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06-865 (AR) (STRUCTURAL CALCS)2" s _:. � • �' (V)B42 4 . month face (T)B42I 42" smooth face with insulation TM (PgB42L 42" circulating (OB42LI 42" circulating with insulation INSTALLATION INSTRUCTIONS SAVE THIS, BOOK This book is valuable. Iil`a'daitiou to instructing you on how to install and maintain your appliance, it also contains information that will enable you to obtain replacement parts . or accessory items when needed. usi_1g a vent -free gas log heater (see Accessories, p. 12). Keep it with•your other important•papers...,; WARNING: Always leave glass doors fulV opened or fully closed when operating this fireplace. k This fireplace, is approved for use as a wood burning fireplace or for use with a vented 'gas log approved to' ANS221.60, Z21.84 or RGA 2-72 standards or for use with a vent -free gas log heater approved to ANS Z21 112 standard A DESA hood must be installed when 28.500 25.375 CLQ Q17 /� 21.12,1 L 14.000 �. I 0.625 t �- s8.'S0 44.000 --- -� � L1.750 � 14.438 ALL DIMENSIONS IN THIS MANUAL ARE IN I INCHES UNLESS OTHERWISE SPECIFIED 1.375 ROUND TOP TERMINATION r 1.000 1 IN. AIRSPACE Y TO COMBUSTIBLE -----F ' 0 IN. TO MATERIAL . — — I— TOP SPACER; / SOUARE CHASE—TOP TERMINATION A 0 37.500 32.000 CC COMBUSTIBLE MA 33.000 21.500 MATERIAL ON FACE DESA 2701 INDUSTRIAL DRIVE P.O. BOX 90024 ARRAW ICB BOWLING GREEN, KY 42101-9004 www.desatech.com OMNI Test Lab. retories 1YALL BOARD CAS LINE KNOCK OUT RICHT SIDE j NOT LESS THAN 12 IN. TO PERPENDICULAR SIDEWALL HEARTH EXTENSION 66 IN. X 20 IN. e.25f1 ' 7.000 _ ! a O JAN i Lou J P/N 109036-01 REV F 10/03 42.000 44.000 � L1.750 � �• LEFT SIDE —AIR -KIT 3/4" AIR SPACE KNOCK OUT BACK AND SIDES . I0.375 .e. I OUTSIDE AIR' (LEFT SIDE ONLY) 8.250 � 0 IN. T0: NE t_ BdTTOM 12 IN',—,.: //•EACH SIDE KGAS NOCL DESA 2701 INDUSTRIAL DRIVE P.O. BOX 90024 ARRAW ICB BOWLING GREEN, KY 42101-9004 www.desatech.com OMNI Test Lab. retories 1YALL BOARD CAS LINE KNOCK OUT RICHT SIDE j NOT LESS THAN 12 IN. TO PERPENDICULAR SIDEWALL HEARTH EXTENSION 66 IN. X 20 IN. e.25f1 ' 7.000 _ ! a O JAN i Lou J P/N 109036-01 REV F 10/03 'CONTENTS -. 6. OUTSIDE'AIR KIT INSTALLATION ---------- ---------7. 7, FAN/BLOWER KIT ASSEMBLY ------------ -----------.8. .8. CHIMNEY PIPE AND OFFSET INSTALLATION ------------ 9. • FIRESTOP SPACERS ------------ 10. FLASHING AND TERMINATION ------------- 11.. FINISHING YOUR FIREPLACE ----------- . ...... :-,-,.12-. MANTELS _----------- 13. GLASS DOORS ------------ 14.. GAS' LINE INSTALLATIONS ------------ 15. DAMPER OPERATION ------------ 16... TECHNICAL SERVICE ------------ 17 ILLUSTRATED PARTS ------------ 18. r REPLACEMENT AND ACCESSORY PARTS ------------ --------------------------------------- PG.2 ---------------------------------------- PG.2 ---------------------------------------- PG.2 ---------------------------------------- PG.3 ------------------------------------------ PG. 3 --------------------=------------------- PG.3 ----------------------------------------- PG.4 ----------------------------- ----------- PG. 4-5 ---------------------------------------- PG.5 ----------- ----------------------------- PG. 6-7 --------------------- ------------------- PG.7 ---------------------------------------- PG.8 ---------------------------------------- PG.8 --=-=---=-=---=--=----------------==--- PG.9. •--------------------------------------- PG. 10 ----------- ----------------------------- PG. 10 •--------------------------------------- PG.11-11 a ---------------------------------------- PG. 12 - 1 - For more information, visit rvww.desatech.com FOR YOUR SAFETY • Do not store or use gasoline or: any other flammable vapors or liquids in the vicinity of this or any other' appliance. • Due to high temperatures, the appliance should be located out..of traffic and away from furniture and draperies. • Do not place clothing or other flammable materials on or near the appliance. . • NEVER leave children unattended when a fire is burning in the fireplace. A WARNING: Improper , installation, adjustment, alteration, service or maintenance can cause injury, property damage,- or loss of life. Refer to this manual for assistance or additionat..information: • Consult a qualified installer or local distributor; CHECK LOCAL CODES BEFORE INSTALLING THIS FIREPLACE. INTRODUCTION BEFORE BEGINNING THE INSTALLATION OF THE FIREPLACE, READ THESE INSTRUCTIONS THROUGH, COMPLETELY. ♦ This DESA fireplace and its components are safe when installed according to this installation manual. Unless you use DESA components, which has been designed and tested for the fireplace system, you may cause a fire hazard. ♦ The DESA warranty will be voided by and DESA disclaims any responsibility for the following actions: a) Modification of the fireplace, components, doors, blower, fans, airinlet system and damper control. b) Use of any component part not manufactured or approved by DESA ,in combination 'with a 'DESA fireplace system: PROPER INSTALLATION is the most "important step in ensuring safe and continuous operation of the fireplace. Consult the local building codes as to the particular requirements concerned with the installation of all factory built fireplaces. Although grounding may' not be required by code the manufacturer recommends it. A WARNING: Do not' install a fireplace insert in this box unless the manufacturers instructions with the insert specifically state this fireplace- has been tested for" use with the insert: ' USE SOLID WOOD OR PROCESSED SOLID FUEL FIRELOGS.ONLY. . A WARNING: When processed wood fuel fire logs are used, do not poke or stir the logs while they are burning. Use only fire logs that have been evaluated for the application in fireplace and refer to fire log warnings and caution markings on packaging prior to use. This fireplace is not intended to be used as a substitute for a furnace to heat an entire home. Use for supplemental heat only. This wood -burning fireplace complies with UL 127- CAN/ULS-$610-M87 standard as a FACTORY BUILT FIREPLACE. FOR CANADA: The authority having jurisdiction (such as the municipal building department, fire department, etc.) should be contacted before installation to determine the need to obtain a permit. SELECTING LOCATION To determine the safest and most efficient location for the fireplace, you must take into consideration the following guidelines: 1.) The location must allow for proper clearances (see figures 1 & 2). 2.) Consider a location were the fireplace would not be affected by drafts, air conditioning ducts, windows or doors.. 3.) A location that avoids the cutting of joists or roof rafters will make installation easier. 4.) An outside air kit is available with this fireplace. For more details refer to section on outside air kit installation on page 3. MINIMUM CLEARANCES TO COMBUSTIBLES • Back and side of fireplace -------------- 3/4" minimum Note: The 1/4" clearance is not required at the nailing flanges • Floor* ------------------------------------- 0" minimum *See step 2 of "Installing the Fireplace" on page 3 • Perpendicular Wall to Opening of unit - 12" minimum • Top Spacers ------------------------------ 0" minimum • Mantel Clearances ----=------==--------- see page 8 "Mantels" • Chimney Outer Pipe Surfaces --------- 1" minimum a WARNING: Do not pack required air spaces with insulation or other materials. MINIMUM / MAXIMUM CHIMNEY HEIGHT The minimum height of the chimney, rheasured from the base of the fireplace to the flue gas outlet of the termination, is 14.5 feet for straight flue or a. flue 'with one elbow set. The maximum distance between elbows is 6 feet. For systems with two elbow sets, the minimum height is 22 feet. The maximum height of any system is 50 feet. This measurement includes the fireplace, chimney sections and the height of the termination assembly at the level of the flue gas outlet (see page 7, figure 15). -2- For more information, visit www.desatech.com FRAMING AND INSTALLING THE FIREPLACE STEP 1: Frame the opening for the.. fireplace using the dimensions shown in figures 1 & 2. STEP 2: If the fireplace is to be installed directly on carpeting, the (other than ceramic), or any combustible material other than wood flooring, the fireplace must be installed upon a metal or'wood panel extending the full width and depth of the fireplace. STEP 3: Set the fireplace• directly in front of this opening and slide the unit back until the nailing flanges touch the side framing. STEP 4: Check the level of•the fireplace and shim with sheet metal if necessary. Make sure the unit is balanced on each side. STEP 5: Before securing fireplace to prepared framing, the ember protector (provided), must be placed between the hearth extension (not supplied), and under the bottom front edge of the fireplace to protect' against glowing embers falling through. If the fireplace is to be- installed on a raised platform, a 2 -type ember protector (not supplied) must be fabricated to fit your required -platform height. The ember protector should extend under the .fireplace a minimum of.l - 1/2". The ember protector should be made of galvanized sheet metal (28 -gage minimum). STEP 6: Using screws or nails, secure the fireplace to the framing through flanges located on the sides of the fireplace. 1 1 37 5/8" .i 1 L ------J �.. 22• I FRAMING DIMENSION .MAINTAIN 3/4', CLEARANCE 'AT SIDES AND BACK OF FIREPLACE 221/2' 51.9/16' '3/4' CLEARANCE NOT REQUIRED AT NAILING FLANGES i I- 72 7/8' -I ; Figure 2 CORNER INSTALLATION -3- HEARTH EXTENSION A hearth extension projecting a minimum of 20" in front of and a minimum of 12 .beyond each side of the fireplace opening is required to protect combustible floor construction in front of the fireplace. Fabricate a hearth extension using a material which meets the following specifications: a layer of non-combustible, inorganic material • having a thermal conductivity of K = 0.84 BTU IN/FT. HR. F (or less) at 1" thick. For example, if the material selected has a K factor of 0.25, such as glass fiber, the following formula would apply: 0.25 x 1.0" = 0.30 thickness required 0.84 Thermal conductivity "K" of materials can be obtained from the manufacturer or supplier of the non-combustible material. If the hearth extension is to be covered, use non-combustible material such as tile, slate, brick, concrete, metal, glass, marble, stone etc. Provide a means to prevent the hearth extension from shifting and seal gap between the fireplace frame and hearth extension with a non-combustible material (see figure 3). HEARTH HEARTH FIREPLACE FRONT SEAL GAP EXTENSION FIREPLACE FRONT SEAL CAP EXTENSION CIRCULATING NON -CIRCULATING EMBER PROTECTOR MODELS EMBER PROTECTOR? MODELS NO FIREPLACE FRONT \ \ RAISED HEARtH , A HEARTH HEARTH EXTENSION EMBER PR07ECTORI EXTENSION FIREPLACE FRONT FIREPLACE FRONT ELEVATED iaHx SEAL GAP/ ELEVATED SEAL CAP e 8 EMBER PROTECTOR- EMBER PROTECTOR—/ Figure 3 HEARTH EXTENSION o WARNING Hearth extension is to •be installed only as illustrated. OPTIONAL OUTSIDE AIR KIT (MODEL AK4 / AK4F) The installation of an outside air kit should be performed during the rough framing of the fireplace due to the nature of its location. Outside combustion air is accessed through a vented crawl space (AK4F) or through a sidewall (AK4). See page 10, figure 23 for instructions on how to operate the air kit. ' SECURE TO COLLARS WITH 1 - TIE STRAPS.0TAL TAPE. SCREWS OR w vm ' /�-•" lid. AIR INLET,^^ LOCATION VENT HOOD REOUIRED MUST ALLOY/ 'FOR WALL INSTALLATION BUSHES - ti�OR SNOW '•t AIR INLET ' E1'EOROW VENTED ♦\`"� I CRAWL SPACE CHECK IYRN LOCAL AREA CODES PRIOR TO INSTALLING 'N A VENTED CRAWL SPACE Figure 4 OUTSIDE AIR KIT For more information, visit www.desatech.com a 0 FAN/BLOWER KIT ASSEMBLY Fan or blower kit is optional (for circulating models only)'with this fireplace. Use of blowers or fans other than manufactured by DESA voids the warranty. Fan is operated by pressing the rocker "switch (see figure 5a) in the lower right hand corner of the fireplace face. Blower is operated by turning the control knob (not shown). Fan/blower kit electrical connections are made through the electrical cover plate on the side of the fireplace as shown in figure 5a. Figure 5a FAN SWITCH -ELECTRICAL BUSHING WIRING INSTRUCTIONS II. Remove electrical cover plate (with electrical bushing) from the fireplace by removing the two sheet metal screws as shown in figure 5a. ii. Slide power source wiring through the electrical bushing opening and electrical cover plate and make all the necessary connections. iii. Slide all wiring connections in the electrical housing as shown in figure 5b. :iv. Secure the electrical cover. plate with screws previously removed.: NOTE: Electrical housing and cover plate have sharp edges; wear protective -gloves. . I" ELECTRICAL' ODTER WAPPER, ' HOUSING OF FIREPLACE I -N ET NOR (D.) ELECR AL COVER PLPLATE % • IANDRU�WG CAL I 0 � I �.e- POxiR SOOPLE—� (SUGPRTA LIEO)E I��LJ I L .— O(NORSE. e PINGING (NOT SUPPLIED) FIREPLACE CHAs4s ,. GROUND . CHIMNEY PIPE The DESA chimney system consists of 12, 18, 24, 36 and 48 inch, snap -lock double-wall pipe segments, planned for maximum adaptability to individual site requirements. Actual lengths gained after fitting overlaps must be taken 'into consideration (lineal gain) and are given in the .lineal gain chart (see figure 6). ASSEMBLY AND INSTALLATION OF THE DOUBLE x WALL CHIMNEY SYSTEM Each double wall chimney section is consist of a galvanized outer pipe, a stainless steel inner flue pipe and a wire spacer. The pipe sections must be assembled independently as the chimney is installed. When connecting chimney directly to the fireplace, the inner flue pipe section must be installed first with the lanced side up. The outer pipe section can then be installed over the flue pipe section with the hemmed end up. Press down on each pipe section until the lances securely engage the hem on the fireplace starter. The wire will assure the proper spacing between the inner and outer pipe sections. PART No. DESCRIPTION LINEAL GAIN: THE ACTUAL ROCKER S7 T/2 MEASURABLE LENGTH OF A PART AFTER TWO OR MORE SWITCH 18-8DM plpE SECTION 1$-8HT PARTS ARE CONNECTED. 12 3/8 GALVANIZED 24-8DM pipE SECTION 24-8HT 23 8/8 ELECTRICAL 34 5/8 36-8HT 48-8DM plpE SECTION COVER PLATE 48-8HT RT-8DM ROUND TERMINATION e P.TL-8DM ROUND TERMINATION % 3 Q RTT-BDA/ ROUND iERMINpiION RO 11-I/e W/ AIP SECTION RTTL-8DM RauwulPE sc 0 e''/a ,o of -Ir ET -80M sCUARE CHASE -TOP END ETO-6DM w�u<E a.sE-'� N/ NESH 12 0 "p1D ETLO-8DM saAPEACH � -TOP / MESH a scrna — \ 81N. STAINLESS I / ELECTRICAL` • BUSHING Figure 5a FAN SWITCH -ELECTRICAL BUSHING WIRING INSTRUCTIONS II. Remove electrical cover plate (with electrical bushing) from the fireplace by removing the two sheet metal screws as shown in figure 5a. ii. Slide power source wiring through the electrical bushing opening and electrical cover plate and make all the necessary connections. iii. Slide all wiring connections in the electrical housing as shown in figure 5b. :iv. Secure the electrical cover. plate with screws previously removed.: NOTE: Electrical housing and cover plate have sharp edges; wear protective -gloves. . I" ELECTRICAL' ODTER WAPPER, ' HOUSING OF FIREPLACE I -N ET NOR (D.) ELECR AL COVER PLPLATE % • IANDRU�WG CAL I 0 � I �.e- POxiR SOOPLE—� (SUGPRTA LIEO)E I��LJ I L .— O(NORSE. e PINGING (NOT SUPPLIED) FIREPLACE CHAs4s ,. GROUND . CHIMNEY PIPE The DESA chimney system consists of 12, 18, 24, 36 and 48 inch, snap -lock double-wall pipe segments, planned for maximum adaptability to individual site requirements. Actual lengths gained after fitting overlaps must be taken 'into consideration (lineal gain) and are given in the .lineal gain chart (see figure 6). ASSEMBLY AND INSTALLATION OF THE DOUBLE x WALL CHIMNEY SYSTEM Each double wall chimney section is consist of a galvanized outer pipe, a stainless steel inner flue pipe and a wire spacer. The pipe sections must be assembled independently as the chimney is installed. When connecting chimney directly to the fireplace, the inner flue pipe section must be installed first with the lanced side up. The outer pipe section can then be installed over the flue pipe section with the hemmed end up. Press down on each pipe section until the lances securely engage the hem on the fireplace starter. The wire will assure the proper spacing between the inner and outer pipe sections. LINEAL GAIN PART No. DESCRIPTION LINEAL GAIN: THE ACTUAL a2" FIREPLACE S7 T/2 MEASURABLE LENGTH OF A PART AFTER TWO OR MORE 10 5/8 18-8DM plpE SECTION 1$-8HT PARTS ARE CONNECTED. 12 3/8 GALVANIZED 24-8DM pipE SECTION 24-8HT 23 8/8 OUTER PIPE 34 5/8 36-8HT 48-8DM plpE SECTION 46 5/8 48-8HT RT-8DM ROUND TERMINATION 6 %/Q, P.TL-8DM ROUND TERMINATION % 3 Q RTT-BDA/ ROUND iERMINpiION RO 11-I/e W/ AIP SECTION RTTL-8DM RauwulPE sc EMMED e''/a ,o of -Ir ET -80M sCUARE CHASE -TOP END ETO-6DM w�u<E a.sE-'� N/ NESH 12 ETL-8DM ni sii aA cnaH' "p1D ETLO-8DM saAPEACH � -TOP / MESH a scrna — 81N. STAINLESS NNER PIPE • THE LINEAL GAIN FOR THE TERMINATIONS IS MEASURED TO THE FLUE GAS OUTLET HEIGHT. p Figure 6 LINEAL GAIN LINEAL GAIN PART No. DESCRIPTION GAIN (IM.) a2" FIREPLACE S7 T/2 12-8DM plpE SECTION 12 -BHT 10 5/8 18-8DM plpE SECTION 1$-8HT .76 5/8 24-8DM pipE SECTION 24-8HT 23 8/8 36-BDaA PIPE SECTION 34 5/8 36-8HT 48-8DM plpE SECTION 46 5/8 48-8HT RT-8DM ROUND TERMINATION 6 %/Q, P.TL-8DM ROUND TERMINATION % 3 Q RTT-BDA/ ROUND iERMINpiION RO 11-I/e W/ AIP SECTION RTTL-8DM RauwulPE sc n�1• e''/a ,o of -Ir ET -80M sCUARE CHASE -TOP 72 ETO-6DM w�u<E a.sE-'� N/ NESH 12 ETL-8DM ni sii aA cnaH' "p1D ETLO-8DM saAPEACH � -TOP / MESH a scrna �: *a For Canada, use chimney parts designated "HT" 0 WARNING: The opening in the collar around the chimney at the top of the fireplace must not be obstructed. Never use blown insulation to fill the chimney enclosure. Continue to assemble chimney sections as outlined above, making sure that both the inner and outer pipe sections are locked together. When installing double .wall "snap lock" chimney together, it is important to assure the joint between the chimney sections is locked. Check'by pulling chimney upward after locking. The chimney will not come apart if properly locked. It is not necessary to add screws to keep the chimney together (exception — see page 5 figure 9). INSTRUCTIONS WHEN ELBOW OFFSET (30E-8DM) . OF CHIMNEY IS NEEDED 1. To achieve desired offset, you may install combinations of 12", 18", 24", 36" and 48" length of double wall pipe (SEE SINGLE OFFSET CHARTAND FIGURE 7). 2. Chimney weight above offset rests on return elbow. Straps must be securely nailed to rafters or joists (see figure 8, details a & b). 3. Maximum length of pipe between supports (return elbow or 12S-8DM) is 6' of angle run. Maximum of two (2) 6' angle run sections per chimney system (see figure 7). - 4 - For more information, visit www.desatech.coni *Por systems with two elbow sets, the minimum height is 22 feet. The mazimurri height for any system.is 50 feet. OFFSET CHART'(22-50 FT. SYSTEM HEIGHT) OFFSET f l HIMNEY LENGTH 'RETURN B RETURN" 24" 18" ELBOW ELBOW .16 -3/8BOW SET.ONLY 9-3/4 25-1/2 RETURN OFFSET ---- 6'T MAX 6' Eb1X OFFSET _� / / CEILING "-- ELBOW SUPPORT j �� PIPE ELBOW -- \!/ ELBOW _ J- ` 12S -BOAT" 6' M4X RETURN ELBOW —� _._ /� ,\ 15 RETURN �— ELBOW b� 6' MAX l... 18 40 1 MAX % 6' MAX \ >.i OFFSET 1 OFFSET OFFSET ELBOW C ELBOW -- _ ELBOW - J 49-1/41 1 Figure 7 *TYPICAL OFFSET INSTALLATION *Por systems with two elbow sets, the minimum height is 22 feet. The mazimurri height for any system.is 50 feet. OFFSET CHART'(22-50 FT. SYSTEM HEIGHT) OFFSET RISEF36 HIMNEY LENGTH A B 24" 18" 12'• 4-3/8 .16 -3/8BOW SET.ONLY 9-3/4 25-1/2 1 1 12-3/4 30-3/41 FIRESTOP SPACER 15 34-3/41 18 40 1 1 21-1/4 46-1/423-3/4 49-1/41 1 27-3/4 56-3/4 30 60-3/4 1 1 33 66 1 1 36 71 1 1 38-1/4 75 2 41-1/4 80-1/4 1 1 1 45 86-3/4 2 46-3/4 89-1/2 1 1 1 51 97 1 1 53-1/4 101 2 1 56-1/4 106-1/4 2 59-1/4 111 -1/2 1 1 1 61-3/4 115-1/2 2 1' 64-3/4 120-3/4 2 1 68-1/4 127 1 2 70 130 2 74 - 1/4 137- 1/2 ,1. 2 1 76-3/4 141 - 1/2 1: 2' i 1 79 - 3/4 146-3/4 4 CEILING SUPPORT PIPE SEE 't25-8DM - DETAIL A ANGLE /� FIRESTOP STRAPS SEE DETAIL B DETAIL B STRAPS .- RETURN STRAPS RETURN STRAPS DETAIL A Figure 8 CEILING SUPPORT PIPE ' -5- SCREWS II F-- A S All pipe connections between the offset and return must be secured with two screws, only on the outer pipe, and shall not penetrate the inner stainless. Figure 9 ELBOW OFFSET FIRESTOP SPACERS (FS-8DM) Firestop spacers are required at each point where the chimney penetrates a floor space. Their purpose is to establish and maintain the required clearance between the chimney and the combustible materials. . When the pipe passes through a framed opening into a living space above, the frrestop must be placed onto the ceiling from below as shown in figure 10. They also provide complete separation. from one floor space to another or attic space as required by most codes. When the double wall pipe passes through a framed opening into an attic space, the frrestop must be placed into an attic floor as shown in figure 11. E OR STAPLES (MINOF 81 I r FIRESTOP SPACER ATTIC SPACE ABOVE CEILING EXISTING CEILING FRAME /O Figure 11 FIRESTOP SPACER For more information, visit wmv. desatech. com LIVING SPACE ABOVE CEILING EXISTING CEILING FRAME • 1 1 FIRESTOP SPACER' SCREWS OR STAPLES .