An ice maker includes a dry compartment and a wet compartment adjacent to the dry compartment and including: an evaporator case sized to receive an evaporator, the evaporator case including: a plurality of interior panels joined to each other with snap-fit joints, each of the snap-fit joints including a tab and defining a slot, each of a plurality of seams formed between the interior panels defining a foam-tight seal and a water-tight seal; and a plurality of exterior panels, each of the plurality of exterior panels joined to a mating interior panel of the plurality of interior panels with slide joints, wherein the evaporator case is integrally insulated with blown foam insulation positioned between each of the plurality of exterior panels and a corresponding interior panel.

An ice maker includes a dry compartment and a wet compartment adjacent to the dry compartment and including: an evaporator case sized to receive an evaporator, the evaporator case including: a plurality of interior panels joined to each other with snap-fit joints, each of the snap-fit joints including a tab and defining a slot, each of a plurality of seams formed between the interior panels defining a foam-tight seal and a water-tight seal; and a plurality of exterior panels, each of the plurality of exterior panels joined to a mating interior panel of the plurality of interior panels with slide joints, wherein the evaporator case is integrally insulated with blown foam insulation positioned between each of the plurality of exterior panels and a corresponding interior panel.

A refrigerator appliance is provided, as provided herein, include a cabinet, a door, and an ice bin. The ice bin may be removably received within a chilled chamber and include a bin body and a non-vertical auger. The bin body may define a storage volume to receive ice therein and a dispenser opening in fluid communication with the storage volume. The non-vertical auger may include a rotation shaft extending along a rotation axis and an auger blade coiled about the rotation shaft. The auger blade may define an expanding radius along the rotation axis from a first blade end to a second blade end.

A refrigerator appliance is provided, as provided herein, include a cabinet, a door, and an ice bin. The ice bin may be removably received within a chilled chamber and include a bin body and a non-vertical auger. The bin body may define a storage volume to receive ice therein and a dispenser opening in fluid communication with the storage volume. The non-vertical auger may include a rotation shaft extending along a rotation axis and an auger blade coiled about the rotation shaft. The auger blade may define an expanding radius along the rotation axis from a first blade end to a second blade end.

An ice making device for a refrigerator including a cold air generation system and a circulation unit. An ice maker is disposed within an ice-making room and configured to produce ice. The cold air generation system can supply cold air to the ice-making room in the ice making device. A circulation unit is disposed within the ice-making room to drive cold air into the ice-making room. The circulation unit may include a fan motor and an air guide.

An ice-and-water dispenser to be integrated into a refrigeration appliance includes a main subassembly having a dispenser bay, a passage for ice, a water outlet and a switch to be actuated by an object held in the dispenser bay. A decorative element which contributes to or determines the appearance of the ice-and-water dispenser in a mounted state, can be mounted on the main subassembly in various models. A refrigeration appliance including an ice-and-water dispenser is also provided.

A refrigerator having an ice-making device evaporator in addition to a refrigerator storage room evaporator. The ice-making device includes an ice tray and a cooling pipe contacting an outer surface of the ice tray. A refrigerant flows in the cooling pipe and directly cools the ice tray. The ice-making device evaporator receives the refrigerant from a condenser and supplies it to the cooling pipe. A heat insulation member wraps around the cooling pipe and can prevent the cooling pipe from exchanging heat with ambient air.

A refrigerator is provided that includes an ice making system, that generally includes an ice maker for making ice, and an ice container for holding the formed ice. The ice making system may be positioned anywhere within the refrigerator, and it may be a modular ice system. The shape of the ice container limits the amount of useable space taken up by the system. The ice container includes a stir stick positioned within the ice container. The stir stick is configured to rotate and oscillate in a direction generally perpendicular to the axis of rotation of the stir stick to provide movement of the stir stick into the full area of the ice container. The rotation and oscillation of the stir stick prevents ice from melting and clumping in the corners of the ice container, while also aiding in directing the ice towards a dispensing aperture of the ice container.

An ice maker for refrigerator includes a case that encloses and protects a cooling space into which cold air is supplied, an ice making assembly for making ice using cold air supplied to the cooling space, an ice bucket for containing the ice made by the ice making assembly in the cooling space, and a cold air ventilation path for guiding cold air to flow along the outer circumferential surface of the ice bucket in the cooling space.

An ice machine includes: an ice maker including: an ultrasonic bin sensor mounted to a body; and a controller in electrical communication with the ultrasonic bin sensor and configured to control the ultrasonic bin sensor; and a storage bin coupled to the ice maker and sized to receive a mound of ice, a lens of the ultrasonic bin sensor facing a bottom of an interior cavity of the storage bin, the controller configured to process a return signal of the ultrasonic bin sensor to control a level of ice stored inside the storage bin, the controller further configured to apply a predetermined time delay to filter out a portion of the return signal that exceeds a threshold voltage but does not exceed the time delay.