A refrigeration appliance includes a fresh food compartment for storing food items in a refrigerated environment having a target temperature above 0° C., a freezer compartment for storing food items in a sub-freezing environment having a target temperature below 0° C., a system evaporator for providing a cooling effect to at least one of the fresh food compartment and the freezer compartment, and an ice maker disposed within the fresh food compartment for freezing water into ice pieces. The ice maker includes an ice mold with an upper surface comprising a plurality of cavities formed therein for the ice pieces, a heater disposed on the ice mold and an ice maker refrigerant tube abutting at least one lateral side surface of the ice mold and cooling the ice mold to a temperature below 0° C. via thermal conduction.

A refrigeration appliance includes a fresh food compartment for storing food items in a refrigerated environment having a target temperature above 0° C., a freezer compartment for storing food items in a sub-freezing environment having a target temperature below 0° C., a system evaporator for providing a cooling effect to at least one of the fresh food compartment and the freezer compartment, and an ice maker disposed within the fresh food compartment for freezing water into ice pieces. The ice maker includes an ice mold with an upper surface comprising a plurality of cavities formed therein for the ice pieces, a heater disposed on the ice mold and an ice maker refrigerant tube abutting at least one lateral side surface of the ice mold and cooling the ice mold to a temperature below 0° C. via thermal conduction.

An ice making device includes a restriction mechanism for restricting an ice detection lever from moving to a lower side than a restriction position. The restriction mechanism includes a restriction member, a wire spring attached to the restriction member, an opening part and a protruded part provided in the frame. A restriction part of the restriction member is capable of moving between a first rotation position and a second rotation position. When the restriction member is located at the first rotation position, the protruded part elastically deforms the wire spring and urges the restriction member to the first rotation position and, when the restriction member is located at the second rotation position, the protruded part elastically deforms the wire spring and urges the restriction member to the second rotation position. When the restriction member is located at the second rotation position, the restriction part is disposed at the restriction position.

An ice making device includes a restriction mechanism for restricting an ice detection lever from moving to a lower side than a restriction position. The restriction mechanism includes a restriction member, a wire spring attached to the restriction member, an opening part and a protruded part provided in the frame. A restriction part of the restriction member is capable of moving between a first rotation position and a second rotation position. When the restriction member is located at the first rotation position, the protruded part elastically deforms the wire spring and urges the restriction member to the first rotation position and, when the restriction member is located at the second rotation position, the protruded part elastically deforms the wire spring and urges the restriction member to the second rotation position. When the restriction member is located at the second rotation position, the restriction part is disposed at the restriction position.

An ice maker for a refrigerating appliance includes an ice tray having ice-forming compartments. Each ice-forming compartment includes sidewalls and a base defining an internal freezing chamber. The ice maker also includes an air flow diverter having an outer frame and a plurality of internal diverting fins that define tuned duct flutes for receiving a stream of intake air from an air handling system and distributing the stream of intake air through the plurality of tuned duct flutes as streams of cooling air directed toward the ice-forming compartments. The internal diverting fins include a predetermined spacing pattern that individually tunes each of the tuned duct flutes. The predetermined spacing pattern evenly distributes the stream of intake air among the plurality of tuned duct flutes such that each of the plurality of streams of cooling air include substantially equal air flow rates.

An ice maker includes a harvest motor and an ice tray operably coupled to the harvest motor. The ice tray has a plurality of heat sinks coupled to a bottom section of ice forming cavities on the ice tray. The harvest motor is operable to twist the ice tray for causing the plurality of heat sinks to move relative to each other for releasing ice pieces from the ice forming cavities.

An evaporator assembly for an ice machine is disclosed. The assembly comprises of a frame, a plurality of first cooling surfaces that are spaced at a distance and extend in a first direction within the frame. The assembly also includes a plurality of second cooling surfaces which extend in a second direction perpendicular to the first direction within the frame. An intersection of the plurality of first and second cooling surfaces defines a plurality of ice forming blocks. Further, at least one conductive wall having a first surface and a second surface is provided. The first surface of the conductive wall is configured to accommodate the plurality of ice forming blocks and the second surface of the conductive wall is configured to come in contact with refrigerant or defrost fluid.

An evaporator assembly for an ice machine is disclosed. The assembly comprises of a frame, a plurality of first cooling surfaces that are spaced at a distance and extend in a first direction within the frame. The assembly also includes a plurality of second cooling surfaces which extend in a second direction perpendicular to the first direction within the frame. An intersection of the plurality of first and second cooling surfaces defines a plurality of ice forming blocks. Further, at least one conductive wall having a first surface and a second surface is provided. The first surface of the conductive wall is configured to accommodate the plurality of ice forming blocks and the second surface of the conductive wall is configured to come in contact with refrigerant or defrost fluid.

An ice maker and a refrigerator are provided The ice maker has an ice making tray having a plurality of ice making spaces, a motor assembly for driving the ice making tray, and a bracket, the motor assembly is connected to the bracket, and the ice making tray has one end rotationally supported at the bracket; the ice maker further has a fan mounted at the bracket, the bracket has a top plate located at an upper portion of an opening of the ice making space and a side plate located at one side of the top plate, one end of the ice making tray is supported at the side plate, a supporting plate extends from a side edge of the side plate relative to the ice making tray, and the fan is connected to the supporting plate and has an air guide direction towards the ice making tray.

The present invention is a clear ice cube maker that makes clear ice cubes with zero cloudiness in their center. One embodiment of the present invention makes clear ice cubes through a combination of the proper freezing temperature, the direction of freezing water in an ice cube mold, and the proper vibration frequency applied to water. It discloses what constitutes the proper vibration frequency for each water mass in each mold to simultaneously make multiple clear ice cubes with zero cloudiness in their center, and it discloses how to calibrate and simultaneously properly apply the proper frequency to the water in each ice cube mold cavity.