Disclosed is an ice crushing device, and relates to the field of ice crushing technology. The ice crushing device includes a conveying mechanism, a guide mechanism and an ice crushing mechanism. An upper end of the conveying mechanism is open and used for placing ice blocks, and a lower end of the conveying mechanism communicates with an upper end of the guide mechanism; a lower end of the guide mechanism communicates with an upper end of the ice crushing mechanism; the conveying mechanism is used for guiding the ice blocks into the guide mechanism, and the ice blocks in the guide mechanism fall into the ice crushing mechanism through the upper end of the ice crushing mechanism; and the ice crushing mechanism is used for crushing ice. The ice crushing device can improve the ice crushing efficiency and the ice crushing safety.

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 refrigerator may further include a pusher provided with a first edge on which a surface configured to press one or more of the first and second tray assemblies is disposed to easily separate the ice from the tray assemblies, a bar extending from the first edge, and a second edge disposed at an end of the bar. At least one of the pusher or the second tray assembly may move so as to change a relative position between the pusher and the second tray assembly.

Disclosed is an ice crushing device, and relates to the field of ice crushing technology. The ice crushing device includes a conveying mechanism, a guide mechanism and an ice crushing mechanism. An upper end of the conveying mechanism is open and used for placing ice blocks, and a lower end of the conveying mechanism communicates with an upper end of the guide mechanism; a lower end of the guide mechanism communicates with an upper end of the ice crushing mechanism; the conveying mechanism is used for guiding the ice blocks into the guide mechanism, and the ice blocks in the guide mechanism fall into the ice crushing mechanism through the upper end of the ice crushing mechanism; and the ice crushing mechanism is used for crushing ice. The ice crushing device can improve the ice crushing efficiency and the ice crushing safety.

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.

An ice maker of a refrigerator includes a water supply to supply an ice-making water. The ice maker also includes an ice making container to be filled with the ice-making water. The ice maker further includes a cooler to provide a chill to the ice-making water. The ice maker additionally includes a water supplying-ice separator including at least one ice separating rod and a water supplying shaft. The water supplying shaft includes a water passage therein and a plurality of outlets wherein the ice-making water is discharged through the plurality of outlets to the ice making container. The at least one ice separating rod is provided on the water supplying shaft. The ice maker also includes a driver configured to rotate the water supplying-ice separator. The ice maker additionally includes a controller to control the driver so that the at least one ice separating rod separates the ice.

An ice maker of a refrigerator includes a water supply to supply an ice-making water. The ice maker also includes an ice making container to be filled with the ice-making water. The ice maker further includes a cooler to provide a chill to the ice-making water. The ice maker additionally includes a water supplying-ice separator including at least one ice separating rod and a water supplying shaft. The water supplying shaft includes a water passage therein and a plurality of outlets wherein the ice-making water is discharged through the plurality of outlets to the ice making container. The at least one ice separating rod is provided on the water supplying shaft. The ice maker also includes a driver configured to rotate the water supplying-ice separator. The ice maker additionally includes a controller to control the driver so that the at least one ice separating rod separates the ice.

An ice compartment of a household cooling appliance has a driving unit for driving an ice storage container of an ice maker. The driving unit has a drive housing and at least one drive motor. A first receiving duct accommodates a first fastening part and extends completely through the drive housing. The drive housing can be fastened by the first fastening part to an inner liner wall of the refrigeration compartment. The first receiving duct extends across the entire depth of the drive housing and is open at a front end and a rear end. A second receiving duct extends completely through the drive housing. The drive housing can be fastened by the second fastening part to the same inner liner wall of the refrigeration compartment. The second receiving duct extends across the entire depth of the drive housing and is open at a front end and a rear end.

The present invention relates to a refrigerator.

The refrigerator of the present invention includes a first tray assembly configured to define one portion of an ice making cell, a second tray assembly configured to define the other portion of the ice making cell, a heater disposed adjacent to at least one of the first and second tray assemblies, and a controller configured to control the heater.

The refrigerator further include a pusher including a first edge having a surface pressing the ice or at least one of the first and second tray assemblies to easily separate the ice from the tray assemblies, a bar extending from the first edge, and a second edge disposed at the end of the bar; and a pusher link having a connection part connected to the pusher. The controller controls to move at least one of the pusher and the second tray assembly and to change a relative position between the pusher and the second tray assembly.

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.

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.