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DRAWINGSREVISION LOG %" CONGRESS AVENUE BOYNTON BEACH, FLORIDA REV # DATE DESCRIPTION SHEETS AFFECTED 1 09/10/13 REVISED PER FIRE MARSHALL COMMENTS FP -1 FP -2 FP -3 HANGER LOCATION DETAIL CPUC PIPE >100mi PIPE SIZE A (MAX) B (MAX) C (MAX) 3/" 0-6 5-6 3-0 1" 0'-9" 6'— 0 4 —0 1%" 1 7_07)67-6)) 5 7-0 1%z" 1 7-0))7 —0 7 —0 2" 1 —0 j__8_'_—_0 12 1 7 7-0 A C B C CPVC PIPE lid SPRINKLER HEAD HANGER RING DROP TEE 1/2" (15 mm)N CPVC PIPE STRAP P T " 2-1/4 k. r 1-1/2" (58 mm) (38.1 mm) CPVC PIPE SHOT & PIN s' 1-1/8" (28,7 In m) DOUBLE FASTENER CPVC PIPE STRAP VIKING RESIDENTIAL WHITE PENDENT SIN VK468 HANGER APPLICATION I CENCRETE DECK RESTRAINER APPLICATION POWDER DRIVEN STUD ROD COUPLING ry. CPVC PIPE ! ALL THREAD ROD SHOT & PIN PIPE RING S yy'r POWDER DRIVEN STUD SINGLE FASTENER HANGER CPVC PIPE STRAP CALC AREA — A Hydraulically Calculated System This system as shown on Al FIRE & SECURITY company print no IEE=dated 08/30/13 for FBOYNTON LANDING CONDOMINIUM at I BOYNTON BEACH, FL contract no 38583 is designed to discharge at a rate of '05 :1gpm (L/min) per sq ft (m2) of floor area over a maximum area of 4 HEADS Isq ft (m2) when supplied with water rate of 155.3 gpm (L/min) at 32.1 psi (bars) at the base of the riser Hose allowance of 100 gpm (L/min) is included in the above. Occupancy classification LIGHT HAZARD Commodity classification N/A Maximum storage height N/A Installed by Al FIRE AND SECURITY LLC FLOW TEST INFO. STATIC: 45 psi RESIDUAL: 33 psi FLOW: 1 160 9PM DATE: 08/22/2013 TIME: 04:00 PM LOCATION: TAKEN AT GATEWAY BLVD SOURCE OF INFORMATION: BOYNTON BEACH FIRE RESCUE DEPARTMENT NOTE: BOYNTON BEACH REQUIRES A "DROUGHT CONDITION" FLOW TEST TO BE USED FOR CALCULATIONS. NUMBERS IN BRACKETS ARE THE ACTUAL RESULTS OF THE FLOW TEST. NFPA 13R 6.4.1 — AT LEAST THREE SPARE SPRINKLERS OF EACH TYPE TEMPERATURE RATING, AND ORIFICE SIZE USED IN THE SYSTEM SALL BE INSTALLED ON PREMISES Al RISER PIPING SH❑WN GOING UP TO 3RD FLOOR NOT IN CONTRACT ONLY BEING USED FOR REFERENCE RISER DETAIL IS USED JUST FOR REFERENCE RISER NOT EXPOSED EXISTING 22" RISER 0 0 0 0 0 , FIRE SPRINKLER SPECIFICATI❑NS -ALL MATERIALS USED SHALL BE IN ACCORDANCE WITH NEPA 13R AND THE LOCAL AUTHORITY HAVING JURISDICTI❑N, Al -ALL TABLES AND CODE REFERENCES ARE TAKEN FROM NEPA 13R - 2007 EDITION, PIPE 5.2.1 PIPE OR TUBE USED IN SPRINKLER SYSTEMS SHALL BE OF THE MATERIALS SPECIFIED IN TABLE 5.2.1 OR SHALL BE IN ACCORDANCE WITH 5.2.2 -PIPE INTENDED FOR INSTALLATION AND USED FOR CALCULATIONS IS CPVC, ,II FITTINGS 5.2.7 FITTINGS USED IN SPRINKLER SYSTEMS SHALL BE OF MATERIALS LISTED IN TABLES 5.2.7 OR SHALL BE IN ACCORDANCE WITH 5.2.10. _ 5.2.10 TYPES OF FITTINGS OTHER THAN THOSE SPECIFIED IN TABLE 5,2.7 SHALL BE PERMITTED TO BE USED WHERE CL LISTED FOR SPRINKLER SYSTEM USE, 5.2.10.2 CHLORINATED POLYVINYL CHLORIDE (CPVC) AND POLYBUTYLENE CPB) FITTINGS SHALL COMPLY WITH PORTI❑NS OF THE AMERICAN SOCIETY FOR TESTING AND MATERIALS (ASTM) STANDARDS SPECIFIED IN TABLE 5.2.10.2 THAT APPLY TO FIRE PROTECTION, Uj VALVES 6.6.1 VALVES, 6.6.1.1 A SINGLE CONTROL VALVE ARRANGED TO SHUT