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Home My WebLink AboutB13-0312 PLANS APPROVEDVA I L , C O L O R A D O LION SQ U A R E L O D G E - U N I T 3 0 7 R E M O D E L 05 - 2 4 - 2 0 1 3 AS I # 6 RE V 0 5 - 3 0 - 2 0 1 3 RE V 0 6 - 1 2 - 2 0 1 3 EAST BUILDING LIONSHEAD PLACE VAIL, COLORADO LION SQUARE LODGE - EAST BUILDING LIONSHEAD PLACE VAIL, COLORADO LION SQUARE LODGE - EAST BUILDING LIONSHEAD PLACE VAIL, COLORADO LION SQUARE LODGE - EAST BUILDING LIONSHEAD PLACE VAIL, COLORADO LION SQUARE LODGE - EAST BUILDING LIONSHEAD PLACE VAIL, COLORADO LION SQUARE LODGE - ±±± ± ô´ ± ³ ´ ± ô´ ³ ´ 30 - 5 / 1 6 ” ~2 4 ” 35-7/16” ~24” ~2 4 ” ~2 4 ” 12 - 5 / 8 ” PLAN SECTION Lions Square Lodge Date5-22-13 Project No.9551 D. L. ADAMS ASSOCIATES, INC.1536 Ogden StreetDenver, Colorado 80218303/455-1900 FAX 303/455-9187 ^^ Figure 1 Condensing Unit Barrier Drawn byMBB scale: 3/4” = 1’ - 0” 2” thick, perforated metal panels lled with encapsulated berglass (Kinetics KNP, or similar. Min. NRC 0.85) 2” thick, perforated metal panels lled with encapsulated berglass (Kinetics KNP, or similar. Min. NRC 0.85) Condensing Unit Neoprene Pads (i.e., Mason Super W, or equal)Barrier KINETICS Panel Absorbers Model KNP A Reverberant Noise Control Product TM Application Kinetics Model KNP Panels are excellent sound absorbers over a wide frequency range. Their acoustic properties combined with their appear- ance and rugged durability make them a perfect choice for controlling reverberant noise prob- lems. KNP Panels are suitable for outdoor use and are ideal for installation over existing barri- er walls and are excellent in resisting damage from impacts, abrasion, or moisture. Panels can be attached to walls, ceilings, or other surfaces and can be located in a manner to achieve a pleasing appearance. KNP Panels are also available with optional rear backing to increase their transmission loss and be used as a barrier. In addition, KNP Panels can be faced with perforated material on both sides and used as hanging baffles. For optimum performance, panel selection and spacing should be done by a professional based on elevation of existing room acoustics and desired results. Description A highly durable, abuse resistant perforated metal acoustical panel. Available with a flat or V-groove face. Kinetics Model KNP Panel Absorbers are functional and aesthetically pleasing perforated panels which are used to control reverberant noise problems in factories, waste water treatment facilities, pump rooms, equipment yard barrier walls and other fac- tory and enviromental applications. Although prima- rily intended as an absorber, the panels will act as a barrier when a sheet metal back is added. KNP pan- els are also useful as additions to existing barriers to reduce reverberation time and to lower reflected sound. United States6300 Irelan PlaceP.O. Box 655Dublin, Ohio 43017Phone: 614-889-0480Fax: 