A refrigerator including a refrigerator compartment, a freezer compartment, an ice maker compartment, a machine compartment, a first evaporator, a second evaporator, and a pressure balancing conduit. The ice maker compartment is configured to store ice and receive air from the freezer compartment. The machine compartment is located outside the freezer and ice maker compartments and houses one or more of a compressor, a condenser, a fan, or a coolant tank. The first evaporator is configured to cool air within the refrigerator compartment. The second evaporator is configured to cool air within the freezer compartment. The pressure balancing conduit is configured to balance air pressure within the freezer compartment.

A refrigerator and a display for a refrigerator are provided. The display may include a display plate defining an outer appearance of a front surface of the display, a plurality of display portions that displays information of the refrigerator and is formed by an arrangement of a plurality of fine through-holes that pass through the display plate, a plurality of operational interfaces formed on a front surface of the display plate and operated by a touch input, a touch PCB provided on a rear surface of the display plate and including a plurality of touch sensors at positions corresponding to the plurality of operational interfaces, a display PCB on which a LED that radiates light toward the plurality of fine through-holes is mounted, and a display cover provided close to the rear surface of the display plate and on which the touch PCB and the display PCB are mounted.

An icemaker is mounted remotely from a freezer compartment. The icemaker includes an ice mold. A thermoelectric device is provided and includes a warm side and an opposite cold side. A flow pathway is connected in communication between the cold side of the thermoelectric device and the icemaker. In one aspect, a fan is operatively positioned to move air from the fresh food compartment across the warm side of the thermoelectric device and a pump moves fluid from the cold side of the thermoelectric device to the icemaker. Cold air, such as from a refrigerator compartment, may be used to dissipate heat from the warm side of the thermoelectric device for providing cold fluid to and for cooling the ice mold of the icemaker.

A refrigerator includes a cabinet defining an upper storage space, a lower storage space and a machine room provided at a lower end of the cabinet. A dispenser is provided in an upper door of the upper storage space to dispense water or liquid, and an ice maker is provided inside the upper door to make ice. A pump assembly is provided inside the machine room to pump water through a water supply passage from a water tank to the dispenser and the ice maker. The water supply passage extends downward from the water tank after passing through a rear surface of the cabinet to connect to the pump assembly inside the machine room and extends upward from the pump assembly and passes through an upper surface of the cabinet to connect to the dispenser and the ice maker.

A refrigerator includes a cabinet including a refrigerating compartment and an evaporation chamber, a first door, a housing in the first door, an ice making room defining a cool air inflow hole and a cool air discharge hole, a chiller room defining a cool air discharge hole, a second door connected to the first door, a partition wall defining the ice making room, the chiller room, and a communication hole, a damper opening and closing the communication hole, a cool air supply duct connecting an outlet of the evaporation chamber and the cool air inflow hole to supply cool air of the evaporation chamber to the ice making room, and a cool air return duct having a first inlet connected to the cool air discharge hole of the ice making chamber and a second inlet connected to the cool air discharge hole of the chiller room.

Provided is a refrigerator including a cabinet having a freezing compartment defined therein, an ice-maker mounted in the freezing compartment, wherein the ice-maker makes spherical ice and removes the made spherical ice downwards, an ice bin disposed below the ice-maker, and retractable and extendable in a front and rear direction, wherein the removed ice is stored in the ice bin, and a cover plate extending downward from a rear face of the ice-maker, wherein the cover plate shields a space between the ice bin and the ice-maker.

Provided is a refrigerator including a cabinet having a refrigerating compartment and a freezing compartment defined therein and an ice maker disposed in the freezing compartment. The ice maker includes a cold-air hole for receiving cold air, an upper tray made of an elastic material, wherein the upper tray is positioned to be exposed to the cold-air flowing from the cold-air hole, a lower tray made of an elastic material, wherein the lower tray is coupled to the upper tray to define a plurality of spherical ice chambers therebetween, a driver for pivoting the lower tray to open the spherical ice chambers, at least one thermally-insulating portion formed at a top face of the upper tray and corresponding to at least one of the ice chambers respectively, wherein the at least one thermally-insulating portion is constructed to prevent the cold-air from invading the at least one corresponding ice chamber.

A method of making clear ice includes circulating a refrigerant through a refrigerant loop. A portion of the refrigerant loop is in contact with a mold body. Thus, the refrigerant chills the mold body. The method also includes spraying a first volume of liquid water into a mold cavity of the mold body. As a result, a first volume of ice is formed in the mold cavity. The method also includes spraying a second volume of liquid water into the mold cavity after the first volume of ice has formed. Thus, a portion of the first volume of ice is melted and a second volume of ice is formed in mold cavity. The clear ice includes an unmelted portion of the first volume of ice and the second volume of ice.

A refrigerator appliance includes walls, a door, an ice container, a magnet, and a sensor. The walls define an internal storage chamber. The door has an outer panel and a door liner disposed between the outer panel and the internal storage chamber. The door liner defines a receptacle. The ice container is removably positioned within the receptacle. The magnet is secured to the ice container. The sensor is disposed between the outer panel and the door liner. The sensor is configured to align with and detect a presence of the magnet through the door liner and to detect an absence of the magnet. The presence of the magnet is indicative that the ice container is positioned within the receptacle. The absence of the magnet is indicative that the ice container is not positioned within the receptacle.

Provided is an ice-maker including an upper tray made of an elastic material, and having a plurality of upper chambers defined therein, a lower tray made of an elastic material, and having a plurality of lower chambers defined therein in contact with the plurality of upper chambers to define a plurality of spherical ice chambers, respectively, each ejector-receiving opening defined in the upper tray and opened to each of the plurality of upper chambers, an upper ejector disposed above the upper tray, wherein the upper ejector is configured to pass through the ejector-receiving opening and remove each ice from each ice chamber, a water supply for supplying water for ice-making through the ejector-receiving opening, and a driver for pivoting the lower tray, wherein a side wall extending upward along a perimeter of the plurality of lower chambers is formed on top portions of the plurality of lower chambers, wherein a chamber wall extending downward along a perimeter of the plurality of upper chambers is formed on bottom portions of the plurality of upper chambers, wherein the chamber wall is inserted into an internal space of the side wall when the lower tray is closed, and wherein a groove is defined in an outer face of the chamber wall to maintain pieces of ice frozen along a perimeter of the chamber wall in an attached state.