OFF BOTH THE DOMESTIC SYSTEM AND THE SPRINKLER` SYSTEM SHALL BE INSTALLED FOR SYSTEMS WITH COMMON SPRINKLER/DOMESTIC MAINS UNLESS A SEPARATE 0 - SHUTOFF VALVE FOR THE SPRINKLER SYSTEM IS INSTALLED IN ACCORDANCE WITH 6.612. Uj 6,61.2 THE SPRINKLER SYSTEM PIPING SHALL NOT HAVE A SEPARATE CONTROL VALVE INSTALLED UNLESS SUPERVISED BY ONE OF THE FOLL❑WING METH❑DS1 (1) CENTRAL STATION, PROPRIETARY, OR REMOTE STATI❑N ALARM SERVICE (2) LOCAL ALARM SERVICE THAT CAUSES THE SOUNDING OF AN AUDIBLE SIGNAL AT A CONSTANTLY ATTENDED LOCATI❑N 0 (3) VALVES THAT ARE LOCKED OPEN 6.6.1.3 A SEPARATE SHUTOFF VALVE SHALL BE INSTALLED FOR THE DOMESTIC WATER SUPPLY IN INSTALLATI❑NS HAVING A COMMON SPRINKLER/DOMESTIC MAIN, HANGERS I 6.6.6* PIPING SUPPORT, PIPING HANGING AND BRACING METHODS SHALL COMPLY WITH NFPA 13, STANDARD FOR THE ; INSTALLATI❑N OF SPRINKLER SYSTEMS, �- LOCATIONS OF SPRINKLERS 6.8 LOCATION OF SPRINKLERS, 6.8.1 SPRINKLERS SHALL BE INSTALLED IN ALL AREAS EXCEPT WHERE ❑MISSION IS PERMITTED BY 6,82 THROUGH 3 6.8.2 SPRINKLERS SHALL NOT BE REQUIRED IN BATHROOMS WHERE BOTH OF THE FOLLOWING CONDITIONS ARE MET; (1) THE BATHROOM AREA DOES NOT EXCEED 55 FT2 (5.1 M2). (2) THE WALLS AND CEILINGS, INCLUDING WALLS AND CEILINGS BEHIND FIXTURES, ARE OF NONCOMBUSTIBLE OR LIMITED -COMBUSTIBLE MATERIALS PROVIDING A 15 -MINUTE THERMAL BARRIER, 6.8.3 SPRINKLERS SHALL NOT BE REQUIRED I.N CLOTHES CLOSETS, LINEN CLOSETS, AND PANTRIES WITHIN THE DWELLING UNITS THAT MEET ALL OF THE FOLLOWING CONDITIONS1 (1) THE AREA OF THE SPACE DOES NOT EXCEED 24 FT2 (2.2 M2). (2) THE LEAST DIMENSI❑N DOES NOT EXCEED 3 FT (0.91 M). (3) THE WALLS AND CEILINGS ARE SURFACED WITH NONCOMBUSTIBLE OR LIMITED -COMBUSTIBLE MATERIALS AS DEFINED BY NFPA 220,_ STANDARD ON TYPES OF BUILDING CONSTRUCTION, 6.8.4 SPRINKLERS SHALL NOT BE REQUIRED IN ANY PORCHES, BALCONIES, CORRIDORS, AND STAIRS THAT ARE OPEN 0 AND ATTACHED, 6.8.5 SPRINKLERS SHALL NOT BE REQUIRED IN ATTICS, PENTHOUSE EQUIPMENT ROOMS, ELEVATOR MACHINE ROOMS, CONCEALED SPACES DEDICATED EXCLUSIVELY TO AND CONTAINING ONLY DWELLING UNIT VENTILATION EQUIPMENT,CD CRAWL SPACES, FLOOR/CEILING SPACES, ELEVATOR SHAFTS, AND OTHER CONCEALED SPACES THAT ARE NOT USED OR INTENDED FOR LIVING PURPOSES OR STORAGE AND D❑ NOT CONTAIN FUEL -FIRED EQUIPMENT, 6.8.6 SPRINKLERS SHALL NOT BE REQUIRED IN CLOSETS ON EXTERIOR BALCONIES, REGARDLESS OF SIZE, AS LONG AS THERE ARE NO DORS OR UNPROTECTED PENETRATIONS FROM THE CLOSET DIRECTLY INTO THE DWELLING UNIT, z FIRE DEPARTMENT CONNECTI❑NS W 6.6.4,1 AT LEAST ONE FIRE DEPARTMENT C❑NNECTI❑N SHALL BE PROVIDED FOR BUILDINGS ACCESSIBLE BY A FIRE "j DEPARTMENT THAT EXCEED 2000 FT2 (186 M2) OR ARE MORE THAN A SINGLE STORY, M 6.6.4.2 FIRE DEPARTMENT CONNECTIONS SHALL BE AT LEAST 1� Z 6 SPRINKLERS z I 5.1.1 ONLY NEW SPRINKLERS SHALL BE INSTALLED IN SPRINKLER SYSTEMS, b.0 � 5.1.2 ONLY LISTED OR SUPPORTED DEVICES AND MATERIALS AS SPECIFIED IN THIS STANDARD SHALL BE USED IN SPRINKLER SYSTEMS, TYPES OF SPRINKLERS SHALL BE IN ACCORDANCE WITH 6.6,7. -SPRINKLERS USED IN CALCULATIONS ARE VIKING VK468 RECESSED RESIDENTIAL PENDANT (K=4.9). -SEE SPRINKLER PLAN FOR LOCATION