614-889-0540 Canada1720 Meyerside DriveMississauga, Ontario L5T 1A3Phone: 905-670-4922Fax: 905-670-1698 www.kineticsnoise.com sales@kineticsnoise.com Kinetics Noise Control, Inc. is continually upgrading the quality of our products. We reserve the right to make changes to this and all products without notice. KNP 2/05 Frame Frame MODEL KNP MODEL KNP-V 2" Max 42" wide 3"6" 2"2 3/4" Max 36" wide Perforated Metal Acoustical Performance Sound Absorption per ASTM C-423, A-Mounting Frequency, Hz1252505001K2K4K NRC Absorption Coefficient.22.771.121.00.78.57 .90 Note: Stand off brackets (optional) will increase sound absorption. Specifications Composition: 22 gauge perforated galvanized steel or .032 perforated alu- minum; 2.5 PCF mineral fiber absorber in a 2.0 mil heat sealed black PVC bag. Fire Test Data: Class A per ASTM E84 Sizes and Tolerances: Model KNP, 2" thick Flat Face; Maximum 42" wide x 120" high or 114" wide x 48" high Model KNP-V, 2" thick V-Groove Face; Maximum 36" wide x 120" high (V-grooves run vertically) or 96" wide x 48" high (V-grooves run vertically) Note: Custom sizes available. Contact the factory Tolerances - Models KNP and KNP-V panels are built to plus or minus 1/8 inch tolerances for length, width and squareness (Diagonal measurement). Mounting: Z-Clips (top), L-Clips (bottom) standard. Optional: Stand-off brackets or J - Channel (bottom), Z-channel (top) MASON Bulletin SW-16-2 METRIC EQUIVALENTS 18” x 18” x 3/4” = 450 x 450 x 20mm 2” x 2” x 3/4” = 50 x 50 x 20mm 2” x 4” x 3/4” = 50 x 100 x 20mm 4” x 4” x 3/4” = 100 x 100 x 20mm 6” x 8” x 3/4” = 150 x 200 x 20mm SUPERWPADS MASON SUPER W PADS ARE MOLDED IN– •Natural Rubber for maximum resilience and vibration isolation. Contains anti- oxidants and anti-ozonants to improve aging. •Standard Neoprene for longer life and moderate oil resistance. •Bridge-bearing Neoprene for maximum life, excellent oil resistance and resiliency approaching natural rubber. FULLSHEET– 18” x 18” x 3/4” (450 x 450 x 20mm) SINGLE MODULE– 2” x 2” x 3/4” (50 x 50 x 20mm) Standard size 18” x 18” x 3/4” (450 x 450 x 20mm) consists of 81 - 2” (50mm) modules. The 2” (50mm) squares are separated by a thin web that is easily cut to provide evenly dimensioned pads such as 2” x 2” (50 x 50mm), 2” x 4” (50 x 100mm), 4” x 4” (100 x 100mm), 6” x 8” (150 x 200 mm), etc. Our Super W pad is one of the thickest, most versatile and efficient pads on the market. MASONINDUSTRIES, INC. 350 Rabro Drive,Hauppauge, NY 11788 •631/348-0282 •FAX 631/348-0279 2101 W. Crescent Ave., Suite D, Anaheim, CA 92801 •714/535-2727 •FAX 714/535-5738 Email info@Mason-Ind.com or info@MasonAnaheim.com •Website www.Mason-Ind.com Tm208 8/02 Printed in U.S.A. 15% DEFLECTION Load perLoad per DUROMETER2” x 2”50x50mm SquareSquare (lbs)(kgs) 308035 4012053 Standard5018080 60240105 70360158 SUPER W LOAD RATINGS PER SQUARE Pads can be used to reduce noise, high