A refrigerator door assembly includes a refrigerator door that has a recess and an alignment mechanism that includes a door hinge. A plate is fixedly attached to the door hinge and positioned at least partially within the recess of the refrigerator door. The plate includes an orienting member configured to extend along an axis of rotation of the door hinge and away from a body of the plate. The refrigerator door is movably positionable between at least a first position and a second position relative to the plate to permit adjustment of a location of the refrigerator door relative to the door hinge. The recess includes a track that slides against the plate in a linear path between the first and second positions of the refrigerator door.

A refrigerator appliance includes a cabinet. A fresh food chamber and a freezer chamber are defined in the cabinet. The fresh food chamber and the freezer chamber are mutually separated by a mullion. The refrigerator appliance also includes an articulating lip coupled to the mullion. The articulating lip is movable relative to the mullion between a sealing position and an open position.

A blast cell system is provided with simple and scalable designs that prevent short cycling of air flow through any pallets in blast cells. The blast cell includes a plurality of suction channels that provide independent fluid pathways for directing the air drawn from different rows in the blast cell into the fan.

Disclosed herein is a refrigerator capable of improving a user's convenience by locating a knob for adjusting a temperature of a cooling container above the cooling container. The refrigerator includes: a first storage room; a second storage room positioned below the first storage room; a cooling container positioned in the inside of the first storage room, and forming a cooling space maintained at a temperature that is different from a temperature of the first storage room; and a knob configured to adjust a temperature of the cooling space and positioned above the cooling container.

A refrigerator door assembly includes a refrigerator door that has a recess and an alignment mechanism that includes a door hinge. A plate is fixedly attached to the door hinge and positioned at least partially within the recess of the refrigerator door. The plate includes an orienting member configured to extend along an axis of rotation of the door hinge and away from a body of the plate. The refrigerator door is movably positionable between at least a first position and a second position relative to the plate to permit adjustment of a location of the refrigerator door relative to the door hinge. The recess includes a track that slides against the plate in a linear path between the first and second positions of the refrigerator door.

A refrigerator (100) having an air blower (102) located downstream of a transverse side of an evaporator (150) is provided. The refrigerator includes: a cabinet defining a cooling chamber (133) and at least one storage compartment, the evaporator (150) arranged in the cooling chamber (133), and the air blower (102) arranged on the transverse side of the evaporator (150) and located downstream of the evaporator (150) in an airflow path. The air blower (102) does not occupy a space behind or in front of the evaporator (150), which reduces a space occupied by the cooling chamber (133) in a front-rear direction, and ensures the thickness of a foamed material between the rear of the cooling chamber (133) and a housing of the cabinet.

A refrigerator (100) is provided. The refrigerator includes: a cabinet, in which are defined a cooling chamber (133) and at least one storage compartment; an evaporator (150), arranged in the cooling chamber (133) and configured to cool an airflow entering the cooling chamber (133) to form a cooled airflow; and an air blower (102), arranged on a transverse side of the evaporator (150), located upstream of the evaporator (150) in an airflow path, and configured to cause a return airflow in the at least one storage compartment to flow into the cooling chamber (133) to be cooled by the evaporator (150), and cause at least part of the cooled airflow to flow into the at least one storage compartment.

A refrigerator having a cool air circulation unit for directly supplying heat-exchanged cool air to a storage compartment is disclosed. The cool air circulation unit supplies and discharges the cool air, which has been heat-exchanged in an evaporator, to and from the storage compartment through a flow passage provided inside a partition.

A refrigerator includes: a cabinet; a drawer door assembly including a front panel door part and a drawer part that defines an accommodation space; a rail that movably configured to connect the drawer door assembly to the cabinet and enable the drawer door assembly to insert into and withdraw from the cabinet; a driving device located at the front panel door part and configured to provide power; and an elevation device located in the drawer part and configured to be coupled to the driving device and elevate a portion of the drawer part relative to the front panel door part. The driving device includes: a motor assembly configured to provide driving force; a screw assembly configured to perform an elevation operation based on the driving force; and a lever that connects the screw assembly to the elevation device and that is configured to rotate based on the elevation operation.

An interior compartment or container for a domestic refrigeration appliance has a side wall on which an elongate bearing rib for a bearing panel is integrated. The bearing rib extends in the depthwise direction of the interior compartment and extends over at least half the depth of the side wall. The bearing rib has an upper bearing side, which merges with the side wall by way of a first rounding and merges with an underside of the bearing rib by way of a second rounding, which is located opposite the first as seen in the widthwise direction. The underside merges at its lower end with the side wall. In a cross section of the bearing rib taken in a direction perpendicular to the longitudinal axis, a vertical-dimension ratio, measured in the heightwise direction, between an underside vertical dimension and an upper-side vertical dimension is between 3.5 and 4.5.