�/ (MIN. OF 8) 1 Figure 10 FIRESTOP SPACER E OR STAPLES (MINOF 81 I r FIRESTOP SPACER ATTIC SPACE ABOVE CEILING EXISTING CEILING FRAME /O Figure 11 FIRESTOP SPACER For more information, visit wmv. desatech. com ( PENETRATING THE ROOF To maintain a 1 -inch clearance to the pipe on a roof with a pitch, a rectangular opening must be cut. STEP 1: Determine the center point through which the pipe will penetrate the roof. STEP 2: Determine the center point of the roof. Pitch is the distance the roof drops over a given span, usually 12 inches. A 6/12 pitch means that the roof drops 6 inches for each 12 inches one measure horizontally down from the roof rafters. STEP 3: Use the roof opening chart (figure 12) to determine the correct opening length and flashing required. STEP 4: Remove the shingles around the opening measured and cut out this section. STEP 5: Add the next sections of the pipe until the end penetrates the roofline. Check to. see that the proper clearances are maintained. Extend chimney by adding sections of double wall pipe until pipe is a minimum of 30 .inches above the highest point of the roof cutout. Termination and chimney must extend •a minimum of 36 inches above the highest point where it passes through roof. FLASHING INSTALLATION (V6F-8DM or V12F-8DM) •Determine the flashing to be used with the roof opening chart. Slide flashing over pipe until base is flat against roof. Replace . as many shingles as needed to cover exposed area and flashing. base. Secure in position by nailing through shingles (see ,figure 13). DO NOT NAIL. THROUGH FLASHI COLLAR I I FLASHING / OVERLAP SHINGLES TOP AND SIDES ONLY _J I I I � rf]sw,•,mj I I I I I I I i I I (15.amm)� T I I A. PITCH SLOPE OPENING'A' MAX USE FLASHING (degrees) inches MODEL NO. FIAT 0 15 V6F-8DM 0-6/12 26.6 V6F-8DM 6/12-12/12 45.0 -- 20-3/8 V12F-80M -Figure.12 ROOF OPENING CHART FLASHING INSTALLATION (V6F-8DM or V12F-8DM) •Determine the flashing to be used with the roof opening chart. Slide flashing over pipe until base is flat against roof. Replace . as many shingles as needed to cover exposed area and flashing. base. Secure in position by nailing through shingles (see ,figure 13). DO NOT NAIL. THROUGH FLASHI COLLAR FLASHING / OVERLAP SHINGLES TOP AND SIDES ONLY NAIL ONLY � f. �'.''• OUTER PERIMETER' '' J` •/ NG CONE. -o- INSTALLING FLASHING ON A METAL ROOF When installing the flashing on a metal roof, it is required that putty tape be used between the fl ashing and the roof. The flashing must be.secured to the roof using #8 x'/4" screws and then sealed with roof coating to prevent leakage through the screw holes. A roof coating must also be applied around the perimeter of the flashing to provide a proper seal.OF STORM CHIMNEY PIPE UNDERLAP Iq SHINGLES o A7 BOTTOM Figure 13 FLASHING IN COLLAR FLASHING / OVERLAP SHINGLES TOP AND SIDES ONLY NAIL ONLY � f. �'.''• OUTER PERIMETER' '' J` •/ .o /e STALLATION STORM COLLAR INSTALLATION (SCl or SC2) Place storm collar over pipe and slide down until it is snug against the open edge of the flashing (see figure 14). Use SC for all round terminations and SC2 for all terminations with slip sections. Apply waterproof caulk around the peri meter of the collar to provide a proper seal: For more information, visit w,v%desatecH.com TERMINATIONS / SPARK ARRESTOR The fireplace system must be terminated with the-listed.round top or chase terminations. In any case, refer to the installation instructions supplied with the termination. The terminations approved for this fireplace are the RT -813M and RTL-8DM that can be used for flashing. or chase and ET -813M, ETO- 813M, ETL-813M and ETLO-813M for chase style termination only. Figure 15 shows an RTL-8DM round top termination. CAUTION: Do not seal openings on the rooftop flashing. Follow the installation instructions provided with the termination being used. Terminations with 16" slip pipe"sections are available. The RTT-813M and RTTL-8DM ..are approved for flashing installations. 'When needed., these adjustable terminations may be. used in combination with the pipe assembly to achieve the correct chimney height.. . NOTE: In the rare instance there is a problem with the side driven rain or wind or the chimney is not drafting properly, an ADS-8DM Anti braft Shield can be used with round terminations. CHASE INSTALLATIONS Instructions for chase installations are included with the chase': style termination chosen. In a multiple chase installation, be ,sure to, provide adequate distance between terminations to ...prevent smoke spillage from one termination to another We suggest that terminations be separated at least 24. inches, center tocenter and stacked at vertical height difference of 18 inches (see figure 16). y manufacturer for specifications. 10 -FOOT RULE All flue gas outlet of chimney 'termination must extend a minimum of 3 feet in height above the highest point where it passes through the roof and must be at least 2 feet above the highest point of the roof that is within a horizontal distance of 10 feet (see figure 17). " - FINISHING THE FIREPLACE; Combustible materials, such as wallboard, gypsum board, sheet rock, drywall, plywood; etc. may make direct contact with sides and top periphery of the fireplace face. It is important that combustible materials do not overlap the face itself. Brick, glass, tile or other non-combustible materials may overlap the front face provided they do not obstruct essential openings like louvered 'slots or any other opening. When overlapping with a non-combustible facing material, use only non-combustible mortar or adhesive. -7- For more information, visit www.desatech.com RTL-8DM ATTACH BRACKET TABS TO OUTER PIPE (3 PLACES) LEVEL OF ~—FLUE SECURE WITH CAS OUTLET SCREWS \ FLUE PIPE rr - SI RTL-8DM INSIDE INNER � PIPE OF CHIMNEY CAULK OVERLAP COLLAR - • SHINGLES ✓ TOP -AND- SIDES FLASHING UNDERAP SHINGLES BOTTOM ONLY r " - Figure 15 o 0 TERMINATION CAUTION: Do not seal openings on the rooftop flashing. Follow the installation instructions provided with the termination being used. Terminations with 16" slip pipe"sections are available. The RTT-813M and RTTL-8DM ..are approved for flashing installations. 'When needed., these adjustable terminations may be. used in combination with the pipe assembly to achieve the correct chimney height.. . NOTE: In the rare instance there is a problem with the side driven rain or wind or the chimney is not drafting properly, an ADS-8DM Anti braft Shield can be used with round terminations. CHASE INSTALLATIONS Instructions for chase installations are included with the chase': style termination chosen. In a multiple chase installation, be ,sure to, provide adequate distance between terminations to ...prevent smoke spillage from one termination to another We suggest that terminations be separated at least 24. inches, center tocenter and stacked at vertical height difference of 18 inches (see figure 16). y manufacturer for specifications. 10 -FOOT RULE All flue gas outlet of chimney 'termination must extend a minimum of 3 feet in height above the highest point where it passes through the roof and must be at least 2 feet above the highest point of the roof that is within a horizontal distance of 10 feet (see figure 17). " - FINISHING THE FIREPLACE; Combustible materials, such as wallboard, gypsum board, sheet rock, drywall, plywood; etc. may make direct contact with sides and top periphery of the fireplace face. It is important that combustible materials do not overlap the face itself. Brick, glass, tile or other non-combustible materials may overlap the front face provided they do not obstruct essential openings like louvered 'slots or any other opening. When overlapping with a non-combustible facing material, use only non-combustible mortar or adhesive. -7- For more information, visit www.desatech.com MANTELS A mantel may be installed if desired (see figure •18), Woodwork such as . wood trims, mantels, or any other combustible material projecting from the front face must not be placed within 12 inches of the fireplace opening. Combustible materials above 12 inches and projecting more than 1-1/2 inches from the fireplace must not be placed less than 12 inches from the top opening of the fireplace (NFPA STD 211, Sec. 7-3.3.3). • NOTE. DRAWING NOT NON TO SCALE. MINIMUM 15' Mar. 17' WN.UM CIRCULATING (h MODEL SNOVM I FIREPLACE) o OPENING Figure 18 MANTEL CLEARANCE Mantels or any other combustible material also may come up to the side edge of the.black metal face of the fireplace just as long as the projection from the front face fall within the limit shown in figure 19. 'TOP'VIEW OF FIREPLACE ' nP[ATn 0.625' MA% Su[ IBM ` 33' B COMBUSTIBLE MATERIAL _ MUSI NOT OVERLAP FRONT FACC MINIMUM 12• PROM PERPCNBICULAR SIDE VALL - c Figure 19 SIDE CLEARANCE -3- OPERATING GUIDELINES AND MAINTENANCE INSTRUCTIONS GLASS DOORS Glass doors are optional with the fireplace. When the fireplace is in operation, doors must in FULLY OPENED or - FULLY CLOSED position only .or a fire hazard may be created (see figure 20). A fireplace equipped with glass doors operates much differently than a fireplace with an open front. A fireplace with glass doors has a limited amount of air for combustion. Excessive heat within the fireplace can result if too large a fire is built or if the combustion air gate is not completely open. The following tips should be followed to assure that both the fireplace and the glass door retain their beauty and function properly. Both the flue damper and the glass doors must be fully opened before starting the fire. This will provide sufficient combustion air and maintain safe temperatures in the firebox. BI -FOLD CLASS DOORS FULLY CLOSED FIREPLACE FRONT FULLY OPEN 11 N FIREPLACE FRONT ^o Figure 20 GLASS DOORS IMPORTANT: The glass must be allowed to warm slowly and evenly. The tempered glass will withstand a gradual temperature rise to 550 degrees Fahrenheit, which is more than a normal fire will generate: Such materials.as pitch/wax laden logs, very dry mill end lumber, and large amounts of paper or cardboard boxes can create an excessively hot fire and should. not be burned in this fireplace. Always keep the fire well back from the, doors and never allow flames to contact the glass. O WARNING: Fireplaces • equipped with glass doors should be operated only with doors fully opened or doors fully closed. Doors, if left partly open, may draw gas and flame out of the fireplace opening creating risks of both fire and smoke. CLEANING THE GLASS Clean the glass with any commercial glass cleaner or soap and water. Do not use any abrasive material to clean the glass. Do not clean the glass with any cool water if the glass is still hot from the fire and smoke. H For more information, visit www.desatech.com —COMBUSP&E i12-1/A' REF MATERIAL — WE ZONE FOR 6. PROJECTION OF REF CO.WSUSME ' MATER44S J3 OEC. I • NOTE. DRAWING NOT NON TO SCALE. MINIMUM 15' Mar. 17' WN.UM CIRCULATING (h MODEL SNOVM I FIREPLACE) o OPENING Figure 18 MANTEL CLEARANCE Mantels or any other combustible material also may come up to the side edge of the.black metal face of the fireplace just as long as the projection from the front face fall within the limit shown in figure 19. 'TOP'VIEW OF FIREPLACE ' nP[ATn 0.625' MA% Su[ IBM ` 33' B COMBUSTIBLE MATERIAL _ MUSI NOT OVERLAP FRONT FACC MINIMUM 12• PROM PERPCNBICULAR SIDE VALL - c Figure 19 SIDE CLEARANCE -3- OPERATING GUIDELINES AND MAINTENANCE INSTRUCTIONS GLASS DOORS Glass doors are optional with the fireplace. When the fireplace is in operation, doors must in FULLY OPENED or - FULLY CLOSED position only .or a fire hazard may be created (see figure 20). A fireplace equipped with glass doors operates much differently than a fireplace with an open front. A fireplace with glass doors has a limited amount of air for combustion. Excessive heat within the fireplace can result if too large a fire is built or if the combustion air gate is not completely open. The following tips should be followed to assure that both the fireplace and the glass door retain their beauty and function properly. Both the flue damper and the glass doors must be fully opened before starting the fire. This will provide sufficient combustion air and maintain safe temperatures in the firebox. BI -FOLD CLASS DOORS FULLY CLOSED FIREPLACE FRONT FULLY OPEN 11 N FIREPLACE FRONT ^o Figure 20 GLASS DOORS IMPORTANT: The glass must be allowed to warm slowly and evenly. The tempered glass will withstand a gradual temperature rise to 550 degrees Fahrenheit, which is more than a normal fire will generate: Such materials.as pitch/wax laden logs, very dry mill end lumber, and large amounts of paper or cardboard boxes can create an excessively hot fire and should. not be burned in this fireplace. Always keep the fire well back from the, doors and never allow flames to contact the glass. O WARNING: Fireplaces • equipped with glass doors should be operated only with doors fully opened or doors fully closed. Doors, if left partly open, may draw gas and flame out of the fireplace opening creating risks of both fire and smoke. CLEANING THE GLASS Clean the glass with any commercial glass cleaner or soap and water. Do not use any abrasive material to clean the glass. Do not clean the glass with any cool water if the glass is still hot from the fire and smoke. H For more information, visit www.desatech.com A gas line or gas log lighter may be installed for the purpose of installing a vented or vent -free decorative gas appliance incorporating an automatic shutoff device and complying with the Standard for Decorative Gas Appliances for Installation in Vented Fireplaces, ANSI Z21.60 or American Gas Association draft requirements for Gas -Fired Log Lighters for Wood Burning Fireplaces, Draft No. 4 dated August, 1993. IF YOU WISH TO INSTALL AN UNVENTED (VENT - FREE) GAS LOG SET, ONLY UNVENTED GAS LOG SETS, WHICH HAVE BEEN FOUND TO COMPLY WITH THE STANDARD FOR UNVENTED ROOM HEATERS, ANSI Z21.11.2, ARE TO BE INSTALLED IN THIS FIREPLACE. OPTIONAL GAS LINE INSTALLATION Gas line hook up should be done by your supplier or a qualified service person. NOTE: Before you proceed, make sure your gas supply is turned off. Use only a %: inch black iron pipe and appropriate fittings. STEP 1: To install, remove the knockout indentation on the refractory, "(or firebrick), wall located above the refractory hearth floor. The knockout indentation must be firmly tapped with any solid object until it is released. Remove fragmented portions, of refractory (see figure 21). STEP 2: Remove gas line cover plate located on either side of fireplace and pull out insulation from gas line conduit sleeve. Save insulation for reuse. STEP 3: Run a '/z inch black iron gas line into the fireplace through the rear at gas line conduit sleeve (if using a raised platform, add height). Provide sufficient gas line into fireplace chamber for fitting connection (see figure 22). NOTE: Secure incoming gas line to wood framing to provide rigidity for threaded end. STEP 4: Repack insulation around gas line and into sleeve opening. Seal any gaps between gas line and 'refractory knockout hole with refractory cement or commercial furnace cement. Install the gas appliance or cap -off gas line if desired. OUTSIDE OF SIDE FIREBRICK OUTSIDE OF FIREPLACE \ FINISHED SIDE INCOMING GAS LINE GASLINE ROVIDE H IRON PIPE THREADED CONDUIT REMOVE REMOVE KNOCKOUT CONNECTION INSULATION REPACK TEMPORARILY INSULATION (DO NOT SEAL OPENING `�� DISCARD) ,,,JJJI Figure 22 ' REMOVE REFRACTORY GAS CON- KNOCKOUT PLUG " OUIT COVER AFTER REMOVING REMOVE BY TAPPING ` GAS LINE COVER a LIGHTLY WITH A PLATE. REPLACE ,/ . DOWEL SCREWS Figure 21 GAS LINE KNOCKOUT STEP 2: Remove gas line cover plate located on either side of fireplace and pull out insulation from gas line conduit sleeve. Save insulation for reuse. STEP 3: Run a '/z inch black iron gas line into the fireplace through the rear at gas line conduit sleeve (if using a raised platform, add height). Provide sufficient gas line into fireplace chamber for fitting connection (see figure 22). NOTE: Secure incoming gas line to wood framing to provide rigidity for threaded end. STEP 4: Repack insulation around gas line and into sleeve opening. Seal any gaps between gas line and 'refractory knockout hole with refractory cement or commercial furnace cement. Install the gas appliance or cap -off gas line if desired. OUTSIDE OF FIREPLACE \ SIDE FIREBRICK FINISHED SIDE INCOMING 1/2" BLACK GASLINE ROVIDE H IRON PIPE THREADED CONDUIT END FOR FITTING CONNECTION REPACK INSULATION SEAL OPENING WITH REFRACTORY CEMENT a' Figure 22 GAS LINE INSTALLATION -9- CAUTION: All gas piping and connections must be tested for leaks after the installation is completed. After ensuring that the gas valve is on, apply soap and water solution to all connections and joints. Bubbles forming show a leak. Correct all leaks at once. DO NOT USE AN OPEN FLAME FOR LEAK TESTING AND DO NOT OPERATE ANY APPLIANCE IF A LEAK IS DETECTED. LEAK TESTING SHOULD BE DONE BY A QUALIFIED SERVICE PERSON. NOTE: A DESA hood must be installed when using an unvented gas log set (see accessories on page 12). 0 WARNING: Do not operate an unvented gas log set in this fireplace with the chimney removed. If you install a decorative gas appliance (vented gas log), the decorative gas appliance must comply with the Standard for Decorative Gas Appliance for Installation in Solid Fuel burning Fireplaces, ANS Z21.60,221.84 or RGA 2-72, and shall also .be installed in accordance with the National Fuel Gas Code, ANS Z223.1-NFPA 54 latest edition. 0 WARNING: If the fireplace has been used for wood burning, the firebox and chimney must be cleaned of soot, creosote and ashes by a qualified chimney cleaner. Creosote will ignite if highly heated. 4 WARNING: When using a decorative vented gas log, the damper must be removed or permanently locked in the fully open position and the glass doors must be in the fully open position. For more information, visit www.desatech.com EFFECTIVE HEIGHT OF EFFECTIVE TERMINATIC EFFECTIVE HEIGHT OF I CAP 5 , DAMPER OPERATION I i The damper handle, which opens and closes the damper blade, ` is located inside the firebox at the center Towards the back wall (see figure 23). Pushing the handle back in the keyway slot will free the damper blade to automatically open. To close, reach in and push the handle back into the keyhole slot then pull down and forward to lock it- in place.(see figure 24). tM HEIGHT OF 22 FT. TWO ELBOW SETS) JM HEIGHT OF 50 FT. TYPICAL INSTALLATIONS D097 I tl OAUPER HANDLC. r Figure 23 DAMPER HANDLE LOCATION DAM R WEIGHT II / TO OPEN TO CLOSE DAMPER ' DAMPEP �► I 0 0750 75, Figure 24 DAMPER ROD, o WARNING: Risk of fire! Replace grate with DESA model 107001-02 grate only. This grate has been designed to keep the operation of your fireplace safe and efficient. FOR FURTHER OPERATING GUIDELINES, INSTRUCTIONS AND WARRANTY INFORMATION, PLEASE REFER TO YOUR HOMEOWNERS GUIDE OR CONTACT YOUR AUTHORIZED DEALER. TECHNICAL SERVICE You may have questions about installation, operations, or troubleshooting. If so, contact the Technical Service -Department at 1-866-672-6040. When calling, have the model number of the fireplace ready. - 1c, - For more information, visit www.desatech.cons 1 '1 _ r ILLUSTRATED PARTS' r ITEM # PART # DESCRIPTION QTY. ITEM # PART # ' r QTY. , '1 _ r ILLUSTRATED PARTS' r ITEM # PART # DESCRIPTION QTY. ITEM # PART # ' DESCRIPTION QTY. 1 106625-01 WARRANTY, HOME OWNERS BOOK 1 31 20046 TIEDOWN, GRATE 2 2 108307-01 PAN, INSULATION 1 *32 106574-01 INSTALL INSTRUCTION AK -6 1 3 . 108305-01 TOP, WRAPPER 1 *33 106586-01 r LABEL, CERT. WARNOCK-HERSEY 1 4 • 108304-01 ASM, OUTER WRAPPERANSULATION l *34 107778-24 LABEL, CARTON 1 5 108301-01 FLOOR, -FIREBOX 1 *35 107132-02 CARTON, TOP •. . 1 6 108303-01 SEPARATOR, AIR 1 *36 107133-02 CARTON, BOTTOM " 1 7 106971-01 LINER, LEFT SIDE BRICK 1 *37 1107143-01 LABEL, "CAUTION MOVING PARTS..." 1 8 106970-01 LINER, RIGHT SIDE BRICK 1 *38 107264-01 BRACKET, SHIPPING 1 9 108310-01 'LINER, REAR BRICK . 1 *39 107277-02 PLATE, RATING 1 •10 108312-01 LINER, BOTTOM BRICK 1 *40 11105 'SCREW -10 x 1/2 HWH LGM AB 96 11 + 108311-01 LINER, FRONT BOTTOM BRICK 1 *41 11164 SCREW #8 x 1/2 PH TR HD LGM ; 2 12 . 20060 PLATE, CIRCULATION 1 *42 11165 SCREW #18 x 5/8 MD TR BLACK OX 8 " 13 108300-01 " TOP, FIREBOX _ 1 *43 11301 RIVET POP SD42BS STEEL 11' 14 106967-01 WELDMENT, SIDE DAMPER 1 *44. 11308 -RIVET, ALUMINUM 4 **15 108298-02 WELDMENT,FRONT FACE 1 *45 11412. "' COTTER PINI -1/2x1/16 2 ***15a 108298-01 WELDMENT, FRONT FACE 1 *46 14607 SWITCH, ROCKER 1 16 108302-01 DEFLECTOR, AIR 1 *47 14608 PLUG, MALE POLARIZED 1/4" 1 17.- 211981 PLATE, BLOWER ACCESS 1 *48, . 15214 LABEL; OUTSIDE AIR 1 .18 109036-01 MANUAL, OWNERS 1 *49 15244 'LABEL -WARNING DO NOT BLOCK 1 19 107001-02 — GRATE, WOOD BURNING 1 *50 15246 - LABEL -WARNING 3/4" AIRSPACE . 2 20 108424-01 ASSEMBLY, SCREEN 1 *51 15303 LABEL -PRODUCT ID/ACCESSORIES . I 21 21366.. RETAINER, INSULATION l *52 .15310 LABEL -PRODUCT ID/CBKII 1 22, 20023 COLLAR, CHIMNEY STARTER 1 1 *53 16401 INSULATION RA -24 FOIL 4'. 23' 20027 -RETAINER, REFRACTORY 2, *54 16405 INSWOOL; BOX 1 x 3 X 33.5 1 24 20088 STOP, DOOR- 1 *55 16408 INSULATION HT -23 1-1/2 x 44 - 1 • 25 20089- CLI', PIVOT 2 *56 16901 STRAPPING 7/16 1 COIL= 900. .20.75 26 20090 CLIP, SPRING _. 2 *57. 17207 DUCT, FLEX 6" x 37-1/2 TYPE 1 " 27 106959-01 STANDOFF, TOP 4 _ *58 27251 LABEL'ASSEMBLY, WARNING ALL 1 28 107128-01 CONDUIT, GAS 4 *59 27253 NOTICE: INDENTATION 1 29 108306-01 BOTTOM, WRAPPER 1 *60 110037-01 ELECTRICAL DUCT ASSEMBLY 1 30 . 108299-01 '. WRAPPER, FIREBOX7. 1 *61 54199 LABEL -REMOVE GAS KNOCKOUT +2 1 k , `a * ITEMS NOT SHOWN FOR CLARITY **FOR MODELS (V)B42L, (V)B42LI ***FOR MODELS (V)B42, (V)B42I i t -) 1 - r For more information, visit www.desatech.com Q t ro OD O For more information, visit www.desatech.com STANDARD BRICK LINER REAR PN 108310-01 RIGHT SIDE �i PN 106970-01 - EMBER PROTECTOR • f_ BOTTOM PN 108312-01" , GRATE EP -42. 