frequency vibration and impact from typical machines as follows: •Chillers •Compressors •HVAC Units •Vent Sets •Pumps •Motor Generators •Transformers •Diesel Generators •Punch Presses •Lathes •Saws •Power Presses •Drill Presses Super W Pads should be used in full squares. Select the minimum number of squares required and design pad to the most convenient square or rectangle. The use of additional squares results in more conservative loading. British Units Example– Load is 980 lbs. 50 Duro capacity is 180 lbs. 980/180 = 5.44 squares (Use 6 square modules). Pad may be 2 modules x 3 modules (4” x 6”) or 1 module x 6 modules (2” x 12”) Metric Units Example– Load is 5000 kgs. 50 Duro capacity is 80 kgs. 5000/80 = 62.5 squares (minimum). Pad may be 8 modules x 8 modules (400 x 400mm) or 7 modules x 10 modules (350 x 500mm) or 6 modules x 11 modules (300 x 550mm) etc. PADS MAY BE STACKED WITH 16 GAUGE (1.6MM) SHIMS BETWEEN LAYERS FOR INCREASED DEFLECTION. SizeMax. Load Type(inches) (mm)(lbs) (kgs) 10 x 12 x 11⁄4 250 x 300 x 32 6000 2722 10 x 10 x 11⁄4 250 x 250 x 32 5000 2268 WMSW-8 x 8 x 11⁄4 200 x 200 x 32 3200 1452 6 x 6 x 11⁄4 150 x 150 x 32 1800 816 6 x 4 x 11⁄4 150 x 100 x 32 1200 544 10 x 12 x 1 250 x 300 x 25 6000 2722 10 x 10 x 1 250 x 250 x 25 5000 2268 MBSW-8 x 8 x 1 200 x 200 x 25 3200 1452 6 x 6 x 1 150 x 150 x 25 1800 816 6 x 4 x 1 150 x 100 x 25 1200 544 THROUGH HOLE FRICTION PAD ONTOP MBSW When there is a concentrated load because of a small leg on a heavy machine or a formed sheet metal leg without a bottom surface, you can always cut a pad to size and cement your own steel plate on top. Usually it is more convenient to buy them, so we offer two types. The WMSW has the cemented steel plate sandwiched between a super waffle pad on the bottom and a 1/4” friction pad on the top. No bolting required. The MBSW replaces the friction pad on top with a 3/4” diameter center hole for bolting through. We provide a 3/4” neoprene isolation washer cemented to a steel washer as well. WMSW WMSW and MBSW PAD ASSEMBLIES Special Sizes on Request QuietPerf Sound Absorption Panels Durable Perforated Metal Acoustic Panels Designed to Control Reverberation and Reduce Noise Test Cells Gymnasiums Auditoriums Class Rooms Community Centers Studios Generator Enclosures Mechanical Rooms Waste Water Treatment Corridors Correctional Facilities Transportation Convention Centers Anywhere reverberation or echo is a problem www.noisebarriers.com Standard Panels: NB-II, 2” thick x 18” wide x up to 144” long NB-IV, 4” thick x 14” wide x up to 144” long NB-II “V” groove, 2-1/2” thick x 30” wide x up to 144” long NS, 4” thick x 48” wide x up to 144” long Rugged 20 gauge perforated galvanized/ galvannealed steel Light weight and corrosive resistant 0.032 perforated aluminum Features and Options: 16 gauge “Z”, “J” and “Hat” channel mounting systems Polyester Powder-Coating available in