An ice bin for a refrigerator appliance, the ice bin includes a storage body. An auger, rotatably driven by an auger motor, extends within the storage body and has first and second ends. The auger is rotatably driven about a first axis. A first crusher roller is disposed at the second end of the auger and is coupled thereto to rotate together with the auger about the first axis. A second crusher roller is disposed on an axle extending along a second axis, the second crusher roller is freely rotatable about the axle. The second crusher roller is movable between a first position and a second position. When the second crusher roller is in the first position, the first crusher roller and the second crusher roller are spatially arranged and configured to grind the produced ice pieces into crushed ice.

A method for brewing Japanese-style iced coffee with a single-serve beverage dispenser includes dispensing heated water onto coffee grounds disposed within a brew chamber of a brew module, flowing brewed coffee from the brew chamber into an ice chamber of an iced coffee module, the brewed coffee flowing over ice within the ice chamber, and flowing the iced brewed coffee from the ice chamber into a container. A related single-serve beverage dispenser is also provided.

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 ice maker for forming ice having a refrigeration system, a water system, and a control system. The refrigeration system includes a compressor, a condenser, an ice formation device, and a condenser fan comprising a fan blade and a condenser fan motor for driving the fan blade. The water system supplies water to the ice formation device. The control system includes a controller adapted to operate the condenser fan motor at a first speed in a forward direction when the ice maker is making ice and adapted to operate the condenser fan motor at a second speed in a reverse direction when the ice maker is not making ice. Operating the condenser fan motor at the second speed in the reverse direction is sufficient to reduce the amount of dirt, lint, grease, dust, and/or other contaminants on or in the condenser.

An ice maker for forming ice having a refrigeration system, a water system, and a control system. The refrigeration system includes a compressor, a condenser, an ice formation device, and a condenser fan comprising a fan blade and a condenser fan motor for driving the fan blade. The water system supplies water to the ice formation device. The control system includes a controller adapted to operate the condenser fan motor at a first speed in a forward direction when the ice maker is making ice and adapted to operate the condenser fan motor at a second speed in a reverse direction when the ice maker is not making ice. Operating the condenser fan motor at the second speed in the reverse direction is sufficient to reduce the amount of dirt, lint, grease, dust, and/or other contaminants on or in the condenser.

A refrigerator appliance includes an ice packer assembly including an enclosure with a rotatable door, and an ice mold slidably supported by the enclosure. The ice mold is configured to translate between a first position and a second position. The door is configured to rotate from a first orientation to a second orientation as the ice mold is translated from the first position to the second position. The enclosure defines a pass-through opening therethrough. The door opens up the pass-through opening when rotated to the first orientation, and closes the pass-through opening and defines a platform for receiving crushed ice thereon when it is rotated to the second orientation.

A refrigerator appliance includes an ice packer assembly including an enclosure with a rotatable door, and an ice mold slidably supported by the enclosure. The ice mold is configured to translate between a first position and a second position. The door is configured to rotate from a first orientation to a second orientation as the ice mold is translated from the first position to the second position. The enclosure defines a pass-through opening therethrough. The door opens up the pass-through opening when rotated to the first orientation, and closes the pass-through opening and defines a platform for receiving crushed ice thereon when it is rotated to the second orientation.

An ice dispenser includes an ice chute, an ice maker chute plate, and a vent wall. The ice chute is mounted adjacent an ice dispenser window and is configured to receive ice when the ice is pushed through the ice dispenser window. The ice maker chute plate includes an ice chute aperture wall configured to receive and to dispense the ice from the ice chute. The ice chute is mounted to extend from the ice maker chute plate. The vent wall is mounted to the ice maker chute plate. The vent wall includes an aperture wall through which air from a cooling system is received onto the ice chute when the cooling system is operated.

An ice dispenser includes an ice chute, an ice maker chute plate, and a vent wall. The ice chute is mounted adjacent an ice dispenser window and is configured to receive ice when the ice is pushed through the ice dispenser window. The ice maker chute plate includes an ice chute aperture wall configured to receive and to dispense the ice from the ice chute. The ice chute is mounted to extend from the ice maker chute plate. The vent wall is mounted to the ice maker chute plate. The vent wall includes an aperture wall through which air from a cooling system is received onto the ice chute when the cooling system is operated.

An icemaker appliance includes a cabinet forming an ice storage compartment, an ice maker provided in the ice storage compartment, a first reservoir storing liquid, a filter nested within the first reservoir, and a circulation system to deliver the liquid from the first reservoir to the ice maker. The liquid not frozen on the ice maker is filtered through the filter and resupplied to the circulation system.