Disclosed herein are a refrigerator includes an ice making tray, a cooling system, a stirrer, at least a portion of which is submerged in the ice making tray, a stirring motor coupled to the stirrer, and a controller storing instructions and configured to execute the stored instructions to control the stirring motor to drive the stirrer while controlling the cooling system to cool water stored in the ice making tray. While the cooling system cools the water stored in the ice making tray, the stirrer stirs the water stored in the ice making tray.

Disclosed herein are a refrigerator includes an ice making tray, a cooling system, a stirrer, at least a portion of which is submerged in the ice making tray, a stirring motor coupled to the stirrer, and a controller storing instructions and configured to execute the stored instructions to control the stirring motor to drive the stirrer while controlling the cooling system to cool water stored in the ice making tray. While the cooling system cools the water stored in the ice making tray, the stirrer stirs the water stored in the ice making tray.

An ice making assembly includes a central hub rotatably mounted within a chilled chamber. A mold assembly is attached to the central hub and includes an ice mold that is pivotally coupled to a yoke and defines a mold cavity for receiving water. A drive mechanism rotates the central hub by accelerating the central hub until the rotation speed reaches a target speed and periodically reducing the rotation speed of the central hub to a reduced speed before accelerating back to the target speed until an ice billet is formed.

An aspect of the present disclosure is generally directed to an ice making appliance that includes: an ice making compartment and an ice maker including an ice mold having a total water capacity. The ice mold includes a plurality of ice wells and is configured to release the ice cubes without the use of a heater and by twisting the ice mold. The ice wells are typically no more than about 12.2 mm in depth from a top surface of the ice mold and have a volume of about 20 mL or less. The ice maker is capable of producing at least about 3.5 lbs. of ice or more in a 24 hour span.

An aspect of the present disclosure is generally directed to an ice making appliance that includes: an ice making compartment and an ice maker including an ice mold having a total water capacity. The ice mold includes a plurality of ice wells and is configured to release the ice cubes without the use of a heater and by twisting the ice mold. The ice wells are typically no more than about 12.2 mm in depth from a top surface of the ice mold and have a volume of about 20 mL or less. The ice maker is capable of producing at least about 3.5 lbs. of ice or more in a 24 hour span.

An ice maker (100) includes an ice-making water tank (10), a water storage tank (20), a pipe assembly, a reversing member (40), and a driving member (50). The pipe assembly comprises a first branch pipe (310), a second branch pipe (320), and a third branch pipe (330). The first branch pipe (310) is connected to the water storage tank (20). The second branch pipe (320) and the third branch pipe (330) are separately connected to the ice-making water tank (10). The reversing member (40) is separately connected to the three branch pipes to control two of the branch pipes to be communicated and the rest one of the branch pipes to disconnected. The driving member (50) is connected to the third branch pipe in series. During ice making, the reversing member (40) controls the second branch pipe (320) and the third branch pipe (330) to be communicated and controls the first branch pipe (310) to be disconnected. The driving member (50) operates to drive the water to circulate among the ice-making water tank (10), the second branch pipe (320) and the third branch pipe (330).

An ice maker (100) includes an ice-making water tank (10), a water storage tank (20), a pipe assembly, a reversing member (40), and a driving member (50). The pipe assembly comprises a first branch pipe (310), a second branch pipe (320), and a third branch pipe (330). The first branch pipe (310) is connected to the water storage tank (20). The second branch pipe (320) and the third branch pipe (330) are separately connected to the ice-making water tank (10). The reversing member (40) is separately connected to the three branch pipes to control two of the branch pipes to be communicated and the rest one of the branch pipes to disconnected. The driving member (50) is connected to the third branch pipe in series. During ice making, the reversing member (40) controls the second branch pipe (320) and the third branch pipe (330) to be communicated and controls the first branch pipe (310) to be disconnected. The driving member (50) operates to drive the water to circulate among the ice-making water tank (10), the second branch pipe (320) and the third branch pipe (330).

A method for preparing clear ice includes supporting an ice tray via a rotating assembly. The rotating assembly includes a shroud enclosing a bottom surface of an ice forming plate of the ice tray, and forms an interior passage formed below the ice forming plate. The method further includes supplying water into the ice tray and supplying an air flow from an intake duct via an air duct inlet to the interior passage. The method also includes controlling an angular rotation of the rotating assembly. The rotating assembly rotates relative to the intake duct and the air duct inlet, and the air flow is continuously supplied from the intake duct throughout the angular rotation.

A method for preparing clear ice includes supporting an ice tray via a rotating assembly. The rotating assembly includes a shroud enclosing a bottom surface of an ice forming plate of the ice tray, and forms an interior passage formed below the ice forming plate. The method further includes supplying water into the ice tray and supplying an air flow from an intake duct via an air duct inlet to the interior passage. The method also includes controlling an angular rotation of the rotating assembly. The rotating assembly rotates relative to the intake duct and the air duct inlet, and the air flow is continuously supplied from the intake duct throughout the angular rotation.

An aspect of the present disclosure is generally directed to an ice making appliance that includes: an ice making compartment and an ice maker including an ice mold having a total water capacity. The ice mold includes a plurality of ice wells and is configured to release the ice cubes without the use of a heater and by twisting the ice mold. The ice wells are typically no more than about 12.2 mm in depth from a top surface of the ice mold and have a volume of about 20 mL or less. The ice maker is capable of producing at least about 3.5 lbs. of ice or more in a 24 hour span.