107001-02 LEFT SIDE FRONT BOTTOM _ PN 106971-01 PN 108311-01 ACCESSORY PARTS' DOUBLE WALL PIPE ADJUSTABLE HOOD REQUIRED WHEN INSTALLING ' FAN KIT (BK3) OPTIONAL OUTSIDE AIR KIT 12-8DM 12-8HT A VENT FRE GAS LOG IN THIS FIREPLACE FOR SIDE WALL 18-BDM 18=8HT INSTALLATION 24-8DM 24-8HT ANYIOUE BRASS FINISH GA6053 POLISHED BRASS FINISH GA6052 36-8DM 36-8HT BLACK PAINTED FINISH GA6050 AK -4 4878DM 48-8HT' BLOWER KIT (BK) \��!!!/// PN 01576 ROOF I FLASHING BI -;FOLD GLASS DOOR - / / OPTIONAL OUTSIDE AIR KIT FOR FLOOR INSTALATION .0 ® TO 6/12 PITCH -- V6.F-8DM HEARTH BLACK �INISH EXTENSION HE -42 6/12 TO 12/12 PITCH V12F-8DM' BDB42B BRUSHED BRASS FINISH AK4F BDB42PPLATINUM FINISH ANTI -DRAFT SHIELD STORM COLLAR' (ROUND TOP TERMINATION ONLY) ROUND TOP TERMINATIONS ARE CHASE -TOP SOU TERMINATION ET-8DM ADS-8DMRT-8DM• SCI -1 RTL-8DM ETO-8DM FOR RT-8DM AND RTL-8DM SC2-1 -- USED f OR RTT-8DM AND RTTL-8DM _-- 30° OFFSET AND RETURN FIRESTOP SPACER TOP TOUND ERMINATIONS ECONO-TOP TERMINATION WITH SLIP SECTION WITH SLIP SECTION _ RTT-8DM RTTL-8DM 30E-8DM FS-8DM { ETLO 8DM ID m o _ 0 For more information, visit 1vww,desatech com, MB36 36" smooth face (V)B36I 36" smooth face with insulation 7M (JgB36L, CWB36C 36" circulating MB36LI 36" circulating with insulation INSTALLATION INSTRUCTIONS SAVE THIS BOOK This book is valuable. In addition to instructing you on how to install and. maintain your. appliance, it also contains information that will enable you to obtain replacement parts or accessory items when needed. Keep it with your other important papers. This fireplace is approved for use as a wood burning fireplace or for use with a vented gas log approved to ANS Z21.60, Z21.84 or RGA 2-72 standards or for use with a vent -free gas log heater approved to ANS Z21.11.2 standard. A DESA hood must be installed when using a vent -free gas log heater (see Accessories, p. 12). Y WARNING: Always leave glass doors fully opened or fully closed when operating this fireplace. 22.500 ----i . I 21.125 14.000 0.750 38.000 ROUND TOP TERMINATION SOUARE CHASE—TOP TERMINATION STORM COLLAR FLASHING 37.250 32.000 33.000 21.500 0 IN. TOP SP. 0 6.750 1 000 38.000 .� 1.750 3/4" AIR SPACE BACK AND SIDES AIR KIT K/0 , GAS LINE K/0 1 12.875 8.125 9.625 Q 10.188 OMNI Test Laboratories ALL DIMENSIONS IN THIS MANUAL ARE IN OUTSIDE AIR (LEFT SIDE ONLY INCHES UNLESS OTHERWISE SPECIFIED 0 IN. TO BOTTOM DESA 2701 INDUSTRIAL DRIVE P.O. BOX 90024 BOWLING GREEN, KY 42101-9004 www.desatech.com OMNI Test Laboratories FIRESTOP MATERIAL NO COMBUSTIBLE MATERIAL ON FACE )MB E OC� \LL 0.. S8 1.375 NOT AN 1a WS THI TO PER SIDEWALL HEARTH EXTENSION 52 IN. X 16 IN. I SIDE v P/N 109034-01 ICBO # ER -3507 REV E 9/03 CONTENTS 1. INTRODUCTION ------------------------------------------------------------- PG.2 2. SELECTING LOCATION --=---------------------------------------------------=------ PG. 2 . 3. MINIMUM'CLEARANCES -----------=---------------=--------------------------------- PG.2 4. FRAMING AND INSTALLING ------------------------------------------------------------- PG. 3 5. HEARTH EXTENSION ------ ------------------------------------ -------------------- • PG. 3 6. OUTSIDE AIR KIT INSTALLATION ; ------------------------------------------------------------- PG. 3 7. FAN/BLOWER KIT ASSEMBLY -------------------------- ---------------------------------- PG. 4 8. CHIMNEY PIPE AND OFFSET INSTALLATION --------- --------------------------------------------------- PG. 4-5 9. FIRESTOP SPACERS 1 ------------ PG. 5 ` 10. FLASHING AND TERMINATION -------------------------------------------------------------- PG. 6-7 1-1. FINISHING YOUR FIREPLACE -------------------------------------------=------------ =--- PG. 7 12. MANTELS , •; ------------------------------------------------------------- PG. 8 13. GLASS DOORS ----------------------------------------------------------- PG. 8 14. GAS LINE INSTALLATIONS --------------------------------------;-----------;---------- PG. 9 15. DAMPER OPERATION ---------------------------------------------------=--------- PG. 10 16. TECHNICAL SERVICE y -----------------=------------------------------=---------=-- PG. 10 - 17. ILLUSTRATED PARTS --=---------------------------------------------------------- PG.11-1 la 18.'- REPLACEMENT AND ACCESSORY PARTS ----------------------------------------------=-------------- PG.12 f - 1 - For more information, visit www. desatech.com. FOR YOUR SAFETY • Do not store or use gasoline or any other flammable vapors or liquids in the vicinity of this or any other appliance. • Due to high temperatures, the appliance should be located out of traffic and away from furniture and draperies. • Do not place clothing or other flammable materials on or near the appliance. • NEVER leave children unattended when a fire is burning in the fireplace. Y WARNING: Improper installation, adjustment, alteration, service or maintenance can cause injury, property damage, or loss of life. Refer to this manual for assistance or additional information. Consult a qualified installer or local distributor. CHECK LOCAL CODES BEFORE INSTALLING THIS FIREPLACE. INTRODUCTION BEFORE BEGINNING THE INSTALLATION OF THE FIREPLACE, READ THESE INSTRUCTIONS THROUGH, COMPLETELY. ♦ This DESA fireplace and its components are safe when installed according to this installation manual. Unless you use DESA components, which has been designed and tested for the fireplace system, you may cause a fire hazard. ♦ The DESA warranty will be voided by and DESA disclaims any responsibility for the following actions: a) Modification of the fireplace, components, doors, blower, fans, air inlet system and damper control. b) Use of any component part not manufactured or approved by DESA in combination with a DESA fireplace system. PROPER INSTALLATION is the most important step in ensuring safe and continuous operation of the fireplace. Consult the local building codes as to the particular requirements concerned with ,the installation of all factory built fireplaces. Although grounding may not be required by code the manufacturer recommends it. A WARNING: Do not install a fireplace insert in this box unless the manufacturers instructions with the insert specifically state this fireplace has been tested for use with the insert. USE SOLID WOOD OR PROCESSED SOLID FUEL FIRELOGS ONLY. A WARNING: When processed wood fuel fire logs are used, do not poke or stir the logs while they are burning. Use only fire logs that have been evaluated for the application in fireplace and refer to fire log warnings and caution markings on packaging prior to use. This fireplace is not intended to be used as a substitute for a furnace to heat an entire home. Use for supplemental heat only. This wood -burning fireplace complies with UL 127- CAN/ULS-S610-M87 standard as a FACTORY BUILT FIREPLACE. FOR CANADA: The authority having jurisdiction (such as the municipal building department, fire department, etc.) should be contacted before installation to determine the need to obtain a permit. SELECTING LOCATION To determine the safest and most efficient location for the fireplace, you must take into consideration the following guidelines: 1.) The location must allow for proper clearances (see figures 1 & 2). 2.) Consider a location were the fireplace would not be affected by drafts, air conditioning ducts, windows or doors. 3.) A location that avoids the cutting of joists or roof rafters will make installation easier. 4.) An outside air kit is available with this fireplace. For more details refer to section on outside air kit installation on page 3. MINIMUM CLEARANCES TO COMBUSTIBLES • Back and side of fireplace -------------- '/4" minimum Note: The 3/4" clearance is not required at the nailing flanges • Floor* ------------------------------------- 0" minimum *See step 2 of "Installing the Fireplace" on page 3 • Perpendicular Wall to Opening of unit - 14" minimum • Top Spacers ------------------------------ 0" minimum • Mantel Clearances---------------------- see page 8 "Mantels" • Chimney Outer Pipe Surfaces --------- 1" minimum A WARNING: Do not pack required air spaces with insulation or other materials. MINIMUM / MAXIMUM CHIMNEY HEIGHT The minimum height of the chimney, measured from the base of the fireplace to the flue gas outlet of the termination, is 11.5 feet for straight flue or a flue with one elbow set. The maximum distance between elbows is 2 feet. For systems with two elbow sets, the minimum height is 22 feet. The maximum height of any system is 50 feet. This measurement includes the fireplace, chimney sections and the height of the termination assembly at the level of the flue gas outlet (see page 7, figure 15). -2- For more information, visit www. desatech com FRAMING AND INSTALLING THE FIREPLACE STEP 1: Frame the opening for the fireplace using the dimensions shown in figures 1 & 2. STEP 2: If the fireplace is to be installed directly on carpeting, tile (other than ceramic), or any combustible material other than wood flooring, the fireplace must be installed upon a metal or wood panel extending the full width and depth of the fireplace. STEP 3: Set the fireplace directly in front of this opening and slide the unit back until the nailing flanges touch the side framing. STEP 4: Check the level of the fireplace and shim with sheet metal if necessary. Make sure the unit is balanced on each side. STEP 5: Before. securing fireplace to prepared framing, the ember protector (provided), must be placed between the hearth extension (not supplied), and under the bottom front edge of the fireplace to protect against glowing embers falling through. If the fireplace is to be installed on a raised platform, a Z -type ember protector (not supplied) must be fabricated to fit your required platform height. The ember protector should extend under the fireplace a minimum of 1 - 1/2". The ember protector should be made of galvanized sheet metal (28 -gage minimum). STEP 6: Using screws or nails, secure the fireplace to the framing through flanges located on the sides of the fireplace. r----- , I 37 5 8" I I / I � --- �— 38 1/4- 22" m a Figure 1 FRAMING DIMENSION HEARTH EXTENSION A hearth extension projecting a minimum of 16" in front of and a minimum of 8" beyond each side of the fireplace opening is required to protect combustible floor construction in front of the fireplace. Fabricate a hearth extension using a material which meets the following specifications: a layer of non-combustible, inorganic material, having a thermal conductivity of K = 0.84 BTU IN/FT. HR. F (or less) at 1" thick. For example, if the material selected has a K factor of 0.25, such as glass fiber, the following formula would apply: 0.25 x 1.0" = 0.30 thickness required 0.84 Thermal conductivity "K" of materials can be obtained from the manufacturer or supplier of the non-combustible material. If the hearth extension is to be covered, use non-combustible material such as tile, slate, brick, concrete, metal, glass, marble, stone etc. Provide a means to prevent the hearth extension from shifting and seal gap between the fireplace frame and hearth extension with a non-combustible material (see figure 3). HEARTH HEARTH FIREPLACE FRONT SEAL CAP EXTENSION FIREPLACE FRONT SEAL GAP EXTENSION CIRCULATING NON -CIRCULATING EMBER PROTECTOR T MODELS EMBER PROTECTORS MODELS NO FIREPLACE FRONT RAISED HEARTH HEARTH HEARTH EXTENSION EMBER PROTECTORS EXTENSION FIREPLACE FRONT FIREPLACE FRONT ELEVATED SEAL CAP ELEVATED SEAL GAP gg 8 EMBER PROTECTOR-/ EMBER PROTECTOR-/ Figure 3 HEARTH EXTENSION 0 WARNING Hearth extension is to be installed only as illustrated. OPTIONAL OUTSIDE AIR KIT (MODEL AK4 / AK4F) The installation of an outside air kit should be performed during the rough framing of the fireplace due to the nature of its location. Outside combustion air is accessed through a vented crawl space (AK4F) or through a sidewall (AK4). This fireplace is equipped with a barometric damper, which allows outside air to flow in the fireplace automatically when needed. SECURE TO COLLARS WITH JTIEFAL TAPE, SCREWS OR �//y� /{�fDt E STRAPS. AIR /NLEf LOCATION VENT HOOD REOUIRED I FORTBUS ES I I�FOR WALL INSTALLATION OR SNOW 0 AIR INLET EYEBROW I- 0 VENTED CRAWL SPACE FCHECK wRM LOCAL AREA LODES PRIOR i0 INS7ACRAWL SPACE LLING IN A VENTED Figure 4 OUTSIDE AIR KIT - 3 - For more information, visit www. desatech com 13 3/4' MAINTAIN 3/4' CLEARANCE AT SIDES AND BACK OF FIREPLACE 19 1/2' 4J 3/8' 3/4' CLEARANCE NOT' REQUIRED AT NAILING FLANGES o F 66 7/8'� Figure 2 CORNER INSTALLATION HEARTH EXTENSION A hearth extension projecting a minimum of 16" in front of and a minimum of 8" beyond each side of the fireplace opening is required to protect combustible floor construction in front of the fireplace. Fabricate a hearth extension using a material which meets the following specifications: a layer of non-combustible, inorganic material, having a thermal conductivity of K = 0.84 BTU IN/FT. HR. F (or less) at 1" thick. For example, if the material selected has a K factor of 0.25, such as glass fiber, the following formula would apply: 0.25 x 1.0" = 0.30 thickness required 0.84 Thermal conductivity "K" of materials can be obtained from the manufacturer or supplier of the non-combustible material. If the hearth extension is to be covered, use non-combustible material such as tile, slate, brick, concrete, metal, glass, marble, stone etc. Provide a means to prevent the hearth extension from shifting and seal gap between the fireplace frame and hearth extension with a non-combustible material (see figure 3). HEARTH HEARTH FIREPLACE FRONT SEAL CAP EXTENSION FIREPLACE FRONT SEAL GAP EXTENSION CIRCULATING NON -CIRCULATING EMBER PROTECTOR T MODELS EMBER PROTECTORS MODELS NO FIREPLACE FRONT RAISED HEARTH HEARTH HEARTH EXTENSION EMBER PROTECTORS EXTENSION FIREPLACE FRONT FIREPLACE FRONT ELEVATED SEAL CAP ELEVATED SEAL GAP gg 8 EMBER PROTECTOR-/ EMBER PROTECTOR-/ Figure 3 HEARTH EXTENSION 0 WARNING Hearth extension is to be installed only as illustrated. OPTIONAL OUTSIDE AIR KIT (MODEL AK4 / AK4F) The installation of an outside air kit should be performed during the rough framing of the fireplace due to the nature of its location. Outside combustion air is accessed through a vented crawl space (AK4F) or through a sidewall (AK4). This fireplace is equipped with a barometric damper, which allows outside air to flow in the fireplace automatically when needed. SECURE TO COLLARS WITH JTIEFAL TAPE, SCREWS OR �//y� /{�fDt E STRAPS. AIR /NLEf LOCATION VENT HOOD REOUIRED I FORTBUS ES I I�FOR WALL INSTALLATION OR SNOW 0 AIR INLET EYEBROW I- 0 VENTED CRAWL SPACE FCHECK wRM LOCAL AREA LODES PRIOR i0 INS7ACRAWL SPACE LLING IN A VENTED Figure 4 OUTSIDE AIR KIT - 3 - For more information, visit www. desatech com FAN/BLOWER KIT ASSEMBLY Fan or blower kit is optional (for circulating models only) with this fireplace. Use of blowers or fans other than manufactured by DESA voids the warranty. Fan is operated by pressing the rocker switch (see figure 5a) in the lower right hand corner of the fireplace face. Blower is operated by turning the control knob (not shown). Fan/blower kit electrical connections are made through the electrical cover plate on the side of the fireplace as shown in figure 5a. . Figure 5a FAN SWITCH -ELECTRICAL BUSHING WIRING INSTRUCTIONS i. Remove electrical cover plate (with electrical bushing) from the fireplace by removing the two sheet metal screws as shown in figure 5a. ii. Slide power source wiring through the electrical bushing opening and electrical: cover plate and make all the necessary connections. • iii. Slide all wiring connections in the electrical housing as shown in figure 5b. iv. Secure the electrical cover. plate with screws previously removed. NOTE: Electrical housing and cover plate have sharp edges, wear protective gloves. I ELECTRICAL OUTER WRAPPER HOUS.G W MEPLACE MRE NUT (O.) / \ (NOT SUPPMED) -/ - ELECTRICAL , /COVER PLATE AND ELECTRICAL BUSHING POwEA SOURC RECEPT -y NOT bc R.( \ I (SUPPLIED) R RINC NOT'$UPPUED) _UE 0E 6U595 GRWNO ' Figure 5b ELECTRICAL HOUSING CHIMNEY PIPE The DESA chimney system consists of 12, 18, 24, 36 and 48 inch, snap -lock double-wall pipe segments, planned for maximum adaptability to individual site requirements. Actual lengths gained after fitting overlaps must be taken into consideration (lineal gain) and are given in the lineal gain chart (see figure 6). ASSEMBLY AND INSTALLATION OF THE DOUBLE WALL CHIMNEY SYSTEM Each double wall chimney section is consist of a galvanized outer pipe, a stainless steel inner flue pipe and a wire spacer. The pipe sections must be assembled independently as the chimney is installed. When connecting chimney directly to the fireplace, the inner flue pipe section must be installed first with the lanced side up. The outer pipe section can then be installed over the flue pipe section with the hemmed end up. Press down on each pipe section until the lances securely engage the hem on the fireplace starter. The wire will assure the proper spacing between the inner and outer pipe sections. LINEAL GAIN ROCKER GAIN (IN.) SWITCH - FIREPLACE ELECTRICAL jZ_g�7 COVER PLATE 0 10 5/8 e MEASURABLE LENGTH OF A PART AFTER TWO OR MORE 0 24-8DM 24_gHT PARTS ARE CONNECTED. 23 5/8 36-8DM 36—BHT 12 3/8 GALVANIZED ELECTRICAL BUSHING Figure 5a FAN SWITCH -ELECTRICAL BUSHING WIRING INSTRUCTIONS i. Remove electrical cover plate (with electrical bushing) from the fireplace by removing the two sheet metal screws as shown in figure 5a. ii. Slide power source wiring through the electrical bushing opening and electrical: cover plate and make all the necessary connections. • iii. Slide all wiring connections in the electrical housing as shown in figure 5b. iv. Secure the electrical cover. plate with screws previously removed. NOTE: Electrical housing and cover plate have sharp edges, wear protective gloves. I ELECTRICAL OUTER WRAPPER HOUS.G W MEPLACE MRE NUT (O.) / \ (NOT SUPPMED) -/ - ELECTRICAL , /COVER PLATE AND ELECTRICAL BUSHING POwEA SOURC RECEPT -y NOT bc R.( \ I (SUPPLIED) R RINC NOT'$UPPUED) _UE 0E 6U595 GRWNO ' Figure 5b ELECTRICAL HOUSING CHIMNEY PIPE The DESA chimney system consists of 12, 18, 24, 36 and 48 inch, snap -lock double-wall pipe segments, planned for maximum adaptability to individual site requirements. Actual lengths gained after fitting overlaps must be taken into consideration (lineal gain) and are given in the lineal gain chart (see figure 6). ASSEMBLY AND INSTALLATION OF THE DOUBLE WALL CHIMNEY SYSTEM Each double wall chimney section is consist of a galvanized outer pipe, a stainless steel inner flue pipe and a wire spacer. The pipe sections must be assembled independently as the chimney is installed. When connecting chimney directly to the fireplace, the inner flue pipe section must be installed first with the lanced side up. The outer pipe section can then be installed over the flue pipe section with the hemmed end up. Press down on each pipe section until the lances securely engage the hem on the fireplace starter. The wire will assure the proper spacing between the inner and outer pipe sections. For Canada, use chimney parts designated "HT" A WARNING: The opening in the collar around the chimney at the top of the fireplace must not be obstructed. Never use blown insulation to fill the chimney enclosure. Continue to assemble chimney sections as outlined above, making sure that both the inner and outer pipe sections are locked together. When installing double wall "snap lock" chimney together, it is important to assure the joint between the chimney sections is locked. Check by pulling chimney upward after locking. The chimney will not come apart if properly locked. It is not necessary to add screws to keep the chimney together (exception — see page 5 figure 9). INSTRUCTIONS WHEN ELBOW OFFSET (30E-8DM) OF CHIMNEY IS NEEDED 1. To achieve desired offset, you may install combinations of 12", 18", 24", 36" and 48" length of double wall pipe (SEE SINGLE OFFSET CHARTAND FIGURE 7). 2. Chimney weight above offset rests on return elbow. Straps must be securely nailed to rafters or joists (see figure 8, details a & b). ` 3. Maximum length of pipe between supports (return elbow or 12S-8DM) is 6' of angle run. Maximum of two (2) 6' angle run sections per chimney. system (see figure 7). - 4 - For more information, visit www. desatech. com LINEAL GAIN PARI N0. DESCRIPTION GAIN (IN.) 36' - FIREPLACE 37 i/2 jZ_g�7 LINEAL GAIN: THE ACTUAL 10 5/8 78-8DM 18-8HT MEASURABLE LENGTH OF A PART AFTER TWO OR MORE 16 5/8 24-8DM 24_gHT PARTS ARE CONNECTED. 23 5/8 36-8DM 36—BHT 12 3/8 GALVANIZED 34 5/8 48-8�T OUTER PIPE 46 5/8 RT-8DM ROUND TERMINATION 6 7 8 RTL-8DM ROUND IERNINAnON 7 3 4 RTT-BDM ROUND TERMINATION e_,ro ,O ,yl�e w/ SUP SECTION EMMED ET-8DM $WARE CHASE -TOP END ETO-8DM 72 ETL-80M sou yp 'Ami z ro la N. Tz ro zo-Vz STAINLESS INNER PIPE • THE LINEAL GAIN FOR THE TERMINATIONS IS MEASURED TO THE FLUE GAS OUTLET HEIGHT. p^ Figure 6 LINEAL GAIN. For Canada, use chimney parts designated "HT" A WARNING: The opening in the collar around the chimney at the top of the fireplace must not be obstructed. Never use blown insulation to fill the chimney enclosure. Continue to assemble chimney sections as outlined above, making sure that both the inner and outer pipe sections are locked together. When installing double wall "snap lock" chimney together, it is important to assure the joint between the chimney sections is locked. Check by pulling chimney upward after locking. The chimney will not come apart if properly locked. It is not necessary to add screws to keep the chimney together (exception — see page 5 figure 9). INSTRUCTIONS WHEN ELBOW OFFSET (30E-8DM) OF CHIMNEY IS NEEDED 1. To achieve desired offset, you may install combinations of 12", 18", 24", 36" and 48" length of double wall pipe (SEE SINGLE OFFSET CHARTAND FIGURE 7). 