AND SYMBOLS TO BE USED FOR SPRINKLERS, GENERAL NOTES -ALL FIRE SPRINKLER WORK TO BE INSTALLED BY A CERTIFIED FIRE SPRINKLER CONTRACTOR IN THE STATE OF FLORIDA, -SPRINKLER SYSTEM IS DESIGNED PER NFPA 13R AND THE LOCAL AUTHORITY HAVING JURISDICTION _ M SPRINKLER DEMAND SHALL CONSIST OF .05gpm/sgft OVER ALL THE SPRINKLERS WITHIN A COMPARTMENT UP TO AZ CO MAXIMUM OF 4 SPRINKLERS, SPRINKLERS SHALL BE CALCULATED IN ACCORDANCE WITH THEIR LISTING. V -FULL FORWARD TESTING OF BACKFLOW DEVICE SHALL BE CONDUCTED THROUGH DRAIN VALVE, Z co W -ALL SPRINKLER PIPE TO BE HYDROSTATICALLY TESTED TO 200ps1 FOR 2 HOURS, 0 WcoC) -SPRINKLER SYSTEM TO BE INSPECTED BY THE CITY OF BOYNTON BEACH FLORIDA. `>, z 0 P ALL MATERIAL APPLICABLE TO THIS PROJECT WILL BE INDICATED WITH Ai c' -ALL PLASTIC PIPE J" THROUGH 2j" SHALL BE UL LISTED OR FM APPROVED CPVC MANUFACTURED IN ACCORDANCE cc W ei WITH ASTM F442., -ALL PLASTIC FITTINGS SHALL BE UL LISTED OR FM APPROVED MANUFACTURED IN ACCORDANCE WITH ASTM F438, z° ASTM F439 OR ASTM F1970. ° LLw _ l� X -ALL CPVC PIPE AND FITTINGS SHALL BE ASSEMBLED USING ONE STEP 500 CEMENT. �� 4 -CPVC PIPE SHALL BE ALLOWED TO BE USED IN ORDNIARY HAZARD ROOMS OF 400 SQUARE FEET OR LESS OF J _ � THERWISE LIGHT HAZARD OCCUPANCIES (NFPA 13 SECTI❑N 6.3.6.2),z C4 Q El 1'k z E- Z z 0 CJ C\2 rn � EJNJNA . J 6 ✓ .,� ! tB ;mssu,ibing u r Fire Police n$, er , is ti" t processe, 3 mss, g3`' 3 a(y3 s x A § ? ?1!(s arc invoicePerm �� S # �,ey,o€S leo F w �_ RE 1 r { �� 1 ?3 G ; F— . ALL EXTERIOR WALLS AND TE SEPARATION WALLS ARE FIRE EXTIRE BUILDING IS RESIDEN' ALL EXTERIOR WALLS A SEPARATION WALLS ARE EXTIRE BUILDING IS RE SECOND FLOOR SCALE: ,ia = ,—o FIRE SPRINKLER PLANO FIRST FLOOR FIRE SPRINKLER PLANf"N SCALE: 1/8" = 1'-0" %JUS" v RE t ,-,Yp'.�.REC to 11-ta 0301la S �C3 \b 3,5.4 ty .. ,5' � �.. :: L� OF WORK IS NOT IN CONTRACT WITH Al FIRE AND SECURITY LLC, ]RY RESIDENTIAL BUILDING WITH A EXISTING AUTOMATIC FIRE SPRINKLER SYSTEM, (TRACT WITH Al FIRE AND SECURITY LLC, EACH OF THOSE UNITS HAVE EXISTING IT NEED TO BE REPLACED, -ENTIRE EXISTING BUILDING IS A FULLY SPRINKLER BUILDING, -ALL EXISTING POLY-BUTYLENE FIRE SPRINKLER PIPE IS TO BE REMOVED THROUGHOUT THE 1ST AND 2ND FLOORS. -NEW RESIDENTIAL AUTOMATIC FIRE SPRINKLER WILL BE INSTALLED IN UNITS WILL PIPING BEING REPLACED, -THIS IS A PIPE REPLACEMENT PROJECT AND CALCULATI❑NS ARE PROVIDED FOR VERIFICATION PURPOSES, i' 0 z pqco co co co z r IP co 0 I W 0 0 rf�' ry z IP z X, IP 41E i' F z pqco co co co z r co 0 I W 0 0 rf�' ry z IP z X, IP 41E i' F z pqco co co co r co 0 I W 0 0 rf�' ry i' F r co 0 I W 0 rf�' ry W IP i' F r W 0 rf�' ry W z X, SHEET F 3. F- 2 System No. C–AJ-1044 (formerly system no. 319) F Rating 2, 3 and 4 Hr (see items 2A and 4) T Rating – 0 Hr System No. W–L-1001 L Rating At Ambient – 2 CFM/sq ft (Formerly System No. 147) L Rating At 400 F – less than 1 CFM/sq ft System No. C–AJ-1155 F Rating --1, 2, 3 and 4 Hr (See Items 2 and 3) F Rating 3 Hr T Ratings --O, 1, 2, 3, and 4 Hr (See Items 2 and 3) L Rating at Ambient --less than 1 CFM/sq ft T Rating 0 Hr L Rating At Ambient –Less Than 1 CFM/sq ft L Rating At 400 F --less than 1 CFM/sq ft A 4 4 L Rating At 400 F – 4 CFM/sq ft �� 'cl 'moo %01-211MIN YOM ME 3 2 A A 3 A .................... . , ............ ...... . .... .... —A SECTION A . .. ........................ . ............. ..... ................. ............ ........... 3 4B 1. floor or wall assembly –lightweight or normal weight (100-150pcf) concrete. except as noted in table under item 4, min thickness 4B of solid concrete floor or wall assembly is 4-1/2". floor may also be constructed of a min. 6" thick. ul classified hollow core f,jA precast concrete units*. when floor is constructed of hollow core precast concrete units, packing material (item 3) and caulk fill 2 material (item 4) to be installed symmetrically on both sides of . . . floor, flush with floor surface. wall assembly may also be constructed of any ul classified concrete blocks*. max. dia. of opening is in solid 2 4A A . . . 1B lightweight or normal weight concrete. floor is 32 max. dia. of opening in floor constructed of hollow–core precast concrete units is 7". SECTION A—A see concrete blocks (cazt) and precast concrete units (cftv) categories A in the fire resistance directory for names of manufacturers. 1A. steel sleeve – (optional, not shown) – max. 15" id (or smaller) schedule 10 (or heavier) steel sleeve cost or grouted into floor or wall assembly. sleeve may extend a max. of 2" above top of floor or beyond either surface of wall. max. 16" id (or smaller) min. 0.028 wall thickness (or heavier) SECTION A—A 1. Wall Assembly --The 1, 2, 3 or 4 hr fire–rated gypsum wallboard/stud galvanized steel sleeve cost or grouted into floor 'or -wall assembly. sleeve wall assembly shall be constructed of the materials and in the manner may extend a max. of 1/2" beyond either surface of floor or wall. described in the individual 0300 or U400 Series Wall or Partition Designs in the UL Fire Resistance Directory and shall include the following 2. through penetrants – one metallic pipe, conduit or tubing to'be installed construction features: either concentric ally or eccentric ally within the firestop system. max. A. Studs --Wall framing may consist of either wood studs (max 2 h fire annular space between pipe, conduit or tubing and edge of through opening rated assemblies) or steel channel studs. Wood studs to consist of or sleeve is dependent on the parameters shown in item 4. min. annular space nom 2 by 4 in. lumber spaced 16 in. OC with nom 2 by 4 in. lumber between pipe or conduit and edge of through opening is 0". (point contact). 1. Floor or Wall Assembly – Min 4-1/2 in. thick reinforced lightweight or end plates and cross braces. Steel studs to be min 3-5/8 in. wide by pipe conduit or tubing to be rigidly supported on both sides of floor or normal weight (100-150 pcf) concrete. Wall may also be constructed 1-3/8 in. deep channels spaced max 24 in. OC. wall assembly. the following types and sizes of metallic pipes, conduits or of any UL Classified Concrete Blocks*. Max diam of opening is 26 in. tubing may be used: B. Wallboard, Gypsum *--Nom 1/2 or 5/8 in. thick, 4 ft. wide with See Concrete Blocks (CAZT) category in Fire