. When chimney is exposed to the elements, it is recommended that the outer wall be either painted with one base coat and one finish coat of a heat resistant primer and paint, or that the outer wall be constructed of stainless steel. of 3' 914 above the . . Model IPIC chim highest point where it passes thru a roo o a of 2' (610) higher than any portion of a building within a horizontal distance of 10' (3.05m) (see Fig. 1). • FIG. 1 - TERMINATION HEIGHT REQUIREMENTS MORE THAN 10' (3048) . LESS THAN 10' (3048) 2' (610) STRUCTURE 3' MIN. (914) CHIMNEY OR VENT 3 CLEARANCES — BOILERS AND ENGINES CAUTION — DO NOT ENCLOSE IN A CHASE OR PASSAGEWAY OF COMBUSTIBLE MATERIAL For appliances operating with continuous exhaust temperatures up to 1400° F, where the chimney is installed in an open room or fully ventilated area on the same story as the appliance to which it is connected, Model IPIC Chimney shall be installed at a minimum of the clearance to combustibles as indicated in Table 1. Except for installation In one or two family dwellings, a factory-built chimney that extends through any zone above that on which the connected appliance is located is to be provided with an enclosure having a fire resistance rating equal to or greater than that of the floor or roof assemblies through which it passes. Metal -Fab Model IPIC Chimney can penetrate a combustible roof by utilizing the Roof Support Assembly (IPICRSA) or Ventilated Thimble Assembly (IPICVTA). All other parts are for attachment to noncombustible construction (i.e., floor guides, wall guides, plate or wall support assemblies). TABLE 1 IPIC INSTALLATION CLEARANCES Note: The above figures represent air space, in inches, from outer surface to surroundings. (For Grease Duct clearances see table 8 page 22). Note: 4" insulation clearances are the same for IPIC -4 and IPIC -4G per UL File No. MH8251. NOTES: 1. False ceilings are a potential hazard and require firestopping. Chimneys passing through areas between ceiling and roof must be installed in fire-rated enclosures in accordance with local building codes. 2. Decorative shrouds at the termination of a factory built chimney shall not be permitted per NFPA 211. Operating Temperature 1000 °F Continuous (538 °C) 1400 °F Intermittent (760 °C) 1400 °F Continuous (760 °C) 1800 °F Intermittent (982 °C) Insulation 1" 2" 4" 1" 2" 4" Exterior Wood frame or Combustible wall Diameter. 6' 1' (25) 1" (25) 1' (25) 1' (25) 1' (25) 1" (25) 8 -16" 2' (51) 1" (25) 1' (25) 2' (51) 1" (25) 1' (25) 18 - 26" 3' (76) 1" (25) 1' (25) 3' (76) 1' (25) 1" (25) 28 - 37 4' (127) 1' (25) 1" (25) 4' (76) 1' (25) 1" (25) 34' 5" (127) 1" (25) 1' (25) 5' (127) 1' (25) 1" (25) 36 - 40" 5' (127) 1' (25) 1' (25) 5' (127) 1" (25) 1' (25) 42 - 48" 6' (152) 1" (25) 1' (25) 6' (152) 1' (25) 1' (25) Noncombustible Diameter. 6' 1' (25) 1" (25) 1' (25) 1" (25) 1" (25) 1" (25) 8 -18' Y (51) 1" (25) 1' (25) 7 (51) 1" (25) 1' (25) 20 - 47 3' (76) 1" (25) 1' (25) 3' (76) 1' (25) 1' (25) 44 - 48' 4" (102) V (25) 1' (25) 4' (102) 1' (25) 1' (25) Interior Wood or other combustibles Diameter. 6' 1' (25) 1' (25) 1' (25) 1" (25) 1" (25) 1' (25) 8 -16 7 (51) 1' (25) 1" (25) 7 (51) 1' (25) 1' (25) 18 - 26' 3' (76) 1' (25) 1" (25) 3' (76) 1' (25) 1' (25) 28 - 37 4" (102) 1' (25) 1' (25) 4" (102) 1' (25) 1" (25) 34" 5" (127) 1" (25) 1' (25) 5" (127) 1' (25) 1' (25) 36 - 40' 5" (127) 3" (76) 3' (76) 5' (127) 3' (76) 3' (76) 42 - 48' 6' (152) 3" (76) 3' (76) 6" (152) 3" (76) 3' (76) Fire rated or non- As necessary for installation and access, refer to NFPA combustitle chase 211. CHIMNEY ENVIRONMENT It Is suggested that a chimney being installed in a corrosive atmosphere be constructed of Type 316 stainless steel. Type 316 stainless is resistant to corrosion and will add to the life expectancy of the installation. Chemicals containing halogen compounds should not be allowed to contaminate the combustion air supplied to the heating equipment. Storage or use of chemicals containing chlorine or chlorides in the vicinity of equipment, or the presence of these compounds in the fuel, or combustion air supply may lead to early deterioration of the chimney. Chemicals which may cause attack on chimney materials include (but are not limited to): • chlorinated or halogenated dry cleaning solutions, • fluorocarbon refrigerants, • hydrochloric (muriatic), sulfuric or other acids, • fluorocarbon aerosol propellants, • vinyl plastics (when burned), • chlorine bleach and cleaning solutions, • titanium tetrachloride, or • plating or etching baths or solutions. Any of these chemicals passing through the combustion process produce acids which can corrode the heating equipment and the chimney. If corrosion is found, an immediate investigation should be undertaken of the entire area. Any corrosive materials should be removed to avoid future contamination. A contaminate -free atmosphere for combustion and ventilation air must be obtained. It may be necessary to pressurize the equipment room with Its own air supply. Any surface discoloration should be carefully studied as it may be caused by contaminates in the fuel, or corrosion of mild steel components of the chimney system, the breeching system, or the vented and may be indicative of deterioration of of Whenever the local atmosphere is high in pollutants, constantly or intermittently, it is recommended that the chimney components be of all stainless steel construction. When chimney is exposed to the elements, it is recommended that the outer wall be either painted with one base coat and one finish coat of a heat resistant primer and paint, or that the outer wall be constructed of stainless steel. of 3' 914 above the . . Model IPIC chim highest point where it passes thru a roo o a of 2' (610) higher than any portion of a building within a horizontal distance of 10' (3.05m) (see Fig. 1). • FIG. 1 - TERMINATION HEIGHT REQUIREMENTS MORE THAN 10' (3048) . LESS THAN 10' (3048) 2' (610) STRUCTURE 3' MIN. (914) CHIMNEY OR VENT 3 CLEARANCES — BOILERS AND ENGINES CAUTION — DO NOT ENCLOSE IN A CHASE OR PASSAGEWAY OF COMBUSTIBLE MATERIAL For appliances operating with continuous exhaust temperatures up to 1400° F, where the chimney is installed in an open room or fully ventilated area on the same story as the appliance to which it is connected, Model IPIC Chimney shall be installed at a minimum of the clearance to combustibles as indicated in Table 1. Except for installation In one or two family dwellings, a factory-built chimney that extends through any zone above that on which the connected appliance is located is to be provided with an enclosure having a fire resistance rating equal to or greater than that of the floor or roof assemblies through which it passes. Metal -Fab Model IPIC Chimney can penetrate a combustible roof by utilizing the Roof Support Assembly (IPICRSA) or Ventilated Thimble Assembly (IPICVTA). All other parts are for attachment to noncombustible construction (i.e., floor guides, wall guides, plate or wall support assemblies). TABLE 1 IPIC INSTALLATION CLEARANCES Note: The above figures represent air space, in inches, from outer surface to surroundings. (For Grease Duct clearances see table 8 page 22). Note: 4" insulation clearances are the same for IPIC -4 and IPIC -4G per UL File No. MH8251. NOTES: 1. False ceilings are a potential hazard and require firestopping. Chimneys passing through areas between ceiling and roof must be installed in fire-rated enclosures in accordance with local building codes. 2. Decorative shrouds at the termination of a factory built chimney shall not be permitted per NFPA 211. Support Method Maximum Supported Height (meter) IPIC -1 IPIC -2 IPIC-4 IPIC4G Wan Support Pier or Appliance Outlet Plate Support Assembly Roof Support Assembly Stack Support Assembly 34' (10.4m) 85' (25.9m) 85' (25.9m) 25' (7.8m) 100' (30.0m) 30' (9.1m) 75' (22.9m) 75' (22.9m) 22' (6.7m) 100' (30.0m) 29' (8.8m) 73'(22.3m) 73'(22.3m) 22' (6.7m) 100' (30.0m) 19' (5.7m) 49'(14.7m) 49'(14.7m) 15' (4.5m) 100' (30.0m) 1st DIGIT (INNER WALL) 2nd DIGIT (OUTER WALL) 3rd DIGIT (INSULATION) 4 = 304 S/S A = ALUMINIZED 1 = 1" INSULATION 6 = 316 S/S STEEL 2 = 2" INSULATION 4=3045/S 4 = 4" INSULATION 6= 316 S/S USE AND INSTALLATION OF INDIVIDUAL PARTS: These instructions comprise both general and specific requirements for all parts in the product line. Before specifying a design or beginning an installation, these instructions should be carefully reviewed. PIPE WEIGHT The average weight of the chimney, per foot of length, can be calculated using the following formula: IPIC -1: 0.95 x diameter = lbs per foot IPIC -2: 1.05 x diameter = lbs per foot IPIC -4: 1.45 x diameter = lbs per foot IPIC -4G: 1.65 x diameter = lbs per foot Example: 8IPIC -2: 1.05 x 8 = 8.4 lbs per foot Chimney design should make provisions for support adequate to ensure that chimney parts are not overloaded. PART NUMBERS These instructions identify Model IPIC parts by name of part number in the text and illustrations. Actual pails also carry a flue diameter prefix and a three digit "CTO" suffix which defines the materials of construction, such as 24IPIC30 -461 for a 24 -inch diameter double wall pipe section 30 inches long with Type 304 stainless steel inner wall, Type 316 stainless steel outerwall and a 1" insulation. (See Table 2 for further explanations of CTO codes). TABLE 2 U.S. Patent Nos. 4,720,125 and 4,781,402 PIPE AND FITTING ASSEMBLY The Model IPIC joint sealing system is designed for quick and easy installation, for most applications: 1. Apply a continuous bead of the proper sealant to one of the flanges to be joined. 2. Join the two flanged ends of the pipe sections. 3. Fill the channel of the flange band with the proper sealant. 4. Install the flange band around the flanges. 5. Pack void between inner and outer walls with insulation strips. 6. Secure the outer casing with the closure band. For applications that require a 60 in. wc. pressure rating, perform Steps 1 through 3 above, then: 4. Install the seal clip(s) on the flanges. 5. Install the flange band around the flanges making sure the joint is located so the seal clip overlaps both edges of the joint. 6. Fill the space behind the flange band on both sides of the flange with P071 pressure sealant. 7. Pack void between inner and outer walls with insulation strips. 8. Secure the outer casing with the closure band. Apply sealant to closure band for exterior applications only. TABLE 3 See Figures 2 and 3 for illustrations of the joining process and finished joint. 4 FIG. 2 — MODEL IPIC JOiNT ASSEMBLY 3 INSTALLATION TIPS 1. When system is installed outdoors, the upper side (upper half in the horizontal position) of the closure band bead should be sealed with P077 sealant to make the casing watertight. 2. When installing flange band, tap lightly with hammer around periphery of band while tightening draw screws. This helps to align flanges for the best seal. Do not overtighten draw screws. 3. For gas temperatures up to 600 °F, use P077 sealant. 4. For gas temperatures over 600°F, use P071 sealant. 5. For 60" pressure rating, use P071 sealant. 6. For Grease Duct applications, use P080 sealant only. Properly sealed joints are gas tight and resistant to water, oil solvents and acids (except hydrofluoric). FIG. 3 — ASSEMBLED MODEL PIC JOINT OUTER PIPE INNER PIPE SEALANT (ON INSIDE) SPACER CUP OUTER CLOSURE BAND FLANGE BAND APPLY SEALANT TO INNER PIPE FLANGES AND FLANGE BAND INSULATION SUPPORT LIMITS SUPPORT SPACING Table 3 provides the maximum vertical distances between supports for various support types. Using these supports, the maximum installed chimney height is 200 feet (60.96m). re W 6 _ 00 U) 0 U) W W O. u_ _ . N o . Z : I— 0 Z H: p � O • —' 0 I— W uJ . I- • -. u. 0 ai U N Z• GUIDE SPACING Table 4 provides maximum distance between guides for chimney installed inside building. (For exterior installations, see Table 5 and Fig. 37.) These numbers represent ALL diameters and vary depending on the amount of insulation. TABLE 4 Maximum Unsupported Horizontal Spacing: IPIC -1 10' (3.1m) IPIC -2 9' (2.7m) IPIC -4 9' (2.7m) IPIC -4G 9' (2.7m) Maximum Unsupported Vertical Spacing Below Roof Line: IPIC -1 IPIC -2 IPIC -4 IPIC -4G 21' (6.4m) 19' (5.8m) 18' (5.5m) 13' (3.9m) CHIMNEY ABOVE ROOF When chimney is extended above roofline, special consideration should be given to support and guying requirements. Use of a standard or variable pitch flashing requires that the chimney be stabilized to resist side loading. Figures 4 and 8 depict methods of protecting a flashing from side loads using a full angle ring or plate support. Ventilated thimble and roof support assemblies include lateral support rings, and additional guidance at the roofline is not required. FIG. 4 — FULL ANGLE RING FOR LATERAL SUPPORT CLOSURE RING STORM COLLAR ROOF FLASHING PIPE DIAMETER ANGLE RING MUST BE USED WITH FLASHING GUY RING (IPICGR) Chimneys that extend above the roof, or are installed in severe weather regions, may require a guy ring (IPICGR) to enable the chimney to resist wind loads. The guy ring is connected to the building or other structure by means of cables or braces. Table 5 provides the spacing between guy rings and freestand height for Model IPIC Chimney. 