An appliance includes a panel having a raised landing outwardly extending from a first surface of the panel. A vacuum port is disposed on the raised landing. A system of channels is disposed over the first surface of the panel and outwardly extends therefrom. The system of channels substantially covers the first surface of the panel. The first surface of the panel is covered with a filter member that covers the system of channels. The raised landing, and vacuum port thereof, is fluidically coupled to the system of channels at multiple connecting locations.

A vacuum insulated structure and method of forming are provided. The vacuum insulated structure includes an inner liner and an outer wrapper coupled to the inner liner and defining an insulating cavity. A plurality of insulation packages are disposed within the insulating cavity. Each insulation package includes a first filler material contained within an envelope. A second filler material is disposed within the insulating cavity.

The present application is related to a portable refrigeration apparatus for vaccines, food items, beverage containers, or any other item. The apparatus includes a refrigerated container comprised of a plurality of substantially identical chilling panels interconnected to form a sealed container that defines an internal volume, each of the chilling panels containing a cooling element. The refrigerated container encloses an internal storage space and has a generally modular design to facilitate packaging and transportation. The apparatus permits the internal storage space to maintain a temperature in the range of 4° C.˜8° C. for a long period of time following a loss of electrical power.

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.

Proposed is a refrigerator. The refrigerator may include a cabinet (100) having a storage space (121), and a machine room (201) disposed below the storage space (121). The machine room (201) may include a compressor (610), a condenser (620), and a heat dissipation fan (611) to implement a cooling system, and have an inlet (225a) and an outlet (225b) formed on a front surface thereof. In addition, the compressor (610) and the heat dissipation fan (611) are disposed at the rear of the machine room (201), and the compressor (610) may be disposed in a space partitioned from a space in which the condenser (620) is disposed.

A connector configured to couple plural wall elements defining rooms or to couple insulating panels that are formed by filling a cavity with a fluid foam material wherein the connector is encased by the foam material, the connector including a housing that forms a base wall arranged in a base plane and a front wall arranged opposite to the base wall in a front wall plane; a pass-through opening formed in the front wall and configured to receive a locking hook; a receiving cavity configured in the housing for at least one locking element, wherein the housing forms an air duct, wherein the air duct extends from the front plane towards the base plane, and wherein the air duct includes an air inlet opening in the base plane and an air outlet opening in the front plane.

A domestic refrigeration appliance apparatus includes at least one side wall component and at least one machine compartment top wall. In order to simplify assembly, the domestic refrigeration appliance apparatus has at least one sealing element which seals at least one region between the side wall component and the machine compartment top wall. A method for assembling a household refrigeration appliance apparatus is also provided.

A vacuum adiabatic body includes a first plate; a second plate; a seal; a support; a heat resistance unit; and an exhaust port, wherein the heat resistance unit includes a conductive resistance sheet connected to at least one of the first and second plates, the conductive resistance sheet resisting heat conduction flowing along a wall for the third space, the conductive resistance sheet includes a mounting part mounted on the first or second plate and a curved part having at least one portion depressed into the third space, a coupler that fixes the conductive resistance sheet to the first or second plate is formed on the mounting part, and the curved part includes a first curved part depressed toward the third space and a second curved part extending from the first curved part, the second curved part surrounding an edge portion of the first or second plate.

The present invention relates to a refrigerator and, in particular, to a refrigerator comprising: a main body comprising an outer case having an opening in a rear wall thereof, and an inner case provided in the outer case and providing an ice-making compartment and a refrigerator compartment in the upper portion thereof and a freezer compartment in the lower portion thereof; an evaporator case provided between the outer case and the inner case, and having a cold air outlet and a cold air inlet which are in communication with the ice-making compartment, and an installation space in communication with the opening; an evaporator installed, via the opening, into a rear portion of the installation space to provide cold air to the ice-making compartment; and a guide unit installed, via the opening, into the front portion of the installation space to guide cold air to circulate between the ice-making compartment and the installation space, wherein the guide unit is fixed to the evaporator case. Through installation of the compactly configured guide unit in the evaporator case, the guide unit can accurately guide cold air to circulate between the ice-making compartment and the installation space, an inlet guide channel is easy to maintain and repair, and an outlet guide channel and the inlet guide channel are provided in a single guide unit itself, so that channels for cold air circulation can be formed in a compact manner.

A vacuum adiabatic body includes a first plate; a second plate; a seal; a support; and an exhaust port, wherein an extension tab extending toward the third space to be coupled to the support is provided to at least one of the first and second plates, and the extension tab extends downward from an edge portion of the at least one of the first and second plates.