Resistance Directory square or tapered edges. The gypsum wallboard type, thickness, A. steel pipe –nom. 30" dia. (or smaller) schedule 10 (or heavier) steel pipe for names of manufacturers. number of layers, fastener type and sheet orientation shall be as B. iron pipe –nom. 30" dia. (or smaller) cost or ductile iron pipe 2. Metallic Sleeve (Optional) – Nom 24 in. diam (or smaller) Schedule 40 specified in the individual U300 or 0400 Series Design in the UL Fire C. conduit – nom. 6" dia. (or smaller) rigid steel conduit (or heavier) steel pipe cast or grouted into floor or wall assembly, Resistance Directory. Max diam of opening is 13-1/2 in. D. conduit – nom. 4" dia. (or smaller) steel electrical metallic tubing flush with floor or wall assembly. 2. Pipe or Conduit --Nom 12 in. diam (or smaller) Schedule 10 (or heavier) E. copper tubing – nom. 8" dia. (or smaller) type I (or heavier) copper tube 3. Through Penetrants – One metallic pipe or tubing to be installed either steel pipe, nom 12 in. diam (or smaller) service weight (or heavier) cast F. copper pipe – nom. 6" dia. (or smaller) regular (or heavier) copper pipe concentrically or eccentrically within the firestop system. Pipe or iron soil pipe, nom 12 in. diam (or smaller) Class 50 (or heavier) ductile tubing to be rigidly supported on both sides of floor or wall assembly. iron pressure pipe, nom 6 in. diam (or smaller) steel conduit, nom 4 in.3. packing material – polyethylene backer rod or nom. 1" thickness of tightly The annular space shall be min 0 in.(point contact) to max 2-1/4 in. diam (or smaller) steel electrical metallic tubing, nom 6 in. diam (or packed mineral wool batt or glass fiber insulation firmly packed into The following types and sizes of metallic pipes or tubing may be used: smaller) Type L or (or heavier) copper tubing or nom1 in. diam- (or opening as a permanent form. packing material to be recessed from top A. Steel Pipe Nom 20 in. diam (or smaller) Schedule 10 (or heavier) smaller) flexible steel conduit. When copper pipe is used, max F Rating surface of floor or from both surfaces of wall as required to accommodate steel pipe. of firestop system (Item 3) is 2 h. Steel pipes or conduits larger than the required thickness of caulk fill material (item 4). B. Iron Pipe Nom 20 in. diam (or smaller) cost or ductile iron pipe. nom 4 in. diam may only be used in walls constructed using steel C. Conduit – Nom 4 in. diam (or smaller) steel electrical metallic tubing channel studs. A max of one pipe or conduit is permitted in the 4. fill, void or cavity material* – caulk – applied to fill the annular space or nom 6 in. diam (or smaller) steel electrical metallic tubing or firestop system. Pipe or conduit to be installed near center of stud flush with top surface of floor. in wall assemblies, required caulk thickness nom 6 in. diam (or smaller) steel conduit. cavity width and to be rigidly supported on both sides of wall to be installed symmetrically on both sides of wall, flush with wall surface, D. Copper Tubing –Nom 6 in. diam (or smaller) Type L (or heavier) assembly. at point contact location between penetrant and sleeve or between penetrant copper tubing. 