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FA4 <br /> DESIGN <br /> Architectural <br /> Solutions Group <br /> 24558er tt VcAey Rd. Sute A- IC_ <br /> Surto Rosa CA. 95404 <br /> ��SED A RC/y/J <br /> Ne y . P QFC <br /> RBI. 1/31/ 19 <br /> del rFCFCAI\Fo <br /> Sed <br /> by <br /> k 0N m <br /> E Z Z N <br /> m 0 0 Z <br /> V 0 <br /> rn 5 <br /> a <br /> SUMP SENSOR a a ¢ w ¢ <br /> J-BOX 5; o o z <br /> DISPENSER SKIN z0 N <br /> ELBY CAPPED ELBOWo a < a o <br /> MASTER: 2 HP VARIABLE SPEED TURBINE (fie) DISPENSER TURBINE PLLD (TYP) SUMP SENSOR (TYP) �" m aJZ <br /> < a <br /> W/ 3 GPH LEAK DETECTION, V/R LID LINE SEAL OFF (TYP.) <br /> LEAK DETECTOR PART /848480-001 ANK GAUGE (lip) N z <br /> SEPARATE MANUAL #576013-902 POUR CONCRETE WITHIN THE ELECTRICAL - - <br /> OFFSET OPENING STEEL FRAME BETWEEN <br /> DISPENSER SUMP, SEAL WHERE CONCRETE w m r m m <br /> OR CONDUIT MEET STEEL SEAL THE o `zimod An <br /> "1 N <br /> DOWNSIDE OF THE SLOPE AND THE <br /> 0 CONDUIT AREA WITH 'VIILKEM 11 <br /> El <br /> L seem <br /> • ate <br /> 2' OR 3' UNISIRUT I <br /> PIPE CLAIMP AS <br /> REQUIRED <br /> 1 ' POWER/DATA 1 HYDROSTATIC ANNULAR SPACE SENSOR (TYP) 1 ' RIGID METAL CONDUIT <br /> J-BOX CONDUIT HOME RUN PER TANK FOR <br /> (Type) Is INTERCOM 2 MONITORING <br /> SEAL OFF CONDUIT A <br /> (Type) 1 ' MONITORING 3 0 <br /> \ CONDUIT <br /> Q CJ <br /> i SUMP SENSOR IN HOLDER O <br /> Let <br /> 2 TO BUILDING U <br /> EACH DISPENSER REQUIRES THREE CONDUITS FOR FIELD WIRING (NOT USED) Ll.l <br /> # 1 CONDUIT — Is RIGID METAL CONDUIT HOME RUN PER DISPENSER FOR AC POWER & Ir Il.l <br /> CONTROL WIRING, FOLLOW MANUFACTURER'S SPEC FOR WIRE AND COMM U IZ— <br /> CABLE. <br /> #2 CONDUIT — 1 ' RIGID METAL CONDUIT FOR INTERCOM & CAT CABLES, LOOPING OF L0 Q <br /> SUMP SENSOR INTERCOM AND CAT CABLE CONDUITS, MAXIMUM 6 DISPENSERS PER HOME j N <br /> 4 RUN IS ACCEPTABLE, FOLLOW MANUFACTURER'S SPECS FOR CABLE, A 1s RIGID METAL CONDUIT <br /> (SURE SENSOR INSTALLED AT #3 CONDUIT — 10 RIGID METAL CONDUIT TO DISPENSERS FOR SUMP SENSOR. 2 WARES HOME RUN PER TANK AQ <br /> LOWEST POINT OF SUMP AND PER FLOAT, 1 FLOAT PER DISPENSER PAN, LOOPING OF DISPENSER PAN PER SUBMERSIBLE PUMP <br /> NOTHING IS OBSTRUCTING NEW CONDUITS, WITH ONE HOME RUN PER BUILDING SIDE, OR MAXIMUM 6 FOR POWER <br /> #1 . A in RIGID METAL CONDUIT SHALL BE RUN FROM EACH SUBMERSIBLE TO THE DISPENSERS ON EACH HOME RUN IS ACCEPTABLE. - <br /> BUILDING WIRING TROUGH AND IT SHALL CONTAIN THE SUBMERSIBLE PUMP WIRING, <br /> NOTES: <br /> SEAL OFF REQUIRED FOR HOMERUN TO BUILDING. 1 " RIGID METAL CONDUITS SHALL RUN UP THE FRONT OF THE DISPENSER SUMPS, AND <br /> #2. A 1 ' RIGID METAL CONDUIT SHALL BE RUN FROM THE SUBMERSIBLE SUMP TO THE THROUGH DISPENSER FRAME HOLES. DO NOT PENETRATE SUMP WALL <br /> ANNULAR RISER BEFORE THE HOME RUN TO THE BUILDING, THIS CONDUIT SHALL SEE SITE SPECIFIC DISPENSER DEFAILS FOR ACTUAL SUMP COMPONENT INSTALLATION. Roect "bw <br /> r CONTAIN LOW VOLTAGE VEEDER—ROOT SENSOR WIRING ONLY, <br /> NOTE: SPA16002. 0 <br /> SEE SITE PLAN FOR ACTUAL Sheetflame <br /> FOR SITES IN CALIFORNIA, THE LAST 2 FEET OF CONDUIT ENTERING A SUMP MUST BE RIGID NUMBER OF TANKS AND <br /> vc COATED, ANNULAR MONITOR LOCATION . <br /> ELECTRICAL CONDUIT <br /> ROUTING DETAILS <br /> TYPICAL TURBINE WIRING TYPICAL DISPENSER WIRING TYPICAL CONDUIT LAYOUT AT TANKS <br /> uSheetNNumber <br /> GeOe �I((//��q� <br /> ELECTRICAL ROUTING DETAILS ( SEE SITE PLAN FOR SPECIFIC LAYOUT) <br /> a <br />