2. Chimney weight above offset rests on return elbow. Straps must be securely nailed to rafters or joists (see figure 8, details a & b). ` 3. Maximum length of pipe between supports (return elbow or 12S-8DM) is 6' of angle run. Maximum of two (2) 6' angle run sections per chimney. system (see figure 7). - 4 - For more information, visit www. desatech. com LINEAL GAIN PARI N0. DESCRIPTION GAIN (IN.) 36' - FIREPLACE 37 i/2 jZ_g�7 PIPE SECTION 10 5/8 78-8DM 18-8HT PIPE SECTION 16 5/8 24-8DM 24_gHT PIPE SECTION 23 5/8 36-8DM 36—BHT PIPE SECTION 34 5/8 48-8�T PIPE SECTION 46 5/8 RT-8DM ROUND TERMINATION 6 7 8 RTL-8DM ROUND IERNINAnON 7 3 4 RTT-BDM ROUND TERMINATION e_,ro ,O ,yl�e w/ SUP SECTION RTTL-BDM ROUND TERMINATION YIR 1D 31-T/2 W/SUP sEcnoN ET-8DM $WARE CHASE -TOP 72 ETO-8DM 72 ETL-80M sou yp 'Ami z ro la ETLO-8DM �� sin gcoPnw Tz ro zo-Vz For Canada, use chimney parts designated "HT" A WARNING: The opening in the collar around the chimney at the top of the fireplace must not be obstructed. Never use blown insulation to fill the chimney enclosure. Continue to assemble chimney sections as outlined above, making sure that both the inner and outer pipe sections are locked together. When installing double wall "snap lock" chimney together, it is important to assure the joint between the chimney sections is locked. Check by pulling chimney upward after locking. The chimney will not come apart if properly locked. It is not necessary to add screws to keep the chimney together (exception — see page 5 figure 9). INSTRUCTIONS WHEN ELBOW OFFSET (30E-8DM) OF CHIMNEY IS NEEDED 1. To achieve desired offset, you may install combinations of 12", 18", 24", 36" and 48" length of double wall pipe (SEE SINGLE OFFSET CHARTAND FIGURE 7). 2. Chimney weight above offset rests on return elbow. Straps must be securely nailed to rafters or joists (see figure 8, details a & b). ` 3. Maximum length of pipe between supports (return elbow or 12S-8DM) is 6' of angle run. Maximum of two (2) 6' angle run sections per chimney. system (see figure 7). - 4 - For more information, visit www. desatech. com I ' IIRETURN I I RETURN / .ELBOW _ ELBOW CEILING RETUI OFFSET / / MAX OFFSET I MAX SUPPORT £LBOI ELBOW ELBOW I PIPE 125-8DM MAX RETURN RETURN i ELBOW - j ELBOW' 6' MAX / > OFFSET 6' MAX OFFSET 6' MAX OFFSET ELBOW ELBOW ELBOW 7-11 Figure 7 *TYPICAL OFFSET INSTALLATION -ror systems with two elbow sets, the minimum height Is 22 feet. The maximum height for any system is 50 feet. OFFSET CHART (22-50 FT. SYSTEM HEIGHT) OFFSET RISE CHIMNEY LENGTH A - B 48" 1 36" 1 24" 1 18" 12" 4-3/8 16 -3/8 ELBOW SET ONLY 9-3/4 25-1/2 1 12 - 3/4 30-3/4 FIRESTOP SPACER 1 15 34-3/4 1 18 40 1 1 21-1/4 46-1/4 1 23-3/4 49 - 1/4 1 1 27-3/4 56-3/4 1 30 60-3/4 1 1 33 66 - 1 1 36 71 1 1 38-1/4 75 2 41-1/4 80-1/4 1 1 1 45 86-3/4 2 46-3/4 89-1/2 1 1 1 - 51 97 1 1 53-1/4 . 101 2 1 56-1/4 106-1/4 2 b9-1/41 111-1/2 1 1 1 61-3/4 115-1/2 2 1 64-3/4 120-3/4 2 1 68-1/4 127 1 2 ' 70 130 2 1 1 74 -1/4 131 - 1 /2 1 2 1 76-5/4 141 - 1 /2 1 _ 2 1 79-3/4 1 146-3/41 1 4 CEIUNG SUPPORT PIPE 12 E DM - - SEE DETAIL A ANGLE FIRESTOP STRAPS/ SEE DETAIL B DETAIL B STRAPS ~ / RETURN STRAPS ELBOW .e STRAPS a DETAIL A Figure 8 CEILING SUPPORT PIPE SCREWS \� B II Fes--- A s All pipe connections between the offset and return must be secured with two screws, only on the outer pipe, and shall not penetrate the inner stainless. Figure 9 ELBOW,OFFSET ' FIRESTOP SPACERS (V3600FS-8DM) Firestop spacers are required at each point where the chimney penetrates a floor space. Their purpose is to establish and maintain the required clearance between the chimney and the combustible materials. When the pipe passes through a framed opening into a living space above, the firestop must be placed onto the ceiling from below as shown in figure 10' They also provide complete separation from one floor space to another or,attic space as required by most codes. When the double wall pipe passes through a.framed opening into an attic space, the firestop must be placed into an attic floor as shown in figure 11. ' LIVING SPACE ABOVE CEILING EXISTING CEILING FRAME FIRESTOP SPACER SCREWS OR STAPLES (MIN. OF 8) Figure 10 FIRESTOP SPACER SCREWS OR STAPLES (MIN. OF 8) l FlRESTOP SPACER ATTIC SPACE rp w ABOVE CEILING A A fG CEILING FRAME Figure 11 FIRESTOP SPACER f 5 - For more information, 'visit www.desatech.com PENETRATING THE ROOF To maintain a 1 -inch clearance to the pipe on a roof with a pitch, a rectangular opening must be cut. STEP 1: Determine the center point through which the pipe will penetrate the roof. STEP 2: Determine the center point of the roof. •Pitch is the distance the roof drops over a given span, usually 12 inches. A 6/12 pitch means that the roof drops 6 inches for each 12 inches one measure horizontally down from the roof rafters. STEP 3: Use the roof opening chart (figure 12) to determine the correct opening length and flashing required. STEP 4: Remove the shingles around the opening measured and cut out this section. STEP 5: Add the next sections of the pipe until the end penetrates the roofline. Check to see that the proper clearances are maintained. Extend chimney by adding sections of double wall pipe until pipe is a minimum of 30 inches above the highest point of the roof cutout. Termination and chimney must extend a minimum of 36 inches above the highest point where it passes through roof. FLASHING INSTALLATION (V6F-8DM or V12F=8DM) Determine the flashing to be used with the roof opening chart. Slide flashing over pipe until base is flat against roof. Replace as many shingles as needed to cover exposed area and flashing base. Secure in position by nailing -through I I / SHINGLES TOP AND (PlAmm) I I [iciflYa)" OUTER o I I I ml • ; i I I I i I 1 11 e. UNDERLAP m SHINGLES p AT BOTTOM Figure 13 FLASHING INSTALLATION I A PITCH SLOPE OPENING "A" MAX USE FLASHING (degrees) inches MODEL NO. FLAT 0 15 V6F-8DM 0-6/12 26.6 16-1/8 V6F-8DM 6/12 - 12/12 45.0 20-3/8 VV1217-813MFigure 12 ROOF OPENING CHART FLASHING INSTALLATION (V6F-8DM or V12F=8DM) Determine the flashing to be used with the roof opening chart. Slide flashing over pipe until base is flat against roof. Replace as many shingles as needed to cover exposed area and flashing base. Secure in position by nailing -through / SHINGLES TOP AND SIDES ONLY NAIL ONLY OUTER o shingles (see .figure 13). DO NOT NAIL THROUGH FLASHING CONE. INSTALLING FLASHING ON A METAL ROOF When installing the flashing on a metal roof, it is required that putty tape be used between the flas hing and the roof. The flashing must be secured to the roof using #8 x'/o" screws and then sealed with roof coating to prevent leakage through the screw holes. A roof coating must also be applied around the perimeter of the flashing to provide a proper seal. STORM CHIMNEY PIPE COLLAR OVERLAP " FLASHING STORM COLLAR INSTALLATION (SCI / SHINGLES TOP AND SIDES ONLY NAIL ONLY OUTER o PERIMETER �- OF FLASHING i e. UNDERLAP m SHINGLES p AT BOTTOM Figure 13 FLASHING INSTALLATION or SC2) Place storm collar over pipe and slide down until it is snug against the open edge of the flashing (see figure 14). Use SC 1 for all round terminations and SC2 for all terminations with slip sections. Apply waterproof caulk around the perimeter of the collar to provide a proper seal. - 6 - For more information, visit www.desatech.com TERMINATIONS / SPARK ARRESTOR The fireplace system must be terminated with the listed round top or chase terminations. In any case, refer to the installation instructions supplied with the termination. The terminations approved for this fireplace are the RT78DM and RTL-8DM that can be used for flashing or chase and ET -813M, ETO- 813M, ETL-8DM and ETLO-8DM for chase style termination only. Figure 15 shows an RTL-8DM round top termination. CAUTION: Do not seal openings on the rooftop flashing. Follow the installation instructions provided with the termination being used. Terminations with 16" slip pipe sections are available. The . RTT-8DM and RTTL-8DM are approved for flashing installations. When needed, these adjustable terminations may be used in combination with the pipe assembly to achieve the correct chimney height. NOTE: In the rare instance there is a problem with the side driven rain or wind or the chimney is not drafting properly, an ADS-8DM Anti Draft . Shield can be used with round terminations. CHASE INSTALLATIONS Instructions for chase installations are included with the chase style termination chosen. In a multiple chase installation, be sure to provide adequate distance between terminations to prevent smoke spillage from one termination to another. We suggest that terminations be separated at least 24 inches, center to center and stacked at vertical height difference of 18 inches (see figure 16). -7- 10-FOOT RULE 7- *NOTE: If a decorative shroud is to be installed, contact the manufacturer for specifications. 10-FOOT'RULE All flue gas outlet of chimney termination must extend a minimum of 3 feet in height above the highest point where it passes through the roof and must be at least 2 feet above the highest point of the roof that is within a horizontal distance of 10 feet (see figure 17). FINISHING THE FIREPLACE Combustible materials, such as wallboard, gypsum board, sheet rock, drywall, plywood, etc. may make direct contact with sides and top periphery of the fireplace face. It is important that combustible materials do not overlap the face itself. Brick, glass, tile or other non-combustible materials may overlap the front face provided they do not obstruct essential openings like louvered slots or any other opening. When overlapping with a non-combustible facing material, use only non-combustible mortar or adhesive. For more information, visit www. desatech. com RTL-8DM ATTACH BRACKET TABS TO OUTER PIPE (3 PLACES) LEVEL OF SECURE NTH FLUE GAS OUTLET SCREWS \\\ FLUE PIPE OF RTL -8D M INSIDE INNER [� PIPE OF CHIMNEY CAULK OVERLAP COLLAR SHINGLES TOP AND SIDES FLASHING UNDERLAP SHINGLES BOTTOM, ONLY - N 0 Figure 15 TERMINATION CAUTION: Do not seal openings on the rooftop flashing. Follow the installation instructions provided with the termination being used. Terminations with 16" slip pipe sections are available. The . RTT-8DM and RTTL-8DM are approved for flashing installations. When needed, these adjustable terminations may be used in combination with the pipe assembly to achieve the correct chimney height. NOTE: In the rare instance there is a problem with the side driven rain or wind or the chimney is not drafting properly, an ADS-8DM Anti Draft . Shield can be used with round terminations. CHASE INSTALLATIONS Instructions for chase installations are included with the chase style termination chosen. In a multiple chase installation, be sure to provide adequate distance between terminations to prevent smoke spillage from one termination to another. We suggest that terminations be separated at least 24 inches, center to center and stacked at vertical height difference of 18 inches (see figure 16). -7- 10-FOOT RULE 7- *NOTE: If a decorative shroud is to be installed, contact the manufacturer for specifications. 10-FOOT'RULE All flue gas outlet of chimney termination must extend a minimum of 3 feet in height above the highest point where it passes through the roof and must be at least 2 feet above the highest point of the roof that is within a horizontal distance of 10 feet (see figure 17). FINISHING THE FIREPLACE Combustible materials, such as wallboard, gypsum board, sheet rock, drywall, plywood, etc. may make direct contact with sides and top periphery of the fireplace face. It is important that combustible materials do not overlap the face itself. Brick, glass, tile or other non-combustible materials may overlap the front face provided they do not obstruct essential openings like louvered slots or any other opening. When overlapping with a non-combustible facing material, use only non-combustible mortar or adhesive. For more information, visit www. desatech. com MANTELS A mantel may be installed if desired (see _ figure 18), woodwork such as wood trims, mantels; or any other combustible material .projecting from the front face must not be placed within 9 inches of the fireplace opening. Combustible materials above 9 inches` and projecting more than 1-1/2 inches from the fireplace must not be placed less than 12 inches from the top opening of the fireplace (NFPA STD 211; Sec. 7-3.3.3). - COMBUSTIBLE 12— i/4' REF MATERIAL I - SAFE ZONE FOR S. PROJECTION OF REF 33 DEG. COMBUSTIBLE MATERIALS " . NOTE: DRAWING NOT - 3• NOM TO SCALE. MINIMUM 12' MAX. l 9' MINIMUM . j CIRCULATING MODEL SHOWN FIREPLACEYI N OPENING Figure 18 MANTEL CLEARANCE Mantels or any other combustible material also may come up to the side edge of the black metal face of the fireplace just as long as the projection from the front face fall within'the limit shown in figure 19. TOP VIEW OF FIREPLACE rorcem� F11a 1.000 W[ I06 9.000 CCDMRUSTIRLE MATERIAL MUST MDT OVERLAP PRW PACE s MINIMUM 14' PROM PERPENDICULAR SIDE VALL Figure 19 SIDE CLEARANCE -8- OPERATING GUIDELINES AND MAINTENANCE INSTRUCTIONS GLASS DOORS Glass doors are optional with the fireplace. When the fireplace is in operation, doors must in FULLY OPENED or FULLY CLOSED position only or a fire hazard may be created (see figure 20). A fireplace equipped with glass doors operates much differently than a fireplace with an open front. A fireplace with glass doors has a limited amount of air for combustion. Excessive heat within the fireplace can result if too large afire is built or if the combustion air gate is not completely open. The following tips should be followed to assure that both the fireplace and the glass door retain their beauty and function properly. Both the flue damper and the glass doors must be fully opened before starting the fire. This will provide sufficient combustion air and maintain safe temperatures in the firebox. BI -FOLD GLASS DOORS FULLY CLOSED FIREPLACE FRONT FULLY OPEN Figure 20 N FIREPLACE FRONT 0 GLASS DOORS IMPORTANT:- The glass must be allowed to warm slowly and evenly. The tempered' glass will withstand a gradual temperature rise .to 550 degrees Fahrenheit, which is more than'a normal fire will generate. Such materials as pitch/wax laden logs, very dry mill end lumber, and large amounts of paper or cardboard boxes can create an excessively hot fire and should not be burned in this fireplace. Always keep the fire well back from the doors and never allow flames to contact the glass. A WARNING: Fireplaces equipped with glass doors should be operated only with doors fully opened or doors fully closed. Doors, if left partly open, may draw gas and flame out of the fireplace opening creating risks of both fire and smoke. CLEANING THE GLASS Clean the glass with any commercial glass cleaner or soap and water. Do not use any abrasive material to clean the glass. Do not clean the glass with any cool water if the glass is still hot from the fire and smoke. For more information, visit www. desateck com A gas line or gas log lighter may be installed for the purpose of installing a vented or vent -free decorative gas appliance incorporating an automatic shutoff device and complying with the Standard for Decorative Gas Appliances for Installation in Vented Fireplaces, ANSI. Z21.60 or American Gas Association draft requirements for Gas -Fired Log Lighters for Wood Burning Fireplaces, Draft No. 4 dated August, 1993. IF YOU WISH TO INSTALL AN UNVENTED (VENT - FREE) GAS LOG SET, ONLY UNVENTED GAS LOG SETS, WHICH HAVE BEEN FOUND TO COMPLY WITH THE STANDARD FOR UNVENTED ROOM HEATERS, ANSI Z21.11.2, ARE TO BE INSTALLED IN THIS FIREPLACE. OPTIONAL GAS LINE INSTALLATION Gas line hook up should be done by your supplier or a qualified service person. NOTE: Before you proceed, make sure your gas supply is turned off. Use only a %2 inch black iron pipe and appropriate fittings. STEP 1: To install, remove the knockout indentation on the refractory, (or firebrick), wall located above the refractory hearth floor. The knockout indentation must be firmly tapped with any solid object until it is released. Remove fragmented portions of refractory (see figure 21). STEP 2: Remove gas line cover plate located on either side of fireplace and pull out insulation from gas line conduit sleeve. Save insulation for reuse. STEP 3: Run a V2 inch black iron gas line into the fireplace through the rear at gas line conduit sleeve (if using a raised platform, add height). Provide sufficient gas line into fireplace chamber for fitting connection (see figure 22). NOTE: Secure incoming gas line to wood framing to provide rigidity for threaded end. STEP 4: Repack insulation around gas line and into sleeve opening. Seal any gaps between gas line and refractory knockout hole with refractory cement or commercial furnace cement. Install the gas appliance or cap -off gas line if desired. OUTSIDE OF SWE FIREBRICK OUTSIDE OF FINISHED SIDE FIREPLACE INCOMING GAS UNE GAS LINE . CONDUIT THREADED END CONDUIT REMOVE REMOVE KNOCKOUT INSULATION TEMPORARILY INSULATION (00 NOT L OPIG7\%EA DISCARD) REFRACTORYENN REMOVE Figure 22 REFRACTORY GAS CON- KNOCKOUT PLUG DUIT COVER AFTER REMOVING REMOVE BY TAPPING GAS UNE:COVER a LIGHTLY WITH A PLATE. REPLACE 71;r Down a SCREWS Figure 21 GAS LINE KNOCKOUT STEP 2: Remove gas line cover plate located on either side of fireplace and pull out insulation from gas line conduit sleeve. Save insulation for reuse. STEP 3: Run a V2 inch black iron gas line into the fireplace through the rear at gas line conduit sleeve (if using a raised platform, add height). Provide sufficient gas line into fireplace chamber for fitting connection (see figure 22). NOTE: Secure incoming gas line to wood framing to provide rigidity for threaded end. STEP 4: Repack insulation around gas line and into sleeve opening. Seal any gaps between gas line and refractory knockout hole with refractory cement or commercial furnace cement. Install the gas appliance or cap -off gas line if desired. OUTSIDE OF FIREPLACE SIDE FIREBRICK " FINISHED SIDE INCOMING GAS UNE I/2" BLACK IRON PIPE CH . CONDUIT THREADED END f FOR FITTING CONNECTION REPACK INSULATION L OPIG7\%EA REFRACTORYENN CEMENT 0 Figure 22 GAS LINE INSTALLATION CAUTION: All gas piping and connections must be tested for leaks after the installation is completed. After ensuring that the gas valve is on, apply soap and water solution to all connections and joints. Bubbles forming show a leak. Correct all leaks at once. DO NOT USE AN OPEN FLAME FOR LEAK TESTING AND DO NOT OPERATE ANY APPLIANCE IF A LEAK IS DETECTED. LEAK TESTING SHOULD BE DONE BY A QUALIFIED SERVICE PERSON. NOTE: A DESA hood must be installed when using an unvented gas log set (see accessories on page 12). 0 WARNING: Do not operate an unvented gas log set in this fireplace with the chimney removed. If you install a decorative gas appliance (vented gas log), the decorative gas appliance must comply with the Standard for Decorative Gas Appliance for Installation in Solid Fuel burning Fireplaces, ANS Z21.60, Z21.84 or RGA 2-72, and shall also be installed in accordance with the National Fuel Gas Code, ANS Z223.1-NFPA 54 latest edition. o WARNING: If the fireplace has been used for wood burning, the firebox and chimney must be cleaned of soot, creosote and ashes by a qualified chimney cleaner. Creosote will ignite if highly heated. 6 WARNING: When using a decorative vented gas log, the damper must be removed or permanently locked in the fully open position and the glass doors must be in the fully open position. - 9 - For more injornmdon, visit www. desatech. com RT -80M RT-BDM pTCCTT xpMl OI tliFCnK haO�i O ' RiNwMpx W IIXwV�IIM CM I h MAXIMUM MINIMUM HEIGHT OF 22 FT. RT -BOM • RT-8OM HEIGHT (WITH TWO ELBOW. SETS) 6iLc1M1T �mo�r o arzcnK xDGli s 50 FT. x MAXIMUM HEIGHT OF 50 FT. � m+wx•iwx cw iwuw.iwx c.P (ANY SYSTEM) TYPICAL LNSTALLATIONS DAMPER OPERATION The damper handle, which opens and closes the damper blade, is located inside the firebox at the center towards the back wall (see figure 23). Pushing the handle back in the keyway slot will free the damper. blade to automatically open. To close, reach in and push the handle back into the keyhole slot then pull down and forward to lock it in place (see figure.24). onwm w,xolt Figure 23 DAMPER HANDLE LOCATION UP TY�\ MAXIM D1309 TO "LOSE DAMPER 0"0 Figure 24 DAMPER ROD D751 1 0 WARNING: Risk of fire! Replace grate with DESA model 107001-01 grate only. This grate has been designed to keep the operation of your fireplace safe and efficient. FOR FURTHER OPERATING GUIDELINES, INSTRUCTIONS AND WARRANTY INFORMATION, PLEASE REFER TO YOUR HOMEOWNERS GUIDE OR CONTACT YOUR AUTHORIZED DEALER. , TECHNICAL SERVICE You may have questions about installation, operations, or troubleshooting. If so, contact the Technical Service Department at 1-866-672-6040. When calling, have the model number of the fireplace ready. - 10- For more injornmdon, visit www. desatecAL com 11.5 FT. - 11.5 FT. t MINIMUM MINIMUM HEIGHT HEIGHT BOG3B 2 FT. MAXIMUM / JOE -80M Ell, PIPE LENGTH TYPICAL LNSTALLATIONS DAMPER OPERATION The damper handle, which opens and closes the damper blade, is located inside the firebox at the center towards the back wall (see figure 23). Pushing the handle back in the keyway slot will free the damper. blade to automatically open. To close, reach in and push the handle back into the keyhole slot then pull down and forward to lock it in place (see figure.24). onwm w,xolt Figure 23 DAMPER HANDLE LOCATION UP TY�\ MAXIM D1309 TO "LOSE DAMPER 0"0 Figure 24 DAMPER ROD D751 1 0 WARNING: Risk of fire! Replace grate with DESA model 107001-01 grate only. This grate has been designed to keep the operation of your fireplace safe and efficient. FOR FURTHER OPERATING GUIDELINES, INSTRUCTIONS AND WARRANTY INFORMATION, PLEASE REFER TO YOUR HOMEOWNERS GUIDE OR CONTACT YOUR AUTHORIZED DEALER. , TECHNICAL SERVICE You may have questions about installation, operations, or troubleshooting. If so, contact the Technical Service Department at 1-866-672-6040. When calling, have the model number of the fireplace ready. - 10- For more injornmdon, visit www. desatecAL com ILLUSTRATED PARTS ITEM # PART # DESCRIPTION QTY. ITEM # . PART # DESCRIPTION - QTY. 1 106625-01 WARRANTY, HOMEOWNERS BOOK 1 31 20046 TIEDOWN, GRATE 2 2 107020-01 PAN, INSULATION 1 *32 106574-01 INSTALL INSTRUCTION AK -6 1 3 106968-01 TOP, WRAPPER 1 *33 20093 EMBER PROTECTOR 2 4 107131-01 ASM, OUTER WRAPPER/INSULATION. 