5 FIG. 6 — IPIC GUY RING, EXPLODED VIEW FIG. 6 — GUY RING CABLE ATTACHMENT CASING APPLY SEALANT BETWEEN COLLAR & CASING STORM COLLAR CABLE THIMBLE CABLE CLAMPS GUY RINGS DRILLED FOR 3 OR MORE CABLES STORM COLLAR HALF RINGS (4 PCS.) HALF CLOSURE BANDS (2 PCS.) The guy ring consists of four (4) identical half rings with hardware to secure them together, two (2) half closure bands and a storm collar (Fig. 5). Select the joint where the guy ring is to be located and assemble the inner wall Joint (Steps 1 to 4 under PIPE AND FITTING ASSEMBLY on Page 4). Sandwich the flange band between the guy rings with the joints of the top and bottom rings 90° apart and the cutouts aligned. Clamp the guy ring with the nuts and bolts provided. Install the half closure bands above and below the guy ring, then attach the cables or braces (see Fig. 6). Install the storm collar above the upper half closure. The collar should be caulked with sealant to prevent water entry. NOTE: Cable, cable clamps and cable thimble supplied by others. Cable or braces (supplied by the installer) should be slightly loose to allow for thermal expansion for single guy ring installations (Fig. 8) or be equipped with tensioning springs on multiple guy ring installations (Fig. 9). To reduce the effect of thermal expansion on the guy cables or braces, a fixed -point support (plate or wall support assembly) may be installed immediately below the roofline as shown in Figure 8. Pipe Diameter "A" "B" mbb�'vmmb m iv aobZ� �p m N NNNN�CO �(ONV�f�00 10' 6' (3.20m) 7' If (2.41m) 12' 0' (3.66m) 8' 5' (2.57m) 13' 3' (4.04m) 8'11" (2.72m) 14' 6' (4.42m) 9' 5' (2.87m) 15' 11" (4.85m) 9' 11" (3.02m) 17' 0' (5.18m) 10' 8' (3.20m) 18' 3' (5.56m) 11' 0' (3.35m) 19' 6' (5.94m) 11' 6' (3.51m) 20' 2' (6.15m) 11' 10' (3.61m) 20' 9' (6.32m) 12' 3' (3.73m) 21' 5' (6,53m) 12' 6' (3.81m) 22' 1" (6.73m) 13' 1' (3.99m) 22' 8' (6.91m) 13' S' (4.09m) 23' 4' (7.11m) 13' 10' (4.22m) 24' 0" (7.32m) 14' 3' (4.34m) 24' 7' (7.49m) 14' 7' (4.45m) 24' 7' (7.49m) 14' If (4.55m) 31' Cr (9.45m) 15' 6' (4.72m) 15' 3' (4.64m) 0' (9.75m) 16' 0' (4.88m) 15' 9' (4.80m) 6" (9.91m) 16' 3' (4.95m) 18' 3' (4.95m) 6' (10.21m) 16' 9" (5.10m) 16' 6' (5.03m) 6' (10.52m) 17' 3' (5.26m) 17' 0' (5.18m) Pipe Diameter "A" "B" b 02VV'm COED COEDZV IRW<N� <Y N N N N N M M 17' 0' (5.18m) 8' 6' (2.59m) 17' 6' (5.33m) 8' 9' (2.67m) 18' 6' (5.64m) 9' 3' (2.82m) 20' 0' (6.10m) 10' 0' (3.05m) 21' 0' (6.40m) 10' 6' (3.20m) 22' 0' (8.71m) 11' 0' (3.35m) 23' 0" (7.01m) 11' 6' (3.51m) 24' 0' (7.32m) 12' 0" (3.66m) 24' 6' (7.47m) 12' 3" (3.73m) 25' 0' (7.62m) 12' 6' (3.81m) 26' 0' (7.92m) 13' 0' (3.96m) 27' 0' (8.23m) 13' 6' (4.11m) 27' 0' (8.23m) 13' 6' (4.11m) 28' 6' (8.69m) 14' 3" (4.34m) 29' 0" (8.84m) 13' 6' (4.11m) 30' 0' (9.14m) 15' 0' (4.57m) 30' 6" (9.30m) 15' 3" (4.64m) 31' Cr (9.45m) 15' 6' (4.72m) 32' 0' (9.75m) 16' 0' (4.88m) 32' 6" (9.91m) 16' 3' (4.95m) 33' 6' (10.21m) 16' 9" (5.10m) 34' 6' (10.52m) 17' 3' (5.26m) Pipe Diameter "A" "B" 4,6 b2lvm 8'3'(2.51m) 8'8'(2.03m) 9' 7' (2.92m) 7' 3' (2.21m) 10' 9' (3.28m) 7' 9' (2.36m) 11' 11' (3.63m) 8' 4" (2.54m) 13' 2'(4.01m) 8'11 "(2.71m) 14' 2' (4.32m) 9' 6' (2.90m) 15' 4' (4.67m) 10' 1' (3.07m) 18' 4' (4.98m) 10' 8" (3.25m) 17' 0' (5.18m) 11' Cr' (3.35m) 17' 7' (5.36m) 11' 6' (3.51m) 18' 2' (5.54m) 11' 10' (3.61m) 18' 8' (5.72m) 12' 4' (3.76m) 19' 4' (5.89m) 12' 8' (3.86m) 19' 11' (6.07m) 13' 2' (4.01m) 20' 6' (6.25m) 13' 6' (4.11m) 21' 0' (6.40m) 13' 11" (4.24m) 21' 0' (8.40m) 14' 3' (4.34m) 21' 0' (6.40m) 14' 8" (4.47m) 21' 0" (6.40m) 15' 2' (4.62m) 15' 8' (4.78m) 16' 0' (4.88m) 16' 5" (5.00m) TABLE 5 IPIC -1 GUYING REQUIREMENTS IPIC -2 GUYING REQUIREMENTS IPIC -4 - IPIC -4G GUYING REQUIREMENTS See Fig. 7, 8 & 9 for pictorial definition of "A" and "B ". 6 NOTE: When chimney Is Installed outside building, adjacent to wall, spacing between guides Is equal to dimension "A" In Table 5 above (refer to Fig. 37 on Page 16). FIG. 7 - MAXIMUM FREE - STANDING HEIGHT ABOVE ROOF NOTE: See Table 5 for "A" and "B" dimensions. FIG. 8 - GUYING FOR SINGLE SECTION STORM COLLAR PLATE SUPPORT STORM COLLAR FLASHING ROOF PLATE SUPPORT SUPPORT STEEL (BY INSTALLER) FIG. 9 - CHIMNEY GUYING REQUIREMENTS Cables should be spaced at or near 120° intervals (3 cables) or 90° (4 cables). Rigid bracing requires two (2) braces spaced between 60° and 150° apart. Maximum spacing between the fixed support and the guy ring is 5 feet when rigid bracing is used (see Fig. 10). FIG. 10 — HEIGHT LIMITS FOR RIGID GUYING GUY RING (ON INSIDE OF COLLAR) USE RIGID GUYS IF CHIMNEY IS CLOSE TO OUTSIDE WALL A PLATE SUPPORT OR WALL SUPPORT ASSEMBLY MUST BE USED AT ROOF LEVEL WHEN RIGID GUYING IS USED PIPE LENGTH (IPIC9, IPIC18, IPIC30, IPIC42) Model IPIC pipe is available in 4 standard lengths: 9" (229), 18" (457), 30" (782) and 42" (1067). Pipe sections are joined, using appropriate sealant, to make up desired length of run. These sections may be modified by use of nipples or couplings to accept auxiliary equipment such as temperature probes or smoke monitors. Consult factory or your local representative to obtain information regarding such modifications. DRAIN SECTION (IPICDS) A drain section is a special variation of an 18" (457) pipe length with provision to drain rain or condensate from the chimney. The pipe flue is equipped with an annular catch ring and a 1" (25) NPT nipple extending through the casing for attachment of drain piping. The drain piping should include a water leg of a height at least equal to the maximum expected operating pressure at the appliance outlet to avoid allowing flue gases to vent through the drain. Drain section should be installed indoors to prevent freezing (see Fig. 11). FIG. 11— DRAIN SECTION INSTALLATION 6 PIPE DIAMETERS OR MORE TRAP HEIGHT EQUAL TO MAX. APPLIANCE \\ OUTLET PRESSURE 1• PIPING MAXIMUM SPACING 5 FT. EXPANSION JOINT OR BELLOWS JOINT CLOSURE RING FLASHING AND STORM COLLAR FULL RING GUIDE DRAIN SECTION 7 STANDARD 90° TEE (IPIC90MT) The 90° Manifold Tee (IPIC90MT) may be used to connect horizontal to vertical when a cleanout access or drain is desired. If more that 1/4" (6) of thermal expansion is expected between the tee and the next fixed support point (the appliance outlet, for example), the tee should be protected from bending moments by use of an expansion joint or bellows joint. See the sections on those fittings for additional information about compensation for thermal expansion. FIG. 12 — SUSPENDED TEE PLATE SUPORT DRAIN BUCKET STRUCTURAL STEEL STAND INTERMEDIATE SUPPORTS IF REQUIRED (SEE TABLE 4) EXPANSION JOINT DRAIN TEE CAP PLATE SUPPORT OR WALL SUPPORT ASSY • PLATE SUPPORT OR WALL SUPPORT When a tee is used at the base of a riser, the preferred location for support is above the tee, thus suspending the tee (Fig. 12). If it is not possible to suspend the tee, it may be supported from the base of the tee (Fig. 13). When this type of support is necessary, access to the drain cap may be hindered. A drain bucket should be used under the tee to allow access to the tee cap. FIG. 13 — BASE SUPPORTED TEE SINGLE WALL BOILER ADAPTER DRAIN TEE CAP ( IPICTC), CLEANOUT CAP The unused port of a tee must be closed to prevent leakage of flue gases. A drain tee cap is used to close the tee and drain condensation or rainwater when the tee is installed at the base of a rise. When the tee is to be used for cleanout or access purpose only, a cleanout cap (IPICTCN) is recommended. Both the drain tee cap and the cleanout cap are equipped with closures, which serve the dual purpose of maintaining the double wall clearance to combustible and giving the cap a finished appearance. The drain tee cap's drain nipple must be connected to a suitable disposal point. Any rain entering the chimney will wash down and remove any combustion residue from the chimney flue. The resulting effluent may be corrosive. The tee cap must be sealed at the connection to the tee using the appropriate sealant for the application. This will assure that moisture will drain through the drain nipple, as intended. 45° MANIFOLD TEE (IPIC45MT), DOUBLE LATERAL (IPICDL) For systems where minimizing flow resistance is desirable or critical, a manifold tee having a 45° entrance to the trunk Is available. When used to make 90° turns, an additional 45° elbow is required. It is particularly important to isolate the 45° manifold tee from the effects of thermal expansion. This isolation is typically accomplished by the use of a 2 -axis support (see Fig. 14). Otherwise, the installation details and precautions are similar to those for the 90° manifold tee. FIG. 14 - TWO -AXIS SUPPORT METHOD PLATE SUPPORT ATTACHED TO BUILDING STRUCTURE 11.11 is% 45' MANIFOLD TEE 45' FIXED ELBOW WALL SUPPORT MORE THAN 1/4' THERMAL ASSEMBLY EXPANSION EXPECTED DRAIN BUCKET MULTIPLE APPLIANCE BREECHINGS (HEADERS) When 90° or 45° manifold tees are used to manifold multiple appliances together, it is important to make provisions for expansion of the manifold. An expansion joint should be installed between tees (see Fig. 15). The manifold must be supported properly by means of plate supports or wall support assemblies arranged to protect the tees from bending forces. FIG. 15 — LATERAL TEE MANIFOLD PLATE SUPPORT ADJUSTABLE LENGTHS OR BELLOWS JOINT BELLOWS JOINT OR EXPANSION JOINT PLATE SUPPORT 90' ELBOW OUTLET 30 °, 45° OR 90° FIXED ELBOWS (IPIC3OL) - (IPIC45L) - (IPIC9OL) Elbows are not designed to resist bending loads and must be protected by structural reinforcement. Figure 16 depicts some altemative methods for protection of elbows. Elbows may be used singly or in combination to provide turns of 30, 45, 60, 75, or 90 degrees. For engine or turbine exhaust systems, it is recommended that 90° turns be accomplished by using two (2) 45° elbows or a combination of one 45° elbow and one 45° manifold tee to minimize flow resistance. 8 FIG. 16 — METHODS OF STRUCTURAL REINFORCEMENT FOR ELBOWS PLATE ANGLE 45° FIXED ELBOW PLATE ANGLE 2-45° ELBOWS REINFORCED WITH PLATE SUPPORTS 45' FIXED ELBOW ANGLE 2-45° ELBOWS REINFORCED WITH WALL SUPPORTS CHIMNEY OFFSETS Offsets should be avoided except when there is no other way to route the chimney. When an offset must be used, good design indicates that the angle used should be the minimum possible (see Fig. 18). If the appliance currently bums solid fuel or is capable of being converted to bum solid fuel, the offset cannot exceed 30 degrees. No more than 2 offsets (4 elbows) may be used. FIG. 17 — MINIMUM ELBOW OFFSETS (REFER TO TABLE 6) Table 6 indicates minimum center to center offset for two elbows connected directly to each other. MINIMUM ELBOW OFFSETS PIPE SIZE "A" - 30° ELBOW PIPE SIZE "A" - 30° ELBOW "A" - 45° ELBOW • Zo ON:rtOODON coaDON co NNNNNMM MMsf 6" (152) 9 7/8" (251) 7 3/4" (197) 14 118" (359) 7 3/4" (197) 14 1/2" (368) 7 3/4" (197) 14 1/2" (368) 7 3/4" (197) 14 1/2" (368) 7 3/4" (197) 14 1/2" (368) 7 3/4" (197) 14 1/2" (368) 8 1/2" (216) 16 5/8" (422) 8 1/2" (216) 16 5/8" (422) 81 /2" (216) 16 5/8" (422) 8 1/2" (216) 16 5/8" (422) 8 1/2" (216) 16 5/8" (422) 8 1/2" (216) 11" (279) 11" (279) 11 "(279) 12 3/4 "(324) 11" (279) 1/2" (216) 11" (279) 11 "(279) 11" (279) 11" (279) 11" (279) 11" (279) 11" (279) 11" (279) 12 3/4" (324) 12 3/4" (324) 12 3/4" (324) MINIMUM ELBOW OFFSETS PIPE SIZE "A" - 30° ELBOW "A" - 45° ELBOW m m O N m M O N t0 m O N 'C (Q CO O N f0 DO NNNNNMM c�a M sr 6" (152) 9 7/8" (251) 8" (152) 9 7/8" (251) 6" (152) 9 7/8" (251) (251) 3/4" (197) 14 1/8" (359) (251) 3/4" (197) 14 1/2" (368) (251) 3/4" (197) 14 1/2" (368) 14 1/8" 3/4" (197) 14 1/2" (368) 3/4" (197) 3/4" (197) 14 1/2" (368) 3(4" (197) 14 1/2" (368) (368) 1/2" (216) 16 5/8" (422) 1/2" (216) 16 5/8" (422) 3/4" (197) 1/2" (216) 16 5/8" (422) 1/2" (216) 1/2" (216) 1/2" (216) 1/2" (216) 11" (279) 11" (279) 11" (279) 11" (279) 11" (279) 11" (279) 12 3/4 "(324) MINIMUM ELBOW OFFSETS PIPE SIZE "A" - 30° ELBOW "A" - 45° ELBOW m m O N lD lob Nf m'co ONh Vo ON CD N NNN N M M c-�l'7 M sr s 6" (152) 9 7/8" (251) 6" (152) 9 7/8" (251) 6" (152) 9 7/8" (251) 6" (152) . 9 7/8" (251) 3/4" (197) 14 1/8" (359) 3/4" (197) 14 1/2" (368) 3/4" (197) 14 1/2" (368) 3/4" (197) 3/4" (197) 3/4" (197) 1/2" (216) 1/2" (216) 1/2" (216) 1/2" (216) 1/2" (216) 1/2" (216) 11" (279) 11 "(279) 11" (279) 11" (279) 11" (279) 11" (279) TABLE 6 (PIC & IPIC -1) FIG. 18 — SUPPORT FOR CHIMNEY OFFSETS VENTILATED THIMBLE ASSEMBLY OR ROOF SUPPORT ASSEMBLY 30' FIXED ELBOW OR 45' FIXED ELBOW ■ 1 -E ra�«�r"c ,. U 10 MAX 25 FT. (7620) (OIL OR SOUD FUEL) EXPANSION JOINT EXPANSION JOINT WALL SUPPORT ASSY. OR PLATE SUPPORT EXPANSION JOINT 30' MAX. FOR OIL OR SOUD FUEL 30' FIXED ELBOW OR 45' FIXED ELBOW WALL SUPPORT ASSY. OR PLATE SUPPORT PLATE HALF ANGLE RING 45' FIXED ELBOW EXPANSION JOINT Bracing, above and below the elbows, is needed to avoid subjecting them to bending moments. In order for bracing to be effective, it must be rigidly attached to building members or foundation. The design of the structure used to attach supports must include the weight of the sloped section and whatever additional pipe is carried by the support. Additionally, an expansion joint or bellows joint is needed between the elbows to relieve thermal expansion stresses. TABLE 6 (IPIC -2) TABLE 6 (IPIC -4 - IPIC -4G) 90° WYE (IPIC90Y) The 90° wye Is very useful when the vertical chimney is located between two appliances and a low -loss junction is desired. It is ideal for engine with dual - exhaust connections. The wye fitting may be suspended by a plate support or roof support assembly. Expansion joints or bellows joints should be used to protect the wye from thermal expansion stresses (see Fig. 19). FIG. 19 — 90° WYE APPLICATION, DUAL EXHAUST ENGINE WITH DUAL EXHAUSTS EXPANSION JOINT (IPICAL) The expansion Joint may be used to compensate for thermal expansion and to make up odd lengths. It is essential that sufficient installed length be allowed to compensate for abnormal, as well as normal, operating conditions. The expansion joint cannot be used to correct misalignment or to compensate for lateral movement or vibration. An expansion joint is comprised of (1) a collar that is 5'/," (133) long with a flange and vee band at one end and a graphite impregnated ring gasket at the other, (2) a 30" (762) long tube, flanged at one end, which fits into the 5W (133) collar; (3) an outer jacket consisting of two half jacket assemblies; and (4) loose insulation blanket to fill space between the tube and casing. FIG. 20 — EXPANSION JOINT FLUE ASSEMBLY 30' MAX (782)OR TRIMMED ASREO'D * 8' MIN. (203) _ INSTALLED LENGTH S%: f (133) TUBE COLLAR 90' WYE TAPERED INCREASER 45' FIXED ELBOW FLANGE ADAPTER 10 Installation procedure is as follows: 1. Loosen draw screw at gasket band and slide collar toward flanged end of tube. Do not remove collar from tube. 2. Slide unflanged end of tube Into the upstream piece of pipe and make up joint between pipe and collar following the procedures outlined under heading PIPE AND FITTING ASSEMBLY on Page 4. 