User manual WHIRLPOOL WRF736SDAW DIMENSION GUIDE

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Manual abstract: user guide WHIRLPOOL WRF736SDAWDIMENSION GUIDE

Detailed instructions for use are in the User's Guide.

[. . . ] Type Minimum Circuit Ampacity Remote Air 14. 1 Remote Air 11. 2 Remote Air 14. 1 Remote Air 11. 2 Maximum Fuse Size 20 15 20 15 Refrigerant Charge (R-404A) 208 ounces 208 ounces 208 ounces 208 ounces 208-230/60/1 203-230/60/1 208-230/60/1 208-230/60/3 FLAKE FLAKE NUGGET NUGGET Minimum Circuit Ampacity is used to determine wire size and type per National Electric Code. January 2005 Page 2 Installation Limitations: This ice system is designed to be installed indoors, Scotsman Ice Systems are designed and in a controlled environment: manufactured with the highest regard for safety and performance. Air Temperature 50 F 100 F 0 0 Scotsman assumes no liability or responsibility of Water Temperature 40 F 100 F any kind for products manufactured by Scotsman Water Pressure 20 psi 80 psi that have been altered in any way, including the Voltage 5% +10% use of any part and/or other components not (Compared to the nameplate) specifically approved by Scotsman. The temperature limitations do not apply to the Scotsman reserves the right to make design remote condenser. Specifications and design are subject to change Operating the machine outside of the limitations is without notice. [. . . ] If needed, bend the float arm up 4 or down to adjust the water level. RESERVOIR EVAPORATOR DRAIN WATER LEVEL WATER INLET DRAIN January 2000 Page 16 OPERATION: Refrigeration Beginning at the compressor, the refrigerant is compressed into a high temperature gas. The discharge line directs this gas to the condenser and to the head pressure control At the remote condenser the gas is cooled by air and it then condenses into a liquid. This high pressure liquid then goes through the liquid line to the liquid line connection at the head pressure control. If the head pressure is high enough the liquid refrigerant will go through the valve and enter the receiver. From the receiver, the liquid refrigerant flows through the liquid line valve and then to the expansion valve. The thermostatic expansion valve meters liquid refrigerant into the evaporator, the volume of liquid refrigerant depending upon the temperature NME1254R & WRF736SDAW of the evaporator; warmer evaporators get more refrigerant and colder evaporators get less. At the evaporator, the refrigerant enters an area of relatively low pressure, where it can easily "boil off" or evaporate. As it evaporates, it absorbs heat from the evaporator and whatever is in contact with it (such as the water inside it). After the evaporator, the refrigerant, now a low pressure vapor, goes through the suction line back to compressor, where the cycle is repeated. REMOTE CONDENSER LIQUID LINE DETAIL OF HEAD PRESSURE CONTROL VALVE DISCHARGE LINE LIQUID LINE VALVE HEAD PRESSURE CONTROL VALVE THERMOSTATIC EXPANSION VALVE EVAPORATOR RECEIVER January 2000 Page 17 COMPRESSOR NME1254R & WRF736SDAW OPERATION: Refrigeration LOW CONDENSING TEMPERATURE The refrigeration system under low condenser air temperatures is much the same as it is under higher temperatures, with the exception that the resulting low head pressures cause the head pressure control to close off the liquid line between the condenser and the receiver. This forces more refrigerant into the condenser (with a small amount of discharge gas going into the receiver to maintain pressure until the head pressure is built back up to 180 psig). At that pressure the valve opens up the liquid line from the condenser to the receiver. REMOTE CONDENSER DISCHARGE LINE LIQUID LINE DETAIL OF HEAD PRESSURE CONTROL VALVE LIQUID LINE VALVE HEAD PRESSURE CONTROL VALVE THERMOSTATIC EXPANSION VALVE EVAPORATOR RECEIVER January 2000 Page 18 COMPRESSOR OPERATION: Refrigeration NME1254R & WRF736SDAW REMOTE CONDENSER LIQUID LINE DISCHARGE LINE LIQUID LINE VALVE (CLOSED) RECEIVER COMPRESSOR PUMP DOWN During the pump down cycle (usually initiated by the circuit board de-energizing the liquid line valve) the discharge gases flow through their normal path to the remote condenser, through the head pressure control, and into the receiver. At least twice a year, remove the bin control sensors from the base of the ice chute, and wipe the inside clean, as illustrated. ICE DISCHARGE CHUTE SLIDE IN AND OUT ICE LEVEL SENSORS NME1254R & WRF736SDAW 2. The ice machine senses water level by a probe located in the water reservoir. At least twice a year, the probe should be removed from the reservoir, and the tip wiped clean of mineral build-up. Clean the Probe's Tip with ice machine cleaner and a clean, soft cloth. 3. Check and tighten all bolts and screws. January 2000 Page 21 NME1254R & WRF736SDAW BEARING MAINTENANCE The bearing in the breaker should also be checked at least two times per year. Switch the machine Off and check the bearing: ·unscrewing the auger stud Auger Stud ·removing the ice chute cover Chute Cover Cap Screw ·unscrewing the ice sweep Ice Sweep Inspect the bearing. If grease is needed the bearing and breaker should be removed to check the action of the bearing. To remove the breaker remove the lower ice chute then take out all four allen head cap screws and pull the breaker off the auger and evaporator. If the bearing only needs grease, inject grease into the bearing using Scotsman grease needle pn 02-3559-01 and Scotsman bearing grease cartridge, pn A36808-001. Be sure to inject grease evenly and thoroughly. Bearing Needle, pn 02-3559-01 ·removing the water shed & unscrewing the breaker cover (left hand threads). Breaker Cover Off See Removal and Replacement section to replace bearing or seals. Reverse to reassemble. January 2000 Page 22 AUGER MAINTENANCE NME1254R & WRF736SDAW Note. Water filters can filter out suspended solids, but not dissolved solids. [. . . ] Lower the auger into the evaporator barrel, slightly turning it to match up with the drive end. Complete the reassembly by reversing the disassembly for the breaker & thrust bearing assembly. Break off process tube on the top of the OLD head pressure control valve. Check for correct connections and be sure that the number on the side of the valve is "180" 6. [. . . ]

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