1 *34 -107778-17 LABEL, CARTON F, 5- 106944-01 FLOOR, FIREBOX 1 *35. 107132-01 CARTON, TOP . 1 6 106949-01 SEPARATOR AIR V 107133-01 CARTON, BOTTOM 1 7 106971-01 " LINER, LEFT SIDE BRICK 1 107143-01 LABEL, "CAUTION MOVING PARTS..." 1 8 106970-01 LINER, RIGHT SIDE BRICK 1 107264-01 & BRACKET, SHIPPING 1 9 106969-01 LINER, REAR BRICK 1 K*4 107277-02 PLATE, RATING I 10 106972-01 ^+• rLINER, BOTTOM BRICK 1 11105. 'SCREW 10 x 1/2 HWH LGM AB. 9611 106973-01 'LINER FRONT BOTTOM BRICK 1 r 11164. SCREW #8 x 1/2 PH TR HD LGM 2 12 106539-02 GRATE RETAINER2 11165 SCREW #18 x 5/8 MD TR BLACK OX 8 13 . 106947-01 TOP, FIREBOX 1 .. *43 11301 RIVET POP SD42BS STEEL 1 I 14 106967-01 WELDMENT, SIDE DAMPER 1 *44 . 11308 RIVET, ALUMINUM 4 **15 107495-01 WELDMENT, FRONT FACE 1 *45 11412 " COTTER PIN 1-1/2 x 1/16 2• ' ***15a 107495-02 WELDMENT, FRONT FACE 1 *46 14607 SWITCH, ROCKER - 1 16 106948-01 DEFLECTOR, AIR 1 *47- - 14608 PLUG, MALE POLARIZED 1/4" 1 17 21198== PLATE, BLOWER ACCESS 1 *48 .15214 'LABEL, OUTSIDE AIR l . 18 109034-01 `MANUAL, OWNERS 1 *49 15244 _ LABEL -WARNING DO NOT BLOCK ' 1 " 19 107001-01 GRATE, WOOD BURNING • 1 *50 15246 LABEL -WARNING 3/4" AIRSPACE 2 20 107126-01 _ASSEMBLY, SCREEN 1 *51 15303 _ LABEL -PRODUCT ID/ACCESSORIES 1 21 21366 RETAINER, INSULATION 1 *52 15310 LABEL -PRODUCT ID/CBKIII 1 22 .20023 _ COLLAR, CHIMNEY STARTER 1 *53 16402 - INSULATION RA -24 FOIL 4, 23 20027 RETAINER; REFRACTORY 2 *54 16405 INSWOOL, BOX 1 x 3 X 33.5 1 j24 20088 STOP, DOOR' . 1 *55 16408 INSULATION HT -23 1-1/2 x 44 1 25 = 20089 -CLIP, PIVOT 2 *56 16901• STRAPPING 7/161 COIL =900 20.75 26 20090 CLIP, SPRING 2 *57 17207 DUCT, FLEX 6" x 37-1/2 TYPE 1 27 .106959-01 ^ STANDOFF, TOP .4 *58 27251 LABEL ASSEMBLY, WARNING ALL = 1- . 28 107128-01 CONDUIT, GAS 4 *59 27253 _ • NOTICE: INDENTATION.... I . 29 106953-01 BOTTOM, WRAPPER- 1 *60 110037-01. ELECTRICAL DUCT ASSEMBLY 1 30 106943-01 mWRAPPER, FIREBOX 1 *61, 54199 LABEL -REMOVE GAS KNOCKOUT 2• * ITEMS NOT SHOWN FOR CLARITY **FOR MODELS (V)B36L, (V)B36LI, CWB36C ***FOR MODELS (V)B36, (V)B36I l e - 1 I For more information, visit www.desatechcom + - Ila - 00 ao 0 o . i For more injormntion, visit www.desntech.com REPLACEMENT PARTS STANDARD BRICK LINER PA0r RIGHT 109-N16969-01 N 67001 EMBER PROTECTOR - BOTTOM PN 106972-01 GRATE LEFT SIDE 107001-01 PN 106971-01 FRONT BOTTOM EP -36 PN 106973-01 1 ACCESSORY PARTS DOUBLE WALL PIPE ADJUSTABLE HOOD REQUIRED INSTALOG LL ALL LL FAN KIT (BK3) ❑PTI❑NAL OUTSIDE AIR KIT 12-8DM 12-8HT AV ENT -FRE -FRE GAS IN THIS FIREPLACE FOR SIDE WALL 18-8DM 18-8HT INSTALLATION 24-8DM 24-8HT` ANTIQUE BRASS FINISH GA6053 POLISHED BRASS FINISH GA6052 31 36-8DM 36-8HT BLACK PAINTED FINISH GA6050 AK -4 48-8DM 48-8HT 0 BLOWER KIT (BK) PN 01576 Bl -FOLD -GLASS DOOR ROOF FLASHING OPTIONAL OUTSIDE AIR KIT FOR FLOOR INSTALATION 0 TO 6/12 PITCH -- v6F-8DM HEARTH � 6/12 TO 12/12 PITCH -- V12F-8DM BDB36 BLACK FINISH BDB36B BRUSHED BRASS FINISH EXTENSION HE -36 AK4F BDB36P PLATINUM FINISH ANTI -DRAFT SHIELD (ROUND TOP TERMINATION ONLY) STORM COLLAR ROUND TOP TERMINATIONS RT-8DM 0 ADS-8DM SCI -1 RTL-8DM ROUND TOP FOR RT-8DM AND RTL-BDM TERMINATIONS SC2=1 -- USED FOR WITH SLIP SECTION RTT-8DM AND RTTL-8DM RTT-8DM RTTL-BDM FE3602 SQUARE CHASE -TOP 30' OFFSET AND RETURN FIRESTOP SPACER TERMINATION ET-8DM ` ET❑-8DM ®� ® FACE EXTENSION _ 1 ECONO-TOP TERMINATION —'S WITH, SLIP SECTION 30E-BDM V3600FS-8DM ETL-8DM a ETLO-8DM a 1 - 12- For more information, visit www. desatechcom 1 - _' - TITLE 24 REPORT f Title 24 Report for: SINGLE HOUSE t 54100 TAMAZULA LA QUI NTA, CA 92248 Project Designer:' OFLQ NT A BUILDINSAFYEP )pROVEAONSRUCION FOR DAf Y d By: RAYMOND M. ZHONG PERFECT DESIGN & ENGINEERING, INC. 2416 W. Valley Blvd. Alhambra, CA 91803 (626) 289-8808 t s i Job Number: L :062099R -' No. 7635 JAN e ZUUl. ` " Exp: 06-30-07 Date: �(P ��CHAN\CP� N� By 1/7/2007 �'�'� of C The EnergyPro computer program has been used to perform the calculations summarized in this compliance report. This program has approval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 2005 Building Energy Efficiency Standards. This program developed by EnergySoft, LLC - www.energysoft.com. EnergyPro 4.3 by EnergySoft Job Number: Q062099R- User Number: 1919 I TABLE OF CONTENTS Cover Page 1 Table of Contents 2 Form CF -1 R Certificate of Compliance 3 Form MF -1 R Mandatory "Measures Summary' 7 Form WS -5R Residential Kitchen Lighting 9 HVAC System Heating and Cooling Loads Summary 10 Room Load Summary 11 Room Heating Peak Loads 12 Room Cooling .Peak Loads 13 EnergyPro 4.3 by EnergySoft Job Number: 0062099R- User Number: 1919 41, Certificate Of Compliance : Residential (Part 1 of 4) CF -1 R -S_LNG.LE_NQU_SE _02-A10 Insulation Act. 1_-7_/_2Q07 Project Title Frame Area U -Fac. Date _541.0.0 TA_ MAZU_LA-LA QU-I.NTA Tilt .Roof Wood_ Project Address _0_0.35- -R=30_ _R=0...0_ 0.22 Building Permit # _P_E.RF_EC_T_DES_I_GN_&_E.NG_I.N.EE.RING-,J.NC. (626) 289-8808 76.5_ Documentation Author _R13_ _R=0.0_ Telephone plan Check/Date _Ener_g_y_P_r_o Wood_ 61.0_ 15 _R_1.3_ Field Check/Date Compliance Method Wall_ Climate Zone TDV Standard Proposed Compliance Wall_ (! Btu/sf-yr) Design Design Margin Space Heating 1.12 1.07 0.05 Space Cooling 47.10 47.66 -0.57 Fans 6.68. 6.78 -0.10 Domestic Hot Water 5.92 3.82 2.09 Pumps 0.00 0.00 0.00 Totals 60.81 59.33 1.49 Percent better than Standard: 2.4% Building Type: [X-] Single Family ❑ Multi Family Building Front Orientation: Fuel Type: ❑ Addition ❑ Existing + Add/Alt (W) 270 deg Natural Gas Total Conditioned Floor Area: Existing Floor Area: Raised Floor Area: Slab on Grade Area: Fenestration: Average Ceiling Height: Area: 486 ft2 Avg. U: 0.34 Number of Dwelling Units: Ratio: 11.2% Avg. SHGC: 0.27 Number of Stories: BUILDING ZONE INFORMATION # of Thermostat Zone Name Floor Area Volume Units Zone Type Type WHOLE -HO -USE 4.,339 -3.4,.7-1.2 L00_ Conditioned- -Setback- OPAQUE SURFACES _02-A10 Insulation Act. _0.9=A3 Type Frame Area U -Fac. Cay. Cont. Azm. Tilt .Roof Wood_ 4,339_ _0_0.35- -R=30_ _R=0...0_ 0.22 Wall_ Wood_ 76.5_ _01.0.2_ _R13_ _R=0.0_ _2.7.0_ 9.0. Wall_ Wood_ 61.0_ -0102_ _R_1.3_ _R=0..0_ _9.0.9.0. Wall_ Wood_6.0.4_ _0.1.02_ -R_1.3_ _R=0.0_ 0-_9.0 Wall_ Wood_ 5.7.5_ _0..1.02_-R_1.3__R=0..0_ 1.8.0__90 4,339 ft2 n/a ft2 0 ft2 4,339 ft2 8.0 ft 1.00 Vent Hgt. Area 2 -n/a Gains Condition Y / N Status JA IV Reference Location / Comments N.ew _02-A10 NEW F_L.oOR N.ew _0.9=A3 NE.W__F_LOOR N.ew 0.9_A3 NE.W__F_LOOR New _0.9=A3 NE.W_ _ELO.O.R New. 0.9=A3 NE.W_ _ELOOR Run Initiation Time: 01/07/07 20:20:37 Run Code: 1168230037 1 EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: Q062099R- Page:3 of 13 6 Certificate Of Compliance: Residential (Part 2 of 4) CF -1 R SINGLE HOUSE 1/7/2007 Project Title Date FENESTRATION SURFACES True Cond. Location/ # Type Area U -Factor' SHGCZ Azm. Tilt Stat. Glazinq Type Comments _1— Window Er_ont---�W)_ _8.5.0_ _0.3_4.0 _NERC 0..27 _NERC _2.7.0_ _9.0_ N.ewDoubte_Non_M.etal_Clear_(.5.) _NEW FLOOR 2 Window Rear (E) 240.0 0.340 NFRC 0_27 NFRC 90 90 New Double Non Metal Clear (5) NEW FLOOR 3 Window Left (N)_ 66.0 0.340 NFRC 0_27 NFRC 0 90 New Double Non Metal Clear (5) NEW FLOOR 4 Window Right (S) 95.0 0.340 NFRC 0_27 NFRC 180 90 New Double Non Metal Clear (5) NEW FLOOR 1. Indicate source either from NFRC or Table 116A. 2. Indicate source either from NFRC or Table 116B. INTERIOR AND EXTERIOR SHADING Window Overhang Left Fin Right Fin # Exterior Shade Type SHGC Hgt. Wd. Len. Hgt. LExt. REA Dist. Len. Hgt. Dist. Len. Hgt. 1 Bug Screen 0.76 2 Bug Screen 0.76 3 Bug Screen 0.76 4 Bug Screen 0.76 THERMAL MASS FOR HIGH MASS DESIGN Area Thick.Heat Inside Condition Location/ Type (sf) (in.) Cap. Cond. R -Val. JA IV Reference Status Comments PERIMETER LOSSES Insulation Condition Type Length R -Val. Location JA IV Reference Status Slab Perimeter 304 None No Insulation 26-A1 New Location/ Comments NEW FLOOR Run Initiation Time: 01/07/07 20:20:37 Run Code: 1168230037 EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: Q062099R- Page:4 of 13 Certificate Of Compliance : Residential (Part 3 of 4) CF -1 R SINGLE HOUSE # in Input Cap. Condition Factor 1/7/2007 System Name Type Distribution Project Title or RE Date RHEEM HE80-130 Large Gas All Pipes Ins HVAC SYSTEMS 0.95 3.80% 12.0 Heating Minimum Cooling Minimum Condition Thermostat Location Type Eff Type Eff Status Type WHOLE HOUSE Central Furnace 80% AFUE Split Air Conditioner 13.0 SEER New Setback HVAC DISTRIBUTION Duct Duct Condition Ducts Location Heating Cooling Location R -Value Status Tested? WHOLE HOUSE Ducted Ducted Attic 6.0 New Yes Hydronic Piping Pipe Pipe Insul. System Name Length Diameter Thick. WATER HEATING SYSTEMS Rated Tank Energy Tank Insul. Water Heater # in Input Cap. Condition Factor Standby R -Value System Name Type Distribution SySt. (Btu/hr) (gal) Status or RE Loss (%) Ext. RHEEM HE80-130 Large Gas All Pipes Ins 1 130,000 80 New 0.95 3.80% 12.0 Multi -Family Central Water Heating Details Hot Water Pump Hot Water Piping Length LL Add 1/2" Control # HP TvDe In Plenum Outside Buried Insulation COMPLIANCE STATEMENT This certificate of compliance lists the building features and specifications needed to comply with Title 24, Parts 1 and 6 of the California Code of Regulations, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. The undersigned recognizes that compliance using duct design, duct sealing, verification of refrigerant charge and TXVs, insulation installation quality, and building envelope sealing require installer testing and certification and field verification by an approved HERS rater. Designer or Owner (per Business & Professions Code) Name: Title/Firm: Address: Telephone: Lic. #: (signature) (date) Enforcement Agency Name: Title/Firm: Address: Telephone: (signature) (date) Documentation Author Name: RAYMOND M. ZHONG Title/Firm: PERFECT DESIGN & ENGINEERING, INC. Address: 2416 W. Valley Blvd. Alhambra, CA 91803 Certificate Of Compliance : Residential (Part 4 of 4) CF -1 R SINGLE HOUSE 1/7/2007 Project Title Date Special Features and Modeling Assumptions The local enforcement agency should pay special attention to the items specified in this checklist. These items require special written justification and documentation, and special verification to be used with the performance approach. The local enforcement agency determines the adequacy of the justification, and may reject a building or design that otherwise complies based on the adequacy of the special justification and documentation submitted. Plan Field The DHW Svstem "RHEEM HE80-130" is a Large Gas water heater with Pilot Loss = 0 btuh. HERS Required Verification Items in this section require field testing and/or verification by a certified home energy rater under the supervision of a CEC- approved HERS provider using CEC approved testing and/or verification methods and must be reported on the CF -4R Plan Field installation certificate. The HVAC System "WHOLE HOUSE" incorporates HERS verified Duct Leakage. Target leakage is calculated and documented on the CF -4R. The HVAC System "WHOLE HOUSE" incorporates a HERS verified Refrigerant Charge test or a HERS verified Thermostatic Expansion Valve. This building has credit for Insulation Quality Installation. A certified HERS rater must visually verify the installation of all Insulation. I EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: Q062099R- Page:6 of 13 Mandatory Measures Summary: Residential (Page 1 of 2) MF -1R1 NOTE: Lowrise residential buildings subject to the Standards must contain these measures regardless of the.compliance approach used. More stringent compliance requirements from the Certificate of Compliance supercede the items marked with an asterisk (') below. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. DESCRIPTION Check or initial applicable boxes or check NA if not applicable and included with the ENFORCE - permit application documentation. N/A DESIGNER MENT Building Envelope Measures �§ 150(a): Minimum R-19 in wood ceiling insulation or equivalent U -factor in metal frame ceiling. ❑ ❑X ❑ " § 150(b): Loose fill insulation manufacturer's labeled R -Value: ❑ ❑ ❑ �§ 150(c): Minimum R-13 wall insulation in wood framed walls or equivalent U -factor in metal frame walls (does not ❑ ❑x ❑ apply to exterior mass walls). �§ 150(d): Minimum R-13 raised floor insulation in framed Floors or equivalent U -factor. ❑ ❑X ❑ § 150(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs. 1. Masonry and factory -built fireplaces have: a. closable metal or glass door covering the entire opening of the firebox ❑ 0 ❑ b. outside air intake with damper and control, flue damper and control ❑ Q ❑ 2. No continuous burning gas pilot lights allowed. ❑ ❑X ❑ § 150(f): Air retarding wrap installed to comply with §151 meets requirements specified in the ACM Residential Manual. ❑ ❑ ❑ § 150(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. ❑ ❑ ❑ § 150(1): Slab edge insulation'- water absorption rate for the insulation alone without facings no greater than 0.3%, water vapor ❑ ❑ ❑ permeance rate no greater than 2.0.perm/inch. § 118: Insulation specified or installed meets insulation installation quality standards. Indicate type and include ❑ ER ❑ CF -6R Form: § 116-17: Fenestration Products, Exterior Doors, and Infiltration/EAltration Controls. 1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. ❑ Q ❑ 2. Fenestration products (except field fabricated) have label with certified U -Factor, certified Solar Heat Gain ❑ ❑ ❑ Coefficient (SHGC), and infiltration certification. 3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed. ❑ E ❑ Space Conditioning, Water Heating and Plumbing System Measures § 110-13: HVAC equipment, water heaters, showerheads and faucets certified by the Energy Commission. ❑ Q ❑ § 150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA or ACCA. ❑ Q ❑ § 150(i): Setback thermostat on all applicable heating and/or cooling systems. ❑ ❑X ❑ § 1500): Water system pipe and tank insulation and cooling systems line insulation. 1. Storage gas water heaters rated with an Energy Factor less than 0.58 must be externally wrapped with insulation ❑ 0 ❑ having an installed thermal resistance of R-12 or greater. 2. Back-up tanks for solar systems, unfired storage tanks, or other indirect hot water tanks have R-12 external ❑ ❑X ❑ insulation or R-16 internal insulation and indicated on the exterior of the tank showing the R -value. 3. The following piping is insulated according to Table 150-A/B or Equation 150-A Insulation Thickness: 1. First 5 feet of hot and cold water pipes closest to water heater tank, non -recirculating systems, and entire ❑ Q ❑ length of recirculating sections of hot water pipes shall be insulated to Table 150B. ❑ E ❑ 2. Cooling system piping (suction, chilled water, or brine lines), piping insulated between heating source and indirect hot water tank shall be insulated to Table 150-8 and Equation 150-A. 4. Steam hydronic heating systems or hot water systems > 15 psi, meet requirements of Table 123-A. ❑ . ❑X ❑ " 5. Insulation must be protected from damage, including that due to sunlight, moisture, equipment maintenance, ❑ Q ❑ and wind. 6. Insulation for chilled water piping and refrigerant suction piping includes a vapor retardant or is enclosed ❑ FX] ❑ entirely in conditioned space. 7. Solar water -heating systems/collectors are certified by the Solar Rating and Certification Corporation. ❑ ❑ ❑ EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: 0062099R- Page:7 of 13 Mandatory Measures Summary: Residential (Page 2 of 2) MF -1R t NOTE: Lowrise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. More stringent compliance requirements from the Certificate of Compliance supercede the items marked with an asterisk (') below. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. DESCRIPTION Instructions: Check or initial applicable boxes when completed or check N/A if not ENFORCE - applicable. N/A DESIGNER MENT Space Conditioning, Water Heating and Plumbing System Measures: (continued) § 150(m): Ducts and Fans 1. All ducts and plenums installed, sealed and insulated to meet the requirements of the CMC Sections 601, 602, 603, 604, ❑ ❑X ❑ 605, and Standard 6-5; supply -air and return -air ducts and plenums are insulated to a minumum installed level,of R-4.2 or enclosed entirely in conditioned space. Openings shall be sealed with mastic, tape or other duct -closure system that meets the applicable requiremerts of UL 181, UL 181A, or UL 181B or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings greater than 1/4 inch, the combination of mastic and either mesh or tape shall be used. 2. Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than ❑ ❑X ❑ sealed sheet metal, duct board or Flexible duct shall not be used for conveying conditioned air. Building cavities and support platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause reductions in the cross-sectional area of the ducts. ❑ ❑ ❑ 3. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive ❑ ❑X ❑ duct tapes unless such tape is used in combination with mastic and draw bands. ❑ ❑X ❑ 4. Exhaust fan systems have back draft or automatic dampers. ❑ 0 ❑ 5. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operating ❑ Q ❑ dampers. ❑ ❑ ❑ 6. Protection of Insulation. Insulation shall be protected from damage, including that due to sunlight, moisture, equipment ❑ X❑ ❑ maintenance, and wind. Cellular foam insulation shall be protected as above or painted with a coating that is water ❑ X❑ ❑ retardantand provides shielding from solar radiation that can cause degradation of the material. 7. Flexible ducts cannot have porous inner cores. ❑ ❑X ❑ § 114: Pool and Spa Heating Systems and Equipment 1. A thermal efficiency that complies with the Appliance Efficiency Regulations, on-off switch mounted outside of the ❑ Q ❑ heater; weatherproof operating instructions, no electric resistance heating and no pilot light. 2. System is installed with: a. At least 36". of pipe between filter and heater for future solar heating. ❑ ❑ ❑ b. Cover for outdoor pools or outdoor spas. ❑ ❑ ❑ 3. Pool system has directional inlets and a circulation pump time switch. ❑ ❑X ❑ § 115: Gas fired fan -type central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously ❑ O ❑ burning pilot light. (Exception: Non -electrical cooking appliances with pilot < 150 Btu/hr) § 118 (i): Cool Roof material meets specified criteria ❑ ❑ ❑ Lighting Measures § 150(k)1: HIGH EFFICACY LUMINAIRES OTHER THAN OUTDOOR HID: contain only high efficacy lamps as outlined in Table ❑ X❑ ❑ 150-C, and do not contain a medium screw base socket (E24/E26). Ballasts for lamps 13 Watts or greater are electric and have an output frequency no less than 20 kHz. § 150(k)1: HIGH EFFICACY LUMINAIRES - OUTDOOR HID: contain only high efficacy lamps as outlined in Table 150-C, ❑ ❑X ❑ luminaire has factory installed HID ballast. § 150(k)2: Permanently installed luminaires in kitchens shall be high efficacy luminaires. Up to 50% of the Wattage, as determined ❑ 0 ❑ in Section 130(c), of permanently installed luminaires in kitchens may be in luminaires that are not high efficacy luminaires, provided that these luminaires are controlled by switches separate from those controlling the high efficacy luminaires. § 150(k)3: Permanently installed luminaires in bathrooms, garages, laundry rooms, utility rooms shall be high efficacy luminaires. ❑ X❑ ❑ OR are controlled by an occupant sensor(s) certfied to comply with Section 119(d). § 150(k)4: Permanently installed luminaires located other than in kichens, bathrooms, garages, laundry rooms, and utility rooms shall be high efficacy luminaires (except closets less than 70 ft) OR are controlled by a dimmer switch OR are ❑ X❑ ❑ controlled by an occupant sensor that complies with Section i19(d) that does not turn on automatically or have an always on option. § 150(k)5: Luminaires that are recessed into insulated ceilings are approved for zero clearance insulation cover (IC) and are 1:1 ❑X ❑ certified to ASTM E283 and labeled as air tight (AT) to less than 2.0 CFM at 75 Pascals. § 150(k)6: Luminaires providing outdoor lighting and permanently mounted to a residential building or to other buildings on the ❑ ❑X ❑ same lot shall be high efficacy luminaires (not including lighting around swimming pools/water features or other Article 680 locations) OR are controlled by occupant sensors with integral photo control certified to comply with Section 119(d). § 150(k)7: Lighting for.parking lots for 8 or more vehicles shall have lighting that complies with Sections 130, 132, and 147. ❑ ❑ ❑ Lighting for parking garages for 8 or more vehicles shall have lighting that complies with Section 130, 131, and 146. § 150(k)8: Permanently installed lighting in the enclosed, non -dwelling spaces of low-rise residential buildings with four or more ❑ ❑ ❑ dwelling units shall be high efficacy luminaires OR are controlled by occupant sensors) certified to comply with Section 119(d). EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: 0062099R- Page:8 of 13 Residential Kitchen Lighting Worksheet WS -5R SINGLE HOUSE 1/7/2007 Project Title Date At least 50% of the total rated wattage of permanently installed luminaires in kitchens must be in luminaires that are high efficacy luminaires as defined in Table 150-C. Luminaires that are not high efficacy must be switched separately. `. Kitchen Lighting Schedule. Provide the following information for all luminaires to be installed in kitchens. High Efficacy Luminaire Type High Efficacy? Watts Quantity Watts Other Watts (2)18w CompactFluo.Quad 4Pin(6"Recessed) Yes X No F1 50.0 x 7 = 350 or Yes No x = or YesNo x = or Yes No x = or Yes No x = or Yes No x = or Yes No x = or Yes No. x = or Yes No x = or Yes No x = or Yes No x = or Yes No x = or Yes No x = or Yes No x = or Yes No. x = or Yes No x = or Yes No x = or Yes No x = or Yes No x = or Yes No x = or Total A: 350 B: .0 COMPLIES IFA >_ B YES.n NO El e ;F di EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: Q062099R- Page:9 of 13 I '! HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY 'PROJECT NAME DATE SINGLE HOUSE 1/7/2007 SYSTEM NAME FLOOR AREA WHOLE HOUSE 4,339 Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM Sensible Latent CFM I Sensible 2,070 44,061 503 1,355 50,486 0 4,612 4,021 00 01 0 0 0 0 0 0 4,612 4,021 53,285 -503 58,528 CARRIER 38TXA-060/58STA-110-22 81,409 15,636 178,000 Total Adjusted System Output gl,aos 15,636 178,000 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 2 pm W12 am P-IEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) I 26.0°F 69.1°F 69.1°F 105.00F O Supply Air Ducts Outside Air 0 cfm 104.1°F Supply Fan Heating Coil 4000 cfm ROOMS 70.0 OF 69.1 OF t. k Return Air Ducts `i ICOOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Coolinq Peak) I 110.0/72.5°F 76.1 /61.6°F Outside Air 0 0 cfm Supply Far 4000 cfm 76.1 / 61.6 °F 76.1 / 61.7 OF 55.0 / 53.8 OF Cooling Coil �, Return Air Ducts "I Supply Air Ducts 56.1 / 54.3 of 45.8% R.H. FROOMS1 75.0 / 61.3 of EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: Q062099R- Page: 10 of 13 ROOM LOAD SUMMARY PROJECT NAME SINGLE HOUSE DATE ' 1/7/2007 SYSTEM NAME WHOLE HOUSE FLOOR AREA 4,339 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE NEW FLOOR NEW FLOOR PLAN 1 2,070 44,061 -503 2,070 44,061 -503 1,355 50,486 PAGE TOTAL 2,070 44,061 -503 1,355 50,486 TOTAL 1 2,070 44,061 -kj 1,355 50,486 EnergyPro By EnergySoft User Number: User Job Number: 0062099R- Page:11 of 13 ROOM HEATING PEAK LOADS Project Title Date• SINGLE HOUSE 1/7/2007 Room Information Design Conditions Room Name NEW FLOOR Time of Peak Jan 12 am Floor Area a,339 Outdoor Dry Bulb Temperature . 