A refrigerator includes a main body that includes an inner case having a storage chamber; a refrigerating chamber discharge duct that divides the storage chamber into a heat exchange chamber and a refrigerating chamber and has refrigerating chamber discharge ports for discharging cold air to the refrigerating chamber. A refrigerating chamber thermoelectric module has a first heat absorbing unit and a first heat dissipating unit, the first heat absorbing unit disposed in the heat exchange chamber. A refrigerating chamber cooling fan circulates cold air in the refrigerating chamber to the heat exchange chamber and the refrigerating chamber; and a refrigerating chamber heat dissipating fan blows external air to the first heat dissipating unit A freezing compartment is disposed in the refrigerating chamber and has a freezing chamber; a freezing compartment thermoelectric module has a second heat absorbing unit and a second heat dissipating unit, the second heating dissipating unit cooling the freezing chamber. An air guide has a channel for guiding cold air from the heat exchange chamber to the second heat dissipating unit; and a freezing compartment damper controls the cold air flowing toward the second heat dissipating unit through the channel.

A refrigerator includes a cabinet that defines a first storage compartment and an opening at a front side of the first storage compartment, an inner door that is configured to open and close at least a portion of the first storage compartment and that defines a second storage compartment configured to store one or more items, an outer door configured to open and close at least a portion of the second storage compartment, a cold air supply unit configured to supply cold air to each of the first storage compartment and the second storage compartment, and a cold air duct located in the first storage compartment and configured to, based on the inner door being oriented in an open position or a closed position, selectively communicate with the cold air supply unit and the second storage compartment.

A branched air supply device includes: a shell having a peripheral wall portion, with the peripheral wall portion being provided with a plurality of air supply ports; a plurality of baffles, with each of the baffles being rotatably mounted at one of the air supply ports; a plurality of transmission assemblies, with each of the transmission assemblies being provided with a rotating member and a first transmission mechanism, and each of the first transmission mechanisms being configured to transmit a rotational motion of a corresponding rotating member to one of the baffles, so that the baffle is at rest or rotates; and a driving device having a driving source and a second transmission mechanism, with the second transmission mechanism being configured to transmit one motion, output by the driving source, to the plurality of rotating members, so that each of the rotating members is at rest or rotates.

A compartment assembly for a refrigerator includes a housing subassembly defining a generally enclosed area, an air outlet in fluid communication with the enclosed area, and a divider unit separating the enclosed area into first and second compartments. The divider unit includes a central wall aligned with the air outlet and exposing respective portions of the air outlet to the first and second compartments. A flap is disposed within the air outlet and is rotatable about an articulation point aligned with respect to the central wall and with a body of the flap extending in an upstream direction within the air outlet. A control element is mounted external to the enclosed area and is operably coupled with the flap to drive rotation thereof.

A refrigerator includes a plurality of wall modules and a cooling module. At least one of a rear wall module, a left wall module, or a right wall module includes a supply duct provided to supply cold air produced by the cooling module to a storeroom, and a collecting duct to bring air having exchanged heat from the storeroom back to the cooling module.

A refrigerator includes a wall covering assembly having a top wall spaced-apart from a top wall of a liner, and a rear wall spaced-apart from a rear wall of the liner. The wall covering assembly includes a pattern of ports for providing outwardly directed cooled air to the refrigerator cabinet from a duct assembly. The duct assembly is configured to deliver cooled air through the ventilated portion of the wall covering assembly and also deliver cooled air to a front portion of the refrigerator cabinet via a downwardly directed air curtain. The air curtain disrupts the outward flow of air from the ventilated portion of the wall covering assembly before the cooled air reaches a gasket assembly disposed around the refrigerator doors. Angled venting slots disposed on the wall covering assembly direct air towards inner surfaces of the doors without disruption from the air curtain.

A refrigerator includes a body, a freezing compartment, a plurality of refrigerating compartments adjacent to the freezing compartment in a horizontal direction and including a first refrigerating compartment and a second refrigerating compartment, a freezing compartment cooling space arranged behind the freezing compartment to communicate with the freezing compartment, a freezing compartment partition configured to partition the freezing compartment and the freezing compartment cooling space and including a freezing compartment duct, an evaporator configured to generate cooling air, a first duct configured to supply the cooling air to the first refrigerating compartment and including a first cooling air inlet, and a second duct configured to supply the cooling air to the second refrigerating compartment through a second cooling air inlet formed on one wall of the freezing compartment duct. The first cooling air inlet and the second cooling air inlet are arranged above the evaporator.

The present invention relates to a cover for cooling fins disposed in an interior space of a refrigerator. The cover comprises an inlet portion comprising at least one inlet, wherein said inlet portion is adapted such that an air flow is allowed to enter through said inlet. The cover further comprises an outlet portion comprising at least a first outlet, wherein said first outlet is arranged relative to said inlet such that said air flow is able to exit through said first outlet. The first outlet is configured such that said air flow exiting through said first outlet is directed to at least a first volume in said interior space of said refrigerator. The invention is further directed to a refrigerator for a vehicle having an inventive cover.

A refrigerator includes a cabinet and a refrigeration system having an evaporator. An ice-making compartment is positioned within the cabinet and includes a housing defining an inlet aperture on an upper portion of the housing and an outlet aperture. An ice storage bin is positioned in a lower portion of the housing. An ice tray is positioned above the ice storage bin. An inlet duct is in fluid communication with the inlet aperture and is configured to direct air into the housing from the evaporator. The inlet duct includes a first branch having a plurality of first branch channels to direct air to a plurality of first branch locations on a first surface of the ice tray. A second branch of the inlet duct directs air to a second surface of the ice tray. An outlet duct is in fluid communication with the outlet aperture and is configured to direct air from the housing to the evaporator.

A refrigerator including a cabinet, a liner defining a compartment within the cabinet, a fan to move cooled air, and an air tower positioned adjacent the liner and provided in fluid communication with the compartment via a plurality of primary exhaust openings. The refrigerator further includes an air filter bracket separate from and located adjacent to the air tower and provided in fluid communication with both the air tower and the compartment. The air filter bracket includes a duct positioned adjacent the flow path of the air tower to be in fluid communication with a secondary exhaust opening of the air tower.