A device for processing ice for ice beer comprising a body, a pair of installation tables, an ice-making unit having a cylindrical shape, and rotatable shafts being formed on the ice-making unit. The outer surface of the ice-making unit is maintained at a sub-freezing temperature. There is a driving unit configured to rotate the shafts, a storage unit positioned below the ice-making unit, and a storage space concavely formed in an upper surface of the storage unit. A supply unit installed on the body to store and drop beer. A pulverizing unit is plate shaped and an end thereof is adjacent to the ice-making unit. Beer is supplied from the supply unit to the storage space. The ice-making unit is rotated to contact the beer and form a beer ice layer thereon. The pulverizing unit separates the beer ice layer from the ice-making unit.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. A motor is positioned above the extruder die. An auger is disposed within the chamber of the casing. The auger is coupled to a shaft of the motor with a threaded connection such that the auger is rotatable with the motor along a rotational direction within the chamber of the casing. The threaded connection between the auger and the shaft of the motor is wound opposite the rotational direction of the auger. A related refrigerator appliance is also provided.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. A motor is positioned above the extruder die. An auger is disposed within the chamber of the casing. The auger is coupled to a shaft of the motor with a threaded connection such that the auger is rotatable with the motor along a rotational direction within the chamber of the casing. The threaded connection between the auger and the shaft of the motor is wound opposite the rotational direction of the auger. A related refrigerator appliance is also provided.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. An auger is disposed within the chamber of the casing. A radial sleeve bearing engages the auger at the extruder die. A radial and thrust bearing engages the auger at the bottom portion of the casing. A related refrigerator appliance is also provided.

An ice maker includes a casing that defines a chamber. The casing extends between a top portion and a bottom portion. An extruder die is mounted to the casing at the top portion of the casing. An auger is disposed within the chamber of the casing. A radial sleeve bearing engages the auger at the extruder die. A radial and thrust bearing engages the auger at the bottom portion of the casing. A related refrigerator appliance is also provided.

An ice maker includes an upper assembly including a plurality of hemispherical upper chambers, a lower assembly disposed below and pivotably coupled relative to the upper assembly, wherein the lower assembly includes a plurality of hemispherical lower chambers, a driver configured to pivot the lower assembly, a pair of rotating parts disposed at both sides of the lower assembly, a first pivoting arm pivotally mounted on one of the rotating parts, a second pivoting arm pivotally mounted on the other of the rotating parts and connected to the driver, a connection shaft connecting the first pivoting arm to the second pivoting arm, a first elastic member having one end connected to the first pivoting arm and the other end connected to the lower assembly, and a second elastic member having one end connected to the second pivoting arm and the other end connected to the lower assembly.

An ice maker includes an upper assembly including a plurality of hemispherical upper chambers, a lower assembly disposed below and pivotably coupled relative to the upper assembly, wherein the lower assembly includes a plurality of hemispherical lower chambers, a driver configured to pivot the lower assembly, a pair of rotating parts disposed at both sides of the lower assembly, a first pivoting arm pivotally mounted on one of the rotating parts, a second pivoting arm pivotally mounted on the other of the rotating parts and connected to the driver, a connection shaft connecting the first pivoting arm to the second pivoting arm, a first elastic member having one end connected to the first pivoting arm and the other end connected to the lower assembly, and a second elastic member having one end connected to the second pivoting arm and the other end connected to the lower assembly.

Disclosed are various embodiments for systems, apparatus, and methods for making ice. According to some embodiments, a refrigerant tube is disposed within an ice formation cell. The ice formation cell receives a water stream, and the portion of the water stream makes direct contact with the refrigerant tube is frozen by the refrigerant tube. Thus, an ice piece is generated.

Disclosed are various embodiments for systems, apparatus, and methods for making ice. According to some embodiments, a refrigerant tube is disposed within an ice formation cell. The ice formation cell receives a water stream, and the portion of the water stream makes direct contact with the refrigerant tube is frozen by the refrigerant tube. Thus, an ice piece is generated.

A device for extraction of a frozen liquid is provided including a tray having a first surface defining at least one cavity and a second surface opposite the first surface. A rod including a protrusion is positioned proximate the at least one cavity. The protrusion passes through the at least one cavity to extract the frozen liquid in response to rotation of the rod.