26 of Indoor Dry Bulb Temperature 70°F Conduction Area U -Value LT of Btu/hr R-30 Roof(R.30.202.16) R-13 Wall Double Non-Metal_Clear_(5) R-13 Wall Do u ble_N..on_M.etaLCI.ear_(.5.) R-13 Wall Double Non Metal Clear O R-13.Wall D.o u ble-Non-MetaMear_(5.) Slab -On -Grade 4339.0 X x X X X X X X X x x x x X X X X X x x X X X x X x x X X x X X X x X X X X X 0.0350 X x x x X X X X X x x X x X X X X X x x X X X X X X X x x X x X X X X x X X X 44 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 61682 765.0 0.1020 44 31433 85.0 0.3400 44 1,272 610.0 0.1020 44 2,738 240.0 0.3400 44 3,590 604.0 0.1020 44 2,711 66.0 0.3400 44 987 575.0 0.1020 44 2,581 95.0 0.3400 44 11421 perimeter = 304.0 0.7300 44 91764 Items shown with an asterisk (') denote conduction through an interior surtace to another room. Page Total: 35 179 Infiltration: L 1.00 x 1.064 x4,339 x 8.00 x 0.565 / 60] x 44 = 15,306 Schedule Air Sensible Area Ceiling Height ACH ILT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 50,486 EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: 0062099R- Page: 12 of 13 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Title Date SINGLE HOUSE 1/7/2007 Room Information Design Conditions Room Name: NEW FLOOR PLAN Outdoor Dry Bulb Temperature: 111OF Floor Area: 4,339 sf Outdoor Web Bulb Temperature: 730F Indoor Dry Bulb Temperature: 75 of Outdoor Daily Range: 340F Orientation Area x X X X X X X X X X X X--:�] U -Factor X X X X X x X X X X X X CLTD 1 (N) 4,339.0 0.0350 56.0 U 765.0 0.1020 33.0 (E 610.0 0.1020 33.0 (N) 604.0 0.1020 23.0 S 575.0 0.1020 26.0 66.0 16.8 1,112 (S) 0.0 16.8 95.0 16.9 1,606 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Fenestration Nage I otal Btulhr 8,504 = 2,575 2,053 1,417 1,525 16,075 Orientation Shaded Area X x X x x X x x x x x GLF + + + + + + + + + + + Unshaded Area X X X X x x X x x x x Page GLF = = = = = = = = = Btu/hr A) 0.0 16.8 85.0 32.9 2,795 U 0.0 16.8 240.0 32.9 7,890 (N) 0.0 16.8 66.0 16.8 1,112 (S) 0.0 16.8 95.0 16.9 1,606 Total 13,ao3 Internal Gain Btu/hr Occupants X Occupants X P21 230 Btuh/occ. = 460 Equipment X Dwelling Units X 1 1,6001 Watts/sgft = 1,600 Infiltration: 1.064 X 1.19 X 274.92 x 36 = 12,523 Air Sensible CFM ELA OT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 44,0611 Latent Gain Btu/hr Occupants F -21 X Occupants X 200 Btuh/OCC. = 400 Infiltration: 4,771 x 1.19 x 274.92 x 0.00058 = 903 Air Latent CFM ELA n w TOTAL HOURLY LATENT HEAT GAIN FOR ROOM -503 EnergyPro 4.3 by EnergySoft User Number: 1919 Job Number: Q062099R- Page: 13 of 13 -.:.RFi'EEM.-'RUUD ,� TM d. • RVAN / AMR R4 UD De_ioned \its, ��u In Nlinc�SN - 4 � STALED COMB' USTLOfV `: GAS 4 D WATER H. TES. 1A.OgOO. ,BTiJ/HR THRU 19-9100 ®e BTU%Ro RHEEM.•:RUUD •Adreah`tagePlusT"'.Gas Commercial -- Vl/a!er'Healers are specifically -designed to provide c.,s!o ers with-maximum'savines on.operalion; space and ans!allalion-Designed with fife rrios.l advencedlech: NO .-C H I -M N E Y a';aihbre,-these products oplimize.efi.iciency and REQUIRED - ��a+ngreliabilit}r. - VENTS' UP16 40 -..:.;FEET EET USIN CONSTRUCTION. FEATURES:--:;-_ • .. _. _. _ _ PVC, - - SCHEDULE 40 _ _• sa-cL s'alnl2ss sleet=laok-construction e_ vires no S �q P,VCORAB -No chimney required; direct gent using-.plass-ic:pipe. �� 100,000 BTU Tnermal efficiency cf 95% dramatically reduces A1�D 130,000 BTU MvGCIS - '• operating cbsts:. - ARE CERTIFIED TO'.VE1;? •5 equivalenl,feelof:.venl gth. A WITH s".5CHEOULE 40 PVC, _ • :Co%%LNO,em_issioris. Meets S��AQMD Rule 1140:2. CPK OR ABS PIPE — .. H;_h impactplasti.o ckel eliminates dents.- ,2•''oi.non-CFC, polyurethane foam insulalion. - _ gess lnan-i/2 degree perJhour`heal loss (R17). - _.Ccrro;ion resislanl, high efficiency 90/10 Cstoronickel heat exchanger. - •- Self drnostic electronic cQrilrol with -digital readout Iemgerature, set.point and differential.. " UL' N - •;=^ o�a~ie front cover allows easy access to service. clearance recommended). • T_�:p_rature7ange frorn 70°Fto 160°F (maximum r seMpl rer=lure setting of 180°F -available on HE4.S.-160 ^d,HE.�S 199 boosle7'm.odels only). • r_ clearance -lo -all combustible surfaces.-- - ins! all.edAGNASME rated T& P. relief valve. = _ - E es -'in -s*' 112tion kil-provided with -HE45-160. and - r, ,�•199:booster.models -.. - ��.. _ - _ � y -CERTIFICATIONS AND RATI.NGSi - - - -• r:e v:aler heaters are. UIJULC listed ar-rd exceed the T• - nMu.m ienc renuiremenls'of ASHRAE/IES y 9 It -200V Ail water heaters are supplied with an7. m "= �11E rated lempera lure and pressure relies .°a Trlc cont.oI panel is.an'integraled-solid.s(a!e _ ^c"c!Jre and ignition control device with integral _^; s:,cs, LED fault display capability and a digiial ='- 1 a- ::sria; of Pem .erature senin s. All models are North �:ra Code compliant. CERTIFIED FORA 150 PS1 ,G PRESSURE. E^..•.:-�:tini sir nKitr .�.— RECOVERY CAPACITIES ` h10DEl GALLONS LITERS INPUT) NAY: 8 LP TEhIR RISE UNITS S. ' hIIN. 10 htl,`I. -75 A11N: Recovery in U.S. Gallons/Hr. (GPH) and Liters/Hr.-(LPH) 1 H�, at Various.Temperature 3 HR. .Rises 0" CLEARANCE TO 4� 170 MODEL INPUT(STUIHR) .THERI,IAL 41 .. 40"F 50°F 60'F 70-F. 80'F 90'F 100'F 110'F I20'F 130-F I 1a)'F UMBER NAT, b LP .EFFICIENCY UIJITS :. (4.4'C) (10.0'C)',I (15.5'C) I (21.1'C) I (25.6'C)- I (32.2'C) . (37.TCJ (43.3'CJ'I (43.8°C) (54.4'C) , (50.0'C) 18 37.7.0 -LTR -166 I 214 "251. 03 '' 544 6E6 1253 1819H=30•,13C 100,OCC gj?; GPH 288 -.230 I 192 icy 1a4 1 1.28. 115 105 96 I N1A : N.:=. H E45 -10Q 32 37:7°C 'LTR:._253 3C6 3�: 95 637- Ti9 13�:.1912 LPN 1090 . '872 726 623 543-.436 Ss. .436 395 363 PLA I f.:4 HEBO130 383 532 GPH '374 '199 239 214 187 166 150 136 125 N/A 1',- HE119.130 H .130,000 g5go LPH 1417 1133 _ 944 .609 ' �' 708 .. 630 567 515 472 PLA Pc:a H�90.160 160,000 g;>; I 'GPH.' 461 368 307 263 230 205 184 167 154 NIA N.:•. . HE 1.19.160 :.113 I .:129- LPH 7744 1395. 1162 956 872 J75 697._' _ 834 58) VA KA HE84199 499.000 - 7C . GPH . .573 458 .382.. . 327 286 255 229, 268 I 191 PUA N.•'.,' 95'.'o LPN. •" 2169 1735^ 1446 - '.1239 1084 9rr! 867 - 789 723 P✓i PL'.. .HEE119.199 119 45J 199,000 1C0'F ' GAL. 102 121 - t, f t 51 - _198 255 312- ' 5.12 771 S i . 37.7:L- LTR. ' . 333• l 4E0 � .5?.2 EC3- 7:9' SEE 1133 205v" 2914 (75a GPH 461 368 `I '307. 1 ' 253 230 _ 205 184. H67 I.. tat 132 HEiS 16C f60,000 gj;; LPH '171J 1395 1162 _596 8%2 .775: -697 63: 581.= 536 4;s -X5'.6 GPFr 573 X581._` 382 327,' 296 " 255 229 2C8`': 191 176 tE:: LPH 2169 . 1735 1 446 1239 f08 7 964 ' 667.'-1-.-189 723.7- 667- ' 67^ ' H�aS•193 199,000 Recovery,rat:ng is based on,thermal et6cier,66.o6tained in an UL ceniried Iabogtor.7:.. MAXIMUM. DELIVERY- . _':.-:In US. Gaf{ons and Liters -(Includes Liseabl.e'storage and recovery for n''dicafe'd-t-iiiies) h10DEl GALLONS LITERS INPUT) NAY: 8 LP TEhIR RISE UNITS S. ' hIIN. 10 htl,`I. -75 A11N: of mcg2.5 ?a:e ? rrzririr.. setae nl 01 16C'F wdrNe ext2plicn of J e HE -%2- 160 a d'r"caS Ic9 X-C n cda:5:7ne.Hca�•1c0 and HE4.•.t5: ha,e a rax.r�r s2.,uu 0 ' 1N. : 45 h11P1.' 1 H�, 2 . HR.' 3 HR. MIN. TO RECO'/=;NUMBER CONTcNTSHEa51C0' 0" CLEARANCE TO 4� 170 1CO,000 100°F GAL. 41 .. :•51 '60 DIMENSIONAL 9 Ai8 .• 147 262 377 23 37.7`C LTR. 756 192 -223 37 4�6. . 555 991 ` 1327HEa5 130 45 170 130,000. 100'F GAL44 _ I _ .56 . 69 __ ��> 42'5 06. 144. ' 181 331 451:. 18 37.7.0 -LTR -166 I 214 "251. 03 '' 544 6E6 1253 1819H=30•,13C ' I. _ INLET OUTLET 80 30313C,CCA " GAL. 68 ' of -93 3L_. 168 2 6 355 5J5 32 37:7°C 'LTR:._253 3C6 3�: 95 637- Ti9 13�:.1912 H -n9.130 ` tt3 450 1?C.000 100'F GAL. Ss. 102 _121 MODELS Y&H 58.' 196 233 383 532 43. �- 37.7°C LTR..- 363 410 -I' 457, 99 750 682 ta4S .2015 HEaS•160 45 1i0 is6C,000 00'F GAL. 47• . 62'- .78 93 124 ,170 216 4� 52. 15 37.7•C LTR. 177 _ . 235 294 - 3c.2 468 _ . 6.12 817 t 51 1 2211, Y.E3C•tE0 EC 303 160 CC 100'F GAL.. 71 87 i 0 . itt 1:2 194 2a0 ata EC9 25 _ 37.1'C LTA. 270 '� '323. 3cE . 4:4 _561 735 { 909 lcv% 23Ca_� "r':IIi-IEC 113 43c' - 160.000 lOG°F GA.L. 99 :.113 I .:129- 1a5 tis' I''•221 - ' 253 4SZ_ '630 39 37,7"C LTR. 373 I 432 430 ' +8 . EE4 838 1013. 1710 2=C6 c •I 1?G 159.000.'- • 100'F GAL.-, .: St. 7C . 89 te8' -115 203 251 490 719 I 12 37.7°C LTR, 192 .l _ 2;,' X30 4C8 553. --770' 9 ' 135= 2721` ti'c30.199 80 I 303 j 199,000 137.7'C 100°F SAL. LTR.. 75 ' '284_ I 94 '357. 113'- 429 132 E#t )71 ' _646 - 228 863 295 1079. 5ta 19:7 7:3 ' l 2S a 21 H...1_9.135.. 119 45J 199,000 1C0'F ' GAL. 102 121 - t, f t 51 - _198 255 312- ' 5.12 771 S i . 37.7:L- LTR. ' . 333• l 4E0 � .5?.2 EC3- 7:9' SEE 1133 205v" 2914 of mcg2.5 ?a:e ? rrzririr.. setae nl 01 16C'F wdrNe ext2plicn of J e HE -%2- 160 a d'r"caS Ic9 X-C n cda:5:7ne.Hca�•1c0 and HE4.•.t5: ha,e a rax.r�r s2.,uu cl t r...- ,. _ - 0" CLEARANCE TO :INFORMATION -. - CO.'ABUSTIBLES 0:; DIMENSIONAL :_ ,:. ALLSADVANTAGE. dimensions shown iri English andwletric ::: -- •.' N' , PLUS ll a, All MODE! _ I _ , H __ ��> - , WATER CONNECTIONS A. ?ROX SNIPPING <'7T. HOV/ EVE.R;.A 2,' CONTROL PAN °! MJN3'cA NITS I A I B : C D . E F. -G . ' I. _ INLET OUTLET SERVICE " o 1231.2 35 S 251ia 127 i c -I 571 I 2 HEaS•tCC c."...es 'I 42 32 .' "8!3 Z69 127 I 64! `r' 25- 73:cs F,=cOmimEXDED, _ HEaS-t mn. I IC67 I 53'7 1231.2 32 3; 5 23 L3 12-9116 57:8 3.' _. I . 1 t' 175 its- MODELS Y&H r_aj•16C H=a= ISc inches Je 1067 537 813 669 I 127 6=1 I 760 149 75 .I 25 25 79:<;s INPUTS Or 100,000 6TU AN mrr.': -65 5 25114, 251 . 17 ;.a 3' 1-12 1.1;2 2351ts. 130,00v STU A.5'_ HEic.i HESC•16C ^•25.- I 72 23 1:2 32 I 1B? 7S. 3r 38. I ILE.2ys CERTIFIEDTOVENT H_3GISc m� 1654 5=7 8!3 1651 .I 127: F1 I 514 WITH 2" SCHECULE Hcll?•130 2. 30 66 ?/4 6 3'a' 29 7rE 22 19 1r2 3' t-12 �12aC_ its. 40 PVC, CPUC On HE 1 H• tEC 1 r`„es 73 666 1695 171 733 SSB I c.t .. 7: 3810-.t,"s ABS PIPE _ HE11i•199 n� I. 13. -914 - - 13C.GCC 9TU mcdels are ceOied 10 be installed with 2' venting. t2': �'- See use ard care mama; Ic+ vertirg details. _ '�"� ..Product. F rerformance13 Data 38TXA:(6® Hz).:_. Ai®nditi®t..iar :.-with era"dot: _Sizes 024 thru 060 Copyrigh(4004 Corrier Corporation A Carrier's Performance'TMr 13 Air Conditioners with Puron(.refrieerant provide a collection of features'urmatched % ...by any.other`family of e,quipment.;The • •:38TXA has been designed utilizing.. carrier's Puron-refri vera. nt..'ne environmentalLy'sound refrigerant allows:'. you:tomake a responsible decision -in f}ie _ protection. oflhd-earih's ozone layer;::`::- Camer's Perfoi'manceTM :13.systern: witfi Puron refrigerant -meets the Energy Start�i - - guidelines "for energy efficiegcy:: - `FEATURES Purori Environmentally Sound' Refriaerant IsiZIuner'sexclusive .:refrigerant designed to help protect the. environmenf -Puron is an HFC refrigerant -....which does not coti.tain chlorine That can harm the-oione layer. The most important advantage -of Puron. refrigerant is dia'Ot :has not been banned.in future air- 'eonditiorung systems as the-tradiuonal refngerant.R-22 has been. Puron : - :refrigerant is in "service in thousands of systems providing highly reliable,"_ =' environmentally sound performance. 'Ca rrier's:InJ!nity� Controls — These industry-leading controls, when installed. with Carrier's Ideal Hu midifY7M.variable- speed furnaces or fan coils, provide the - =•homeowner with: - =Unparalleled control of ieiii ranjre, humidity, indoor.air•qualiry, and zoning - -unprecede.fited ease of use- - - - `-simp1q.operation throucih on-screen, texi-. '•based service rerrtinders Optional remoteaccesi through telephone , orintemet is also available wvhen_combined- with a rehiofe connectivity,kit.: o �'eath_err�r niorT`!o:ectr, ;. Package-=- Jsthree-part protecti.o'n system begins with the galvanized steel - ' cabinetrOnce coated with -a layer of zinc phosphate; a modified polyesfer.powder'• coating is then applied and baked on; _ providing each unit with a hard, smc_oth . finish that v<:ill last for many. years. Additionally, the coil protzctor, made of a coated steel wire grid with -vertical 3/8 in. . --spacing, is designed to help protect the coil from inclement weather, vandalism and inciderital damage: It provides protection while not restricting airflow. _ -and maintaining ease of coil cleaning:: Form 38TXA- I5PD C®.rnbinati®n ratings_ continued SEER .. :... FACTORY- .' t -• -__:Card .er ':Carrier'_ > . - SUPPLIED .:: Gas Furnace or Gas Furnace UNIT INDOOR . TOT. CAP.: ENHANCE-: Standard Accessory.'•orAccesso Accessory SIZE -SERIES UNIT - BTUH . hIE,VT - Rating TDRt. :TDR+,TXV$ 'RuronT. V 'CO5PX060 . ...: ' . :59,000 .TXV .. - 13.00 - - 11.05 ' CC5A/CO5AA060 5"0,000 'NONE. = - 1'2.50 - 70:"05 . CCWCD5AW060 58,000..: NONE.: - - 12.50 :.10.90 CEMA060 58,000 NONE - - 13.00 - 111.00 :'_ .. CK36A060. .:58,000 NONE .:....,:•. = • .. .. - ..... '12.50 - , 10.95 ... _.. CK5A/CK5BA060 •58,000 NONE - - - 12.50 :' = 10.95. CK5A/CK5BT060 58,000 NONE - - 12:50 - 10.95 CK5A/CK5BX060 59,000. NONE - - 13.00 - 11.10 CK5PA060 .58,000 TXV - 12.50 - - 10.95 CK5PT060 58,000 TXV - 12.50 - - 10.95 CK5PX060 59,000 'TXV ' - 13.00 - - 11.10 ' F(A,8)4BN(F,B,C)060 : . "58,000 .. '.TDR - - - 12.50 10.70 FB4BNNB070 59,000 TDR.... - - - 13.00 11.05 FE4AN8006 59,000 TDR&TXV 13.50 - - - . 11.75 FC4CN(F,8)060 58,000 TDR&TXV 12.50 - - - 10.70 FC4CNB070 59,000 TDR&TXV 13.00 - - - 11.05 FG3AAA060 57,000 NONE - - 12.50 - 10.80 FK4DNB006 59,000 TDR&TXV 13.50 - - - 11.75 FV4BNB006 59,000 TDR&TXV 13.50 - - - 11.75 FX45NBO60 . 59,000 TDR&TXV 13.00 - - - 11.05 CC5A/C05AA060 56,000 TDR - - - 12.50 10.75 CD5PX060 58,000 TDR&TXV 13.00 - - - 11.70 -CE3AA060 58,000 TDR - - - 13.00 11.10 . CK3BA060 57,500 TDR - - - 13.00 11.10 CK5A/CK5BA060 57,500 TDR - - - 13.00 11.10 ' CK5A/CK5BT060 57,500 TDR - - - 13.00 11.10 CK5A/CK5BX060 58,500 TDR - - - 13.00 11.25 CK5PA060 57,500 TDR&TXV 13.00 - - - 11:10 CKSPT060 57,500 TDR&TXV 13.00 - - - 11.10 CK5PX060. 58,500 TDR&TXV 13.00. f 11.25 CCSA/CD5AA060 56,000 TDR - - - 12.50 10.90 CD5PX060 58,000 TDR&TXV 13.00. - - - 11.30 CE3AA060 58,000 TDR - - - 13.00 11.30 ' CK38AO60 57,500 TDR - - - 13.00 11.25 -CK5A/CK5BA060 57,500 TDR - - - 13.00 11.25 060-35 ..CK5A/CK5BT060 57,500 TOR - - - 13.00 11.25 CK5A/CK5BX060 58,500 TOR - - - 13.00 11.40 CK5PA060 57,500 TDR&TXV 13.00 - - -- 11.25 CK5PT060 57,500 TDR&TXV 13.00 - - - 11.25 CK5PX060 58,500 TDR&TXV .13.00 - - - 11.40 � .. .�" ..�..RCDT�S�.�SSC (ABX)w55'2�..tV•9RiE�.��E��E�O��9CE ' CC5A7CD5AA060 56,000 TDR - - - 13.00 11.00 CD5PX060 58,000 TDR&TXV 13.00 - - - 11.40 CE3AA060 58,000 TDR - - - 13.00 11.40 CK3BA060 57,500 TDR - - - 13.00 11.35 CK5A/CK5BA060 57,500 - TOR - - - 13.00 11.35 CK5A/CK55T060 57,500 TDR - - - 13.00 11.35 _ CK5A/CK5BX060 58,500 TDR - - - 13.00 11.50 CK5PA060 . 57,500. TDR&TXV 13.00 - •11.35 CK5PT060 '57,500 ' TDR&TXV 13.00 - - 1.1:35 --CK5PX060 58,500 .' TDF.&TXV 13.00 - - 11.50 - x. �' ' Ca(L�B., ,�,Q80;�•;V�R11,�B1 ;PEEQ;F�JR•�IACE � CK38A060 57,500 TDR - - - 12.50 10.70 CK5A/CK5BA060 57,500 TDR - - - 12.50 10.70 CK5A/CK5BT060 57,500 TDR.- - = 12.50 10.70 CK5PA060 57;500 TDR&TXV 12.50 - - - 10.70 CK5PT060 57,500 TDR&TXV 12.50 - 10.70 mMG.GS -1K,PER"JfNfC WWWWWWWWARN CK36AO60 57,500' TDR - - -- 12.50 _ J 10.80 CK5A/CK58AO60 57,500 TDR, - - - 12.50 10.65 CK5A/CK5BT060 57,500 TDR - - - 12.50 10.85 CtS5PA060 ._ .: ..:' . <. . 57, 0- : a '.:TDEi3Ta(Y <: : � 12:50:. :' .: _ - - 10t85' ..... CK5PT060 57,500 TDR&TXV 12.50 - - - 10.85 -CC5A/CD5AA060 56,000 TDR - - - 12.50 10.55 CK3BAC60 57,500 TDR - - . - 12.50 10.90 CK5A/CKSBA060 57,500 TDR - - - 12.50 10.95 CK5A/CK5BT060 57,500 TDR - - - 12.50 10.95 CK5A/CK58X060 58,500 TDR - - - 13.00 11.05 CK5PA060 57,500 TDR&TXV 12.50 - - - 10.95 CK5PT060 57,500 TDR&TXV 12.50 - - - 10.95 _ CK5PX060 58,500 TDR&TXV 13.00 - - - 11.05 See notes on pg. 22. 21 �V v (product 58STA/STX.. Data 4-Way.Mu.itipoise - Induced. -Combustion - Cas Furnace _ Input Capacities: - - 45,000 thru 155,000 Btuh THE CARRIER 58STA/STX _ GAS FURNACE - - — The 58STA/STX 4 --way Multipoise Gas _.Furnaces feature. Carried's 4.1 QuieTechTM noise .reduction- syste-n. for incredibly.. quiet induced dram operation..Applications are -easy wi h- ..4 -way multipQise design, throug6�- ..: the -furnace yentin ; 13 dif- g .ferent-venting options, and a dolor designed for -easy, service. access._ An inner blower door is provided• for- _ '.�• sealing in sensitive aPP!ic� tighter` . -.. e . .® dons. The58STA/STX furnaces are _-.. roved for'use.with natural or: ro :app - P - _ t . . - pane gas: _ _ STANDARD FEATURES _ — uieT ch noise reductio ysten- scontrol !; Microprocessor basedn i center_ .: • Adjustable heatirig air temperatuFz-- rise Adjustable cooling airflow - LED diagnostics and. self test �I_. feature. . - . _ - 4-wa ipo ace; 1,3 ent i e Euro Mull s applications - Only 33.1/3" tall...... Inner blower.: door Hot surface ignition (HSI) ,. Draft sagfe pard switch. to ensure furnace r entrng . ii Heat pump compatible Residential installations eligib e . i for consumer financing. through the Retail Credit Program LIMITED WARRANTY — .20 -year warranty. on "Super ST` " Aos.m __ heat exchanger 1--year—parts warranty on all oihcr components. - — • �', '� _ - Form58ST•tF;O Copyright 2002 Carrier Corporation ainpul,ratings are ce i ie o bleva -2000 For elevations S r1�1i'di'r' tions'-It6 It.. elevitibns al: s6i I "b"''d Fuel GascodeTable F4 or furnace Inst'allation-In ctions. n ana v . .. . .. .: '' iikhU.S.Government DibE*Ieit procedures t Capacity in accordaAce 's 'Ibf F' AikloW hb'v�d is bofl�r�' I- - supply or-air0eliveryabove only return.-.a�r s.up ;return -air supply.-, '7 ICS = Isolated CombustionSystem % ov,er pe f®r a n.qe.,.., data".-,. 7111,%. 1t�\.-:.-! Mm- Swum "DIRECT -DRIVE MOTOR Hp. (PSC) 1./5':,. 1/3", 1/5 /3 .19 iysicai J/2 314 1/2 3/4 3/4 MOTOR FULL LOAD AMPS.' . -2.9 5.2 -.' -:2.9 S WN pff 7.9 '60 . . . . . . . . . . . . . . 11.1. RPM (Nominal) 7 Speedi- 1075.3 1075.3 1075-3 . .... .... 58STX Upflow; all 35.000 36,000 53,000 54,000 71,000 71,000 89,000 89,000 89,000 107,000 107,000 125.000 ..OUTPUT CAPACITY BTUH. -58STA- 10 x 6 I0X8 10 40 1.0 x 8 (Nonwtiathariziad IC 58STX Downflow/ 34,000 34,000 51,000 51,000 68,000, 68,000 85.000 85 00 85 'i02,000 7 102,000119,000 . ...... L '58STX Upflow; @11 6 44,000 4.000 66,000 66,000 88,000 88,0 0. 110,0001'10,000110,000132,000132,000154,000 0 .58STA 1 INPUT,BTUH' 126,000 147,000 '58STX Dow.nflo:w/. 42.000. 42,000 63,000 63.00 . 0 05,660 165000 105' 00 126,000 84.000 84,000 105 000..0 ,Horizontal 7 SHIPPING WEIGHT (Lb) -.104 1.07.- 111 �,:I -1 5:x �"j 4 '152 149 127�-- 0 163..170 CERTIFIEb'TEMP'RISE RANGE (6F) [63 C 30-60 20-50 40770 30-�60• 40-70, 30-�60 0 30--60. 50780 40-70 1 45�75 .CERTIFI,E6.*E'X%f STATIC .%`Heating " 0 .0.10' -0.10- -0.12- .12 i zip.j ',�.0.20 -0.20 .0:20 0.20 .0.2 ..0 E PR SSURE..., .;Cooling` - - -�'O.5,:: -�9.5 i*,'O. 5 .,q �rl-,q,5,�.-'i-_ :0.5 "'0.5' 0.5 AIRFLOW CFMt -Heating 1250 30 ` 195 �920 8. .1'. ..j ,�1900 ,t��5 %1850 .11790 w: -845-. 1160 '900 -�,12 O.'f 365 A, 47991 ��y68q .22?q..A,,l7l0 ;.;Cooling-.%� .1 Nonweatherized AF EY1 80.0 80.0: 80.0 0.0.0: �.80.0 _800 Ao.o, 800 804- .80.0 :80.0 _jCS • -.LIMIT CONTROLSPST HEATING BLOWER -..CONTROL:. Ttme Operation ., 7 2 . A I I A 5 :--iV24n. VALVE (N&�hdah Man'uf aqtYfer., c.Ast White Rodgers r ° fry :Min.i.mum ( asNatural G : re' ' inlet P a i6re(In.'