all RAL colors High abuse resistance for harsh environments Concealed mounting brackets are available Poly-bagged fill protection is available Graffiti Resistant coatings are available Custom sizes and configurations are available Installation Options: Wall or Ceiling Vertical or Horizontal Interior or Exterior capabilities www.noisebarriers.com 2001 Kelley Court Libertyville, IL 60048 Phone: (847) 843-0500 Fax: (847) 843-0501 QP-03-10-E-JLK 1252505001K2K4KNRCRAL Test# NB-IISteel0.250.651.061.131.111.061.00A07-124 NB-II2" Airspace Behind0.390.701.231.201.161.121.05A07-125 NB-ll-AAluminum0.270.631.09 1.061.041.030.95A08-015 NB-ll-BBagged0.350.631.08 1.120.940.770.95A03-193 NB-IVSteel0.881.161.341.251.201.131.25A07-122 NB-IV2" Airspace Behind0.941.311.431.291.261.201.30A07-123 NB-lV-AAluminum0.871.261.181.041.081.001.15A08-014 NB-lV-BBagged0.781.101.191.041.020.811.10A03-191 NB-ll-V2 1/2" Thick0.460.861.361.201.030.831.10A04-056 Please contact us for specific product specifications and descriptions. CAD drawings and configurations to meet special requirements are available upon request. Acoustic Performance Data Sound Absorption Coefficient 1/3 Octave Band Center Frequency, Hz All tests Conducted at Riverbank Acoustic Laboratories. Sound Absorption Coefficients by the Reverberation Room Method ASTM C-423-02. PO W E R EF - 1 P A N A S O N I C F V - 1 1 V Q 5 B A T H B A T H C E I L I N G 9 0 1 , 1 6 1 0 . 2 5 2 0 . 7 W 1 0 . 4 I N T E R G R A L B A C K D R A F T D A M P E R , I N T E R L O C K W I T H W A L L S W I T C H EF - 2 P A N A S O N I C F V - 0 8 V Q 5 B A T H B A T H C E I L I N G 6 5 1 , 0 8 9 0 . 2 5 1 4 . 5 W 1 0 . 4 I N T E R G R A L B A C K D R A F T D A M P E R , I N T E R L O C K W I T H W A L L S W I T C H LO C A T I O N OP E R . WT . ( L B S ) TY P E EX H A U S T F A N S C H E D U L E OR E Q U I V A L E N T UN I T TA G MA N U F A C T U R E R & MO D E L N O . RE M A R K S 12 0 / 1 / 6 0 12 0 / 1 / 6 0 SE R V I C E TO T A L CF M FA N RP M ES P ( I N ) EL E C T R I C A L D A T A V / P H / H z UN I T TA G MA N U F A C T U R E R & M O D E L N O D E S C R I P T I O N W A S T E V E N T CO L D WA T E R HO T WA T E R RE M A R K S LV L A V A T O R Y 1 - 1 / 2 " 1 - 1 / 2 " 1 / 2 " 1 / 2 " - WC W A T E R C L O S E T 3 " 2 " 1 / 2 " - - SH S H O W E R 2 " 1 - 1 / 2 " 3 / 4 " 3 / 4 " - BT B A T H T U B 2 " 1 - 1 / 2 " 3 / 4 " 3 / 4 " - BS B A R S I N K 1 - 1 / 2 " 1 - 1 / 2 " 1 / 2 " 1 / 2 " PL U M B I N G F I X T U R E C O N N E C T I O N S C H E D U L E PL U M B I N G F I X T U R E S P E C I F I C A T I O N S & H A R D W A R E SE L E C T I O N T O B E B Y T H E A R C H I T E C T . CF M ES P (I N . ) CF M ES P (I N . ) OA EA T SA EA T OA EA T SA EA T P ( W ) L ( I N ) W I N ) ER V - 1 P A N A S O N I C - F V - 0 4 V E 1 IN T E R I O R RO O M V E N T CE I L I N G 3 0 0 . 1 0 4 0 0 . 1 0 - 2 0 4 0 8 5 8 2 2 3 2 0 . 7 5 1 6 . 