A refrigerator appliance, as disclosed herein, may include a cabinet, a door, a dispensing assembly, an ice-making assembly, and an ice storage bin. The door may define a dispenser recess having a transverse opening extending vertically from a top recess end to a bottom recess end and laterally from a first recess side to a second recess side. The dispensing assembly may be positioned within the dispenser recess and define an ice delivery passage. The ice-making assembly may be attached to the cabinet. The ice storage bin may include a bin body defining a storage cavity. The bin body may be selectively mounted to the door within the dispenser recess to receive ice from the dispensing assembly. The bin body may extend vertically from the top recess end to the bottom recess end and laterally from the first recess side to the second recess side.

A refrigerator includes an ice tray, a motor, an ejector including a rotary shaft and a protrusion pin, and a heater for selectively supplying heat to the ice tray. A control method of the refrigerator includes a first step of sensing whether the ejector is rotated to reach a first setup position; a second step of driving the heater and stopping driving of an ice making compartment fan if the first step is satisfied; a third step of determining whether the ejector is rotated to reach a second setup position; and a fourth step of stopping driving of the heater if the third step is satisfied, and wherein the ejector continues to be rotated while the second to fourth steps are implemented.

A refrigeration appliance includes a cabinet that defines a cabinet outlet and a cabinet inlet in fluid communication with a freezer compartment. A door is pivotally coupled to the cabinet. The door defines a door inlet in fluid communication with the cabinet outlet and a door outlet in fluid communication with the cabinet inlet when the door is in a closed position. An icemaker compartment is disposed in the door. The icemaker compartment is fluidly coupled with the freezer compartment. A retainer is at least partially disposed in each of the door inlet and the door outlet. Each retainer includes a rim that defines ribs. Each rib is spaced apart from adjacent ribs. A gasket is coupled to each retainer. Each gasket includes an abutment surface that abuts a cabinet surface when the door is in the closed position to seal airflow passages between the freezer compartment and the icemaker compartment.

A refrigerator includes a water system and a valve. The water system is configured to direct water to a dispenser or an ice maker. The valve includes a valve body, an inlet port, and a clutch. The valve is configured to connect the water system to a water source. The inlet port is configured to receive a tube to establish fluid communication with the water source and to engage a nut to secure the tube to the inlet port. The clutch is disposed between the inlet port and the valve body and is configured to slip in response to an applied torque to the inlet port exceeding a threshold.

A refrigerator appliance or ice making assembly, as provided herein, may include a body and an ejector. The body may include an ice mold for receiving and freezing water. The ice mold may define a discrete first compartment and second compartment within which water freezes. The first compartment may define a first cube profile. The second compartment may be axially-spaced apart from the first compartment and define a second cube profile. The second cube profile may be different from the first cube profile. The ejector may be rotatably disposed above the first cube profile and the second cube profile to motivate ice from the first and second compartments.

A method of detecting ice within an automatic ice maker includes capturing an image of an ice mold within the ice maker, analyzing the image using a machine learning image recognition process, determining one or more characteristics of the ice maker, and implementing a responsive action to control the ice maker accordingly.

A water filter assembly may include a filter body having vertical side walls that defines a cavity within which one or more filter layers may be housed, the filter body further including a plurality of vertical barriers that define a plurality of flow paths that converge on an outlet hole, the vertical barriers further including a plurality of cutouts defining alternative overflow paths permitting water therethrough, and each filter layer including a plurality of vertical barriers that define a plurality of flow paths.

A device for selectively providing crushed or uncrushed ice includes a storage receptacle for storing uncrushed ice pieces, and a grinder, which is fed with ice pieces from the storage receptacle, for crushing the ice pieces. The grinder is concealed behind an end wall which is arranged on a side of the grinder that is opposite the storage receptacle. A mechanical switching element is associated with the grinder and can be switched between two working positions. In its first working position, ice pieces received from the storage receptacle are necessarily introduced into the operating range of the grinder and in its second working position a bypass passage is freed for ice pieces received from the storage receptacle past the grinder. The device also includes a movable adjusting element in mechanical adjusting connection with the switching element.

An ice maker for mounting into a household cooling appliance, the ice maker includes an ice producer for producing ice; a storage container for storing ice; a driving unit for driving the storage container, the driving unit having a drive housing; and an air duct formed in the drive housing. The air duct has an air duct outlet configured in a front wall of the drive housing which faces towards the storage container and an air duct inlet provided in a side wall of the drive housing which faces towards the ice producer. A fan is arranged in the air duct. The fan generates an air stream from the ice producer to the storage container through the air duct.

An ice maker assembly includes an ice making apparatus for an appliance with an ice making tray having a water basin formed by a metallic ice forming plate and at least one perimeter sidewall extending upwardly from a top surface of the ice forming plate. The ice making tray also has a grid with at least one dividing wall. The at least one perimeter sidewall and the at least one dividing wall and the top surface of the ice forming plate form at least one ice compartment having an upper surface and a lower surface. An ice body is formed in the at least one ice compartment. Moreover, the at least one perimeter sidewall and the at least one dividing wall form a draft angle with the top surface of the ice forming plate, of about 17 degrees to about 25 degrees.