�i6) 13 -.6 (Natu a Gas) :::"Maximum ace u. IGNITION DEVICE :Hot: ainpul,ratings are ce i ie o bleva -2000 For elevations S r1�1i'di'r' tions'-It6 It.. elevitibns al: s6i I "b"''d Fuel GascodeTable F4 or furnace Inst'allation-In ctions. n ana v . .. . .. .: '' iikhU.S.Government DibE*Ieit procedures t Capacity in accordaAce 's 'Ibf F' AikloW hb'v�d is bofl�r�' I- - supply or-air0eliveryabove only return.-.a�r s.up ;return -air supply.-, '7 ICS = Isolated CombustionSystem % ov,er pe f®r a n.qe.,.., data".-,. 7111,%. 1t�\.-:.-! Mm- Swum "DIRECT -DRIVE MOTOR Hp. (PSC) 1./5':,. 1/3", 1/5 /3 .19 .' .1/2 1/3 J/2 314 1/2 3/4 3/4 MOTOR FULL LOAD AMPS.' . -2.9 5.2 -.' -:2.9 54:-jY5.2 7.9 1.1 .7.9 11.1. 11.1. RPM (Nominal) 7 Speedi- 1075.3 1075.3 1075-3 1075.3 1075.3 1075-3 1075.3- 1075.3 1075.3 1075-3 1075-3 .1075-3 BLOWER WHEEL DIAMETER x WIDTHSqln.) 10x6- 10,x6_ 10x6 10 x 6 I0X8 10 40 1.0 x 8 11.0 x ap .11 x 11 10 X. 10 11 x 11 11 x 11 -Split PSC -Permanent Cap . ...... L z • �_ .4 . ,'`, ` 7 ate fF. — r. . CTURAL Z os for .... - .; 1 CUSTOM HOME FOR: 51400 T'AMAZUL®_ s `..., if .+�.m-mow®�• w. _ _ . .. - .� �+ -`ENGINEER �.T r &W CONSULTING ENGINEERS i lo CITY Or- LA QUINTA AFETY...DEFT. o l . otc FIDY CON ;UCTI 2006 By ppb CHs J-0-"0. t DESIGN DATA �.� 1. CODE:. U13(.' 1997. / 1 99Ei ('AHC / 1 999 i,nr►c. � f 2. MATERIAL S"FRENUH r CONCRE'T'E': f c'= 2.500 I'M (<r) 2x I )A Yti CUNCRETI:, 101:13Alt: ASINI A(,I5 (;RAI)l:.,M I.).... •10.000ISI S'T'EEL: STRUC TI•)RAI, SI IAITS: ASTM M A36 I'y= 36 KSI ' TUBING' STM A500 c [ItAI )I? It I:y = 46 K;SI AS I nt A53 I YI'I:. I:. GRAD), ii 1:�.:.= 15 KSI WOOD: DOUGLAS 1:1R-I.AR('I I ( 19% MAX. M:(;; ) IUIS'I' & RAFTER 112 c�RADI: I:i,= x75 I'SI 1 -. 95 TSI i 0.6x1,000,000 I3I:AM & Il?Ai)L:I( (,1x ltAl)I, Ft,- I'mm 1'SI 1 95 PSI 1.- ',7x1,000,000 (6x )/11 ciltAl)I: I ►,= I;c►c►c► PS1 F,- 95 PSI I = 1,7x1,000,006 I10S'1' (11x )//I GRAD) 1'(,= 1,0001)1)1 1000PS1 I:= 1,6x1,000,000 (6x )1/1 GRADF I:n= U)-00 PSl I v= 1000PS1 I = 1,7x1,000,000 STUI) 112 ([IZADI: h,= 675 PSI I v= 95 1?SI 1:= 1,4x1,000,000 S1;I,I:CT' S'1'1ttJ(-:'f1IItAi. (6x. LAIR:R) 1.1,- i,,ISU I'tiI 1 ,_ 95 PSI 1:- 1,2K1,)00,000 MASONRY:-CONCRETE iil.Oc'K ASTM ('90 I I5(►1) I'S( NO INSPECTION iWQUIRl:U 3. SOIL REPORT: �S�LINIED lei=A.�i►.�G� 4. LOADING: A. SEISMIC LOAD v = 3 . U _ca w / tt V= :233W v = .381 x W/1.4 = 27"2 W(Ca =.49, Na= 1.3, R=4.5) .233W(ALL PLYWOOD SHEAR WALLS) B. WIND LOAD (PROJECTED AI(I:A Ml:-f11u1)) R=5,.5 P=cc Cyysl Cc= 1.2 (0'-30' F.T. 1.3:-0;1 I, I:.XI'OSUR1, ,(.') qs = 13 PSP I. VER'T'ICAL PRO,!L fi;l)_ARI:A (Gy = 1.3) P = 1.2 x 1.3 x 13 x 1.0 = 20.28 PSF II. HORIZONTAL, PROTECTED AREA (Cy = 0.7 LJI'WAR`I)) P= 1:2x0.7.x 13 x 1.0 = 10.92 PS �_ 7 2.OE PARALLAM° PSL ALLOWABLE DESIGN STRESSES . (100% LOAD DURATION) • ~ Shear modulus of elasticity G - 125,000 psi Modulus of elasticity E - 2.0 x 106 psi Flexural stress Fy - 2,900 psis) q Compression perpendicular to grain i 3,805 11 4,020) 4,735 parallel to wide face of strands F, = 750 psi(2) Compression parallel to grain F,ti = 2,900 psi Horizontal shear perpendicular I 7.1 MOMENT OF INERTIA (in 4) to wide face of strands F„ - 290 psi (1) For i -2-inch-inc4 depth. For others, multiply by l -d J (2) F. shall not be increased for duration of load. ALLOWABLE DESIGN PROPERTIES (1001-0 LOAD DURATION) 13/4" 2.0E PARALLAM' PSL DESIGN PROPERTY DEPTH 91/a' 1 re 1.11/a" 11x/8" 1 14" MOMENT (ft lbs.) 6,210 1 6,530 1 8,985 1 9,950 113,580 SHEAR (Ibs.) 3,130 13,215 i 3,805 11 4,020) 4,735 MOMENT OF INERTIA (in!) 115 i 125 i 210 1 245 400 WEIGHT (lbs./lin, ft)' I 5.1 5:2 I 6.2 I 6.5 I 7.1 4.31/211 2.0E PARALLAM° PSL DESIGN PROPERTY DEPTH 91/4" 191/." I1114" 11'/8" T4-7-- 6" 18` MOMENT (ft lbs.).. 1'2.415113,055] 17,970119,900!27.160134,955143.665 MOMENT (ft lbs.) 24,830126,115135.940139,805154,325169,905187,325 SHEAR (lbs.) 6,260 16,430 1 7,615 8,035 1 9,475 110,825 i 12,180 MOMENT OF INERTIA (in.°) 230 i 250 i 415 i 490 I 800 1 1,195 1 1,700 WEIGHT (Ibs,/lin. ft.) 10.1 ( 10.4 ( 12.3 -3.0 1 15.3 I 17.5 119:7 ! 7" 2.OE PARALLAM° PSL i DESIGN PROPERTY DEPTH. A, 9% 91/4"' 111/4 1117/8" 14- I .1'6". "T&: MOMENT (ft lbs.) 24,830126,115135.940139,805154,325169,905187,325 I I ! 14,935 1 5,845 1 6,170 1 7,275 8,315 1 9,350 1 MOMENT OF INERTIA (in?) , SHEAR.(Ibs.) 12,520112.85515.22516:070118,945121,655124,360 ; 8.0 9.5 10.0 i 11.5 i i 3.4 15.1 I MOMENT OF INERTIA (in 4) 460 1 500 I .830 i 975 1 1.600 2,390 3.400 WE]GHT(Ibs./rsn. ft) 1 20.2 20.8 1 24.6 1 26.0 1 30.6 35.0 39.4 S3 211/16" 2.OE PARALLAM PSL DESIGN PROPERTY DEPTH DEPTH ' 9�/a•" 9sfz" 11Ya" 11/8" 14" 1 16" 1'8, MOMENT (ftlbs.) 9.535 10.025113,800115 280120,855126.840i33,530j s 1 SHEAR (lbs.) 4,805 14,935 1 5,845 1 6,170 1 7,275 8,315 1 9,350 1 MOMENT OF INERTIA (in?) i75 i 190 320 375 1 615 915 1,305 + WEIGHT (lbs./lin. ft) 7.8• I 8.0 9.5 10.0 i 11.5 i i 3.4 15.1 51/4" 2.0E PARALLAM' PSL 1 DESIGN PROPERTY DEPTH 91/4" 91/2' 1 11 1/4" 11%.1 14" 16T- MOMENT (ft. lbs.) 18,625119,;85126.955129.855!40,740152.430165,495 I 'SHEAR (lbs.) 9,390 19,645 111,420112.055114,210116,240118,270- MOMENT OF INERTIA (in!) 345 1 375 625 735 1 1,200 1 1,790 1 2,550 WEIGHT(Ibs./lin..ft.) ' 15.2 15.6 1 18.5 119.5 1 23.0 1 26.3 GENERAL ASSUMPTIONS FOR NON -TREATED PARALLAM PSL • Values in this brochure for non -treated Parallam� PSL are applicable for use in dry service conditions only. • Lateral support is required at all bearing points and along compression edge at intervals of 24" on -center or closer. • ParallamO PSL beams are made without camber; therefore, in addition to complying with the deflection limits of the applicable building code, other considerations, such as long term deflection under sustained loads (including creep), ponding (positive drainage is essential) and aesthetics, must be evaluated. • Roof members shall either be sloped for drainage or designed to account for load and deflection as specified in the applicable building code. • Reductions applied in accordance with: 1994 UBC 1606, 1996 NBC 16-05 and 1994 SBC 1604 for flcor live load; 1994 UBC 1606, 1996 NBC 1607 and 1994 SBC 1604 for roof live load in non -snow (125;0) conditions. • 31/2" members may be two pieces of 13/4" or a single 31A" width beams. 51/4" members may be three pieces 11W, one piece 13/4" .with one piece 31/2', or a single 51/4" width beam. 7" members may be two pieces IY4" around one piece V/z", two pieces 31/2, or a single 7" width beam. See pages 16 and 17 for muitiple member beam connections. T & W WNSULTDNG ENGLNEERS . . >: ,H JOB NO. BY-,_ 1168 SAN CABRI EL- " LVD4N DATE SHEET NO. ROSEMEAD, CA 91770 CHECKED DESIGN LOADING .� ROOF (SLOPED ROOF) PITCH> 4:12 ROOFING (TILE) ---------------- •10.0 PSF. PLYWD - 2.3 RAFTERS -------------------- -2.7 INSULATION --------=----------- CEILING------------------------ 1*0 - L.L._ X9,0 16.0 PSF ..TOTAL= 35.0 PSF R_ (FLAT AREAS) ROOFING ------------------------ 6.0 pSF " PLYWD---------------------- 1.5 RAFTERS ----------------------- 2.5 INSULATION -------------------- 1.0 -CEILING-----------------------2.2 MISC-------------------------- 0.8 D. L, 14.0 PSF L.L.= 20.0 TOTAL=34.OPSF jjQOR P .SHTG.(5/8"T&G)------- ---- 2..0 PSF :. �FI;OOR STS• ------------------ .3 3.3- I INSULATIO------------------ 1.0 CEILING ------- -------------- 2 MISC ---------- .5 BEAM-------------- ..A ------------------ -- -- 1e0 D.L.= .0 PSF t�0. TOTAL='52.OPSF L. ALCONY=60.•OPSF L.L @ CORRIDOR=100.001 t{ MT x Mirt PSL �— .71 — – 14u PLn �;'� .•- '^ \ .. � I 1 .. a `- ./ '. ." e ° e .. _ � NAIL 1 •JO 1 =I e - e 141 1rr• vl 1 e.lra {+ \..tom'" 1 .. I' -I • (PANE IBOUN 1 I ♦ ^� 1 I+a Io I~ EDGE I h 9 -1 .(. • 1� INTER - Aa 1 ua. � I • �Leu.o,ro.c A •, i 1 j1 4.1r 1 1 y..� • 1 i.lOP0. N'aL • / 1 _ , � '1,100.0.s KOL � II t ' 1 .q � ^ ww J ,4R / 148 4♦ - •. .� • �• ... •♦ -1 ( - ..' a � / ,� •• LICA S' Y . 141 ti '� =.e voc •J/y/�� I . ' • , -I r / rr / i' y • 4`� / fYl/1 • I.ITY S . � • ' •I.IfY • . �• .1 �e 1— 141 —.—.� • . \i t e • LIW. \ `� ,eaA , c aw— /�1 -- 11 148 4 I GENE - L� rY r+r 1 1 _ GENERA :.lona ,roc :4 wan Trac + +�w `, M _ •'1. PLL LU _ `� ♦ ` THEA) SIL Q c P. d 2d 1. •. I m - " Oar 1 . ` Y , D) FU DF E) S4, r • + '' r`�� J age.. ♦ SHEAR WALL SCHEDULE ' } e TYPE STIP- LAYER SIDES NARRJ6 r .f srRUcr1 ,. .. - 1 O lsnrvtvw0 1 • + 1r�N +yt 14u .� 1 I? 411.114*PSL f�7 ® f .• SWPSON 9TRONC WALL SW184741; SEE SHT B „^ ' r • - 1 � � e 'USE APPROVED PLATE WASHER AT ALL 5/8' 0 Al _" 1 ROOF FRAMING PLAN T.& W CONSULTING. ENGINEERS, INC. 1"' 68. N. SAN GABRIEL BLVD. �N ROSEMEAD, CA 91770 . i EL;< (626) 285-0708 FAX: (620) 280— i o6 EMAIL: TWENGRS©SBCGLOBAL.NET Job: By:* D1lc. /20 Sheet 7T: s 2 r TA VIS CONSULTING ENGINEERS, INC. '1168 N. ,SAN GABRIEL ' BLVD. "N • ROStMEAD,, CA. 91770 TEL:. (626) .288-0708 FAX.: (626) 280-4166 MAIL: TWENGRS@SBCGLOBAL.NET Job: B y: Date: x/20 Sheet Ir M� T & W CONSULTING ENGINEERS, INC. 11.68 N. SAN GABRIEL BLVD. 7N . ROSEM EAD , CA..9-1-770 TES: (626) 288-0708 FA.X: (026) 280-4116-0 Ew1AIL TWENGRS@SBCGLOBAL.NET �00 'P -R -A -M t tJ Ca � S l ►� \j +t 4;) w -4 'z`f- 3 1-3to s- ' OIL- • r s • T & WCONSUL T ING ENGINEERS INC. 1168 N. SAN GABRIEL BLVD. uN ' ROSEMEAD, CA..91770 TEL: (626) 288-0708 FAX: (626) 280-4166 Ew1AIL: TWENGRS@SBCGLOBAL.NET vI b�51�cN MKA V_� q -z Job: B y: Date: / /20 Sheet �: SI o TI -7..... . ...... � 3 3 7 lam' ✓� v lL _ 2 � Lj 7" &, W CONSULTING ENGINEERS, INC, 1168 N. SAN GABRIEL rBLVD. rrN Job: •ROSEMEAD, 'CA. 91 770 By: (626) 288-0708 FAX: (626) •280-4166 Date:-', x/20 EMAIL:. T WENGRS@SBCGL0BAL.NET Sheet -u 51 L=� 23 PIN # 33 ll zkz:!�=-XZ 3� . *R — r1, 19Ooc `j tr _ -. ....� r Tri VI! CONSUL T INC ENGINEERS, INC; 1168 N. SAN GABRIEL BLVD. ;LN Job: • ROSEMEAD, CA. 911770 BY: '.-TEL: (626) 288-0708 ;FAX: (626) 280-4166 Dater . _/ /20 EMAIL_ TWENGRS@SBCGLOBAL.NET Sheet: S12 �4.0r TI_� �& 33 •1 -44rg-7 ..:-- O t » a r e Im w t w e r+ppp +e -- w L_ l I I S -1 0 tnr __�J 1 I I II tl t` � L•rr �� — J l I u ' ----------------- Lip, II;I ____; IIS__ _____________ A I 'lll IIII I; I ,a p " I 1 1 4•7KK MITI. CONC. SUB OVER 24NCH I ( FILL OF SAND AND A MOISTURE BARRIER tmr II I IIII II -- - iarrt \ n I 9 I ' . R I I MEMBRANE 16 -AM THIM SANDWICHED REINFORCED ET TWODYERS OF FILL AND REINFORCEDWIW BARS ®te' O.C. BOTH WAYS. REINFORCEMENT TO BE PLACED AT CENTER OF SUB. - II �I-Ir fr�l� i II -•',r 'ILI11�11 I B L----- = = =_ -- -- -_ IRII! �1 1� it II V DSL MIN. CONC. SAB OVER 24"I - ;II II_•tT 111 L V II;I 1 1 FILL OF SAND AND AMOISTURE BARRIER ,. WICIfED IF' _ II II II BETWEEN THE TWO LAYERS S OFFILL AND II;1 II JL � REINFORCED WI U BARS @IS'O.C. BOTHI " IJ tr 111 III I I ____ C_= WAYS. RFINFORCE/.@lT TO BE IL �y -n-T ___ C _ PLACED ATCENTER OFSLAB. I1�`711 Q —P . i liil 1 1 b © I 11 I '"' - I -------------- J J III I; I'r `r IIII Ili 11 rL____Jt_ 11 if ® II; T:tr Il;l II - -ifI 11 I;;I t.trr p I I ,.I B t.tra e 1 t 11 III --III IIII, r �' I n, �_ II\\ i 11 I J1 IIII 1 I x\ 1; I I II11 11L 11 n I I 11 11 t IIIw '' - I I1 ' L_-_-________ -- — --- -- 1 cP w , (NEW) d' THK. MN. CONIC. SAB OVER _ 2-0ICHFILL OFSAND AND REINFORCED WI At BARS O.C. BOTH WAYS. ' I S t t I SHEAR WALL SCI ®IS* tr REINFORCEMENT TO BE RACED AT tnr I t >+ R M CENTER OF SLAB. VYP. ® GARAGE EA) w v TYPE MATL DYER 9TRDCTI B 1 I I � y 1 1O tS�Ii PLYWD 1 1 I . I ! v YJ rr r ! ® SIMPSON STRONG WA • tr I •USEAPPROVED PLATE WAS (2-1/2+2-1/2•: VV PLATE W. w _ tr r B tri J FOUNDATIOP &.W CONSULTING ENGINEERS5 Md. 1168 N. SAN GABRIEL 'BLVD: -LIN .'RCS:E►�-1EAD,, CA. 9 i _770 TEL: (026) 288=0708 F -.X: ,(626) 280-4166 SMAIL , _TWENGRS@SBCGLOBAL.NET �� "i5 5i >E .... .. .. ... ... _. _ :... .. . ... .. ..... .. TA W CONSULTING ENGINEERS, INC; 1168 N." SAN GABRIEL BLVD. 7#1N Job: • ROSEMEAD, 'CA. 91770 By: TEL: (626) 288-0708 F�..X: (626)" 280-4166 Date: x/20 EMAIL: TWENGRS@SBCGLOBAL.NE I Sheet jr: SLS Li fJ IOATL'o "x2b wAu. z I t�5 125 F54 L o` - pilo. wlr>-rL-t _ _Gi42 �UXU_ F Teo. L -_i> LCL. kJ J� ,^��4 W for. r-T6;, T L l max 1 ' �x 1 �1�r_- 1.2w w Ce Fes. fi T & W Lonsultina Engineers Inc. Job: Bv: 1165 .San Gabriel'Blvd., #N Rosemead, CA 91770 >ate,: Sheet #: a Tel: (626) 288-0708 Fax: (626) 280-4166 LATERAL ANALYSIS -1) SEISMIC: _ ' GOVERNING CODE: UB C 2 0'0 2 , V= (3.0*Ca / R) *W=0.381 *W/1.4 =0.272* W (Ca=0.44Na, Na=1:3, R=4.5 ) V=0.272*W (4.5/5.5) =0.23; * W (ALL PLYWOOD SHEAR WALLS ONLY,) LATERAL LOADING: D.L.. PARTIN 'Y ROOF= V — 0.233* W=0.2-33* 2) WIND (PROJECTED AREA METHOD) P=CcCggsI Cc= 1.2 (0'-24' FT. HIGH, EXPOSURE "C") qs — 1, PSF I = 1.0 I. VERTICAL PROJECTED AREA (Cq P = 1.2 x 1.3 x•l3 x 1.'0 = 20'28.PSF II. HORIZONTAL PROJECTED AREA (Cq = 0.7 UPWARD) P= 1.2 x 0.7 x 13 x 1 .0 =10.92PSF �z CvvC N/-\ILIN(V 4 SILL.FL- / ��►-�-i 51DE5 NAILING - BLOGKING 51LL BOLY5 SILL NAIL5 ALLONJABLE SHEAR 5TRE55 (#/') MATERIAL 5TRUGT.1 : LAYER 1/2" PLYNIO. 5TR.1 `(5EE NOTE BELONG .I ' I 8d @ 4"_-= EDGESYES" @ I2"--INTERM. 5/8" 24" 30d @ 4" 320 . 1/2" PLYNID. 5TR.I (5EE NOTE BELONG ` i .. I ed E06E5 @ I2"--INTERM. YE5 5/8" �P �@-16" 300`@ 3" 410 I/2" PLYNID. 5TR.1 (5EE NOTE,BELOW) I 1 l��d @ 2"--- EDGE5 . 12".7--INTERM. YE5 5/8" 4P-@ 12" ='0 f 1/2° PLYNIO. 5TR.I (5EE NOTE BELON) I 1 _ 10d o 2"---. E06Es 12"--INTERM. YE5 5/8" Q) @0 . CONSULTING ENGINEERS,' 'INC. 11n8 . N. SAN GABRIE.L .BLVD. �N ROSEM-EAD, CA. 91770 TEL: . (626) 288-0708 FAX: (626) 280-.166 Ei\�AIL: ,TWENGRS@SBCGLOBAL.NET Job: By: Dote: /20 Sheet ' t,��L, aNabYscs : • . v. A. Lt_. .4't L I tQ E � ;s 6a. 8 Psi• 3�u �o = •3 -76p C)'J20 30 -, S H Lt_ AT L t E P? 4 -7 -7 Y -Irl TR W CONSULTING ENGINEERS, INC. 1168 N. SAN GABRIEL BLVD. #N • ROSEMEAD, CA. 91770 TEL: (626) 288-0708 FAX: (626).-,280 —416 6 EMAIL:- TWENGRS@SBCGLOSAL.NET Job: B y: Date: x/20 Sheet JI: S2O LAZE 2.[lti_ A.1.1�CL Y5 (S Swp&R.. 'W ALL AT LI ME • - � C� � O• •I ZG GIS _ 2ot-� ��• t� I s 5 5 - O I . SH�•42 w Aru- 4 T L t t=y 2 1107 x 32 _ 2 �✓ O 2. -� , ptr_e� l�ls !0> lGo,c Z�c 4 r 4 - W .CONSUL ITiNG ENGINEERS, INC. 1 1 68 N.. SAN GABRIEL' BLVD. #N ROSEMEAD, CA. 91770 TEL: (626) 288-0708 FAX: (626)'.280=166 EMAIL: TWE.NGRS@SBCGLOSAL.NET Job: By: Date: x/20 -. S11eet #: ANA.LYsis W ,&LL, &7 L 1. N 51-YE/�2 W ALL Al Ll O 2 �Y PSv Lj O Sit A2 Y�1l3LL h-[ UNE . O c3z'7 2L$S F5 is =. fo-a Ps x /L2.1%>� lg� Com.$p5�-x x 2 2 -Z,p;2b Psi' = 3�C� 2� 51-YE/�2 W ALL Al Ll O L]e:) O W -CONSULTING ENGINEERS, INC. 1,168 N. SAN GABRIEL BLVD. rrN ROSElv1EAD,_ CA 91770 ,TEL: (026) 288-0708 FAX: (626),'280-x-166 EMAIL:, TWENGRS@SBCGLOBAL.NET job: By. Date: / /20 Sheet ,: 522 _ .IT w couultin� j cl b: 1 168 S2n Gnbrlei 1z-11: Fax: (6.20) L S25 CHECK WALL OVERTURNING AND UPLt=m T LINE 6—)Art- L 1E—:p 0:5F --R L -53 L M> CHECK WALL OVERTURNINGAND WPL` AT L -T- -7 -:!>4 oT PV + Consulting iEll-Ic11—IC C1" Jolo .1 16S San Gabriel Blvd... �N shcc CHECK WALL OVERTURNING SND UPLI �'" AT LINE t.lot (' I40i..L5 O D t M l (f,", L C2 5 Z W.- a Lt�i P� 2 UPuP. ! < 2.7-zI FIN ,� , -7 • LJ 51= 4D24 1 O L o . 'r:N CHECK WALL OVERTURN_NG zN.D >~PLIFT AT i—O t I i • w `r & MI CONSUL d'NG ENGINEERS, INC. .1168 N.' SAN GABRIELBLVD. .;"N .. Job: ROSEMEAD; CA. .91-770 BY ` TEL: • (626) 288-0708 FAX- (626) '280-4166 .Date:. / /20 Ei1AIL: TWENGRS@SBCGLOBAL.N.ET Sheet fi:' ZF� 1' l 1 =T ----� - 4 Trus Joist t TJI-' Joist Commercial Design Guide 1062 a June 2005 to the allowable design values shall be in accordance with the applicable code. (1) Caution: Joist resistive moment properties reflect: the latest ASTM standards and should not be increased by a repetitive -member use factor. (2) For possible increases in shear capacity see below. (3) For deflection calculation only. Assumes 12" joist spacing with a 24" span -rated panel. t4) lncerpotaaon Detween Deanna lengths is permitted for allowable design reactions. (5) Altowable bearing lengths have been determined based on Trus Joist products. Allowabie bearing on supporting members shall be checked. (6) Refer to page 10 for web stiffener details. (7) A 51/4" bearing length is required at intermediate reactions. (8) A 7" bearing length is required at intermediate reactions. TWO Joist Shear Design When joists are used as simple -span members, the design shear is equal to the shear at the face of the support. When joists up to 24" in depth are used as multiple -span members, the design shear is the calculated shear at the interior support reduced by the following: Q R= W <18% 1925 Where: R is the percent reduction W is uniform load in plf Building. =odes and Product Acceptance: ICC%ESR=1153, HUD SEB No. 689 Rev.9, L.A. City RR #25538, DSA PA -048 Basic Properties Reaction Propertiesl`t15t JoistEI11t Joist Resistive Vertical x 106 TJI© Joist EIP> x 106 End Reaction (lbs) • Intermediate Reaction (lbs) Bearing Length 9Bearing Length,:.. 1:. - Depth Weight MomentM ShearllJ 6 x 10 with Nailed Floor 73I(D Joist with Glue -Nailed 13/8 3t/Z" 3t/z" 51/4" ! lbs ft ( ) ft -lbs ( ) lbs (lbs) (1n.%lbs) Sheathing Floor SheathingWeb Stiffeners") Web Stiffeners(') Web StiffenersM Web Stiffenersr'I (in.' -lbs) (in %lbs) No I Yes I No I Yes I No Yes No • Yes' - 0 117/8" 14" 3.3 I 3.6 6,750 I 8,030 1,925 2125 450512 666 i 561 1,375 1,745 11,885 1,925 2,745 3,120 3,365 3,735 16" 3.9 9,210 ( 2,330 913 752 1,0251,116 821 1,375 i 1,375 1,750 1 1,885 1,750 i 1,885 2,125 2,745 3,365 3,365 3,985 18" 20". 4.2 10,380 2,535 1,205 1,348 I 1,462 1,375 1,750 1,885 2,330 2,535 2,745 2,745 3,490 { 3,615 3,365 3,365 4,105 4,230 1 22" 4.4 4.7 11,540 12,690 2,740 2,935 1,545 1 7934 1,722 1,864 N.A. 1,7501 N.A. 2,7401 N.A. 3,740 N.A. 14,355 24" 5.0 1 13,830 1 3,060 1 2,374 1 2,149 2,632 ( 2,322 •. 2.838 N.A. 1,750 j N.A. 2,935 N.A. 3,860 N.A. 14,480 26" 5.3 1 14,960 2,900 2,8683,172 1 3,416 N.A. N.A. 1,750 1 N.A. -1,750 3,060 1 N.A. 3,875 1 N.A. 14,605 28" 5.5 1 16,085 I 2,900 3,417 1 3,772 4,056 1 N.A. 1 N.A. 1 1,7501 N.A. 2,900 2,900 N.A. N.A. 4,7251111 48501'11 N.A. N.A. 5,3451® 30" rG 5.8 17,205 { 2,900 4,025 4,434 4,762 r N.A. 1,7501 N.A. 2,9001 N.A. 14:975(I-I.N.A. 15,4701a- 15,590111 117/8" 1 14" 4.2 1 4.5 9,605 1 11,430 I 1,925 2,125 1 621 1 687 741 1,400 1,7151 1,885 11,925 3,350 3,665 1 3,965 14,285 1 -16" 4.7 1 13,115 1 2,330 913 1 1 1,246 ( 1,005 1,366 j 1,079 1 1,400 1,875 1 1,885 2,125 3,350 3,825 1 3,965 4,440 18" 5.0 1 14,785 2,535 1 1,635 1,786 1,462 1 1,4001 2,030 1,885 2,330 3,350-1,_980 1-3,965 7600 F-20" 5.3 1 16,435 1 2,740 2,085 2,272 1,908 1 1,400 1 2,030 1,885. 2,5151 3,350 3,980 3,965 4,600 1 22 5.6 18,075 I 2,935. 2,597 2,824 2,422 1 ' N.A. 1 2,190 1 N.A. i 2,675 1 N.A. 4,140 I N.A. 14,755 1 i 24" 1 5.8 19,700 3,060 3,172 1 3,442 3,006 3,659 1 N.A. 2,345 1 N.A. 2,830 • N.A. 5,090 N.A. 15,705 1 26 6.1 21,315 2,900 3,814 1 4,132 4,387 1 N.A. N.A. 1 2,345 1 N.A. 2,450 I N.A. 1 2,830 2,900 N.A. ' 5,405 !. N.A. 16,020 I 28" 1 30" 1 6.4 22,915 I 2,900 1 4,525 4,895 5,191 1 N.A. 1 2,4501 N.A. 2,900 N.A. N.A. 5,8001'11 15,8001'Ij N.A. N.A. 5,8001e• 15,800jei 1 6.6 24,510 1 2,9-00--T-5-,3-06-T-5,732 6,073 1 I N.A. 1 2,4501 N.A. 1 2,900 1 N.A. 15,800MI N.A. 15,80012, j 117/a" 1 14" 4.6 j 4.9 10,960 j 1,925 1 687 j 755 810 1 1,400 1 1,715 1 1,885 11,925 1 3,495 1 3,810 ! 4,100 ! 4,420 1 16 1 1 1 5.2 1 13,090 1 15,065 ; 2,125 2,330 j 1,015 1 1 1,389 I 1,109 1,185 1,400 1,875 1 1,885 2,125 i 3,495 3,970 1 4,100 14,575 I 18" _T_1,982 1.512 1,610 1 1,400 12,030 1 1,885 { 2,330 1 3,495 1 4,130 ! 4,100 14,735 I 20 1 5.4 I 5.7 i 17,010 j 18,945 2,535 2,740 1 T_1_,8_2_7 2,331 2 106 11 400 2,030 1 1,885 2,5 5 1 3,495 4,130 1-4,100 1 4 735 1 22"j 6.0 1 20,855 1 2,935 2,904 1 2,522 3,136 2,676 N.A. 1 2,190 1 N.A. 1 2,675 1 N.A. 4,285 1 N.A. 14,890 24 6.3 j 22,755 1 3,060 1 3,549 1 3,825 3.321 1 N.A. 1 2,345 ! N.A. •2,830 N.A. 5,235 1 N.A. 5,840 26" 6.5 1 24,645 1 2,900 1 4,266 1 4,590 4,046 4,850 N.A. 2,345 i N.A. 1-2,830 ( N.A. 5,425 1 N.A. 16,155 28" 6.8 1 26,520 1 2,900 1 5,059 1 5,436 5,737dei: I N.A. N.A. 2.4501 N.A. 12,450 j N.A. 1 2,900 T 1 2,900 I N.A. N.A. 15,800MI N.A. 15,8001ei 30" 7.1 28,380 2,900 5,930 I 6.363 6,710 I N.A. 1 2,450 1 N.A. 2,900 N.A. 15.8001'11 5,8001'1I N.A. N.A. i 5,80012.1. 15,80012. ' ThP etata�i �Ilnw�V to _ c__ , to the allowable design values shall be in accordance with the applicable code. (1) Caution: Joist resistive moment properties reflect: the latest ASTM standards and should not be increased by a repetitive -member use factor. (2) For possible increases in shear capacity see below. (3) For deflection calculation only. Assumes 12" joist spacing with a 24" span -rated panel. t4) lncerpotaaon Detween Deanna lengths is permitted for allowable design reactions. (5) Altowable bearing lengths have been determined based on Trus Joist products. Allowabie bearing on supporting members shall be checked. (6) Refer to page 10 for web stiffener details. (7) A 51/4" bearing length is required at intermediate reactions. (8) A 7" bearing length is required at intermediate reactions. TWO Joist Shear Design When joists are used as simple -span members, the design shear is equal to the shear at the face of the support. When joists up to 24" in depth are used as multiple -span members, the design shear is the calculated shear at the interior support reduced by the following: Q R= W <18% 1925 Where: R is the percent reduction W is uniform load in plf Building. =odes and Product Acceptance: ICC%ESR=1153, HUD SEB No. 689 Rev.9, L.A. City RR #25538, DSA PA -048 T..z% Consulting Engineer ` -_ J U17: BV:' 1-168 San Gabriel Blvd., "N. Roscrne3d CA 91:i iU . • (;<<t�.:: 12 b� 1 cl: SI1e�t �: S 2% l6_�) .58-0 0� Fax: 7) 1'G.6 G L-1'�c.►c _ D LE Gt LQY.� , ` C.Q.) tL •3 , c. �� c • 22 4 L�LI_ = l� .�� 1�24V, l c _� 14 P 1 TConsultingn�irieer 1168 San Gabriel Blvd., #iy" Roscmea.d, CA 91770 ?e1: (62'6) 288-0708 Fix: '6' 7) 8 0 (' Gu Sheet -r": S �� . c-N'�.c� � �+-� n�Ft✓� t-ati Zs:�LL 1.7 X-4'31 �Ap'?