7 5 2 4 B A C K D R A F T D A M P E R O N E X H A U S T , W A L L S W I T C H EN E R G Y R E C O V E R Y U N I T S C H E D U L E DI M E N S I O N S V / P H / H z UN I T TA G MA N U F A C T U R E R & MO D E L N O . OP E R . WT . ( L B S ) RE M A R K S SU P P L Y 12 0 / 1 / 6 0 SE R V I C E EX H A U S T W I N T E R LO C A T I O N EL E C T R I C A L D A T A SU M M E R OR E Q U I V A L E N T CO O L CA P ( M B H ) SE E R W ( I N ) D ( I N ) H ( I N ) WE I G H T (L B S ) MC A W ( I N ) D ( I N ) H ( I N ) WE I G H T (L B S ) MC A W AC - 1 DA I K I N F T X N 0 9 K E V J U & RK N 0 9 K E V J U MA S T E R BE D R O O M 9. 0 1 8 . 0 3 0 . 2 5 7 . 7 5 1 1 . 1 3 1 6 - 2 8 . 8 8 1 0 . 8 8 2 4 . 6 3 6 6 4 7 9 0 N E O P R E N E V I B R A T I O N I S O L A T I O N F O R C O N D E N S I N G U N I T . 20 8 / 1 / 6 0 UN I T TA G MA N U F A C T U R E R & MO D E L N O . V / P H / H z SE R V I C E RE M A R K S SY S T E M I N D O O R U N I T O U T D O O R U N I T E L E C T R I C A L D A T A MI N I S P L I T A I R C O N D I T I O N I N G U N I T S C H E D U L E PR O J E C T : L I O N S Q U A R E E A S T PR O J E C T # : 1 1 0 5 5 CL I E N T : M E L I C K A S S O C I A T E S EN G I N E E R : D C F DE S C R I P T I O N : P A N E L U N I T 3 0 7 VO L T A G E : 1 2 0 / 2 0 8 V , 1 P , 3 W MO U N T I N G : R E C E S S E D MA I N S : 1 5 0 A M L O TY P E : Q O R E S I D E N T I A L AI C : S E R I E S R A T E T O 4 2 k PH A S E P H A S E DE S C R I P T I O N A B B K R P C I R C I R P B K R A B D E S C R I P T I O N KI T C H E N A P P L . C I R C U I T 1 5 0 0 2 0 1 1 2 2 5 0 4 0 0 0 R A N G E KI T C H E N A P P L . C I R C U I T 1 5 0 0 2 0 1 3 4 4 0 0 0 " DI S H W A S H E R 1 2 0 0 2 0 1 5 6 1 2 0 1 7 9 1 E R V - 1 / O F F I C E / B A / H A L L L T G W L I V I N G R O O M F P / R E C ( 8 ) 1 6 4 0 2 0 1 7 8 1 2 0 9 0 0 B E D 1 0 7 R E C ( 5 ) KI T C H E N / L I V I N G R M L T G 1 7 2 6 2 0 1 9 1 0 1 2 0 9 0 0 B E D 1 0 8 R E C ( 5 ) DI S P O S A L 1 0 0 0 2 0 1 1 1 1 2 1 2 0 1 2 6 0 L O F T B R R E C ( 7 ) MI C R O W A V E 0 2 0 1 1 3 1 4 1 2 0 5 7 0 B A T H 1 0 5 E F - 2 / R E C ( 3 ) RE F R I G E R A T O R 0 2 0 1 1 5 1 6 1 2 0 1 0 8 4 B A T H E F / H L ' S DI N I N G R E C 1 5 0 0 2 0 1 1 7 1 8 1 2 0 5 4 0 B A T H 1 0 6 R E C ( 3 ) E L I V I N G R O O M R E C ( 7 ) 1 2 6 0 2 0 1 1 9 2 0 1 2 0 1 8 0 ( E ) A V R E C LO F T R E F R I G E R A T O R 1 0 0 0 2 0 1 2 1 2 2 2 3 0 2 5 0 0 D R Y E R LO F T O F F I C E R E C ( 7 ) 1 6 2 0 2 0 1 2 3 2 4 2 5 0 0 " LO F T O F F I C E R E C ( 7 ) 1 6 2 0 2 0 1 2 5 2 6 1 2 0 1 0 0 0 W A S H E R LA U N D R Y C I R C U I T 1 5 0 0 2 0 1 2 7 2 8 1 2 0 1 2 6 0 B E D 1 0 7 / B A L C O N Y R E C ( 7 ) LO F T C L O S E T / H A L L R E C ( 5 ) 9 0 0 2 0 1 2 9 3 0 1 2 0 9 0 0 B E D 1 0 8 R E C ( 5 ) LO F T B E D / B A T H L T G 1 8 3 6 2 0 1 3 1 3 2 1 2 0 1 2 6 0 L O F T B R R E C ( 7 ) KI T C H E N / H A L L / B A T H L T G 1 6 8 5 2 0 1 3 3 3 4 1 2 0 3 6 0 L O F T B A R R E C ( 2 ) BE