3. Pull flanged end of tube to the downstream piece of pipe and make up joint as above (see Fig. 20). 4. Cut insulation to desired length and wrap inner pipe ensuring that it is covered completely before attaching half jackets. 5. Wrap two half jackets around Joint with bead at the downstream end and punched edge overlapping plain edge by approximate 3/4" (19). Note: For horizontal installations the seams must be located at the top and bottom of the pipe, coat unpunched edge of casing with P077 sealant to waterproof the casing. 6. Install self - drilling screws (supplied with jacket) at punched holed through both layers at overlap. Exercise care that half jacket edges do not align with draw screws on flange bands and that no screws are installed in portion of jacket which is over casing of adjacent pieces of pipe (see Fig. 21). The screws shipped with the expansion joint are of the correct length to avoid penetrating the inner wall (flue) of the pipe. Do not use any other screws to attach the casing. FIG. 21— EXPANSION JOINT CASING ASSEMBLY SCREWS (INCLUDED) HALF JACKET 3/4' (19) Note: Do not screw through casing of adjacent pipe. NOTES: 1. It Is recommended that the pipe on both sides of the expansion joint is supported or guided to assure that the expansion joint will not bind during operation. 2. Installation of an expansion joint adjacent to fittings, such as elbows, tees or wyes, Is not recommended. However, it is not always possible to avoid these fittings. If an expansion joint must be joined to one of these fittings, the unflanged end of the tube should be away from the fitting and fitted into a pipe length In the manner described in the Installation procedure above. 3. Expansion joint must be installed with a flange to flange length of not more than 22 ". The minimum length for Installation must take Into account the amount of expansion that may occur during operation. Minimum length is calculated as follows: Expansion = Length (feety100 x Temperature Rise (°F)100 Minimum Length = Expansion + 6" (152mm) It is recommended that the temperature used in the above formula be at least 300°F higher than the expected normal operating temperature. 4. If inner tube is too long, it may be cut to length. Tube must be a minimum of 8" (203) longer than flange -to- flange length. Prior to Installation of cut pipe, remove all burrs to ensure that interference does not occur. 5. Check gasket to ensure that it fits snugly without binding on Inner pipe. 6. Outer jacket must move during expansion or contraction. Ensure that no screws are located where the jacket overlaps the casing of the adjacent pipe and that it is loose Location Size Single Wall Double Wall Exterior Combustible 6" - 48" 18" Non - combustible 6" - 18" 2" SEE TABLE 1 20" - 48" 4" Interior Combustible 8" - 48" 18" Non - combustible 6 "- 18" 2" SEE TABLE 1 20" - 48" 4" enough to move as needed. Alignment of the bead on the jacket with the bead on the adjacent pipe will ensure that the jacket stays In the proper location. 7. Note that the expansion joint will not support any weight in the vertical position. It should not be used unless both ends of run, where an expansion joint is Installed, are anchored as fixed points. Figure 22 Indicates appropriate locations for expansion joints in various orientations. FIG. 22 — EXPANSION JOINT LOCATIONS WALL GUIDE WALL GUIDE WALL OR PLATE SUPPORT FIXED POINT PLATE SUPPORT 90' TEE NOW FLASHING I SEE TABLE 3 FOR MAXIMUM DISTANCE SEE TABLE 3 FOR MAXIMUM DISTANCE CHIMNEY EXPANSION UP THROUGH ROOF. GUIDANCE IS REQUIRED THROUGH FLASHING OR THIMBLE EXPANSION JOINT ABSORBS UPWARD MOVEMENT EXPANSION JOINT CAREFULLY ALIGNED BELLOWS JOINT (IPICBJ) Note: Standard bellows joints require greater clearance to combustibles that double wall components. See Table 7 for standard single will and optional double wall bellows joints for clearances. Bellows joints are recommended for vibration and expansion movement. This type of movement is typically encountered in diesel engine or turbine exhaust applications. Figure 23 illustrates typical bellows joint locations in a diesel engine exhaust system. TABLE 7 BELLOWS JOINT CLEARANCE 11 FIG. 23 — BELLOWS JOINT LOCATION IN DIESEL ENGINE BELLOWS JOINT PLATE SUPPORT INN HALF ANGLE BELLOWS JOINT PLATE SUPPORT LINER TOWARD VENT • 3' (78) EXPANSION MAXIMUM APPLIANCE OUTLET Bellows joints may be used In either horizontal or vertical positions. It is imperative that the bellows joint be properly supported and guided in either orientation. A bellows joint is typically supported by a plate or wall support assembly on the appliance end of the bellows and guided by a full angle ring or wall guide on the exhaust end. The exhaust side guide should be located approximately 6 " -12" (152 -305) from the downstream end of the bellows joint. IMPORTANT: When supporting high rise exhaust systems, bellows joints must be located just below every fixed support to prevent compression at ambient temperatures as shown in Figure 58. Good design indicates that any section of exhaust piping over 4' (1.2m) between fixed points be equipped with a bellows Joint. A bellows joint can compensate for up to 3" (76) of expansion. The entire exhaust system should be examined to assure that bellows joints are installed in pipe runs in which 3" (76) or less of expansion is expected. For a method of calculating expansion, see Note 3 under expansion joints. For example, a 60 -foot run (18.3m) of exhaust pipe handling 1000° F flue gas would produce 60ft/100 X 1000°F/100 = 6" (152) of expansion. This run would require 2 bellows joints. The bellows joint is lined to minimize contact between the bellows and exhaust gases. Thus, it cannot be used to correct mis- alignment. The liner extends approximately 2" (51) past one end of the bellows joint flange. This extension should always be toward the downstream (exhaust) side of the system to avoid becoming an obstruction for the shockwave in the event of a delayed ignition incident in the exhaust system. VARIABLE LENGTH (IPICVL) The function of the variable length is to make up odd lengths of pipe, which are not to be used for expansion compensation. The variable length is comprised of the following components: (1) a 3% (83) collar with a flange at one end used to damp the flange at the desired length; (2) a 30" (762) long tube flanged at one end, which fits into the 3%" (83) collar, (3) an outer jacket consisting of two half jacket assemblies; and (4) loose insulation blanket to fill space between the tube and casing. A variable length can be installed at any flange to flange length from 4 " -26" (102-660). If the flue is too long to fit into the adjacent section of pipe without interfering with the flow path, it should be trimmed to the desired flange to flange length plus 4" (102). STEPS 1 2 3 4 5 6 "C " = 5" (127) 10" (254) 15" (381) 20" (508) 25" (635) 30" (762) FIG. 24 VARIABLE LENGTH FLUE ASSEMBLY TUBE COLL4R Installation procedure is as follows: 1. Loosen draw screw at collar and slide collar toward flanged end of tube. Do not remove collar from tube. 2. Slide unflanged end of tube into the upstream piece of pipe. Pull flanged end of tube to the downstream piece of pipe and make up joint as outlined under PIPE AND FITTING ASSEMBLY on Page 4. 3. Apply a thin coat of sealant, about 1" (25) wide at the plain end of the pipe where tube slides into mating pipe section. Press sealant into any gap between the tube and the mating pipe section. Apply sealant to flange of mating pipe (see Fig. 24). 4. Slide collar into position against flange of mating pipe. Fill flange band with sealant and install flange band. 5. Tighten bolts on clamp collar to complete installation. (For more positive seal, apply sealant to clamp collar slot and flared end of collar prior to tightening bolts). 6. Cut insulation to desired length and wrap inner pipe ensuring that it is covered completely before attaching half jackets. 7. Wrap two half jackets around Joint with bead at the downstream end and punched edge that overlapping the plain edge by approximately 3/4 ". Note: For horizontal installations, the seams must be located at the top and bottom of the pipe. Coat unpunched edge of casing with P077 sealant to waterproof the casing. Install self - drilling screws (supplied with jacket) at punched holed through both layers at overlap. Exercise care that half jacket edges do not align with draw screws on flange bands, and that no screws are installed in portion of jacket which is over casing of adjacent pieces of pipe (see Fig. 25). The screws shipped with the expansion joint are of the correct length to avoid penetrating the inner wall (flue) of the pipe. Do not use any other screws to attach the casing. FIG. 26 — VARIABLE LENGTH CASING ASSEMBLY SCREWS (INCLUDED) HALF JACKET 3/4' (19) NOTES: 1. It Is recommended that the pipe adjacent to the variable length is supported or guided to prevent sagging. 2. If a variable length must be Installed adjacent to a tee, elbow, wye or other fitting where tubs can Interfere with flow, the unflanged end of the tube should be away from the fitting and fitted Into a pipe length in the manner described In the Installation procedure under Flg. 24. 12 3. A variable length may be installed with a flange to flange length between 4" and 26" (102 and 680) Inclusive. 4. If Inner tube Is too long, It may be cut to length. Tube must be a minimum of 4" (102) longer than flange to flange length. Prior to installation of cut pipe, remove all burrs to ensure that Interference does not occur. 5. Note that the variable length will not support any weight In the vertical position. STEP INCREASER (IPICSI) AND TAPERED INCREASER (IPICTI) Frequently, a diameter change is required in a chimney installation. To accomplish such a size change, a step increaser or tapered increaser may be used. These parts are usually used to provide an increase of size, as the name implies. However, they may be used to reduce the size of a run. Extreme caution should be exercised when reducing the size of a chimney. The resultant pressure drop may cause the chimney to mis- function and cause spillage of flue gases into the mechanical room. The step increaser should be used when the length of run available for the size change is restricted. The installed length of a step increaser is 2" (51) (see Fig. 28). The step Increaser is a non - structural part and must not be subjected to loading in either the axial or lateral directions. FIG. 26 - STEP INCREASER (IPICSI) INSTALLS AT 2' (51) Note: Wrap Increaser with insulation before attaching outer casing. Care must be taken to completely fill all gaps with Insulation. When sufficient length is available, use of a tapered increaser is recommended, since It causes a considerably less pressure drop than an equivalent step increaser. The tapered Increaser uses 5 inches of length per incremental diameter change. The maximum length for a tapered increaser is 30" (762) or 6 pipe sizes. A tapered increaser is considered to have the same load strength as straight pipe (see Fig. 27). FIG. 27 - TAPERED INCREASER (IPICTI) � •A" - 1 I 1 � I -J I 1 TRANSITION BAND (IPICTB) The transition band provides the necessary increase or decrease in casing diameter when change in insulation thickness occurs (Fig. 28). 30" (762) OR -- - nn TRIM TO FIT -94. 4' MIN. In (102) Iii r II II L lit FIG. 24 VARIABLE LENGTH FLUE ASSEMBLY TUBE COLL4R Installation procedure is as follows: 1. Loosen draw screw at collar and slide collar toward flanged end of tube. Do not remove collar from tube. 2. Slide unflanged end of tube into the upstream piece of pipe. Pull flanged end of tube to the downstream piece of pipe and make up joint as outlined under PIPE AND FITTING ASSEMBLY on Page 4. 3. Apply a thin coat of sealant, about 1" (25) wide at the plain end of the pipe where tube slides into mating pipe section. Press sealant into any gap between the tube and the mating pipe section. Apply sealant to flange of mating pipe (see Fig. 24). 4. Slide collar into position against flange of mating pipe. Fill flange band with sealant and install flange band. 5. Tighten bolts on clamp collar to complete installation. (For more positive seal, apply sealant to clamp collar slot and flared end of collar prior to tightening bolts). 6. Cut insulation to desired length and wrap inner pipe ensuring that it is covered completely before attaching half jackets. 7. Wrap two half jackets around Joint with bead at the downstream end and punched edge that overlapping the plain edge by approximately 3/4 ". Note: For horizontal installations, the seams must be located at the top and bottom of the pipe. Coat unpunched edge of casing with P077 sealant to waterproof the casing. Install self - drilling screws (supplied with jacket) at punched holed through both layers at overlap. Exercise care that half jacket edges do not align with draw screws on flange bands, and that no screws are installed in portion of jacket which is over casing of adjacent pieces of pipe (see Fig. 25). The screws shipped with the expansion joint are of the correct length to avoid penetrating the inner wall (flue) of the pipe. Do not use any other screws to attach the casing. FIG. 26 — VARIABLE LENGTH CASING ASSEMBLY SCREWS (INCLUDED) HALF JACKET 3/4' (19) NOTES: 1. It Is recommended that the pipe adjacent to the variable length is supported or guided to prevent sagging. 