- �u �•P•-J. 7``xl:-�" psi i �z 1 l • a k x lea - o. -7 5'� �, 1 . o•-� _w Ldp _ .4 -7 ALV (A�%Owl = Q�3io0 lox l 2 — . �-7 34 o x Tz,S3 •k ii -7 x u, L- ! dl- U-) gNi U' C2O842►� LL 1�lJ-Czv ✓ 3 ��t, (�,�e,,� 1. � v H �. 2, l� * N .•(o,, T Consulting engineer • " ;ub: l'l68 San Gabriel Blvd.. By: Rdscmeajd, CA 91770 I ,� lc: 2411 Sl�e�c S 1 j (6-6) 2SS-0708 1441x: �G�()) 2SU-' l GG JDF p L. t p u, f3 2 ��.sx Iz ; I . w4 x 12 oa` �1 u -Z u 1 T 'VV Consultinc, En?infer 1 168 San Gabriel Blvd., 4-N Roscniea�d, CA 91770 Te (6? 6) _88-0708 F, L = 6 Co � L er t a.(o 2 9 (oZ I 7 Table 5.3.1 Applicability of Adjustment Factors for Glued Laminated Timber I l h :y 1. The beam stability factor, CL, shall- not apply simultaneously with the volume factor. C,,, for glued lami- nated timber bending members (see 5.3.6). Therefore. the lesser of these adjustments factors shall apply. 5.3.6 Volume Factor, Cv 5:3.7 Flat Use Factor, Cf„ When "glued laminated timber is loaded petpendicu- When glued laminated timber is loaded parallel -to the lar to the wide face of the laminations, tabulated bending - wide face of the laminations and the member dimension design values for loading perpendicular to the wide faces parallel to the wide face of the laminations is les -3 thap of the laminations, Fb;,,,, shall be multiplied by the follow- 12", multiplying the bending design value for lcading ing volume factor: parallel to the wide faces. of the laminations, Fby,,, ',y the flat use factors, Cfi„ specified in Tables 5A, 5B, 5C and 5D, shall -be permitted. C„ = (21/QVx(12/d)l/x(5.125/b)'/x <_ 1.0 where: L length of bending member between points of zero moment, ft. d = depth of bending member, in. b = width (breadth) of bending member. For multiple piece width layups, b = width of widest piece used. in the layup. Thus, b <_ 10.75" x = 20 for "Southern Pine x = 10 for all other species �` w ! v , � The volume factor, Cv, shall not apply simultaneously with the beam stability factor, CL (see 3.3.3). Therefore the lesser of these adjustment factors shall apply. - 5.3.8 Curvature Factor, Cc For curved portions of bending members, the bend- ing design value shall be multiplied by'the foil�winE curvature factor: Cc =1- (2000)(t / R)2 '(5.3-2 where: t = thickness of lamination, in. R = radius of curvature of inside face of lamiration, in. UR _<" 1/100 for hardwoods and Southern Pine t/R s 1/125 for other softwoods AMERICAN WOOD COUNCIL s . i_ O cnd V E _ iv _ _ W = M > c U _ Fe = Fb X CD C„ C, CL CV CN Cc Cr - . - F; = F, x CD CM C, - - - - - - F,,'= F, x CD qM C,F,,'= F, x = C,,, C. - - - - - - Cb F,'= FC x CD C„ C, - - - - - CP - E=E . x - C„ C, - - - - - - - 1. The beam stability factor, CL, shall- not apply simultaneously with the volume factor. C,,, for glued lami- nated timber bending members (see 5.3.6). Therefore. the lesser of these adjustments factors shall apply. 5.3.6 Volume Factor, Cv 5:3.7 Flat Use Factor, Cf„ When "glued laminated timber is loaded petpendicu- When glued laminated timber is loaded parallel -to the lar to the wide face of the laminations, tabulated bending - wide face of the laminations and the member dimension design values for loading perpendicular to the wide faces parallel to the wide face of the laminations is les -3 thap of the laminations, Fb;,,,, shall be multiplied by the follow- 12", multiplying the bending design value for lcading ing volume factor: parallel to the wide faces. of the laminations, Fby,,, ',y the flat use factors, Cfi„ specified in Tables 5A, 5B, 5C and 5D, shall -be permitted. C„ = (21/QVx(12/d)l/x(5.125/b)'/x <_ 1.0 where: L length of bending member between points of zero moment, ft. d = depth of bending member, in. b = width (breadth) of bending member. For multiple piece width layups, b = width of widest piece used. in the layup. Thus, b <_ 10.75" x = 20 for "Southern Pine x = 10 for all other species �` w ! v , � The volume factor, Cv, shall not apply simultaneously with the beam stability factor, CL (see 3.3.3). Therefore the lesser of these adjustment factors shall apply. - 5.3.8 Curvature Factor, Cc For curved portions of bending members, the bend- ing design value shall be multiplied by'the foil�winE curvature factor: Cc =1- (2000)(t / R)2 '(5.3-2 where: t = thickness of lamination, in. R = radius of curvature of inside face of lamiration, in. UR _<" 1/100 for hardwoods and Southern Pine t/R s 1/125 for other softwoods AMERICAN WOOD COUNCIL Consulting E1?G ncei ,`,,,: 13 IJ -6S San G11) ei" Uivcl... ^y - •- Si�e�l = S 3 Z T..i: t6n6 2SS-o-o8 (- mss 10 3 �1, ► 7 1-7S G x 8 T l> 0.06' .. i loz X8.322' 1 o 17 A 14 o kr VLA « Y .A'JJ 0VZR U1:41\TC '•1=V U—'.71 —-.\Tate. 19:5 f�5,e 2 17, S �5pbx 604 Z z 36-74 L-` T & W CONSULTING ENGINEERS,: INC. 116-8-N. SAN GABRIE_L BLVD. -LN , Job: - .ROSEIvIEAD;- CA: 91770 BY: TEL: (020) 288-0708 FA�X.: (620) 280=4.156n, Cater /20 EMAIL: TWENGRS@SBCGLOBAL.NET Shee_ a. T & W CONSULTING ENGINEERS 1168 SAN GABRIEL BLVD., #N Job By: �. ROSEMEAD, CA. 91770 Date : Sheet # : S 34 TEL: (626)288-0708 FAX: (626) 280-41.66 ' r CHECK o, REDUNDANCY FACTOR (10/L,`) 5 1.0 w DIRECTION T' FLOOR''SHEAR WALLS v— T & W CONSULTING ENGINEERS 1168 SAN GABRIEL BLVD., #N Job - By:' ROSEMEAD, CA. 91770' Date ; Sheet # : S `3 S TEL: (626)288-0708 FAX: (626) 2804166 • CHECK o . REDUNDANCY FACTOR (10/L;) N - s DIRECTION FLOOR SHEAR- WALLS VT= Co;.P> rsF--c WALL PANEL' VI ( 'L; r = vi t) T, P 'AA L� . 387 3v , 040 U �' tSlo27 so.tS ( , Dello awv H ( 70YI 45.5 TAKE p = max = O 9(� , As = g -q,� S'� : -4'Z C) 4 i� 20 • Ymax 1Jsc t.v O— ID m O 0 0 �� • fib. r 04 "1-- 1 v as , •; -- - � I l IU. .—.—.—....... ...... —.—.—. 4 --- Ir ^ 1 ------- lip, I loll L'I kII r __________ _ .•11xMM.CpK. sue OVER 7ING1 1 1 '� FILLOF SAND AND A MOISTURE BARRIER I MEMBMNE(o-1ABTHIp()SANOWICHED QI1•v it j �I 11 111 1 8EIWEEN THE TWOLAYERS IIT FLI MO REDIFORCED WI H BMS ® I O.C. BOTH 1 I WAYS. REDTORCENENT TO BE III 11 II !' '1 PLACED AT CENTER OF SLAB. 11!1 fr-1e�1 11 +lt lllrtL _ 1 r— 1 _____ t F_______� , 11 1 1 —i — j1 111 1 1 II 1 I � I I III 11 LJ VINK.KEN. CONC. SIABOVER x-mCH 11 i1 I R 1 1 ( I,1 III 1 FCL OF saID AILD AMaS1UIlE BARRIER I, li 6ETWWIEENIHETWOIAYERSOFFICI [EDLLAND If I 111 11 JLJI REDB"OR-.-1ISMS®16'O.C. BOTH 1 �L _ ____-- IJ _ ==�1 L�__J IL _ ___ 1-, WAYS. REBIFORCEMENT 70 BE Ir II 11 I I PLACE AT LEITER OF SLAB. __— iEZZ Iiil I.T., ,.11.• ii it ( •'g , �i � �i r�-'7jiil I tI�- I � ii 11 IK 1 Inr 11 I , II l I lily— I r--- ii ii (ill � li llr �-Ilnl Ii II L.J. I , ,II 1 i----��C.-- T `yl11 11 I 1,1 1 L•v II11 11 ll 11 t•Iri I p L� aw p1 ' I U it li illy .. rn I'I'' I 11� A11 11 I. r� , iyjrx`,1 IJl liil i i ii y ro'T II — —may I 1 1 Ijl �T 1 I 1 ■` I1 J L ILL— y—iL----�--- -- -USE APPROVED PLATE WAS (2-1/2'x 2412' a 1/4' PLATE W. FOUNDATI011' `' 1 li 1 \, I INEW).' TIRL MN COLIC. SUBOVER 2ANCIIFBIOFSANDAND REIN=. — 1 ❑O — — ' 6 , SHEAR WALL SCI 1 W/ N BMS ® 16.O.C. BOTH WAYS. REINFORCEMENT TO BE PLACED AT - 1 1, �!r CENTER OF SUB. (TYP. ® GARAGE AREA) I TYPE MATT. DYER STRUCTI ° I•Ir• j� I � � O 1172'PIWA 1 /� j� l , _ I __ __ �FT•� 1 — �.I C ® SUAPBON STRONG WA -USE APPROVED PLATE WAS (2-1/2'x 2412' a 1/4' PLATE W. FOUNDATI011' T & W OO;VSULTiNG ENGINEERS Joe NO. eY .1168. SAN GABRIEL BLIND.#N DATE SHEET NO. ROSEMEAD, CA 91770 818) 288-0708 CHECKED r 1 �i�� 1EE� i,::;L. &j Us= W crUtJ T D_� �� I ti I 147. V E' T . L'V ;v Nb 1,17v a t 00. •'�_C 7�,` LGSM D i �>l E -p •sg. ,S'zc� T &-W CONSULTING ENGINEERS, INC, 68 N. SAN GABRIEL BLVD. #N j RCSEMEAD, CA. 91 7 7G TEL: (626) 288-0708 FAX: (626) 280-4166 EMAIL .TWENGRS@SBCGLOBAL.NET By: Date: /20 Sheet #: s la, -7 BUILDING DEPT. CORRECTION GI�EU�_ %3 V- k TZ LL 1.2 3 �, l LL - u 1S C A viva w:) _ �'I3�o _ 2 M a,-4 a, v - (E: , rsL. w 3 LTL �x G ��ox. zo >t2) 14 M. LL 0.46r b 1 LT �iZ l.� fel Fl l Vn —7 1 r r N N — T &..W CONSULTING ENGINEERS INC. -1168 J_. N. SAN GABRIEL ' BLVD. #N OEMEAD, CA. 917 R 70 TEL: (626) 288-0708 FAX: (626) 280-4166 EMAIL: .T.WENGRS@SBCGLOBAL.NET Job: By: Date: /20 Sheet #: s 3e> --------------------- BUILDING DEPT. CORRECTION #J9 G N'fGGIL t�'!z Q 1✓� 'fig_ � • 14 LL, (am) -4 R CGL-h4 3 1. 22 II 1Sz� LAiAeW� _ %�/2•�� — 22 �✓� 1.22 �• tt)YL- c -4 'A psi ,_.... T .& W CONSULTING ENGINEERS INC, -1168 N. SAN GABRIEL BLVD. #N j . R OSEMEAD, CA. 9117/70 TEL: (626) 288-0708 FAX: (626) 280-4166 EMAIL: .T.WENGRS©SBCGLOBAL.NET Job: By: Date: /20 Sheet #: s 3 BUILDING DEPT. CORRECTION # 1 k.. �Z4,D 2 1 L I,4 L zL. �.��X �l�✓ �2" . 1. 1 �� o.� X25 �► . 0,7601 -7 L 1h %�x P l ti4 s CONSULTING ENGINEERS, INC. -1168 N. SAN GABRIEL BLVD. #N ROSEMEAD, CA. 911770. TEL: (626) 288-0708 FAX: (626) 280-4166 EVAIL: T.WENGRS@SBCGLOBAL.NET Job: Date: ,/f20 Sheet #: s -46-o r T & W CONSULTING ENGINEERS, INC.. i 116.8 N. SAN GABRIEL BLVD. #N • ROSEM EAD, CA. 941770 TEL: (626) 288-0708 FAX: (626) 280-4166 EMAIL: TWENGRS@SBCGLOBAL.NET Job: By: Date: Z20 Sheet #: s-4 t 2 L Pi 2 t, _ 2Z�3 � i • S,� qe3 rZs a t w �lv 4 x LZ. z 3 b L to S oto tiZ Ot Z0 u P E -E -.A M 0- L � N� O a� 1�'Asi�L �3 0 Q-Nt 2 j0 -7 t s ze- 2 L Pi 2 t, _ 2Z�3 � i • S,� qe3 rZs a t w �lv 4 x LZ. z 3 b L to S oto tiZ Ot Z0 X1.9 C0NSULrrNG ENGINEERS, INC, -1=168 N. SAN GABRIEL BLVD. #N R-OSEMEAD, CA. 91/70 TEL (626) 288-0708 FAX: (626)` 280-4166 EMAIL: .T.WENGRS@SBCGLOBAL.NET Job: 'By: Date: 20 Sheet #: s -4Z . BUILDING DEPT. CORRECTION # �€st�t.► �v- SUkLp t C 141k _ /Z 2 C z 73 Z(o 3 12-' 4- x U 0.7.0 Asa S-71 . tea- . = -3,zz - X t 2- <24, 00 z4o0 u IAPMO RESEARCH AND TESTING, INC. 5001 E. Philadelphia St, Ontario, CA 91761-2816 (909) 472-4100 Fax: (909) 4724244 www.iapmo.org �MO -. F sie�a�a cmaim a'ce,aoa. :,. LISTED PRODUCTS IAPMO Research and Testing, Inc. is a product certification body which tests and inspects samples taken from the supplier's stock or from the market or a combination of both to verify compliance to the requirements of applicable codes and standards. This activity is coupled with periodic surveillance of the supplier's factory and warehouses as well as the assessment of the supplier's Quality Assurance System. This listing is subject to the conditions set forth in the characteristics below and is not to be construed as any recommendation, assurance or guarantee by IAPMO Research and Testing, Inc. of the product acceptance by authorities having juristiction. Effective Date: November 2005 -Rev. 8/8/2006- Void After: November 2006 Product: Whirlpool Bathtubs File No. SP -1019 Issued To: ''Jacuzzi whirlpool Bath 14880 Monte Vista Avenue Chino, .CA 91710 IDENTIFICATION: Manufacturer's name or trademark, or both shall -be permanently and legibly marked on the unit so as to be visible after installation. The product shall also bear the USPC® certification mark. Il DEC 1 � 2006 ` u u IAPMp MC PC T O ® C U C No M USE C TM This listing is for the period indicated herein and is void after the date shown above. Any change in material, manufacturing process, marking or design without having first obtained the approval of the Product Certification Committee, or any evidence of non-compliance with applicable codes and standards or of inferior workmanship, may be deemed sufficient cause for revocation of this listing. Reproduction or reference to this form for advertising purposes maybe made only by specific written permission of IAPMO Research and Testing, Inc. Any alteration of this certificate could be grounds for revocation of the listing. S t Chairman, Product Certification Committee Executive Director DOC#08I A dp 'A IAPMO RESEARCH AND TESTING, INC. LISTED'PRODUCTS • ' ' .,Effective Date: November 2005` -Rev. 8/8/2006-. Void After: November 2006 ,Product: Whirlpool Bathtubs. File NL'SP-1019 Issued 'To:' Jacuzzi Whirlpool•Bath •CHARACTERISTICS: + Whirlpool bathtubs of various sizes -and configurations. Piping is 1•isted rigid or flexible Sch. ,40 PVC -and fittings or copper type L pipe. Pumps are.' - self draining with'volute-drain. An access panel must be provided for access = to the,pump and drain area.'- All units, whether factory or field assembled, Ax are''required to have suction„,fittings installed,,which are listed to ASME A112.19 8 97R(96)„and ASME A112 .19.7-95 for r retention. To be installed in accordance w t -h, -the manufacturer's installation instructions. Products comply with the,,applcable sections of."the latest edition'of the USPC®. Manufactured in compliance with EASME AA11,21'9.95. MODELS ti • , PRODUCT CODE DESCRIPTIONS: t F / o. BC = Motor/Pump is Located'Back Center f CMB- Combination Air and Whirlpool B CRNR-= Corner r DI Drop -In t' r FC - Motor/Pump is Located Front Center LB = Motor/Pump is Located Left Back LF = Motor/Pump is Located Left Front " LH.= -Left Hand .y. NO O/F = No Overflow s t, RB = Motor/Pump is Located Right 'Back RF '= Motor/Pump is Located Right Front RH = Right Hand SS = 'Space Saver TK = Teak (Dark) Wood -Trim UM Undermount WB Whirlpool Bath C , W/XFLG With Tile Flange, Where X Represents the Sides ' W/FO With Fiber-Optic,Lighting' r ' W/HTR = With•Heater .W/LED = With LED Lighting,F W/SKT.= With Skirt' W/20F = Witli 2 Overflows (*Note: All models are manufactured with 1 overflow) ' WG Wenge.(Light) Wood Trim ' ti. t + Sponsor of the Uniform Plumbing Code®, Uniform Mechanical Codc „ , Uniform Swimming Pool, Spa and Hot tub Code , i and Uniform Solar Encrgy r, 14 DOC#081 A I t- i .' DOC#081A1 _. IAPMO RESEARCH.AND TESTING, INC. = LISTED PRODUCTS Effective Date: November 2005: Re'-,. 8/8/2006- �. Void After: November 2006 Product: Whirlpool Bathtubs }. 'File No. SP-1019 Issued To: Jacuzzi Whirlpool Bath d' , ED75',Allusion RH WB W/HTR W/LED �• ED80..Allusion RH WB W/HTR W/LED ED85 Allusion RH WB W/HTR W/LED- G924 -Aura WB.W/HTR' ". BM28 Bellavista 5 RH WB W/HTR a EE10 Bellavista 5 RH WB W/HTR•W/LED BM27 Bellavista 5.5 RH•WB W/HTR - EE15' Bellavista 5.5 RH WB W1/,HTk -W/L@ED ` DB23 Bellavista 5.5 BC RH WB W/HTR DB17 Bellavista 5.5 FC RH B W'A TR"r F ' DC10'. Bellavista 6 LH WB W/HTR BM26 Bellavista-6 RH WB W/HTR EE20. Bellavista 6 RH WB W/HTR W/LED DB11 Bellavista 6 BC RH WB W/HTR , j DB05 Bellavista b FC RH WB •W�/HTR , DB95 Bellavista CRNR FC RH WB:-W,/HTR r DC01- Bellavista CRNR LH WB W/HTR; .. Y895 Bellavista CRNR WB W,/HTR s' - EE25 Bellavista CRNR'WB W/HTR W/LED.': � •• BK04 Ciprea RH WB W/HTR " EE20 Ciprea RH WB.W/HTR W/LED r •` I U300 Cortina WB W/HTR - EE35 Cortina'WB W/HTR.W/LED CE50 Duetta 6042 RH WB W/HTR W/LED •EE40• Duetta 6042 RH WB W/HTR W/LED CE60. Duetta' 6042 RH WB W/HTR W/FO t EE45 Duetta'6042 RH WB W/HTR W/FO- , CE70 Duetta 6636 RH WB W/HTR W/LED t EE50 Duetta 6636 RH WB W/HTR .W/LED CE85 Duetta 6636 RH WB W/HTR W/FO ; EE55 Duetta 6636 RH WB W/HTR W/FO ' 'CE95 Duetta 6642 RH WB W/HTR W/LED EE60 Duetta 6642 RH WB W/HTR W/LED k r i CF10 Duetta 6642 RH WB W/HTR W/FO EE65 Duetta 6642.RH WB W/HTR W/FO T , CF20 Duetta-7242 RH WB'W;HTR W/LED' ' EE70 Duetta 7242 RH WB W/HTR W/LED , CF35 Duetta 7242 RH WB W/HTR W/FO EE75 Duetta,7242 RH WB�W/HTR W/FO - A ' CB15 Elara 6032 LH WB W/LED - • � , t Sponsor of the Uniform Plumbiag Codc , Uniform Mechanical Code®, Uniform Swimming ?ool, Spa and Hot tub Code®,' ' and Uniform Solar Energy Codc s DOC#031 A I , , I r IAPMO RESEARCH AND TESTING; INC. ` LISTED PRODUCTS Effective Date: November 2005 -Re-r. 8/8/2006- Void After: November 2006 ..Product:. Whirlpool Bathtubs A4. File No. SP -1019 x Issued To: Jacuzzi Whirlpool Bath' ' r CB20r Elara 6032 RH WE W/LED " CB24 Elara 6032 LH,WB'W/FO CB29 Elara 6032..RH WE W/FO CB51 Elara'6042 LH WE W/LED EE80 Elara 6042 LH WE W/HTR—W./"` CB56 Elara 6042 RH WE W/LED- EE85 • Elara 6042 RH-WB W/HTR` W/LED:.. CB60� Elara 6042 LH WE W/FO EE90 Elara 6042 LH,WB W/HM W/F CB65, Elara 6042 RH WE W/FOt14 , EE95 Elara 6042 RH WE W/HTW/FO'; BZ53 Elara-6636 LH WE W/LED - EF00 Elara 6636 LH WE W/HTR ;./LED BZ58 Elara 6636 RH,WB W/LED . EF05 Elara '6636 RH'WB W/HTR W/FLED s - BZ62 Elara 6636 LH WE W/FO EF10-.Elara 6636 LH WE W/HTR WFQ: _ BZ67 Elara 6636 RH WB.W/FO EE15 Elara 6636 RH`WB W/HTR W/FO , BZ71 Elara 7242 LH WE W/LED w..a EE20 Elara 7242 LH WE W/HTR-W/LED BZ76 Elara 72'42 RH WB'W/LED EE25 Elara 7242 RH WB W/HTR.W/LED BZ80- Elara 7242 LH WE W/FO EE30 Elara 7242 LH WE W/HTR.W/FO BZ85 Elara 7242 RH WE .W/FO . EE35 Elara 7242 RH WE W/HTR_'W/FO T601 Fiore RH WE W/HTR ' G930 Fiore RH WE W/HTR W/SKT G932 ,Fontana RH WE W/HTR , y DE85 ''Fuzion 7236 TK LH W/LED WE W/HTR t .^ DF05 Fuzion 7236 WG LH W/LED WB'W/HTR ` DF25 Fuzion 7236 UM LH W/LED WE W/HTR DF45 Fuzion 7236 TK LH W/FO WE W/HTR DF65 -Fuzion 7236 WG'LH W/FO WE W/HTR ` DF85 Fuzion 7236 UM LH W/FO.WB W/HTR DD65 Fuzion 7236 TK RH'W/LED WB.W/HTR ^ ' DD85 Fuzion 7236 WG RH W/LED WE W/HTR _ DE05 Fuzion 7236 UM RH W/LED WE W/HTR•„ '1 DE25 Fuzion 7236 TK RH W/FO WE W/HTR In „ Sponsor of the Uniform Plumbing Code®, Uniform Mechanical Code®, Uniform Swimming PSol, Spa and Hot tub Code®, t` and Uniform Solar Energy Code ^ 1 DOC#081 A 1 IAP_ MO RESEARCH AND TESTING, INC. , LISTED PRODUCTS = E' Effective Date: November 2005, -Rev. 8/8/2006- Void„After: November 2006 Product: Whirlpool Bathtubs ' File No. SP -1019 Issued To: Jacuzzi `Whirlpoo1 Bath r I DE45' Fuzion 7236 WG RH W/FO WB W/HTR DE65 Fuzion 7236 UM RH*W/FO WB W/HTR'. DN05 Fuzion 6666 TK LH W/LED WB'W/HTR •DN25 Fuzion 6666 WG LH,W/LED,WB W/HTR DN45 Fuzion 6666 UM LH W/LED�WB W./ --.HTR DN65 Fuzion 6666 TK, LH W/FO WB'�1W/,HTR DN85 Fuzion 6666 WG -LH W/FOWB�W/H R DP05 Fuzion 6666 UM LH W/FOWB"WYHTR, DL85 Fuzion 46666 TK RH W/LED WB W/H' ' DM05 Fuzion 6666 TK RH.W/LED.WBW/'HTR + •~ DM25 ..Fuzion 6666 TK RH ;W/LED WB ..W./HTR DM45 Fuzion 6666' TK RH W/FOS WB HTR ` DM65 Fuzion 6666 WG RH W/FO WB W/HTR 4 DM85 Fuzion.6666 UM RH W/FO WB W/HTR �. DG05 Fuzion.7260 TK RH CH RH WB W/HTR DG25 -Fuzion 7260 WG RH CH'RH WB-W/HTR. , DG45 "Fuzion 7260 UM RH CH RH WBW;/HTR ; n, DG65 Fuzion.,7260 TK RH FO RH WB W,/,ETR • ` 6G85 Fuzion 7260 WG'RH FO RH WB W/H R~ "�... ` DH05 Fuzion 7260 UM RH FO RH WB W/HTR r ,DH25 Fuzion 7260 -TK LH CH RH WB W/HTR DH45 Fuzion 7260 WG -LH CH RH WB W/HTR '� 1 DH65• Fuzion 72604UM LH ,CH RH WBeW/HTR DH85 Fuzion 7260 TK LH FO RH WB W/HTR• ► .DJ05. Fuzion 7260 WG LH FO RH WB W/HTR q, DJ25• , Fuzion .7260 UM LH FO' RH 'wB W/HTR w y DJ45+,Fuzion 7260 D TK RH,;CH RH WB W/HTR DJ65 Fuzion 7260 D WG RH CH RH WB W/HTR. ” DJ85 Fuzion 7.260,D UM,,RH CH RH WB W/HTR r DK05 Fuzion 7260,D TK RH FO RH WB'W/HTR +- DK25 Fuzion 7260 D WG RH,FO,RH WB W/HTR•, DK45 Fuzion.,7260 D UM RH FO RH WB -W/HTR �{i BU25 Luminosa LH WB W/HTR W/LED BY51 Luminosa LH WB,W/HTR W/FO BY50 Luminosa.RH WB W/HTR W/LED BY52 Luminosa RH WB W/HTP- W/FO I� H000.'Real•RH WB W/HTR EH85 Real RH WB W/HTR-W/LED ; a G934 Sabella RH WB W/HTR l EH90 Sabel -la RH WB W/HTR W/LED T + ^ Sponsor of the Uniform Plumbing Code , Uniform Mechanical Code®, • Uniform Swimming Pool, Spa and Hot tub Code , • li,. and Uniform Solar Energy Code E - t t, DOC#081 A I i Y ' • — . , � ..and Uniform Solir Energy. Coda - a A D06#08I A 4 DOC#081 A 1, i IAPMO RESEARCH AND TESTING, INC. = LISTED PRODUCTS Effective Date: November 2005 Re -j., 8/8/20067 a• Void After:' November 2006 l Product: Whirlpool# Bathtubs - �. • File No—SP-1019 'Issued To-. Jacuzzi Whirlpool Bath , G960, Penterra LH WB,' 4 9760 - Penterra RH WB X070 'Projecta 532 WB } i t . s . • H556 Quasar LH WB H555' Quasar RH WB M589 Quasar LH NO O/F WB- `M92 B `M592 .Quasar.RH NO.O/F WB E140N Vistelle LH WB' ' G686 Vistelle RH WB F - r Aqualux(sup]TM(%sup] + DESIGNER/LUXURY COLLECTION:' r ti X751 Ashley WB W/HTR 4 Kr r BU46- Chloe WB W/HTR BU15 Elizabeth 5'RH WB W/HTR BT87 Elizabeth 5.5 RH WB W%HTR E X6151 Elizabeth 6 RH WB W/HTR t BY11 -Elizabeth CRNR WB'W/HTR. BU48 Kara,WB W/HTR, I X745 Lauren WB W/HTR W/SKT _ X749 Lauren WB W/HTR E BU50 Michelle 36 WB W/HTR X761'.Rebecca WB W/HTR X765••Savannah WB W/HTR i+ X771 Vanessa WB W/HTR t; _ s BUILDER/COMFORT COLLECTION:' • Ci BP45 Alyssa LH WB BP35• Alyssa RH .WB I ' Y030• Antoinette LH ..WB W/SKT • ti j far Y032 Antoinette RH WB-W/SKT t X773Brianna LH WB i i ; X783 'Catherine 55 RH WB'W/"SKT a , X779•Catherine 60 LH WB < X777 Catherine '60 RH WB Sponsor of the Uniform Plumbing Code®, Uniform Mechanical_ Code®, ti �. Uniform Swimming Pod, Spa and Hot tub Code , + t and Uniform So12r Encrgy Code . i DOC#081 A I IAPMO RESEARCH AND TESTING, INC. LISTED'PRODUCTS Effective Date: November 2005 -Re-j. 8/8/2006- Void After: November 2006 Product: Whirlpool' Bathtubs File No. SP -1019 • r Issued To: Jacuzzi Whirlpool Bath BC06 Catherine,60 RH.SS WB'W/SKT X781 Catherine 60 RH WB W/SKT Y BC10 'Desiree 532 LH WB BC12 Desiree 532 RH WB BC14 Desiree 536 LH WB W/SKT X785 Desiree 536 RH WB W/SKT.: X970 Desiree 536 RH WB X7871 Gabrielle 5 LH WB_' X789 Gabrielle 5 RH WB •X791 Gabrielle 6 LH WB 1' X793 Gabrielle 6 RH WB X795 Gabrielle CRNR RH WB X797 Gabrielle LH CRNR WB BC58 Kayla LH WB BC60 Kayla RH WB X803 Madison 5 LH WB ' X805 Madison 5 RH WB BC35 Madison 5 LH WB W/SKT. BC37 Madison 5 RH WB W/SKT; BC39 Madison 5.5 LH WB BC41 Madison 5.5 RH WB X799 Madison 530 LH WB W/SKT X801 Madison 530 RH WB W/SKT BC64 Maria 5 LH WB BC66 Maria 5 RH WB BC68 Maria 6 LH WB' BC70 Maria 6 RH WB ,BC81 Nicole 5 LH WB BC83 Nicole 5 RH WB 1 BC87 Nicole 5 LH WB W/SKT 4' BC8y9 Nicole 5 RH'WB ,W/SKT BC77 Nicole 5 LH WB, W/3FLG BC79 Nicole 5 RH WB W/3FLG BC95 Nicole 536 LH WB t BC97 Nicole 536 RH WB BC99 -Nicole 536 LH WB W/SKT - BDO1 Nicole 536 RH WB W/SKT BD04 Nicole 6 LH WB { BD06 Nicole 6 RH WB BD10 .Nicole 636 LH WB W/SKT Sponsor of the Uniform Plumbing Code®, Uniform'Mechanical Code, Uniform Swimming Pom, Spa and Hot tub Code®, and Uniform Sola Energy Code DOC#081 A ONuuau uw V� V mCILIufU111s`�Vul. , VIIIIVIfIIIv1GGnanll.dl%,UUC , Uniform Swimming Pod, Spa and Hot tub Codc and Uniform Solar Energy Codc i y; ,� P' . DOC#os l A l