D / B A T H L T G 1 7 2 3 2 0 1 3 5 3 6 1 2 0 1 8 0 B A T H 2 0 3 R E C ( 1 ) CO N D E N S I N G U N I T 3 9 5 2 0 2 3 7 3 8 0 S P A C E " 3 9 5 3 9 4 0 1 2 0 5 7 0 B A T H 2 0 4 E F - 2 / R E C ( 3 ) SP A C E 0 4 1 4 2 0 S P A C E LO A D C A L C U L A T I O N S U M M A R Y P A N E L I S E X I S T I N G F R O M B A S E B U I L D I N G C O N S T R U C T I O N . N O T E : P R O V I D E A R C - F A U L T C I R C U I T I N T E R R U P T E R P R O T E C T I O N A T B E D R O O M R E C E P T A C L E C I R C U I T S . CA L C U L A T E D P O W E R F A C T O R : 1 . 0 0 B R E A K E R S M U S T B E S E R I E S R A T E D W I T H F E E D E R B R E A K E R T O 4 2 k A I C . CO N N E C T E D L O A D CO N N E C T E D A M P S DE M A N D L O A D DE M A N D A M P S AP P L I A N C E S 4 2 0 0 2 0 3 1 5 0 1 5 LI G H T I N G & R E C E P T . 3 0 6 2 1 1 4 7 1 2 6 6 7 6 1 ME C H A N I C A L 9 3 4 4 1 1 3 1 . 5 5 KI T C H E N O V E N & D R Y E R 1 4 0 0 0 6 7 1 2 4 0 0 6 0 TO T A L 4 9 7 5 5 2 3 9 2 9 3 4 9 1 4 1 Fi x t u r e Ty p e La m p T y p e Q u a n t i t y Fi x t u r e Ty p e La m p T y p e Q u a n t i t y A2 I N C A N D E S C E N T 1 6 D 1 L E D 1 1 D4 I N C A N D E S C E N T 5 D 2 L E D 1 7 D7 I N C A N D E S C E N T 1 1 D 5 L E D 4 D8 I N C A N D E S C E N T 2 D 6 L E D 8 ID 1 I N C A N D E S C E N T 6 E 1 C F L 3 ID 2 I N C A N D E S C E N T 2 E F - 2 C F L 2 ID 3 I N C A N D E S C E N T 4 L 2 L E D 3 HL - 1 I N C A N D E S C E N T 4 L 3 L E D 3 RL I N C A N D E S C E N T 1 L 4 L E D 1 L5 L E D 3 In c a n d e s c e n t T o t a l : 5 1 H i g h - E f f i c a c y T o t a l : 5 5 Pe r c e n t H i g h - E f f i c a c y : 5 1 . 8 9 % (m u s t b e m i n i m u m o f 5 0 % ) IE C C 2 0 0 9 C A L C U L A T I O N - U N I T 3 0 7 In c a n d e s c e n t F i x t u r e s H i g h E f f i c a c y F i x t u r e s TA G DE S C R I P T I O N LO A D VO L T A G E PH A S E WIRE SIZE (CU)CONNECTIONCIRCUIT BREAKERREMARKS HE A T L A M P / D O W N L I G H T # 1 . I C - THERMAL250W BR40 HEAT LAMP & 75W HL - 1 R A T E D . E C T O P R O V I D E 3 2 5 W 1 2 0 1 ( 2 # 1 2 , 1 # 1 2 G ) 1 / 2 " C O V E R L O A D 2 0 A 1 P P A R 3 0 F L O O D L A M P . P R O V I D E NU T O N E # 9 4 2 2 P . SWITCHTENT TO MAINTAIN FIRE RATING.HEAT LAMP SCHEDULE NO T E : E C T O V E R I F Y E L E C T R I C A L R E Q U I R E M E N T S F O R A L L M E C H A N I C A L E Q U I P M E N T P R I O R T O R O U G H - I N . TY P E D E S C R I P T I O N M A N U F A C T U R E R C A T A L O G N U M B E R M O U N T I N G N O L A M P V O L T S D I M E N S I O N S R E M A R K S 4" R E C E S S E D L O W V O L T A G E A D J U S T A B L E A2 D O W N L I G H T , I C R A T E D , W H I T E B A F F L E J U N O I C 4 4 N & 4 4 4 W - W H R E C E S S E D 1 5 0 W M R 1 6 1 2 0 / 1 2 1 5 - 1 / 2 " L X 9 - 1 / 8 " W X 40 ° F L O O D 7 - 5 / 8 " H 4" R E C E S S E D O P E N L E D D O W N L I G H T , D I M M A B L E , D1 I C R A T E D , S M O O T H W H I T E T R I M C R E E R C 6 & L R 6 & L T 6 W H R E C E S S E D N / A 1 0 . 