An ice maker includes a prefabricated cabinet with a base that defines a bottom of an ice maker housing. An access side of the cabinet defines a doorway for accessing an ice making device in the housing. A prefabricated door for opening and closing the doorway has a bottom spaced apart above the bottom of the housing. The ice maker can be mounted on a prefabricated receptacle so that the bottom of the housing is flush with a top of the receptacle and the door can clear a protruding dispenser unit as it swings on its hinge. The prefabricated cabinet may include a door mount that couples the door to the cabinet so that the bottom of the door is spaced above the bottom of the ice maker.

A refrigerator appliance includes walls, a door, an ice container, a magnet, and a sensor. The walls define an internal storage chamber. The door has an outer panel and a door liner disposed between the outer panel and the internal storage chamber. The door liner defines a receptacle. The ice container is removably positioned within the receptacle. The magnet is secured to the ice container. The sensor is disposed between the outer panel and the door liner. The sensor is configured to align with and detect a presence of the magnet through the door liner and to detect an absence of the magnet. The presence of the magnet is indicative that the ice container is positioned within the receptacle. The absence of the magnet is indicative that the ice container is not positioned within the receptacle.

A refrigeration appliance includes a fresh food compartment and a freezer compartment. An ice maker is disposed within the fresh food compartment for freezing water into ice pieces. The ice maker includes a removable ice bin for storing the ice pieces produced by the ice maker. A rotatable auger is positioned within the removable ice bin and configured to drive the ice pieces out of the removable ice bin via a driving force applied in a first direction. A motor is configured to rotate the auger. A drive bar is coupled to the motor and is configured to apply a resisting force to the removable ice bin along a second direction generally opposed to the first direction sufficient to counteract the driving force, wherein the resisting force is less than a removal force applied by a user to remove the removable ice bin from the ice maker.

An article storage and dispensing apparatus and method in which articles made by series production are distributed from an article supplier into a storage compartment of predetermined dimensions for storage of articles in front and rear rows of article storage positions. An article distributor in the storage compartment has a carriage, a carriage drive which is configured to drive the carriage in a reversible horizontal carriage drive direction across at least part of the width of the storage compartment, and an article support mounted on the carriage and configured to receive articles from the article supplier above the support when the carriage is in a start position. An article dispenser is associated with the article support to dispense articles selectively in opposite horizontal dispensing directions transverse to the carriage drive direction off the front and rear ends of the support to drop into front and rear article rows.

A water pocket with an open top side is filled with water, mounted in a regular position on a supporting frame, and tilts to supply the water stored in the water pocket to an ice making tray, thereby easily supplying a required amount of water to the ice making tray. A refrigerator includes an ice making tray provided to linearly move with rotation when ice of the ice making tray is separated, or includes a holding preventing member which prevents the ice from being caught by a lower ice making tray, thereby improving a forward-and-backward width of an ice maker. It is possible to easily withdraw ice stored in an ice bucket by pushing an ice discharge button in a state in which the ice bucket is not separated.

A refrigerator utilizes in some instances an icemaker having a tandem arrangement of storage bins. A first storage bin receives ice produced by an icemaker and includes a reversible ice mover that when operated in a first direction feeds an ice dispenser, and when operated in a second direction feeds a second storage bin disposed below the first storage bin. A refrigerator may also in another aspect include an externally-accessible ice dispenser having a dispenser recess portion that is removable from the refrigerator when the doors of the refrigerator are closed, e.g., for the purpose of accessing an ice storage bin.

A refrigerator appliance includes 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 a cam disposed on the rotation shaft. The ice bin may include a kick plate within the storage volume. The cam on the non-vertical auger may actuate the kick plate.

A refrigeration appliance has an enclosure that defines an electronics module recess and a detachable electronics module that can be releasably retained in the recess. Tabs and tab receivers can be integrated with the electronics module and enclosure to releasably retain the electronics module in the recess. A trim piece can releasably attach to a display bezel of the electronics module by a snap-fit connection to retain the electronics module in the electronics module recess. In use, the electronics module can be selectively removed and a data acquisition device can be connected to the appliance using a data connector that is exposed by removing the electronics module.

An article storage and dispensing apparatus and method in which articles made by series production are distributed from an article supplier into a storage compartment of predetermined dimensions for storage of articles in front and rear rows of article storage positions. An article distributor in the storage compartment has a carriage, a carriage drive which is configured to drive the carriage in a reversible horizontal carriage drive direction across at least part of the width of the storage compartment, and an article support mounted on the carriage and configured to receive articles from the article supplier above the support when the carriage is in a start position. An article dispenser is associated with the article support to dispense articles selectively in opposite horizontal dispensing directions transverse to the carriage drive direction off the front and rear ends of the support to drop into front and rear article rows.

An ice maker includes an ice tray, a motor configured to rotate with respect to the ice tray, an ejector configured to cause rotation of an ice piece, the ejector including a rotary shaft and a protrusion pin, a heater configured to selectively supply heat to the ice tray, and a first sensor unit configured to detect a rotation angle of the protrusion pin about an axis of the rotary shaft. The first sensor unit is further configured to, before discharge of the ice piece from the ice tray, detect whether the protrusion pin has rotated by a predetermined angle about the axis of the rotary shaft, and the heater is further configured to be turned off based on the first sensor unit detecting that the protrusion pin has rotated by the predetermined angle.