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 cable harness supplies a plurality of electric devices which are in a distributed arrangement in a device housing. A first connection point of the cable harness has a plug connector on the side of the cable harness. At least the electric devices which are supplied via the first connection point are connected to the first plug connector on the side of the cable harness by way of a device-side plug connector and an adapter that is plugged together with both plug connectors.

An insulated structure for an appliance includes an outer wrapper and an inner liner. A mullion extends across the inner liner. A reinforcement assembly is coupled to the outer wrapper. The reinforcement assembly includes a perimeter frame that is disposed on a peripheral edge of the outer wrapper and a central plate central plate that is proximate the mullion. At least one door is hingedly coupled to the outer wrapper.

Provided is a vacuum adiabatic body. The vacuum adiabatic body includes a cover assembly configured to cover the conductive resistance sheet. The cover assembly includes an inner cover configured to protect an inside, an outer cover configured to protect an outside, and a front cover configured to a front side, and at least one of the inner cover or the outer cover extends toward the other end of at least one of the first plate or the second plate. According to the embodiments, an edge and a side surface of the vacuum adiabatic body may be protected together.

A standoff feature for an appliance includes a connecting member having a first end and a second end. A first side member extends in a first direction from the first end of the connecting member. A second side member is spaced from the first side member. The second side member extends in the first direction from the second end of the connecting member. A first flange extends from a first side edge of the connecting member. The first side edge extends between the first end and the second end. The first flange extends in a second direction from the connecting member. A second flange extends from a second side edge of the connecting member. The second side edge extends between the first end and the second end and opposes the first side edge. The second flange extends in the second direction from the connecting member.

Provided is a vacuum adiabatic body. The vacuum adiabatic body includes a supporting unit configured to maintain a vacuum space part. The supporting unit includes a plurality of bars extending in a vertical direction between the first plate member and the second plate member. When a pitch of the bar is a, an elastic modulus of a material forming the bar is E, and a radius of a long axis is n and a radius of a short axis is m when a cross-section of the bar has an elliptical shape is n, the following equation:

[00001]$1.0354<\frac{{\mathrm{Em}}^{3}n}{a^2}<188.2097$

is satisfied.

A cabinet assembly for a refrigerating appliance includes an inner liner having a forward liner edge. The forward liner edge defines an access opening. An outer wrapper is disposed around the inner liner and has a forward wrapper edge. The outer wrapper is spaced-apart from the inner liner to define an insulating cavity therebetween. A mullion assembly extends across the access opening. A trim breaker extends about the access opening and is coupled to the forward wrapper edge and the forward liner edge to seal the insulating cavity. The trim breaker includes a spacing flange positioned to contact the mullion assembly to define a receiving space between the trim breaker and the mullion assembly.

A refrigerator includes a cabinet, in which a cooling chamber and at least one storage space are defined, the cooling chamber being arranged at the bottom of the cabinet and directly below the storage space; a door body, which is arranged on a front surface of the cabinet so as to operably open and close the storage space; an evaporator, which is wholly horizontally placed in the cooling chamber in the shape of a flat cube, and is configured to provide cooling capacity to the storage space; and a liquid storage bag, which is arranged in the cooling chamber and connected to the evaporator. An included angle between a center line of the liquid storage bag and a horizontal line is 1° to 89°. A foam layer and a housing of the refrigerator may block the sound transmission of flow of a liquid refrigerant, to achieve a good sound insulation effect.

A refrigerator, comprising: a refrigerator body, comprising a storage liner at a bottommost position; a top cover, arranged to divide the storage liner into a storage space at the upper part and a cooling space at the lower part; and an evaporator, arranged in the cooling space and configured to cool airflow entering the cooling space to form cooling airflow; wherein the evaporator is placed on a bottom wall of the storage liner, and the bottom wall is provided with a limit structure at the front part and rear part of the evaporator respectively, to realize front and rear limits of the evaporator. The height of the storage space above the cooling space is increased and the user experience is improved. The evaporator is placed on the bottom wall of the storage liner to realize the front and rear limits of the evaporator.

A refrigeration appliance device, in particular a household refrigeration appliance device, which achieves a high level of efficiency, includes an inner compartment, which forms a storage space for articles and which is made up at least of a first inner-compartment part and at least of a second inner-compartment part, which is adjacent to the first inner-compartment part and is formed separately from the first inner-compartment part. At least one prefabricated, in particular at least substantially panel-shaped, thermal insulation element, is fastened on at least one side of the inner compartment directed away from the storage space. A refrigeration appliance and/or freezer having the refrigeration appliance device, a modular system for manufacturing the refrigeration appliance device, and a method for producing the refrigeration appliance device, are also provided.