5 W L E D , 2 7 0 0 K 1 2 0 7 . 5 " L X 1 2 . 5 " W X 7 . 5 " H AD D A L T T O T Y P E D 1 : 4 " R E C E S S E D L E D O P E N AD D A L T E R N A T E T O T Y P E D 1 . D1 A D O W N L I G H T W W A R M D I M , D I M M A B L E , I C R A T E D , J U N O I C 1 L W D G 3 - 3 K - 1 & 1 4 W - W H R E C E S S E D N / A 1 4 W L E D , 3 0 0 0 K 1 2 0 9 - 1 / 2 " L X 6 - 3 / 4 " W X 6 " H WH I T E B A F F L E 4" R E C E S S E D O P E N L E D D O W N L I G H T , D I M M A B L E , D2 I C R A T E D , S M O O T H W H I T E T R I M C R E E R C 6 & L R 6 & L T 6 W H R E C E S S E D N / A 1 0 . 5 W L E D , 2 7 0 0 K 1 2 0 7 . 5 " L X 1 2 . 5 " W X 7 . 5 " H AD D A L T T O T Y P E D 2 : 4 " R E C E S S E D O P E N L E D AD D A L T E R N A T E T O T Y P E D 2 . D2 A D O W N L I G H T , D I M M A B L E , I C R A T E D , W H I T E B A F F L E J U N O I C 1 L E D G 3 - 2 7 K - 1 & 1 4 W - W H R E C E S S E D N / A 1 1 W L E D , 2 7 0 0 K 1 2 0 9 - 1 / 2 " L X 6 - 3 / 4 " W X 6 " H 6" R E C E S S E D I N C A N D E S C E N T S L O P E C E I L I N G RE F A R C H P L A N S F O R S L O P E / D4 O P E N D O W N L I G H T , I C R A T E D , W H I T E B A F F L E J U N O I C 9 2 6 & 6 1 4 W - W H R E C E S S E D 1 9 0 W P A R 3 8 1 2 0 1 3 - 1 / 8 " L X 9 - 1 / 8 " W X V E R I F Y I N F I E L D 7- 5 / 8 " H 6" R E C E S S E D L E D S L O P E C E I L I N G D O W N L I G H T , RE F A R C H P L A N S F O R S L O P E / D5 6 0 0 L U M E N S , W H I T E B A F F L E , I C R A T E D J U N O I C 9 2 6 L E D 6 - 2 7 K - 1 & 6 1 4 W - W H R E C E S S E D N / A 1 4 W L E D 1 2 0 1 3 - 1 / 8 " L X 9 - 1 / 8 " W X V E R I F Y I N F I E L D 27 0 0 K 7 - 5 / 8 " H 4" R E C E S S E D L E N S E D L E D D O W N L I G H T , D I M M A B L E , D6 I C R A T E D , F R O S T E D P E R I M E T E R L E N S , W E T J U N O I C 1 L E D G 3 - 2 7 K - 1 & 1 2 W - W H R E C E S S E D N / A 1 1 W L E D , 2 7 0 0 K 1 2 0 9 - 1 / 2 " L X 6 - 3 / 4 " W X 6 " H LO C A T I O N 6" R E C E S S E D I N C A N D E S C E N T O P E N D O W N L I G H T , D7 I C R A T E D , F U L L W H I T E B A F F L E C A P R I C R 1 - R B 3 0 W R E C E S S E D 1 5 0 W P A R 3 0 L N 1 2 0 9 - 1 / 8 " L X 6 - 3 / 4 " W X 6 " H FL O O D - 3 6 ° M I N . 4" R E C E S S E D I N C A N D E S C E N T O P E N D O W N L I G H T , AD D A L T E R N A T E T O T Y P E D 7 . D7 A I C R A T E D , W H I T E B A F F L E J U N O I C 1 & 1 4 W - W H R E C E S S E D 1 5 0 W P A R 2 0 1 2 0 9 - 1 / 8 " L X 6 - 3 / 4 " W X 6 " H FL O O D - 3 6 ° M I N . EX I S T I N G R E C E S S E D I N C A N D E S C E N T F I X T U R E T O RE V I E W W I T H E N G I N E E R I F D8 B E R E U S E D A S T A G G E D O N P L A N - V E R I F Y E X I S T I N G E X I S T I N G R E C E S S E D 1 E X I S T I N G 1 2 0 E X I S T I N G ( E ) F I X T U R E I S N O T I C - R A T E D FIX T U R E I S I C & A I R T I G H T P E R