A water switch assembly for a nugget ice making assembly is provided. The ice making assembly includes a hollow auger rotatably mounted within a reservoir and configured for extruding ice. The water switch assembly includes a water supply pipe that extends vertically through the center of the ice making auger and reservoir. The water switch assembly is in fluid communication with a water inlet and includes a capacitance probe for measuring the water level in the reservoir. In this manner, the water switch assembly is configured to control the flow of water to the reservoir in response to the water level measured by the capacitance probe.

Non-plumbed appliances and filters are provided. A filter includes a body which includes a sidewall extending along a longitudinal axis between a first end wall and a second end wall, the body defining a body interior. The filter further includes an inlet defined in the body, and a nozzle protruding from the second end wall along the longitudinal axis and defining an outlet, the nozzle offset along an outer surface of the second end wall from a centroid of the outer surface. The filter further includes a tab configured on the body, and a filter medium disposed within the body interior, the filter medium operable to remove contaminants from water flowing through the filter medium.

Stand-alone ice making appliances are provided. An appliance includes a container defining a first storage volume for receipt of ice, a water tank defining a second storage volume for receipt of water, and a pump in fluid communication with the second storage volume. The appliance further includes an ice maker which is in fluid communication with the pump for receiving water from the pump. The appliance further includes a filter, the filter including a filter medium operable to remove contaminants from water flowing through the filter medium, the filter positioned upstream of the ice maker in a flow direction of water from the second storage volume to the ice maker.

A stand-alone ice making appliance includes a container defining a first storage volume for receipt of ice, a water tank defining a second storage volume for receipt of water, and a pump in fluid communication with the second storage volume. The appliance includes a reservoir defining a third storage volume, the third storage volume in fluid communication with the pump for receiving water that is actively flowed from the water tank. The appliance includes an ice maker which is in fluid communication with the third storage volume for receiving water from the reservoir, the ice maker including a sealed refrigeration system in thermal communication with the casing. The appliance includes a chute extending between the ice maker and the container for directing ice produced by the ice maker towards the first storage volume. The appliance includes a heating element, the heating element activatable to heat the casing.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. A motor is positioned above the extruder die. An auger is disposed within the chamber of the casing. The auger is coupled to a shaft of the motor with a threaded connection such that the auger is rotatable with the motor along a rotational direction within the chamber of the casing. The threaded connection between the auger and the shaft of the motor is wound opposite the rotational direction of the auger. A related refrigerator appliance is also provided.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. An auger is disposed within the chamber of the casing. A radial sleeve bearing engages the auger at the extruder die. A radial and thrust bearing engages the auger at the bottom portion of the casing. A related refrigerator appliance is also provided.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. An auger is disposed within the chamber of the casing. A radial sleeve bearing engages the auger at the bottom portion of the casing. A radial and thrust bearing engages the auger at the extruder die. A related refrigerator appliance is also provided.

An appliance includes an ice maker and a caloric heat pump system for cooling the ice maker. The caloric heat pump system includes a pump for circulating a heat transfer fluid between first and second heat exchangers and caloric material stages in order to cool the ice maker with the first heat exchanger. A related ice making appliance is also provided.

A refrigerator includes an ice compartment region disposed in at least one of a fresh food compartment or a freezer compartment; an ice maker disposed in the ice compartment region and configured to make ice pieces; and an ice bucket assembly configured to store the ice pieces made by the ice maker. The ice bucket assembly includes a mechanism for producing nugget ice from the ice pieces made by the ice maker and stored in the ice bucket assembly, the nugget ice being smaller in size as compared to the ice pieces made by the ice maker and stored in the ice bucket assembly.

A control method for a nugget ice maker includes setting the nugget ice maker to an ice formation operating state, monitoring a speed of a motor in the ice formation operating state, and switching the nugget ice maker from the ice formation operating state to an ice production operating state in response to the monitored speed of the motor in the ice formation operating state dropping below an ice formation speed threshold.