A household refrigeration apparatus includes an interior container having a first wall, a second wall, and a rear wall angled to each other. The interior container bounds a first receiving space for food. An ice maker has a housing, and the housing is formed by a wall area of the first wall of the interior container and a wall area of the second wall of the interior container in certain areas. The housing bounds a receiving space of the ice maker. The housing has a wall unit with a wall element being a component separate from the interior container and having an L-shape in cross-section. The wall element has a first wall plate and a second wall plate, which together form the L-shape. An elongated seal with a hollow portion is disposed on an edge of the wall element and seals the wall element to the interior container.

A cooling assembly includes a cold plate in contact with a heat generating component, a housing on one side of the cooling assembly in a first direction with respect to the cold plate, a first wall located between the housing and the cold plate, and a second wall separating a plate chamber defined by the housing and the first wall into a first plate chamber and a second plate chamber adjacent to each other in a second direction orthogonal to the first direction. The first wall includes a first through hole opposing the cold plate in the first plate chamber and a second through hole opposing the cold plate in the second plate chamber.

A cabinet of an appliance includes an outer wrapper defining opposing first and second sidewalls, a rear wall coupling the first and second sidewalls and an access opening and an inner liner defining an interior. The outer wrapper and the inner liner may define a sealed insulating cavity therebetween that is under vacuum. A plurality of reinforcement brackets may be disposed on the outer wrapper. The plurality of reinforcement brackets are configured to prevent deformation of the cabinet during application of the vacuum to the insulating cavity.

A refrigerator includes: a cabinet; an upper door; a lower door that is a drawer type door; a draw-out rail that connects the lower door to a storage space in the cabinet and that guides insertion and withdrawal of the lower door in a front-rear direction; an elevation assembly that is located in the lower door, that elevates an object stored in the lower door in a state in which the lower door is withdrawn, and that elevates the object relative to the lower door; and a door restriction device configured to selectively restrict an opening movement of the upper door based on whether the lower door is opened or closed. The door restriction device is configured to restrict the opening movement of the upper door based on the lower door being opened, and to allow the opening movement of the upper door based on the lower door being closed.

A refrigerator includes a cabinet having a storage space and a door to open and close the storage space. The door includes a panel assembly including a front panel, a door frame connected to the panel assembly, a door liner connected to the panel assembly and the door frame and to define an insulating space, in which an insulator is disposed, together with the panel assembly and the door frame, and a sensor module installed on the door frame to sense a knock input applied to the front panel. The door frame includes a front wall that is in contact with the front panel and a rear wall spaced apart from the front wall and configured to define an accommodation space, in which the sensor module is accommodated, together with the front wall.

A freezer compartment for a refrigeration appliance includes a liner that has first and second sidewalls, a top wall, a bottom wall, and a back wall. At least one of the first and second sidewalls includes a first air-deflection surface. A door is configured to provide access to and seal the freezer compartment. A seal is positioned around a periphery of the door. A fan is operably coupled with an evaporator and is positioned within the freezer compartment at the back wall of the liner. A mullion is attached to the liner and includes a forward portion. The forward portion includes a second air-deflection surface. The fan is configured to direct air toward the first and second sidewalls and the top wall of the freezer compartment and subsequently toward the first and second air-deflection surfaces.

A modular box assembly includes a box, the box defining a top end and a bottom end disposed opposite from the top end, the box including a plurality of side panels extending between the top end and the bottom end, the plurality of side panels at least partially defining a box cavity within the box; and an inner box positioned within the box cavity, the inner box dividing the box cavity into a first sub-compartment and a second sub-compartment, the inner box including a channel tab extending outward from a side panel of the inner box, the channel tab engaging a first side panel of the plurality of side panels of the box.

A gel pack kit for keeping beverage bottles cool during transport includes a plurality of gel pack parts. The parts include notches allowing the parts to be attached perpendicular to one another and assembled into a gel pack divider. The divider includes a plurality of bottle cooling areas being the spaces between the adjacent gel packs in the assembled divider structure. A method of utilizing the gel pack divider kit to keep beverage bottles cool during transport includes assembling the gel pack kit to form the gel pack divider and then refrigerating the assembled divider. After purchasing bottled beverages such as multiple bottles of wine in a box, an original cardboard divider provided in the box is removed and replaced with the chilled, assembled gel pack divider. The bottles sit in the bottle cooling areas and the gel pack divider provides a cooling effect during transport in the original box.

A refrigerator drawer assembly, comprising: a drawer body, the drawer body comprising a front wall and a rear wall arranged opposite to each other along the pulling direction thereof, and defining an accommodating cavity used for placing articles, wherein the front wall is provided with two first sliding grooves extending along the horizontal direction and running along the thickness direction thereof, and the rear wall is provided with two second sliding grooves aligned with the two first sliding grooves; and two sliding partition assemblies, wherein two ends of each sliding partition assembly are inserted into a set of a first sliding groove and a second sliding groove that are aligned, and the two sliding partition assemblies are configured to be able to slide along the first sliding grooves and the second sliding grooves and are capable of sliding to a fitted state. The drawer assembly may achieve two-chamber separation and three-chamber separation of the drawer body, thereby effectively improving the user experience.

An adjustable refrigerator drawer assembly, comprising a drawer body having a cavity for placing articles; a sliding assembly, slidably disposed in the drawer body in a direction perpendicular to the drawing direction of the drawer body; and at least one partition plate detachably connected to the sliding assembly and configured to partition an accommodating cavity and move along with the sliding assembly to change the sizes of chambers partitioned by the partition plate. The adjustable refrigerator drawer assembly can effectively use the space of the drawer body to simplify the disassembling and assembling process of the partition plate.