This IM6D Ice maker kit will work on many Hotpoint refrigerators. The IM6D is a complete add on ice maker kit that can be installed on many models of Hotpoint or GE manufactured refrigerators made from 1987 to the present.
This IM6D kit includes the icemaker, single valve-water valve, fill tubes, two ice buckets, installation instructions and hardware for the installation.
( This kit does not come with the round adapter plug, part # WR29X10049 4 to 6 pin. It will need to be ordered separately. )
This ice bucket assembly with auger WR17X23255 is used on some GE refrigerators. The ice bucket is used to catch, store and move the ice cubes forward.
The ice cubes are moved forward by the rotating auger located inside the ice bucket when the refrigerator ice
dispenser is pressed. This GE ice bucket comes with a heavy duty plastic auger that will not rust like the metal augers can.
This genuine OEM GE part is also used on some Hotpoint refrigerators.
The ice maker will stop producing ice if the ice level control board has failed. These boards use an infrared beam to sense the ice level in the ice bin/bucket.
They send a signal for the ice maker to produce more ice. If the ice level control board has failed or is faulty the ice maker will not produce ice. The control boards tell the ice maker when it is full, when to dump the ice and when to fill with water. These ice level control boards are used on some Whirlpool, Kenmore, Maytag and KitchenAid refrigerators. The old part number is 4389102.
The ice maker is installed in the freezer compartment of the refrigerator. The ice maker has three distinct operations, to fill with water, freeze the water and harvest the ice cubes.
The freezer temperature determines the efficiency of an ice maker, the colder the temperature in the freezer the faster ice will freeze in the mold or tray. In order for the ice maker to harvest the ice cubes, the temperature in the freezer should be colder than 12 degrees Fahrenheit. The water supply is metered into the ice maker mold or tray by a water valve which is usually located in the compressor compartment. The water freezes in the ice maker tray as it would in a manual ice cube tray.
Ice makers have a thermostat that is mounted on the icemaker mold which will sense the temperature of the ice. When the water and ice have cooled down to 17_3 degrees Fahrenheit, the thermostat will activate the ice maker motor and heater circuit. The motor will rotate the ejector blade allowing it to rest on the ice cubes and at the same time exerting pressure. The ice maker mold heater will warm up the ice cubes just enough to release the ice cubes from the mold. This procedure will take approximately 3 to 5 minutes to release the ice cubes from the mold. When the ice cubes become free from the ice maker mold the ejector blade will continue to rotate, scooping the ice cubes out of the ice maker mold and depositing them into the ice bucket.
The shut off arm moves up and down as the ice maker cycles. At the end of the cycle the arm will lay on top of the ice cubes as the cubes fill the ice bucket. The shut off arm raises to a designated point and turns off the ice maker, halting the ice production. As the ice level in the bucket falls from use, the ice maker cycle will resume then the water valve opens again allowing the water to enter the ice maker mold to be frozen into ice cubes, beginning the cycle all over again.
If your ice maker has stopped producing ice or dumping the ice cubes out or will not fill with water there are ice maker replacement parts in most cases for most make and models to repair your ice maker. The water inlet valve, module, ice lever/bale arm, ice maker mold with heater or drive gear. In some cases you can purchase a brand new OEM ice maker or an ice maker kit that comes with an ice bucket and water fill valve for just about the same price that it will cost in parts to repair the old ice maker, not to mention your time and labor.