I E C C AN D A I R T I G H T . CO M P A C T F L U O R E S C E N T W A L L S C O N C E , W E T FI X T U R E I S E X I S T I N G F R O M E1 L O C A T I O N , P R O V I D E D I N B A S E B U I L D I N G P H A S E , N / A N / A W A L L 1 2 6 W C F L 1 2 0 N / A B A S E B U I L D I N G P H A S E - SH O W N F O R R E F E R E N C E O N L Y CI R C U I T A S S H O W N ID 1 S C O N C E L I G H T B Y O T H E R S B Y O T H E R S W A L L T B D I N C A N D E S C E N T - T B D 1 2 0 T B D ID 2 A R T L I G H T B Y O T H E R S B Y O T H E R S W A L L T B D I N C A N D E S C E N T - T B D 1 2 0 T B D ID 3 C E I L I N G F A N W I T H L I G H T B Y O T H E R S B Y O T H E R S C E I L I N G T B D I N C A N D E S C E N T - T B D 1 2 0 T B D L2 1 6 " L E D L I G H T B A R , D I M M A B L E , A L U M I N U M G M L I G H T I N G L T A B - N - 1 6 - 2 7 S U R F A C E N / A 3 . 3 6 W L E D , 2 7 0 0 K 1 2 0 1 5 - 1 / 4 " L X . 3 2 " W X . 2 5 " H L3 2 4 " L E D L I G H T B A R , D I M M A B L E , A L U M I N U M G M L I G H T I N G L T A B - N - 2 4 - 2 7 S U R F A C E N / A 5 . 2 W L E D , 2 7 0 0 K 1 2 0 2 3 - 5 / 8 " L X . 3 2 " W X . 2 5 " H 36 " L E D C L O S E T L I G H T F O R U S E I N C L O S E T T E C H N O L O G Y B Y L4 S T O R A G E S P A C E P E R N E C , N O N - D I M M A B L E D E S I G N T B D - J - 3 6 - 2 4 - 1 - 2 - 1 5 - W - S - S S U R F A C E N / A 1 5 W L E D , 2 8 0 0 K 1 2 0 3 6 " L X 1 . 0 2 4 " Ø 24 " L E D C L O S E T L I G H T F O R U S E I N C L O S E T T E C H N O L O G Y B Y L5 S T O R A G E S P A C E P E R N E C , N O N - D I M M A B L E D E S I G N T B D - J - 2 4 - 2 4 - 1 - 2 - 1 0 - W - S - S S U R F A C E N / A 1 0 W L E D , 2 8 0 0 K 1 2 0 2 4 " L X 1 . 0 2 4 " Ø LU M I N A I R E S C H E D U L E - U N I T 3 0 7 NO T E : A L T E R N A T E E Q U I V A L E N T L I G H T I N G P A C K A G E S A C C E P T E D W I T H E N G I N E E R ' S R E V I E W O F S U B M I T T A L . F I X T U R E S M A R K E D " E " A R E E X I S T I N G T O R E M A I N I N P L A C E . TA G DE S C R I P T I O N LO A D VO L T A G E PH A S E WIRE SIZE (CU)CONNECTIONCIRCUIT BREAKERREMARKS PROVIDE INTERCONNECTION AC - 1 A I R C O N D I T I O N I N G U N I T # 1 7 9 0 W 2 0 8 1 ( 3 # 1 2 , 1 # 1 2 G ) 1 / 2 " C 3 0 / 2 2 0 A 2 P F R O M A C U N I T T O I N T E R I O R FAN COIL UNIT(S)THERMAL EF - 1 E X H A U S T F A N # 1 2 1 W 1 2 0 1 ( 2 # 1 2 , 1 # 1 2 G ) 1 / 2 " C O V E R L O A D 2 0 A 1 P SWITCH THERMAL29.5W FAN, (1) 32W CFL LAMP, EF - 2 E X H A U S T F A N # 2 6 6 W 1 2 0 1 ( 2 # 1 2 , 1 # 1 2 G ) 1 / 2 " C O V E R L O A D 2 0 A 1 P 4 W N I G H T SWITCH THERMAL ER V - 1 E N E R G Y R E C O V E R Y U N I T # 1 2 3 W 1 2 0 1 ( 2 # 1 2 , 1 # 1 2 G ) 1 / 2 " C O V E R L O A D 2 0 A 1 P SWITCH ME C H A N I C A L S C H E D U L E NO T E : E C T O V E R I F Y E L E C T R I C A L R E Q U I R E M E N T S F O R A L L M E C H A N I C A L E Q U I P M E N T P R I O R T O R O U G H - I N .