A method for preparing clear ice includes supporting an ice tray via a rotating assembly within a housing and separating an interior volume of the housing into a first air chamber and a second air chamber. The first air chamber is below the ice tray and the second air chamber is above the ice tray. Water is supplied into the ice tray and the ice tray is cooled with a cooling device thermally coupled to a bottom surface of the ice forming plate. The cooling device is exposed to chilled air from within the appliance in the first air chamber. Ambient air is supplied from outside the appliance into the second air chamber within the interior volume of the housing. The surface of the water in the ice tray is exposed to the ambient air.

An ice making device provides an ice tray and a frame to hold the ice tray. The frame has a proximal end with a motor and a distal end with a circular opening. An insert positioned in the circular opening with a projection provides a vibrating motion to dislodge ice cubes from the ice tray. An ice tray includes an integrated heating circuit for sensing capacitance and releasing frozen ice cubes. An ice tray also includes a raised flange to prevent water from splashing out of the ice tray.

An ice maker includes an upper assembly provided with an upper tray which has an upper chamber recessed upwardly to define an upper side of an ice chamber in which water is filled to generate ice, a lower assembly provided with a lower tray which has a lower chamber recessed downwardly to define a lower side of the ice chamber, and a lower supporter which supports a lower side of the lower tray, in which the lower assembly is rotatably connected to the upper assembly. The ice maker also includes an upper ejector provided with an upper ejecting pin which separates ice from the upper tray after ice-making is completed, in which the upper ejector is connected to the lower assembly to be interlocked with each other, such that when the lower assembly is rotated, the upper ejector is lifted and lowered.

A refrigerator of the present disclosure includes a tray configured to form an ice making cell, a water supply valve configured to control the flow of water to the ice making cell, and a controller configured to control the water supply valve, in which the controller controls the water supply valve to turn off the water supply valve to stop water supply while performing water supply and turns on the water supply valve again for additional water supply after the water supply valve is turned off.

The present invention relates to a refrigerator. A refrigerator according to the present invention may comprises a first tray assembly forming one part of ice-making cells, and a second tray assembly forming the other part of same. Following the start of ice making process, so that ice can be produced in the direction of ice-making cells formed by any one tray assembly, from among the first and second tray assemblies, to the ice-making cells formed by the other tray assembly, the other tray assembly comprises a first surface forming a part of the ice-making cells, and a second surface extending from the first surface and supported by at least one surface of the one assembly.

Provided is a refrigerator. The refrigerator may include a first tray assembly defining a portion of an ice making cell and a second tray assembly defining another portion of the ice making cell. The one tray assembly of the first and second tray assemblies may include a first portion that defines at least a portion of the ice making cell and a second portion extending from a predetermined point of the first portion.

A refrigerator according to the present disclosure includes a tray configured to form an ice making cell, a cooler configured to supply cold air to the ice making cell, a water supply valve configured to control the flow of water to the ice making cell, and a controller configured to control the water supply valve, wherein the controller controls the water supply valve so that cold air from the cooler is supplied to the ice making cell before the water supply valve is turned on, and water is supplied to the ice making cell after the cold air is supplied to the ice making cell.

The present disclosure relates to a refrigerator having a manual ice maker.

The refrigerator includes a main body in which a storage compartment is formed, a door to open and close the storage compartment, and an ice maker provided on the door to generate ice, wherein the ice maker includes a frame having a water container mounting part, an ice making tray provided on the frame and in which ice is generated, and a water container detachably mounted on the frame to supply water to the ice making tray, and wherein the water container is configured such that at least a portion of the water container is opened when mounted on the water container mounting part.

In a refrigerator, a cam of a cam gear rotating by a driving motor is provided with a structure protruding from an edge portion of a cam gear to a center, thereby increasing the thickness of a cam surface. Therefore, it is possible to reduce the magnitude of force directly transferred from the cam gear to a magnet lever.

A refrigerator according to the present invention comprises: a storage space in which food is stored; a cooler for supplying cold to the storage space; a first tray assembly constituting a part of an icing cell which is the space in which water is phase-changed to ice by the cold; a second tray assembly constituting another part of the icing cell; a heater located to be adjacent to the first tray assembly and/or the second tray assembly; and a control unit for controlling the heater, wherein the control unit performs controls so that the heater is turned on in at least a partial period while the cooler supplies the cold, and thus air bubbles disintegrating in the water inside the icing cell move to liquid-phase water from a part where ice is generated, thereby enabling transparent ice to be generated, and the degree of cold transfer, which is the amount of cold of the cooler is to be transferred, is different in the first tray assembly and the second tray assembly.