2. If a variable length must be Installed adjacent to a tee, elbow, wye or other fitting where tubs can Interfere with flow, the unflanged end of the tube should be away from the fitting and fitted Into a pipe length in the manner described In the Installation procedure under Flg. 24. 12 3. A variable length may be installed with a flange to flange length between 4" and 26" (102 and 680) Inclusive. 4. If Inner tube Is too long, It may be cut to length. Tube must be a minimum of 4" (102) longer than flange to flange length. Prior to installation of cut pipe, remove all burrs to ensure that Interference does not occur. 5. Note that the variable length will not support any weight In the vertical position. STEP INCREASER (IPICSI) AND TAPERED INCREASER (IPICTI) Frequently, a diameter change is required in a chimney installation. To accomplish such a size change, a step increaser or tapered increaser may be used. These parts are usually used to provide an increase of size, as the name implies. However, they may be used to reduce the size of a run. Extreme caution should be exercised when reducing the size of a chimney. The resultant pressure drop may cause the chimney to mis- function and cause spillage of flue gases into the mechanical room. The step increaser should be used when the length of run available for the size change is restricted. The installed length of a step increaser is 2" (51) (see Fig. 28). The step Increaser is a non - structural part and must not be subjected to loading in either the axial or lateral directions. FIG. 26 - STEP INCREASER (IPICSI) INSTALLS AT 2' (51) Note: Wrap Increaser with insulation before attaching outer casing. Care must be taken to completely fill all gaps with Insulation. When sufficient length is available, use of a tapered increaser is recommended, since It causes a considerably less pressure drop than an equivalent step increaser. The tapered Increaser uses 5 inches of length per incremental diameter change. The maximum length for a tapered increaser is 30" (762) or 6 pipe sizes. A tapered increaser is considered to have the same load strength as straight pipe (see Fig. 27). FIG. 27 - TAPERED INCREASER (IPICTI) � •A" - 1 I 1 � I -J I 1 TRANSITION BAND (IPICTB) The transition band provides the necessary increase or decrease in casing diameter when change in insulation thickness occurs (Fig. 28). Pips Diameter IPICPS Plate Thickness Bracing for IPIC Plate Support Height of Stack 50' (16.24m) 100' (30.48m) 8" - 20" 3/18" (5) 1 114 "x1 1/4 "x1 /8" 2 "x2 "x1/4" (32x32x3) (51x51x3) 22" - 36" 1/4" (6) 2 "x2 "x1 /8" 3 "x3 "x114" (51x51x3) (76x76x6) 38" - 48" 1/4" (6) 3" (76) channel: 3 "x1 112 "x1 /4" (76x38x6) Pips IPICPS Framework for IPIC Plate Support Diameter Plate Height of Stack Thickness 50' (15.24m) 100' (30.48m) 8" - 20" 3/16" (5) 1 3/4 "x1 3/4 "x1 /8" 3 "x2 "x3/16" (44x44x3) (76x51x5) 22 " -36" 1/4 "(6) 2 "x2 "x1/4" 4 "x3 "x1/4" (51x51x3) (102x76x3) 38 "- 48" 1/4" (6) 3" channel: 3"x1 1/2 "x1/4" (76x38x8) is gg FIG. 28 - TRANSITION BAND (IPICTB) AIR FLOW "'"" Note: Wrap pips joint with Insulation before attaching outer casing. Care must be taken to completely fill all gaps with insulation. PLATE SUPPORT (IPICPS) NOTE: See Table 3 for maximum supported height The plate support assembly is designed to provide maximal support to vertical sections and to provide fixed -point support for horizontal sections. The plate support must be attached to the building structure or support with rigid structural members. FIG. 29 — PLATE SUPPORT BRACING REQUIREMENTS FILLET AND BACKWELD ALL FRAMING AND BRACING MEMBERS CLAMP FLANGE PLATE SUPPORT BRACING "X" Is a minimum of 30° when bracing Is used. A welded frame must be adequately attached to structural member for framework rigidity if bracing isn't used. STRUCTURAL BRACING (BY OTHERS) 13 When the supported section is subject to thermal expansion or Is in a vertical position, so that the plate support is weight bearing, the support structure must be braced with diagonal members or gussets to prevent deflection of the supported joint (see Fig. 29). Plate supports are usually located adjacent to fittings, such as tees or elbows, to protect the fitting from expansion stresses. Chimneys heights In excess of a single plate support capability can be resupported with additional plate support(s). An expansion joint must be used between support points (see Fig. 30). FIG. 30 — RESUPPORT REQUIREMENTS U S • U 200 FT. (60.96m) MAXIMUM tatem 90" TEE DRAIN TEE CAP 100 FT. (30.5m) fr PLATE SUPPORT EXPANSION JOINT FULL ANGLE RINGS PLATE SUPPORT EXPANSION JOINT FULL ANGLE RINGS PLATE SUPPORT TO APPLIANCE A plate support assembly is to be attached only to non - combustible construction such as block, concrete or steel with clearance that is adequate for installation and access. DO NOT ATTACH THE PLATE SUPPORT TO COMBUSTIBLE CONSTRUCTION. For maximum support, the entire perimeter of the plate support assembly must be attached to structural framing (see Fig. 31). Structural members are supplied by the installer. FIG. 31— SECTIONAL DETAIL FOR PLATE SUPPORT PLATE FULL ANGLE RING (IPICFAR) AND HALF ANGLE RING (IPICHAR) The full angle ring is used as a guide to prevent the chimney from flexing due to lateral loading. The angle ring is split for ease of Installation. It is 1/8" larger in inside diameter than the outside diameter of the pipe to allow movement of the pipe inside the ring (see Fig. 32). FIG. 32 — FULL ANGLE RING & HALF ANGLE RING BRACKETS HALF ANGLE RING FULL ANGLE REM The half angle ring is used as a saddle in horizontal or sloped runs. It may be suspended either on rigid framework or soft frames, such as threaded rod. The half angle ring will not replace a plate support or other fixed support in horizontal runs. It should not be used as the sole support for the chimney. WALL SUPPORT ASSEMBLY (IPICWSA) A wall support assembly consist of a full angle ring, two clamp rings, wall brackets and struts. The clamp rings sandwich a flange band at a pipe joint and are supported by the full angle ring (see Fig. 33). FIG. 33 — WALL SUPPORT ASSEMBLY ASSEMBLED HALF CLOSURE BAND CLAMP FLANGE Note: Wrap pipe Joint with Insulation before attaching half closure bands. 14 The clamp rings are installed with the splits 90° apart so that they support each other. The notches in the clamp rings are aligned with the draw screws of the flange band. The clamp rings and full angle ring are then bolted together with the hardware provided to form a rigid assembly (see Fig. 34). FIG. 34 WALL SUPPORT ASSEMBLY EXPLODED VIEW 't FIG. 36 — WALL GUIDE FULL ANGLE RING (PICFAR) 0 0 WALL ATTACHMENT BRACKETS When attached to a non - combustible wall, with the brackets and struts, the wall support makes up a fixed -point in the chimney. An expansion joint is required between the wall support assembly and any adjacent fixed point. Multiple wall support assemblies may be used, in conjunction with expansion joints or bellows joints, to support chimney heights in excess of the allowable height for a single wall support assembly. DO NOT ATTACH THE WALL SUPPORT ASSEMBLY TO COMBUSTIBLE CONSTRUCTION. WALL GUIDE (IPICWG) The wall guide is designed to compliment the wall support assembly. It is used as a lateral guide to prevent the chimney from flexing due to lateral loading. The wall guide consists of a full angle ring with wall brackets and struts (see Fig. 35). WALL ATTACHMENTS STRUT L 0 0 LOCATE BELOW OUTER BAND 1 / ANGLE TO BE HORIZONTAL \ ADJUSTED AS STRUT NECESSAROPER Y \ / / PR C r L The proper location for a wall guide is immediately below the outer closure band near a pipe joint. The outer band must be able to move B ay from the wall guide when thermal expansion occurs (see Fig. ). FIG. 36 — WALL GUIDE LOCATIONS WALL GUIDE OR FULL ANGLE RING (STRUCTURE BY OTHERS) DO NOT ATTACH THE WALL GUIDE TO COMBUSTIBLE CONSTRUCTION. SPECIAL CONSIDERATIONS When a wall support assembly Is used to support a chimney on an exterior wall, wind loading must also be considered. Below the highest wall support assembly, the chimney must be resupported at intervals not greater than 40' (12.19m). The chimney must be equipped with wall guides between each wall support assembly. Guide spacing is in accordance with dimemsion "A" in Table 5 on Page 6. Additionally, a wall guide must be located between 6' and 10' (1.83m and 3.05m) below the highest wall support to stabilize the freestanding portion of the chimney above the wall support assembly (see Fig. 37). FIG. 37 — SPECIAL CONSIDERATIONS FOR CHIMNEY ON OUTSIDE WALL 38' THRU 48' PIC ONLY WALL SUPPORT DO NOT INSTALL AN 8 TO 0 FEET - EXPANSION JOINT IN (1829-3048) THIS AREA DUE TO BENDING FORCES WALL GUIDE LOCATE EXPANSION JOINT OR BELLOWS JOINT BELOW WALL GUIDE 16 FLOOR GUIDE (IPICFG) The floor guide is similar in function to a wall guide or full angle ring, but is modified specially for use at floor penetrations. The angle brackets and straps hold the guide centered in the floor penetration (see Fig. 38). FIG. 38 — FLOOR GUIDE MAXIMUM OPENING PIPE I.D. + 10' (254) DO NOT ATTACH THE FLOOR GUIDE TO CONSTRUCTION. FIG. 39 — STACK SUPPORT ASSEMBLY ANGLES STRAPS MAXIMUM OPENING PIPE I.D. + 10' (254) COMBUSTIBLE STACK SUPPORT ASSEMBLY (IPICSSA) The stack support assembly is Intended for use as a base mount for mounting the stack on a concrete floor or a structural steel stand. it is equipped with a predrilled steel baseplate for the insertion of anchor bolts or studs. A 9-inch section of pipe is attached to the baseplate and contains a false bottom 4W (114) above the floor. A 1' (25) NPT nipple extends through the side of the pipe section Just above the false bottom to allow drainage of rain or condensate (see Fig. 39). It is recommended that a 90° manifold tee with a cleanout cap be installed above the stack support to provide access to the stack. 1' N.P.T. NIPPLE I I I I I I When using a stack support assembly as the stack base, it is important to use exact pipe lengths to raise the stack height to the breeching connection point (see Fig. 40). Use of variable lengths or expansion joints in the stack under the breeching connection defeats the purpose of the stack support assembly. These components will not support weight. Model IPIC -1 IPIC -2 IPIC -4 / IPIC -4G "X" I.D. + 8" (203) I.D. + 10" (254) ' I.D. + 14" (356) FIG. 40 — STACK SUPPORT ASSEMBLY INSTALLATION BREECHIN . NOTE: DO NOT USE VARIABLE LENGTH OR EXPANSION JOINT BETWEEN BREECHING & STACK SUPPORT ASSY. � 1 ■ �- STACK SUPPORT ASSEMBLY CONCRETE PAD OR STRUCTURAL BASE EXIT CONE FULL ANGLE RING BRACING (BY OTHERS) 50" TEE VENTILATED THIMBLE ASSEMBLY (IPICVTA) AND ROOF SUPPORT ASSEMBLY (IPICRSA) The ventilated thimble assembly is designed to allow Model IPIC chimney to penetrate a combustible roof at a nominal 3" clearance to combustibles. Figure 41 illustrates the required minimum framing dimensions, The ventilated thimble is intended for installation on a flat root tt may be used on a pitched roof if a curb is installed at the penetration to provide a level surface for mounting the thimble. FIG. 41 — ROOF FRAMING FOR VENTILATED THIMBLE ASSEMBLY OR ROOF SUPPORT ASSEMBLY The roof support assembly is a special variation of the ventilated thimble which also provides vertical support to the chimney. It is especially useful when the chimney rise below the roof is long enough to cause movement from thermal expansion to exceed approximately 2" (51). The ventilated thimble consists of the thimble with 4 support brackets; 2 lateral support rings, split for ease of installation; a flashing; a storm collar. 16 FIG. 42 - VENTILATED THIMBLE ASSY. INSTALLATION PIPE O.D. STORM COLLAR FLASHING LATERAL SUPPORT RING BRACKET LAG SCREW OR BOLT THIMBLE LATERAL SUPPORT RING Installation of the ventilated thimble is as follows (see Fig. 42): 1. Cut the roof opening and reinforce the edges of the hole as appropriate for the expected load bearing requirements. Attach the thimble brackets to the thimble using the hardware provided. 2. Set the thimble through the roof, making sure it is centered in the roof penetration hole, and secure it to the roof deck with bolts or lag screws supplied. The brackets may be welded to a metal roof, if desired. 3. Install the chimney passing through the thimble and extending above the roof. 4. Install the 2 split lateral support rings on the chimney casing, one above the thimble and one below the thimble. Leave the bolts loose enough to allow the ring to slide along the casing. The spacer tabs are to be toward the thimble. 5. Push the lateral rings along the chimney casing until they are completely enclosed in the thimble. 6. Install the flashing centered on the thimble. Secure it to the roof and seal it to the roof membrane as appropriate. 