3. Fill, Void or Cavity Material*--Caulk--Caulk fill material installed to and concrete, a min. 1/4" dia. bead of caulk shall be applied at top surface E. Copper Pipe Nom 6 in. diam (or smaller) Regular (or heavier) completely fill annular space between pipe or conduit and gypsum pipe conduit or tubing to be rigidly supported on both sides of floor or wall copper pipe wallboard and with a min 1/4 in. diam bead of caulk applied toperimeterof floor and at both surfaces of wall. the hourly f ratings and the min. of pipe or conduit at its egress from the wall. Caulk installed symmetrically required caulk thickness' are dependent upon a number of parameters, as 4. Firestop System The firestop system shall consist of the following: on both sides of wall assembly. The hourly F Rating of the firestop system shown in the following table: A. Packing Material – Min 4 in. thickness of min 4.0 pcf mineral wool is dependent upon the hourly fire rating of the wall assembly in which it batt insulation firmly packed into opening as a permanent form. is installed, as shown in the following table. The hourly T Rating of the min. floor nom. pipe tube Packing material to be recessed from top end of sleeve for floors firestop system is dependent upon the type or size of the pipe or conduit orwall or conduit max. annular min. caulk f or from both ends of sleeve for walls as required to accommodate and the hourly fire rating of the wall assembly in which it is installed, as thickness, in. dia.., in. space, in. thickness, in. rating, hr. the required thickness of fill material. tabulated below: B. Fill, Void or Cavity Material* – Sealant – Min 1/2 in. thickness of 2-1/2 1/2-12 1-3/8 1/2 2 Max pipe Annular F T 2-1/2 1/2-12 3-1/4 1 2 fill material applied within the annulus, flush with the top end of 4-1/2 1/2-6 1-3/8 1/4 (A) 2 the sleeve for floors, or with both ends of the sleeve for walls. or Conduit Space Rating Rating 4-1/2 1 2-12 1-1/4 1/2 3 Min 1/2 in. thick bead of all material to be installed around pipe Diam In. In. Hr. Hr. at interface of sleeve for point contact installations. 1 3 to 3/16 1 or 2 0+, 1 or 2 4-1/2 1/2-20 2 1 3 HILT] CONSTRUC110N CHEMICALS, DIV OF 1 1/4 to 1/2 3 or 4 3 or 4 4-1/2 1/2-20 2 1 3 HILTI INC FS–ONE Sealant 4 0 to 1-1/2 1 or 2 0 4-1/2 1/2-12 3-1/4 1 3 6 1/4 to 1/2 3 or 4 0 4-1/2 1/2-6 1-3/8 1 (B) 4 12 3/16 to 3/8 1 or 2 0 (A) min. 2" thickness of mineral wool batt insulation required in annular space. (B) min. 1" thickness of mineral wool batt insulation required in annular space. on both sides of floor or wall assembly. min 1" thickness of caulk to be installed flush with each surface of floor or wall assembly. WALL DRYWALL PIPE- 1/2/3/4 HR WA��/FLR CONC PIPE 2/3/4 HR WAL /FLR CONC PIPE/LG # 1System No. W—L-1001 System N o. C—AJ-1044 Syste No. C—AJ-1155 V1 0 P. M P4 $n4 0 000&-imm 0 M ba CD 0 0 C� ,-I- If 14 a_ Z LLJ CL 0 Ld Z" 00 0 A E� LO IM, C-4 Z 00 00 co 4 VA W E_ 0 Z tv i' CO Z co 0 W CO U) > Z 0 rO X 0 0 Z ZX �J ej E-1 Z C) 0 Z Z 0 E_ Z Z ce) 0 tf SHEET IE' 0 F �6 SEP 1, 2(111, -3 FP H' E CO BUmr.5iWN10 M0: