A refrigerator includes a cabinet with a plurality of walls and a compartment area for storing food within the cabinet. A door is configured to seal the compartment area. A refrigeration component is disposed within the cabinet. A wall panel is positioned within the cabinet and includes a three-dimensional molded surface with non-uniformly spaced peaks and valleys and a lighting structure. The wall panel extends from a lower end of the compartment area to an upper end of the compartment area. The wall panel separates the compartment area from the refrigeration component and is coextensive with one of the plurality of walls of the cabinet.

A refrigerator includes a cabinet, a control unit provided in the cabinet and controlling an operation of the refrigerator, a main door that opens or closes the cabinet and has an opening formed therein, a main hinge that couples the cabinet to the main door and allows the main door to be pivotably mounted, a sub-door that is formed on a front surface of the refrigerator and opens or closes the opening, a sub-hinge that couples the main door to the sub-door and allows the sub-door to be pivotably mounted, a sub-hinge cover that simultaneously shield a main hinge shaft of the main hinge and a sub-hinge shaft of the sub-hinge, and a wire disposed to extend from an inside of the sub-door, to be connected with the control unit, and to sequentially pass through the sub-hinge shaft and the main hinge shaft along an inside of the sub-hinge cover.

A free embedded refrigerator includes a cabinet, a door, and a hinge assembly, the cabinet includes an accommodating chamber and an outer side surface, and a direction from the accommodating chamber towards the outer side surface serves as a first direction; the hinge assembly includes a first hinge part, a second hinge part and a switching assembly; when the door is in an opening process, the first hinge part moves relative to the switching assembly, and then, the second hinge part moves relative to the switching assembly; the hinge assembly drives the door to rotate in situ relative to the cabinet, then drives the door to move away from the cabinet in the first direction, and then drives the door to continuously rotate in situ. The refrigerator increases an opening-closing freedom degree of the door, and various motion tracks may be generated to adapt to different application scenarios.

A door-opening-assisted embedded refrigerator which includes a cabinet, a door and a hinge assembly, the cabinet includes a rear wall and an opening, and a direction from the rear wall towards the opening serves as a first direction; the hinge assembly includes a first hinge part, a second hinge part and a switching assembly; when the door is in an opening process, the first hinge part moves relative to the switching assembly, and then, the second hinge part moves relative to the switching assembly; the hinge assembly drives the door to rotate in situ relative to the cabinet, then drives the door to move away from the cabinet in the first direction, and then drives the door to continuously rotate in situ. The refrigerator can increase an opening-closing freedom degree of the door, and can adapt to different application scenarios.

A refrigerator door hinge pivotably supports first and second doors of a refrigerator for independent movement. The refrigerator door hinge includes a bracket, and first and second arms extending outwards and away from the bracket. The first and second arms are arranged such that a gap is formed therebetween. A first pivot pin is provided for pivotably supporting the first door and is disposed adjacent the first arm. A second pivot pin is provided for pivotably supporting the second door and is disposed adjacent the second arm. An adjustment screw is positioned within a first inner channel of the first pivot pin and is configured to engage a shaft of the first door and to translate within the first inner channel so as to translate the shaft to vertically adjust a height of the first door.

A refrigerator is proposed. In the refrigerator, a cool air passage for a freezing compartment which guides the flow of cool air to the freezing compartment, and a cool air passage for an ice-making compartment which guides the flow of cool air to the ice-making compartment partially share the cool air with each other. Through the sharing of cool air, the amount of cool air supplied to the freezing compartment is increased and sufficient cool air is supplied to the refrigerating compartment. Accordingly, sufficient cool air is supplied to the refrigerating compartment, the freezing compartment, and the ice-making compartment even with a single evaporator.

The invention includes a storage system for storing items in a French door refrigerator that has a compartment and side-by-side doors meeting at a front midline of the refrigerator and enclosing the compartment. The refrigerator compartment includes a volume adjacent the front midline not swept by the doors or by any door receptacles. Embodiments of the system include one or more shelves sized to fit within the volume not swept by the doors and a support configured to attach to the compartment and to support the shelves.

An ice maker assembly is disposed in the ice compartment of a refrigerator, the ice maker assembly including an ice maker tray/evaporator having an evaporator cooling tube which is in direct contact with an ice maker tray portion, and a tray temperature sensor for sensing a temperature of the ice maker tray portion. A controller is configured to control ice making, ice harvesting, and ice maintenance based on the temperature sensed by the tray temperature sensor. The tray temperature sensor is the only temperature sensor used to control ice making, ice harvesting, and ice maintenance. Alternatively, an additional temperature sensor can be disposed inside an ice maker assembly gear box for sensing a temperature of a housing of the gear box. In that case, the tray temperature sensor and the additional temperature sensor are the only temperature sensors used to control ice making, ice harvesting, and ice maintenance.

A refrigerator comprising: a cabinet; a door operably connected to the cabinet, the door having a closed position relative to the cabinet and an opened position relative to the cabinet, and the door transitions from the closed position to the opened position in a non-circular path; a liquid outlet disposed at the cabinet; and a liquid receiver disposed at the door, the liquid receiver configured to receive liquid exiting the liquid outlet when the door is in the closed position but not in the opened position. The refrigerator can further include a gasket adjacent to the liquid receiver and a gasket adjacent to the liquid outlet. When the door is in the closed position, the gasket of the door can cooperate with the gasket of the cabinet to form a sealed channel to seal liquid transfer from the liquid outlet to the liquid receiver for use at the door.

A refrigerator includes: a cabinet defining a storage space, a door configured to open and close the storage space, and a step difference adjustment member disposed at a rear surface of the door. The step difference adjustment member comprises (i) a stopper that contacts, based on the door being closed, a front surface of the cabinet and (ii) a mounting portion that defines an accommodation space into which the stopper is inserted, and the stopper is configured to move with respect to the mounting portion to thereby vary a protruding length of the stopper from the mounting portion.