7. Install the storm collar around the chimney casing allowing the ventilation spacers on the underside of the collar to rest on the upper edge of the flashing. Tighten the draw screw and seal between the collar and the chimney casing with chimney sealant. The roof support assembly consists of the same parts as the ventilated thimble except that one of the lateral rings is replaced with a vertical support ring. Installation is identical to the ventilated thimble except step 4 (see Fig. 43). FIG. 43 - ROOF SUPPORT ASSY. INSTALLATION PIPE O.D. STORM COLLAR FLASHING VERTICAL SUPPORT RING BRACKET LAG SCREW OR BOLT THIMBLE LATERAL SUPPORT RING 4 Mode IPIC -1 IPIC -2 IPIC -4 / IPIC -4G "X" I.D. + 8" (203) I.D. + 10" (254) I.D. + 14" (356) Install lateral support ring below thimble as per step 4 above. Then install the vertical support ring. Vertical ring consists of 2 half -clamp rings designed to lock together when assembled. The pipe section joint will rest on top of the assembled vertical support ring. The vertical support ring will rest on top of Thimble Flange and carries the weight of the chimney. Because it is not fastened to the thimble, the chimney can expand upward in the thimble if needed. FIXED PITCH VENTILATED THIMBLE ASSEMBLY (IPICFPVTA) AND FIXED PITCH ROOF SUPPORT ASSEMBLY (IPICFPRSA) These components are special variations of the ventilated thimble assembly. They provide the same clearance to combustibles and types of support, but are designed to be installed in pitched roofs. Installation is similar to the flat roof versions except for the following. FIG. 44 - ROOF FRAMING FOR VENTILATED THIMBLE ASSEMBLY OR ROOF SUPPORT ASSEMBLY .x. • 1. The roof opening is sized as a flat projection (see Fig. 44) to provide the correct clearance. 2. The thimble Is centered in the roof hole with the two pivoting brackets oriented parallel to the roof ridge and the hinged brackets running up and down the roof. The brackets are secured to the roof with bolts, lag screws or welding as appropriate. Leave the bolts of the sliding mount loose until the brackets are attached to the roof. Then tighten all bolts and nuts. 3. Install the flashing centered on the thimble. Secure It to the roof and seal it to the roof membrane as appropriate. Note: The flashing pitch is fixed, specify required pitch rate with order. Figure 45 illustrates details of the pitched roof penetration component installation. 17 FIG. 45 - FIXED PITCH ROOF PENETRATION INSTALLATION t�ti♦ _ 4 ,1 CURB MAINTAIN ADEQUATE EXPANSIO N SEALANT DO NOT RESTRICT VERTICAL MOVEMENT OF FLANGE BAND PIPE O.D. STORM COLLAR PITCHED FLASHING VERTICAL OR LATERAL SUPPORT RING HINGED BRACKET PIVOTING BRACKET THIMBLE LATERAL SUPPORT RING FLASHING (IPICF) FIXED PITCH FLASHING (IPICFPF) AND STORM COLLAR (IPICSC) Fleshings, both standard and pitched, are intended for installation on non - combustible roofs only. The flashing is non- ventilated and does not provide for any reduced clearance to combustibles. To install the flashing, place it around the chimney. Secure and seal it to the roof (Fig. 46). FIG. 46 — INSTALLATION OF FLASHING AND STORM COLLAR FLANGE BAND STORM COLLAR TALL CONE FLASHING 16 GA. PAN PLATE STRUCTURAL FRAME With the flashing in place, the storm collar is placed around the chimney and sealed to the casing with silicone sealer. The storm collar should not quite rest on the flashing when the chimney is cold (1/4" gap between the collar and the top of the flashing). When a chimney is installed with a flashing and collar rather than a ventilated thimble, the chimney must be stabilized by installing either a full angle ring or a plate support just below the roof. If the chimney height above the plate support or full angle ring exceeds the "B" dimension In Table 5, it must be guyed to avoid wind damage. CHIMNEY TERMINATIONS CLOSURE RING (IPICCR) The closure ring (Fig. 47) Is the simplest method of terminating a chimney. It provides protection of the annular space between the Inner and outer walls and leaves the top of the chimney open to the elements. A drain section (or tee with drain tee cap) should always be installed when a closure ring is used as a termination. The closure ring is installed on the Inner wall and overlaps the outer wall. The Joint at the Inner wall should be sealed with chimney sealant. A closure ring may be used for either vertical or horizontal discharge. FIG. 47 — STACK CLOSURE RING STACK CAP (IPICC) The stack cap (Fig. 48) is designed to offer partial protection from rain entering the chlmney. It Is equipped with an inverted cone to divert flue gases upward to avoid contamination of the surrounding roof area. The cap may be equipped with a birdscreen if desired. The stack cap Is Intended for use as a termination only for a vertical discharge. FIG. 48 - STACK CAP CAP CLOSURE RING (INCLUDED) FLANGE BAND APPLY SEALANT OPTIONAL BIRD SCREEN A cap Is attached to the top section of pipe with a flange band and sealant. The annular opening between the inner and outer walls of the pipe is protected with a closure ring provided with the cap. When the chimney is terminated with a stack cap, it Is recommended that provisions be made for drainage of rain from the base of the stack. 18 EXIT CONE (IPICEC) The exit cone (Fig. 49) Is designed to produce additional gas velodty at the chimney exit to help disperse the effluent. The opening of the cone is based on a ratio of 0.8 times the nominal pipe diameter. Since the exit cone is an open top termination, provision for drainage is recommended. An exit cone may be used for either vertical or horizontal discharge. FIG. 49 — EXIT CONE APPLY SEALANT STACK HEAD ASSEMBLY (IPICSHA) The stack head assembly is designed for free, unobstructed venting of the chimney while providing maximal protection from rain entering the chimney. The stack head is a "low loss" termination and Is recommended by the Industrial Ventilation Manual, 20"' Edition, American Conference of Industrial Hygienists, Figure 8-6. The chimney flue is terminated 9" (229) below the required height for the Installation (consult local codes). A stack head adapter section is attached to the top section of the chimney using a flange band and sealant. A closure ring is attached to the flue to protect the annular space between the inner and outer walls from rain. A plate support is located 6" (152) below the top of the stack head adapter and PSW pipe, one size larger then the nominal chimney size, Is attached to it. The PSW pipe is equal in height to 4 times the chimney diameter (see Fig. 50). Note: The structural steel supports for the stackhead are provided by the installer. The stackhead assembly Is Intended for use as a termination only for vertical discharge. FIG. S0 — STACK HEAD ASSEMBLY I.D. X4 9' (229) PSW PIPE PLATE SUPPORT STACK HEAD ADAPTER ��_ CLOSURE RING Model IPIC -1 IPIC -2 IPIC -4 / IPIC -4G "X" I.D. + 8" (203) I.D. + 10" (254) I.D. + 14" (358) MITER CUT (IPICMC) The miter cut is intended for use as a termination for a horizontal discharge. It is designed to minimize the entry of rainwater when installed In the proper orientation. Note that the miter cut is a single wall part and requires a clearance of 18" (457) to combustibles. The miter cut is equiped with a birdscreen at the short side of the miter (see Fig. 51). The miter must be installed so that the long side of miter is on the top of the pipe to afford protection from rain. FIG. 51 - MITER CUT (IPICMC) CLOSURE BAND APPLIANCE CONNECTORS BIRD SCREEN SINGLE WALL BOILER ADAPTER (IPICSBA) The single wall boiler adapter is the most commonly used appliance connector. It is designed to clamp over a shank type flue gas outlet. A thin layer of sealant, about 1" (25) wide is spread on the end of the appliance outlet shank. Then the single wall boiler adapter is placed around the shank covering the sealant. The draw screw on the split tube is tightened to hold the single wall boiler adapter in place (see Fig. 52). FIG. 62 - SINGLE WALL BOILER ADAPTER aa::::sC:ss::o:::za:: CLAMPING SCREW BOILER OUTLET oil SHANK The single wall boiler adapter is 6" (152) long. A 4" (102) long variation Is available on request. FLANGE ADAPTER (IPICFA) The flange adapter is intended for use as a connection to a Class 125 or 150 ANSI pipe flange. This type of connection requires a flange gasket and bolt set supplied by the installer. The gasket and bolts are typically sold by pipe, valve and fittings houses as an "NBG" set. Figure 53 illustrates a typical installation. 19 FIG. 63 - FLANGE ADAPTER CASING END CLOSURE (INCLUDED) FLANGE ADAPTER FLANGE GASKET (BY OTHERS) BOLT & NUT (BY OTHERS) APPLIANCE OUTLET BOILER FLANGE ADAPTER (IPICBFA) The boiler flange adapter is used to connect IPIC pipe to flanged appliance outlets other than those with ANSI pipe flanges. Typical use includes boilers, water heaters and connection to existing fabricated pipe. The adapter is designed to sandwich the 1/2" IPIC inner pipe flange between the appliance outlet and the boiler flange adapter (see Fig. 54). The boiler flange adapter is shipped with beam clips used to clamp the BFA to the appliance flange. The connection may also be drilled and bolted or welded if desired. FIG. 64 - BOILER FLANGE ADAPTER INSTALLATION CLAMP HALF RING BOILER OUTLET FLANGE WALL PENETRATOR (IPICWP) This part is used to allow IPIC pipe to pass through non -fire rated walls at reduced clearance. It consists of a 30" (762) long thimble with mounting brackets. The wall penetrator is mounted as follows: 1. Cut the opening in the wall. See chart below for opening size. 2. Position the wall penetrator tube in the opening so it is centered. Secure it to the wall with bolts or lag screws (supplied.) 3. Install IPIC pipe so that it passes through the center of the wall penetrator. Install lateral braces around the pipe casing. Leave rings loose enough to slide along pipe. 4. Push the lateral rings into the wall penetrator centering the tabs within the ends of the tube. N 0 . W W CO Lu O g li- Q . Nom F_ 0 W U 0 ;. co Lu H V tL O w z V FIG. 66 - WALL PENETRATOR (IPICWP) 4 MIN. (102) ATTACHED WITH BD �! NAILS OR X110 - 2' WOOD SCREWS (4 PLACES) ENGINE EXHAUST SYSTEM PRECAUTIONS Engine exhaust systems require extra attention to support and protection detail due to the possibility of delayed fuel ignition in the exhaust system. It is important that all turns are protected as Illustrated in Figures 14, 16 & 17 or rigidly attached to structural framing or walls. Figure 56 illustrates some of the special considerations that must be considered when designing an engine exhaust system. FIG. 66 — ENGINE EXHAUST CONSIDERATIONS PLATE SUPPORT BELLOWS JOINT WALL . GUIDE PLATE SUPPORT BELLOWS JOINT WALL GUIDE PLATE SUPPORT MUFFLER ENGINE FIXED TEE PLATE SUPPORT 3' (78) MAX. EXPANSION 3' (78) MAX EXPANSION I, RELIEF VALVE COMBUSTIBLE WALLS WALL PENETRATOR BELLOWS JOINT PLATE SUPPORT BELLOWS JOINT HALF ANGLE IMPORTANT: When Installed vertically, bellows joint must not support weight of stack. Locate bellows Joint near the lower side of fixed support as shown In Figure 66. 20 The following components are primarily for use on engine or turbine exhaust systems. RELIEF VALVE (IPICRV) The relief valve is intended for use with diesel engines to provide extra protection to the pipe In case of a delayed ignition of unburned fuel in the exhaust system. It consists of a spring loaded disk valve mounted on a flange adapter. The valve Is factory calibrated to open at 27 in. wc. The calibration nuts must not be changed or the valve may not function correctly. The relief valve must be supported independently of the rest of the exhaust system. The best method to accomplish this is to locate a plate support at the joint between the relief valve and the adjacent fitting. It is crucial that the plate support be properly secured to building structure so that it can withstand the forces generated in case of delayed fuel ignition (see Fig. 57). FIG. 67 — RELIEF VALVE SUPPORT (IPICRV) RELIEF VALVE FIG. 68 — FLIP TOP FLIP TOP CLOSURE RING 11 TO VENT PLATE SUPPORT (SECURE TO BUILDING) METAL -FAB RECOMMENDS THAT ALL DIESEL ENGINE EXHAUST SYSTEMS BE EQUIPPED WITH A RELIEF VALVE. TO MUFFLER FLIP TOP (IPICFT) The flip top (Fig. 58) is designed to be installed either on a vertical or horizontal exhaust. If Installed on a horizontal termination, the hinged side of the top must be oriented at the top of the pipe keeping the counterweight up. USE OF VARIABLE LENGTH Metal -Fab generally recommends the use of fixed custom lengths where standard lengths do not work for an engine exhaust system. If a variable length must be used, the inner tube must be installed with the flanged end toward the engine. This allows an unobstructed flow path in case of a delayed Ignition occurance. Grease Duct Application (See L1345 for 4G Installation Instructions) LISTINGS Metal -Fab Model IPIC chimney is "listed' by Underwriter's Laboratories (UL File No MH8251) and by Underwriter's Laboratories of Canada (ULC File No. CMH1272) for Grease Duct applications when installed In accordance with these installation instructions and National Fire Protection Association standard "NFPA 96, Standard for Ventilation Control and Fire Protection of Commercial Cooking Operations ". CLASSIFICATIONS Model IPIC -2 is "Classified" by Underwriters Laboratories in accordance with SBCCI Public Safety Testing and Evaluation Services, Inc. Evaluation Guide on Fire Resistance Construction (Flexible Duct Wrap Enclosure Systems), dated January 1, 1998 as an alternate to 2 -Hr. fire resistance rated shaft enclosure with a minimum clearance to combustibles of 1" (sizes 6" to 18" diameter) and 2" (sizes 20" to 32" diameter). Model IPIC -1 is "Classified" by Underwriters Laboratories in accordance with SBCCI Public Safety Testing and Evaluation Services, Inc. Evaluation Guide on Fire Resistance Construction (Flexible Duct Wrap Enclosure Systems), dated January 1, 1998 as an alternate to 1 -Hr. fire resistance rated shaft enclosure with a minimum clearance to combustibles of 2" (size 6" diameter only), 3" (sizes 8" to 18" diameter) and 4" (sizes 20" to 24" diameter). APPLICATION Model IPIC Grease Duct is suitable for use in commercial cooking installations for the removal of smoke and grease laden vapors. The Model IPIC Grease Duct system includes all components for a complete exhaust system from the hood to the exhaust fan inlet. Model IPIC Grease Duct allows for reduction of the clearances to combustible materials specified in NFPA 98 for field fabricated ducts. Required clearances to combustibles, limited combustibles and non - combustibles are listed in Table 8 on Page 22. Metal -Fab Model IPIC Grease Duct may be connected only to hoods in a single fire zone on one floor. Do not connect grease duct to any other part of the building ventilation or exhaust system. Model IPIC Grease Duct must be sloped toward the hood or one of the drain fittings as described on Page 22. The rate of pitch must be a minimum of 3" (76) per 100 ft to provide positive drainage (1/32 ":1'). When Model IPIC Grease Duct is installed in accordance with these installation instructions and the joints are sealed properly with the recommended sealant, the system will contain a grease fire within the duct. Because a grease fire can bum at extremely high temperatures, the system should be dismantled and Inspected after any exposure to a grease fire. Any sections that are distorted or discolored should be replaced. All joints in the system should be examined. Because the sealant expands to assure a positive seal in the case of a fire, any sealant which has been exposed to high temperatures must be replaced. This will ensure that the system maintains its integrity against fire conditions In the future. Metal -Fab cannot be responsible for grease duct systems that are not properly maintained or that have been subjected to one or more grease fires. Grease duct system size and capacity information may be obtained from the "ASHRAE Handbook — Fundamentals" or from the "Air Pollution Engineering Manual" of the "US Environmental Protection Agency." Refer to Metal -Fab Model IPIC Design Manual (L1690) for descriptions and dimensions of parts. ACCESS Grease Duct installations require provisions for cleaning the interior of the duct. NFPA 96 cleanout requirements are as follows: 1. A cleanout must be provided at each change of direction except where the entire length of the duct can be inspected and cleaned from either the hood or the discharge end. 2. On horizontal duct runs, at least one (1) 20" (508) diameter opening must be provided. Where the duct is smaller than 20" (610) diameter, openings large enough to permit cleaning must be provided at intervals of not more than 12' (3.66m). 3. Openings may be at the side or the top of the duct whichever is more accessible. When the opening is on the side of the duct, the lower edge of the opening must be at least 1W (38) above the bottom of the duct. For Model IPIC Grease Duct, this is accomplished by the use of the Grease Manifold Tee (IPICGMT) with a Cleanout Cap (IPICTCN) or Tooless Access Panel (IPICTAP). 4. On vertical duct where personnel entry is possible, access must be from the top of the riser. Where entry is not possible, access must be provided at each floor. NOTE: ACCESS REQUIREMENTS ARE SUBJECT TO CHANGE IN ACCORDANCE WITH LOCAL CODE. LOCAL AUTHORITIES SHOULD BE CONSULTED FOR EXACT REQUIREMENTS. CLEARANCES Model IPIC Grease Duct is primarily Intended for use in non - combustible surroundings. When Installed in an open room where enclosure is not required, Model IPIC Grease Duct may be located at clearances to combustibles in accordance with Table 8 on Page 22. Grease Duct may be located in a comer formed by two combustible wells provided the minimum clearance is maintained. Buildings more than one story in height and in one -story buildings where the roof - ceiling assembly is required to have a fire resistance rating, the duct must be enclosed in a continuous enclosure from the lowest fire -rated ceiling or floor above the hood, through any concealed spaces, to or through the roof to maintain the integrity of the fire separations required by the applicable building code provisions. If the building is less than 4 stories in height, the enclosure shall have a fire resistance rating of not less than 1 hour. If the building is 4 stories or more In height, the enclosure shall have a fire resistance rating of not less than 2 hours. The clearance between the outside of the duct and the Inside of the rated enclosure must be a minimum of 6 Inches or as required by local code. (The clearance requirements for grease duct inside an enclosure does not apply to chimney applications. See Table I page 3, for chimney and engine exhaust clearances). NOTE: Model IPIC -2 Is a 2-hr. rated grease duct enclosure system and Model IPIC -1 is a 1 -hr rated grease duct enclosure system (Refer to UL Classification at top of this page). For rated shaft applications that allow listed clearance to combustibles, these alemate shaft systems may be applicable. (Consult local building codes and authorities having jurisdiction.) Combustible roofs or roof - ceiling assemblies may be penetrated using the Roof Support Assembly (IPICRSA) or Ventilated Thimble Assembly (IPICVTA). All other supports are for attachment to non - combustible construction only. 21 TABLE 8 - GREASE DUCT CLEARANCES (IPIC -1, -2, 4 6-4G) The above figures represent air space, in inches, to surroundings. NOTE: Do not enclose with combustible materials. Refer to NFPA 98, "Standard For Ventilation Control And Fire Protection Of Commercial Cooking Operations', for installation and clearances of fire-rated enclosures and definitions. USE AND INSTALLATION OF INDIVIDUAL PARTS Metal -Fab Model IPIC parts numbering and parts usage are discussed under chimney applications beginning on Page 3 of these Installation instructions. Those parts specific to grease dud, which are not normally used in chimney applications, are discussed in the following sections. DUCT DRAIN (IPICDR) Duct drains are equipped with a 1" (25) NPT coupling, which is attached to the inner wall and extends through the outer wall to provide a path to drain grease, condensate or wash water from the duct. A dam is attached to the inside of the inner wall adjacent to the coupling to channel the effluent to the drain. The duct drain is intended for use at the end of a horizontal run where access and drainage is needed (see Fig. 59). The drain coupling must be connected to a grease trap or approved container (supplied by others). FIG. 69 — DUCT DRAIN TYPICAL LOCATION DUCT DRAIN CLEANOUT CAP -u- 90' MANIFOLD TEE DROP TO HOOD HOOD (BY OTHERS) cro UP TO FAN Note: This is a plan view sketch. DRAIN BUCKET (IPICDB) The drain bucket consists of a 9" (229) long pipe section with an Installed tee cap. It Is intended for use as a drain point and access at the base of a duct riser (see Fig. 60). The drain nipple must be attached to a grease trap or approved container (supplied by others). NOZZLE SECTION (IPICNS) The nozzle section is used when the duct is required to be equipped with a fire suppression system or washdown is desired. The nozzle section allows a spray head or nipple to be attached to the duct through a 1" (26) NPT coupling attached to the Inner wall and When the pipe section is in a vertical orientation, the nozzle may be located at the most convenient place. Local authorities should always be consulted 22 regarding the need for fire protection or washdown systems.be installed so that the coupling is at or above the horizontal centerline of the pipe. When the pipe section is in a vertical orientation, the nozzle may be located at the most convenient place. Local authorities should always be consulted regarding the need for fire protection or washdown systems. FIG. 60 — DRAIN BUCKET AND NOZZLE SECTION TYPICAL LOCATIONS TO FAN NOZZLE SECTION GREASE MANIFOLD TEE CLEANOUT CAP TO FIRE Nue► SUPPRESSION 1111 STRUCTURAL STEEL (BY (BY OTHERS) PLATE SUPPORT DRAIN BUCKET GREASE CONTAINER (BY OTHERS) SQUARE TO ROUND ADAPTER (IPiCSTR) When the hood is equipped with a square or rectangular collar, a square to round adapter is needed to connect the round IPIC pipe to the hood (see Fig. 61). The outside dimensions of the square end are slightly smaller than the hood collar. It will fit inside the collar and be connected by means of a lap weld. Alternatively, the square end may be equipped with a flange to be used for a bolted or welded connection in accordance with NFPA 96. FIG. 61 = SQUARE TO ROUND ADAPTER HOOD (BY OTHERS) OPTIONAL ANGLE FLANGE When ordering a square to round adapter, the size of the square end, flange requirements and diameter of the round end must be specified. Note that many hood manufacturers have the capability to build the hood with a round flanged collar, which matches the flange on Model IPIC pipe. Others can install a round flanged collar supplied to them or can provide a hood without a collar for the hole to be field cut. These alternatives may avoid the necessity of providing a square to round adapter. GREASE MANIFOLD TEE (IPICGMT) The grease manifold tee is used to provide access for ceanout to comply with NFPA 96 requirements. It is equipped with a 1'A" (38) high grease dam at the access port. The access port must be closed with a ceanout cap (IPICTCN) or tee cap (IPICTC). The location of the access port in the tee is dependent on the orientation of the tee in the final installation. Access port location is coded as Position 1, 2, 3, 4 or 5 (see Fig. 62). COMBUSTIBLE LIMITED COMBUSTIBLE NOM COMBUSTIBLE 1PIC•1 Flue DM. 6' 2' (51) 2' (51) 0' 8'- 16' 3'(76) 3'(76) 0' 20' -32' 4' (102) 3'(78) 0 34'-42' 5'(127) 3'(76) 0' 44' - 48' 6' (151) 3' (76) 0' PIC•2 8. -4 Flue Dia. 6' -18' 1" (25) 1' (25) 0' 20'•32' 2'(51) 2'(51) 0' 34' • 42' 3' (76) 3' (76) 0' 44'•48' 4'(102) 3'(76) 0" IPIC-40 Flu* DM. 8' - 38' 0' 0' 0' 38' -48' 1' (25) 1' (25) 0' TABLE 8 - GREASE DUCT CLEARANCES (IPIC -1, -2, 4 6-4G) The above figures represent air space, in inches, to surroundings. NOTE: Do not enclose with combustible materials. Refer to NFPA 98, "Standard For Ventilation Control And Fire Protection Of Commercial Cooking Operations', for installation and clearances of fire-rated enclosures and definitions. USE AND INSTALLATION OF INDIVIDUAL PARTS Metal -Fab Model IPIC parts numbering and parts usage are discussed under chimney applications beginning on Page 3 of these Installation instructions. Those parts specific to grease dud, which are not normally used in chimney applications, are discussed in the following sections. DUCT DRAIN (IPICDR) Duct drains are equipped with a 1" (25) NPT coupling, which is attached to the inner wall and extends through the outer wall to provide a path to drain grease, condensate or wash water from the duct. A dam is attached to the inside of the inner wall adjacent to the coupling to channel the effluent to the drain. The duct drain is intended for use at the end of a horizontal run where access and drainage is needed (see Fig. 59). The drain coupling must be connected to a grease trap or approved container (supplied by others). FIG. 69 — DUCT DRAIN TYPICAL LOCATION DUCT DRAIN CLEANOUT CAP -u- 90' MANIFOLD TEE DROP TO HOOD HOOD (BY OTHERS) cro UP TO FAN Note: This is a plan view sketch. DRAIN BUCKET (IPICDB) The drain bucket consists of a 9" (229) long pipe section with an Installed tee cap. It Is intended for use as a drain point and access at the base of a duct riser (see Fig. 60). The drain nipple must be attached to a grease trap or approved container (supplied by others). NOZZLE SECTION (IPICNS) The nozzle section is used when the duct is required to be equipped with a fire suppression system or washdown is desired. The nozzle section allows a spray head or nipple to be attached to the duct through a 1" (26) NPT coupling attached to the Inner wall and When the pipe section is in a vertical orientation, the nozzle may be located at the most convenient place. Local authorities should always be consulted 22 regarding the need for fire protection or washdown systems.be installed so that the coupling is at or above the horizontal centerline of the pipe. When the pipe section is in a vertical orientation, the nozzle may be located at the most convenient place. Local authorities should always be consulted regarding the need for fire protection or washdown systems. FIG. 60 — DRAIN BUCKET AND NOZZLE SECTION TYPICAL LOCATIONS TO FAN NOZZLE SECTION GREASE MANIFOLD TEE CLEANOUT CAP TO FIRE Nue► SUPPRESSION 1111 STRUCTURAL STEEL (BY (BY OTHERS) PLATE SUPPORT DRAIN BUCKET GREASE CONTAINER (BY OTHERS) SQUARE TO ROUND ADAPTER (IPiCSTR) When the hood is equipped with a square or rectangular collar, a square to round adapter is needed to connect the round IPIC pipe to the hood (see Fig. 61). The outside dimensions of the square end are slightly smaller than the hood collar. It will fit inside the collar and be connected by means of a lap weld. Alternatively, the square end may be equipped with a flange to be used for a bolted or welded connection in accordance with NFPA 96. FIG. 61 = SQUARE TO ROUND ADAPTER HOOD (BY OTHERS) OPTIONAL ANGLE FLANGE When ordering a square to round adapter, the size of the square end, flange requirements and diameter of the round end must be specified. Note that many hood manufacturers have the capability to build the hood with a round flanged collar, which matches the flange on Model IPIC pipe. Others can install a round flanged collar supplied to them or can provide a hood without a collar for the hole to be field cut. These alternatives may avoid the necessity of providing a square to round adapter. GREASE MANIFOLD TEE (IPICGMT) The grease manifold tee is used to provide access for ceanout to comply with NFPA 96 requirements. It is equipped with a 1'A" (38) high grease dam at the access port. The access port must be closed with a ceanout cap (IPICTCN) or tee cap (IPICTC). The location of the access port in the tee is dependent on the orientation of the tee in the final installation. Access port location is coded as Position 1, 2, 3, 4 or 5 (see Fig. 62). FIG. 62 — GREASE MANIFOLD TEE ACCESS PORT LOCATIONS POSITION #3 POSITION #1 POSITION *4 POSITION #2 POSITION #5 When a duct over 20" diameter is used, a reduced tap 90° manifold tee may be used in lieu of the grease tee. Note that the tap must be at least 20" in diameter. For tool -less access for inspection and maintenance (required by some Jurisdictions) refer to section Access Panel (IPICTAP) and Fig. 63. TOOL -LESS ACCESS PANEL (IPICTAP) Tool -less access panels are available in duct sizes from 6 "(152) to 38 "(914) diameter. The IPICTAP is offered as an alternative to the IPICTCN to allow complete access for inspection and cleaning without the use of tools and complies with requirements of NFPA 98 for accessibility. The IPICTAP Is designed to retrofit existing Installations that use a clean out cap (IPICTCN). Assembly is shown (See Fig. 63). FIG. 63 - TOOL -LESS ACCESS PANEL ASSEMBLY FLANGE BAND (SEALS BASE PLATE TO DUCT) ACCESS COVER BASE PLATE ACCESS COVER / (WITH HIGH TEMP SEAL GASKET) FIG. 84 — FAN ADAPTER PLATE FAN (BY OTHERS) P080 SEALANT OR . — GASKET CURB (BY OTHERS) ACCESS COVER CASING FAN ADAPTER PLATE (IPICFAP) The fan adapter plate may be designed to connect to either an upblast fan mounted on a curb or to a utility set. When connected to an upblast fan (see Fig. 64), the plate of the fan adapter plate mounts on top of the curb under the fan housing. The fan housing is sealed to the plate using P080 sealant or a approved gasket supplied by the fan manufacturer. Specify the pipe diameter and outside curb dimensions when ordering the fan adapter plate. FAN ADAPTER PLATE 23 THROUGH - PENETRATION FIRESTOP SYSTEM When penetrating a fire - resistance related floor or wall, a Through - Penetration Firestop System is used to retain the fire resistance rating on the floor or walls. Use only the model PICPPK (SEE Figure 65). 1. Determine flue size of Grease Duct. 2. A circular hole that is 2.0 Inches greater than duct O.D., is required in the masonry floor or wall. 3. Center the Grease Duct within the hole. The duct is to be properly supported to maintain location. 4. Insert 3 1/2 "(89) wide ceramic fiber provided. The fiber must encircle the outer casing of the grease duct and fill the cavity within 1/2 "(13) of the floor (wall) surface, Pack the fiber within the cavity, if required. 5. On the downstream side of the floor or wall, closest to the appliance, apply the caulk provided, P082 3M Part Number CP25WB +, to a depth of 1/2" (13) deep around the duct. NOTE: The opening between the grease duct and the floor (wall) must be closed. 6. Apply caulk to a depth of 1/2" (13)from the upstream side, filling the cavity. 7. install two (2) halves of protector plate to the upstream side of the floor (wall). Secure with masonry hardware. NOTE: The protector plate halves are designed to fit around the casing and overlap each other by 1/2" (13). 8. Position the closure band around the casing, making sure that between the closure band and the casing is the 12" (305) wide ceramic fiber provided. Secure the closure band. NOTE: The closure band and ceramic fiber is designed to be touching the protector plates after installation (See Fig. 65). FIG. 65 - 3 HR. F&T, THROUGH PENETRATION FIRESTOP Chow. Bond 0.033' Thick 304 Stain's** Steel Conc elp o Typkd (4 Pla s 4 I /2" Min. t CP23613 Caulk 1/2' Dsep X I' Thick 1' Cera ( 6 I PCF J CASING 0.0. + 2' '-e I" Urania Ineulution (6 PCF) Prolsctor Plate IPICPP 0.025' Thick Alum nlad Steel CP25MB Claulk 1 /2' Dsep X 1" Thick MAINTENANCE Grease duct is required by NFPA 98 and many focal building codes to be inspected and cleaned if necessary at specific intervals. Metal - Fab Model IPIC Grease Duct must be inspected and cleaned in accordance with local requirements. It requires no additional internal maintenance. Metal-Fab recommends that grease containers connected to drainage points be emptied and washed out daily or more often, if necessary. If needed, the drain nipples should be checked and cleaned whenever the containers are emptied. Where the duct is installed outside the building, the aluminized steel outer casing must be primed and painted. The paint surface should be maintained regularly to prevent possible deterioration of the casing surface. The use of stainless steel outer casing negates the need for painting. NOTE: When solid fuel fired cooking appliances are vented with Model IPIC Grease Duct, creosote and grease may buildup on the inner pipe wall. This mixture can result in an unusually severe duct fire. To minimize fire hazard, the duct should be inspected weekly and any residue removed by cleaning. Additional requirements for solid fuel fired cooking appliances are outlined in NFPA 96. EXPECTED NUMBER OF TUBES PER JOINT FOR PRESSURE SEALS, IN ADDITION TO THE ABOVE (P071 SEALANT) Pipe Diameter No. of Tubes Pipe Diam ter No. of Tubes Pipe Diameter No. of Tubes 6" 0.60 22" 1.80 38" 3.60 8" 0.70 24" 2.10 40" 3.70 10" 0.90 26" 2.20 42" 3.80 12" 1.00 28" 2.40 44" 4.10 14" 1.10 30" 2.67 46" 4.30 16" . 1.33 32" 2.90 48" 4.50 18" 1.55 34" 3.00 20" 1.67 36" 3.20 EXPECTED NUMBER OF TUBES PER JOINT (P071, P077 OR P080 SEALANT) Pipe Diameter No. of Tubes Pipe Diameter No. of Tubes Pipe Diameter No. of Tubes 6" 0.20 22" 0.33 38" 1.00 8" 0.20 24" 0.50 40" 1.00 10" 0.20 26" 0.50 42" 1.00 12" 0.25 28" 0.50 44" 1.00 14" 0.25 30" 0.67 46" 1.20 16" 0.25 32" 0.67 48" 1.20 18" 0.33 34" 0.67 20" 0.33 36" 0.67 seal clips required per joint for pressure seals Pipe Diameter No. of Clips Part No. 8 " -8" 2 14230 -01 10" 1 14230 -01 12 " -22" 1 14230 -02 24 "-48" 1 14230 -03 • THE INFORMATION ON THIS PAGE PERTAINS TO ALL APPLICATIONS mit ru.. o P.O. BOX 1138, WICHITA, KANSAS 87201 (316)943 -2351 1 FAX (316) 943 -2717 C2004 Meta1 -Fab %nc. Forth No.1.1051 03-04 7421 06 -09 -2006 STEVE SARCH 3611 SE 20, STE 300 PORTLAND OR 97202 RE: Permit No. M05 -181 6750 S 180 ST TUKW Dear Permit Holder: Thank you for your cooperation in this matter. Sincerely, shall, Permit Technician xc: AA49 Permit File No. M05 -181 City of Tukwila Steven M. Mullet, Mayor Department of Community Development Steve Lancaster, Director In reviewing our current records the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code and/or the International Mechanical Code, every permit issued by the Building Division under the provisions of this code shall expire by limitation and become null and void if the building or work authorized by such permit is not commenced within 180 days from the date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work is commenced for a period of 180 days. Based on the above, you are hereby advised to: Call the City of Tukwila Inspection Request Line at 206 - 431 -2451 to schedule for the next or final inspection. This inspection is intended to determine if substantial work has been accomplished since issuance of the permit or last inspection; or if the project should be considered abandoned. If such determination is made, the Building Code does allow the Building Official to approve one or more extensions of time for additional periods not exceeding 90 days each. Extension requests must be in writine and provide satisfactory reasons why circumstances beyond the applicants control have prevented action from being taken. In the event you do not call for the above inspection and receive an extension prior to 07/05/2006, your permit will become null and void and any further work on the project will require a new permit and associated fees. 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 Memorandum To: Fire & Building Inspectors From: Jack Mitten Date: 12/13/2005 Re: Basco Display Sir, The proposed use of the live gas appliances installed in the BASCO showroom is primarily to allow consumers to compare a burner's flame pattern and simmer capability from one brand to another. Since there are a variety of performance choices, consumers feel more comfortable making a final decision when they can see for themselves. No more then three ranges will have more then one burner on at the same time. The ventilation system, hood fans that are being shown in live application are to demonstrate the performance and the noise level that each hood produces. The noise issue in particular is one of real concern to consumers and, since some of these hoods can get expensive, they want to know what they are buying. This showroom is being built to give the builder, architects and designers a place to bring their clients and view product in an actual kitchen setting. Cooking will be very contained and consist primarily of manufacturers reps demonstrating their products from time to time. This will not be a daily or even a monthly occurrence, but a rare occurrence. The pizza oven, outside the curing process, will only be used for major events, which might occur 3 to 4 times a year. There will be no grease laden food prepared on the equipment. We want to keep these products looking sharp, so most of the cooking will be done in ovens. Employees will not be using these products to prepare meals for themselves. This is a showroom, not a lunch room or a cooking school. If you have any questions feel free to contact me at any time. Jack Mitten BASCO Sales Manager 6750 So. 180 St Kent, WA. 98188 (206)352 -2726 BUILDER'S APPLIANCE SUPPLY COMPANY CITY OF TUK WILA DEC 2 2 2005 PERMIT CENTER CORRECTION 1 LTR# I DC--1 'I I ll METALFADINC. INSTALLATION I P I C INSTRUCTIONS MODEL IPIC GREASE DUCT A MAJOR CAUSE OF GREASE DUCT AND CHIMNEY RELATED FIRES IS FAILURE TO MAINTAIN REQUIRED CLEARANCES (air spaces) TO COMBUSTIBLE MATERIALS. IT IS OF UTMOST IMPORTANCE THAT THE GREASE DUCT OR CHIMNEY BE INSTALLED ONLY IN ACCORDANCE WITH THESE INSTRUCTIONS. IMPORTANT: DO NOT INSTALL CHIMNEY OR GREASE DUCT WITHOUT FIRST READING THESE INSTRUCTIONS VERY CAREFULLY. Metal -Fab's Model IPIC Chimney has been fully tested and listed by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada. Chimneys installed in accordance with these installation instructions will comply with national safety standards and building codes. Metal -Fab's Grease Duct Systems has been fully tested and are listed by Underwriters Laboratories, Inc. and Underwriters Laboratories of Canada. Grease Ducts installed per these instructions meet the requirements of NFPA96. This booklet contains complete information on details concerning dimensions, installation, clearances to combustibles, and use of non - combustible enclosures. For any additional construction information, refer to Model IPIC parts catalog. • BREECHING APPLICATIONS 1�j • BOILER EXHAUST APPLICATIONS • ENGINE/TURBINE EXHAUST APPLICATIONS/ l,� METAL -FAB, INC. - P.O. BOX 1138, WICHITA, KANSAS 67201 • (316) 943 -2351 C This symbol on the nameplate means the product is listed by Underwriters Laboratories, Inc. and by Underwriters Laboratories of Canada. WALL THIMBLE AND VENT MUST NOT PROTRUDE BEYOND SIDING Fig. # 15 Vent System Components 12" Pipe Length 18" Pipe Length 24" Pipe Length 48" Pipe Length 12" Adjustable Pipe Extension 45° Elbow 90° Elbow Wall /Offset Support Town & Country TCVT.811X12 TCVT.811 X18 TCVT.811 X24 TCVT.811 X48 TCVT.811 X12ADJ TCVT.811 XLB45 TCVT.811XLB90 TCVT.811 XOS Wall Termination Kit TCVT.WTA Roof Termination Kit TCVT.TA Wall Shield/Ceiling Firestop TCVT.THIMA Roof Flashing, Adjustable TCVT.811 FLADJ Roof Flashing, Flat TCVT.811 FLFLT Roof Flashing, Steep TCVT.811 FLSTP or any that fits 11" pipe Wall thimble: Where a vent pipe passes through a combustible wall, a wall thimble /shield must be used to retain insulation and maintain proper clearances. The wall thimble may be cut to length for various wall thicknesses up to 12" thick. Measure the wall thickness including the siding. Trim the shield to match the wall thickness. Position the wall thimble from inside through the 14 -1/2" opening. Properly trimmed, the thimble should be flush with the outer wall surface. T/∎TTT1T fl 0 TT.TTTIrT T'.TTIT. TIT A C'T.C Tr:a9 R2 nano 11 December 1, 2005 Steve Sarch Lorentz Bruun Co 3611 SE 20 Ste 300 Portland, OR 97202 Dear Mr. Sarch: Sincerel encl ` I�ll�Gn' �e>�n'fer arshall rmi chnician xc: File No. M05 -181 P: IenniterlCorrection Letters MO5.181 Correction La #1.DOC jem Department of Community Development RE: CORRECTION LETTER #1 Mechanical Permit Application Number M05 -181 BASCO — 6750 S 180 St Steven M. Mullet, Mayor Steve Lancaster, Director This letter is to inform you of corrections that must be addressed before your mechanical permit(s) can be approved. All correction requests from each department must be addressed at the same time and reflected onyour.drawings. :I have enclosed comments from the Building Department. At this time the Fire Department has no comments. • Building Department: Allen Johannessen, at (206) 433 -7163, if you have questions regarding the attached memo. Please address the attached comments in an itemized format with applicable revised plans, specifications, and /or other documentation. The City requires that four (4) complete sets of revised plans, specifications and/or other documentation be resubmitted with the appropriate revision block. In order to better expedite your resubmittal, a `Revision Submittal Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Corrections /revisions must be made in person and will not be accepted through the mail or by a messenger service. If you have any questions, please contact me at (206) 433 - 7165. 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 Building Division Review Memo Date: December 1, 2005 Project Name: BASCO Permit #: M05 -181 Plan Review: Allen Johannessen, Plans Examiner A Building Division conducted a plan review on the subject permit application. Please address the following comments in an itemized format with revised plans, specifications and /or other applicable documentation. PLAN SUBMITTALS: (Min. size 11x17 to maximum size of 24x36; all sheets shall be the same size). (Drawing and structural calculations sheets shall be original signed wet stamp, not copied.) 1 The pizza oven and gas fireplace shall be provided with an outside source of combustion air. Combustion air shall be ducted into the fireplace firebox. Provide details that meet code requirements for combustion air to the appliances and show from where combustion air shall be provided. (2003 Washington State Ventilation and Indoor Air Quality Code 402.3 & 2003 IMC Chapter 7) 2 To maintain the UL listings for the pizza oven, the oven shall be required to have a UL listed grease duct installed. Provide details and documentation that show the pizza oven grease -duct satisfies the UL listing and code requirements for the pizza oven. (IMC & 906.1 & IMC 917.1) Should there be questions concerning the above requirements, contact the Building Division at 206 -431 -3670. No further comments at this time. Tukwila Building Division Allen Johannessen, Plan Examiner ACTIVITY NUMBER: M05 -181 DATE: 12 -22 -05 PROJECT NAME: BASCO SITE ADDRESS: 6750 S 180 ST Original Plan Submittal X Response to Correction Letter # 1 Response to Incomplete Letter # Revision # After Permit Issued DEPARTMENTS: a Bui ng Division Public Works C DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete Comments: Documents/routing slip.doc 2.28 -02 PLAN REVIEW /ROUTING SLIP APPROVALS OR CORRECTIONS: PERMIT COORD COPY - Fire Prevention Structural Incomplete n TUES/THURS ROU ING: Please Route Structural Review Required REVIEWER'S INITIALS: n Planning Division ❑ Permit Coordinator No further Review Required DATE: DATE: DUE DATE: 12-27-05 Not Applicable ❑ Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: n DUE DATE: 01 -24-05 Approved ❑ Approved with Conditions l" I Not Approved (attach comments) n Notation: REVIEWER'S INITIALS: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: ACTIVITY NUMBER: M05 -181 DATE: 11 -21 -05 PROJECT NAME: BASCO SITE ADDRESS: 6750 S 180 ST X Original Plan Submittal Response to Correction Letter # DEPARTMENTS: � Builpng 'vision Public Works Complete Comments: Documents/routing sllp.doc 2.28.02 PLAN REVIEW /ROUTING SLIP Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: TUES/THURS ROU ING: Please Route Structural Review Required REVIEWER'S INITIALS: APPROVALS OR CORRECTIONS: LhMVMiT COORD COPY Structural DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Incomplete n Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Approved ❑ Approved with Conditions n Not Approved (attach comments) Notation: REVIEWER'S INITIALS: Fi 5 11 Pre / v / n"ti II 4 14 n Response to Incomplete Letter # Revision # After Permit Issued Planning Division ❑ Permit Coordinator ❑ DUE DATE: 1 1-22-05 Not Applicable No further Review Required DATE: DATE: Fire ❑ Ping ❑ PW ❑ Staff Initials n n DUE DATE: 1 2-20-05 .DEC, 6. 2005 9:0 /AM LORENIL BRUUN Date: J (7 Project Name; BASCO Contact Person: Steve Sarch Summary of Revision: City of Tukwila Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc: Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Fax: 206 -431 -3665 Web site: http: //www.ci.tukwila.wn.us I • .,, . !:. .,... v,5 .:Q.1• ❑ Response to Incomplete Letter # ® Response to Correction Letter # 1 Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner Project Address: 6750 S 180 St C- Ski P PL -1e, - Tyre \Z-Z A- t N 1 A- . L. s - rte 6 ' s DvGT 1 4.3 A T A .46 r> Sheet Number(s): "Cloud" or highlight all areas of revision including date of revision Received at the City of Tukwila Permit Center by: WI cjAA M y l Entered in Permits Plus on t1- I 'L1 C lspplicauonAfom,s•applications on line\revieton submiaal Created: 8 -13 -2004 Revised: Plan Check/Permit Number: M05 -181 NU. 5/15 r. 4 Steven M. Mullet, Mayor Steve Lancaster, Director awl: DEC 2 2 2005 p ERMrT CENTER Phone Number: (C-0 - 1 - 6 , 5 6 1 s p- cJ\ C S i c N '° i s f2 "Tt-l- E 'T" P 1 P s (. v V C -) .J 2 c � a CE2 m) & v s 4 .‘G • c-2 o.xL •' - Diu Es-- License Information License BRUUNC *0000A Licensee Name BRUUN CONSTRUCTION Licensee Type CONSTRUCTION CONTRACTOR U Bl 600069141 Ind. Ins. Account Id 36390900 Business Type CORPORATION Address 1 PO BOX 42188 Address 2 01/01/1980 City PORTLAND County OUT OF STATE State OR Zip 972420188 Phone 5092725064 Status ACTIVE Specialty 1 GENERAL Specialty 2 UNUSED Effective Date 9/1/2000 Expiration Date 10/8/2007 Suspend Date Separation Date Parent Company Previous License LORENB *287CW Next License Associated License Business Owner Information Name Role Effective Date Expiration Date BRUUN, KELLY C Cancel Date 01/01/1980 Bond Amount BRUNN, LARRY K 01/01/1980 CAMERON, ROY L Until 01/01/1980 01/01/1980 Bond Information Bond Bond Company Name Bond Account Number Effective Date Expiration Date Cancel Date Impaired Date Bond Amount Received Date INS CO OF THE Until Look Up a Contractor, Electrir_ian or Plumber License Detail Page 1 of 3 Washington State Department of Labor and Industries General /Specialty Contractor A business registered as a construction contractor with L &I to perform construction work within the scope of its specialty. A General or Specialty construction Contractor must maintain a surety bond or assignment of account and carry general liability insurance. https: // fortress .wa.gov /lni/bbip /printer.aspx ?License= BRUUNC *0000A 01/03/2006 4 • , a r p mow t -$ '1 INTERIOR RENOVATION . SCALE: 1 ': 30' F'P•S' c_001- TOTAL OF 5 WAREr•O,:SE S SECOND F_00�; . • CO`S "R. OG'■ zO• .G `4w vQ .1 -0.0 AREA OF SITE PLAN .SCOPE OF WORK EXISTING CONDITIONS STA\DAL=D COVDAC" i-- A`J.CAPaED ' VA\ t . 48.168 SF 37' SF 37 -9' SF 4.318 SF 1, 6E+ CARS 46 CARS 1J CABS 3CARSVAP U%A% CEti -E*- 2 -STORY CONCRETE BUYILDING 6750 SOUTH 180TH STREET V \ III ti - SPPiNKLEREJ ' 9t. SCOPE OF WORK C C C C C C NEW EXTERIOR CANOPY I C C C - PROPOSED FIRST FLOOR TOTAL OFFICE AND DISPLAv : 5 WAREHOUSE (S I: SECOND FLOOR TOTAL 'OTAL PARKING TWO RELOCATED C COMPACT PARKING STALLS 1— r / / 4 >" 6c\ Cj N / a 5 NORTH (11) C r C 46.168 SF i no change, 6.371 SF. ' no change to occupancy type) 37.797 SF. ono change) 4.316 SF I no changes 68 CARS ,-x range, 12" • Ow ow 4=1 ONO ENO CO _ K n N‘ . B • EXITPLAN SCALE: 1 /16"=1'-0" n 1 2" f .. HANDICAPPED SIGNAGE SCALE: NTS - REFER TO SITE PLAN FOR LOCATION w' • f • f • • 4 • • • • i' • I I I WIN MO NM WINS .111 w r Oft U U N NORTH 12' -0" scop of work "////./• SCALE: 1/8-.1.-0 EXIT PLAN FIRST FLOOR AREA (SF) OCCUPANCY TYPE LOAD (USE 100 GROSS) SECOND FLOOR AREA (SF) OCCUPANCY TYPE LOAD (USE 100 GROSS) 11 II II 11 11 11 If If fit !1 11 or. #I ll +11 2 • II' • Ind • — � —. . "A" - - == QZ) 12' -0" 2 TOTAL OCCUPANCY INCHES PER OCCUP. TOTOL INCHES REQ'D MEETS MINIMUM 1 8,361 B 84 4,318 B 44 • 11 1I fl 11 I1 f1 - C S Z- ZrX =41' 31-=$r2$ =-11 11 - 11 1I If II II — — — II 11 w fI I! 11 • ft mh 11 fi It tI II - s h i If �. I FLOOR PLAN - DEMOLITION 50 .2 /OCC 10 YES 2 28 22 - r — „. _ _ .0 - _t / / / / / / /f /! f1 • R !N 28 28 .15 /OCC 4.2 YES C -- =awl ii r 28 22 50 .2 /OC C 10 1 YES — --- —.. —nor =or art — r ' scope , of. 6 I C' i2 76 MINIM 11•11111111111 4 INO ehr-les she De '-•. +e GENERAL DEMOLITION NOTES: 1 CONTRACTOR WILL SEAL DOORS, WINDOWS AND DUCTS TO OTHER AREAS OF THE BUILDING TO REDUCE SPREAD OF DUST AND DEBRIS 2. CONTRACTOR WILL DETERMINE THE IMPACT OF REMOVING PIPING. CONDUIT. MECHANICAL, ELECTRICAL, STRUCTURAL OR OTHER ELEMENTS THAT MAY BE DISCOVERED DURING DEMOLITION PRIOR TO DEMOLITION OF THOSE ELEMENTS 3. CONTRACTOR WILL PROVIDE THE OWNER WITH AT LEAST ONE BUSINESS DAY'S NOTICE IF SERVICES ARE TO BE TURNED OFF 4. CONTRACTOR WILL REMOVE ALL CEILING GRID. TILE AND LIGHTING FROM THE DEMOLITION AREA. 5. CONTRACTOR WILL REMOVE ALL CARPET, PAD AND GLUE(TO THE EXTENT POSSIBLE) FROM THE FLOORING AREA. 6. CONTRACTOR WILL REMOVE ALL BASE BOARD, WALL FIXTURES AND OTHER ELEMENTS FROM THE WALLS DURING DEMOLITION. REFER TO ELECTRICAL CONTRACTOR FOR SWITCHES TO BE REMOVED. SALVAGE DOOR, RELIGHT, HARDWARE, FRAME AND AS REQUIRED FOR RELOCATION. REFER TO FLOOR PLANS FOR LOCATION AND SWING DIRECTION (USE LEAST DAMAGED FOR RELOCATION TWO TOTAL REQUIRED). VERIFY ELEMENTS THAT MAY EXIST WITHIN THE CAVITY OF THE WALL THEN REMOVE SECTIONS OF WALL AS INDICATED. SALVAGE DOOR, HARDWARE, FRAME AND AS REQUIRED FOR RELOCATION. REFER TO FLOOR PLANS FOR LOCATION. F REMOVE COLUMN CASING, CONDUITS AND BOXES AS L REQUIRED. SALVAGE DOOR, HARDWARE, FRAME AND ASSOCIATED ASSEMBLIES IF REQUESTED BY OWNER. 76 REMOVE WINDOW, FRAME AND ASSEMBLY. CUT AND REMOVE L. SILL AS REQUIRED FOR NEW DOOR ASSEMBLY. ry CUT AND REMOVE AWNING, PATCH WALL REQUIRED TO MATCH EXISTINC EXTERIOR WALL FINISH SALVAGE DOOR, HARDWARE, FRAME AS APPRORIATE - REFER TO PLANS FOR NEW SWING DIRECTION. r, f ..- S scope ofi work 21' -0” 5: — 8 H • _ .' 1 E1 T 2 , • A -, LH to� L ......! 1 II Z T ft • -. 1 - - -- 1 II t ii _ - II II '2 j Ill - — II • • L emma Z• S� aL . TT. FIT REQUIRLZ v R: Ildierhar erg – Plumbinq Ptong SEW CIIV Of ;w; • IIIILDIING DIVISION REVIEWED FOR CODE COMPLIANCE ADM/NI rc f DEC 27CQO5 an0 • Clitv d Waft IMAILNINS 011011110111 RECE 7� One = _ �' "K'r a PENT C.EhTR • Of Tukwila tinr TN( r T1/TTf N fi mew appwai r met b mars and se Amor code Q ammica wool FteiC p REVISIONS 7/13/05 , 1 LLI < V) LLico J 4-; ?!!) (7) co 0 V) n Q m k- t AS VC "7: SKE Al OF 6 SHE EY'S exes Ra,sik* s)viltb I ■ CANOPY ELEVATION SCALE: 1 /4 " =1' -0" • CRICKET SLOPE --N 1 /4 "FT. MIN. .r cc 3' DIA. ROOF DRAIN AND SUMP TIE DRAIN TO STORM SYSTEM C C -\ 2' -0 .� 1/` I\ 2 ' -0" 2' -0' •'� / . It / CANOPY ROOF SCALE: 1, /4"= l -p Face of Canopy Above 2 -0" 0 SCALE: 1 -' 4" _ 1 • -O ' 2 C 4-0' •—\ — L ItT K t - 0 •• CANOPY PLAN 21 ' -0" SLOPE 114 " /FT. MIN. H ancra'!s both sides !� ��c*) 28' -0" 20 -0" 0 1',0" / NOTE: Venty all dimensions in fielj. Venty all elevation requirements in field New Conc. Starr and O - - - -,► t NO New E x Door entry door and t ardeare at - Scut , enerl 20' -0" 4'x4' CLEAR ACRYLIC — DOME SKYLIGHT - -- � I' SLOPE 1 /4" /FT. MIN. r• 3" DIA. OVERFLOW DRAIN W` INLET 2" ABOVE ROOF AND -- - OUTLET 1/2" BELOW SOFFIT 20 -0" A ‘.7 oe :e• 5 ,f : rt. a` ± a? *-'^ c*'!•te' U 41C (111 rnoiroor Ma; " a . - x -a+ Cacao angt ' t. - - NOTE: New Exterior oor match entry door. frame and hardware at South entry. • • 0 -- -- - - -- -- - / 20 -0" / 2' -0" - / / 1 1 -0 " / / 0 2' -0" 2' -0" / - —/ • f / t 1 - -1 4 -0, / - / 1 - 0' 32' -0" ASC CRICKET SLOPE 7 1 !4 "FT. MIN. 3" DIA. ROOF DRAIN AND SUMP TIE DRAIN TO STORM SYSTEM NORTH 0 0 NOTE. New Canop unless indicated otherwise match elevation, dimensions, materials. details (including rail, flashing and reveals) per South Canopy. Note: Canopy and stair widths have been adjusted to match building pilaster and window mullions 11 ' -0" 0 2 ' -8 " 3 ' .4 " / 0 c: PLAY 112 DISPLAY :. 111 20' -6" scope of work DISPLAY 113 1 -- 3' -0" / // 2- 12' -0" C 13 -9 /J / / /•r' /1/ 5 5 p 2 @6" 5 .4 \ A2 • 3' -10" 2' -2" f / 12' -0" 0 " 0 " 2 @6" 5 3 -6' ti J 4 w Raised floor 12" high — {shaded area) see Struct. for details -\ — DISPLAY 114 :/ w go 9 Align - - . 4' -0" f 6' -5" E 26 , ASPLAY 2 110 / ilk - 7/.-// ♦r/ // / / / / / / :'/ / /,. 2-2' y SCALE: 1 /8" =1 '-O' S 1 -- Align - - -- \ 4. MEN 115A • - . floor 6" high 4 (shaded area DISPLAY - 109 Equal � ,'Equal 2 2-4 6 I !ar^ p up DISPLAY 108 New Car opy!6tair and Entry Door 4' -4" rn / 2 ' -2 " Q 6 ' -0 .' iv / f N, 22=4,* WOMEN 115B -, •I J - - 2 -0' 6-0' / -- DISPLAY 106 scope of work FLOOR PLAN - N W WALLS DISPLAY 0 • 105 r t J 2 -2' i- • r - -\ \ LOBBY 100 =\ cv 6 -U" 2' -2" 5 -T' 2'-0 - / / - �-- / / - —\ - -5\ 0 't N (V O C ,5 ' 7 =/ • J , • ' • • • • • • r l ` • NEW STUD WALL. 5/8' GYP. BD BOTH SIDES 3 -1!2 STEEL STUDS 0 16" O.C. REFER TO STRUCTURAL DRAWINGS FOR BRACING AND ANCHORING REFER TO ELEVATIONS FOR WALL HEIGHT NEW PARTIAL HEIGHT STUD WALL, 5/8' GYP. BD BOTH SIDES 3 -112" STEEL STUDS Ca) 16" O.C. VERIFY CAP DETAIL WITH OWNERS DESIGN REPRESENTATIVE. REFER TO ELEVATIONS FOR HT. • / OPENING IN WALL TO ACCOMMODATE WINDOW. REFER TO CASEWORK DETAIL ELEVATIONS FOR DIMENSIONS WINDOW DESIGN TO BE APPROVED BY OWNER OR OWNERS DESIGN REPRESENTATIVE. RAISED FLOOR ELEVATED AS INDICATED. REFER TO STRUCTURAL DRAWINGS FOR SUPPORT AND ATTACHMENT. ADA COMPLIANT STAIR. TREAD /RISE DIMENSIONS AND RAIL PROVIDED AS REQUIRED BY CODE. RAIL STYLE TO BE APPROVED BY OWNER OR OWNERS DESIGN REPRESENTATIVE PRIOR TO INSTALLATION. ADA COMPLIANT RAMP WITH RAIL PROVIDED AS REQUIRED BY CODE. RAIL STYLE TO BE APPROVED BY OWNER OR OWNERS DESIGN REPRESENTATIVE PRIOR TO INSTALLATION. REFER TO STRUCTURAL DRAWINGS FOR SUPPORT DETAILS. IT IS THE INTENT OF THE DESIGN TO MATCH THE CANOPY ON THE SOUTH SIDE OF THE BUILDING TO THE EXTENT POSSIBLE AND AS ALLOWED BY CODE. IF DESIGN OR MATERIAL VARIATIONS ARE REQUIRED, CONTRACTOR WILL SUGGEST ALTERNATE DESIGN AND /OR MATERIAL FOR OWNER APPROVAL PRIOR TO INSTALLATION. moo REINSTALL DOOR, RELIGHT AND HARDWARE SALVAGED FROM DEMOLITION. REPLACE OR REINSTALL DOOR, HARDWARE AND TRIM SUCH THAT SWING IS TOWARD LOBBY EXIT AND MEETS CODE INCLUDING REQUIREMENTS FOR ACCESSIBILITY AND FIRE RATING. L scope of work 21' -0" Equal OFFICE 101 8 I --- 2 -2" 5' -7" . 5 -7" 5' -7' f- / - - - / --f -T ; I - - - - - - _______.-' f SALES 104 - 2 Equal c c f - 9 r s NORM, 102 .8 Equal SALES • 103 Equal f OFFICE • • OWNiEP OR OWNERS REPRESENTAT:VE PRIOR TO i'siS AD5-111 IT! r"tir 7 3 05 A < < 6.1 z cc cif 0 0 0 Uj LL F- CE A2