In one embodiment, a refrigerator includes: a heat exchange pipeline which is accommodated in an inner wall of a vacuum adiabatic body and in which heat exchange of a refrigerant is performed; a through-part through which a refrigerant pipe provided in at least one of the first plate member or the second plate member to provide the heat exchange pipeline passes; and a sealing member configured to accommodate the inlet pipe and the outlet pipe therein and coupled to at least one of the first plate member or the second plate member to restrict gas communication between the refrigerant pipe and the vacuum space part.

This refrigeration device is provided with: an evaporator configuring a refrigeration circuit; a cascade condenser configuring the refrigeration circuit; and a thermal insulation board arranged between the evaporator and the cascade condenser.

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.

The invention relates to an apparatus for cooling high-heat-treated food products with a flash-cooler, having a container for a pre-product to be cooled with an inlet for the pre-product to be cooled and an outlet for the cooled end product of the food product as well as cooling equipment, the cooling equipment having a cooling jacket associated to the container, through which at least one part of the wall of the container is cooled. The invention also relates to a heat-treatment line for food products, having one such apparatus. The invention also relates to a method for cooling high-heat-treated, particularly ultra-high-heat-treated food products, using a flash cooler having a container for a pre-product to be cooled, with an inlet for the pre-product to be cooled and an outlet for the cooled end product of the food product and cooling equipment.

The refrigerator (1000) comprises a first surface (1); a second surface (2); an insulating element (3) arranged between the first and second surfaces (1, 2); and a sealing device (100). The sealing device (100) is associated with at least one of the first and second surfaces (1, 2) and comprises: an external structure (10), an internal structure (20) and a connection region (30) that interconnects the external structure (10) with the internal structure (20); at least one first fixing element (31) arranged in the connection region (30); a through-hole (40) between the external (10) and internal (20) structures; wherein the at least one first fixing element (31) forms a male-female arrangement with at least one of the first and second surfaces (1, 2).

A jumper drain for a refrigerator appliance, the jumper drain including a housing with a cavity defined therein and that is in fluid communication with a storage compartment of the refrigerator appliance. An inlet and an outlet extend from the housing and are both in fluid communication with the cavity. The outlet is disposed at a location that is offset from the inlet. A pressure equalizer opening is formed in the housing. The pressure equalizer opening is configured to provide fluid communication between the cavity and an ambient environment external to the refrigerator appliance in order to equalize a pressure differential within the refrigerator appliance.

This refrigeration apparatus comprises: an inner box having a top surface and side surfaces; and an evaporator constituted by bent pipes comprising a top surface portion in contact with the top surface, an upper side-surface portion in contact with the side surfaces, and a lower side-surface portion in contact with the side surfaces below the upper-side surface portion. The pipes constituting the upper side-surface portion are more densely arranged than the pipes constituting the lower side-surface portion. The total length of the pipes constituting the top surface portion and the upper side-surface portion is 62.5% or more of the lengths of the pipes in contact with the inner box.

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.

There is disclosed a refrigerator including an inner case that defines an exterior appearance of a storage space, with a communication hole formed therein, an outer case spaced apart a predetermined distance from the inner case, with a communication formed at a position corresponding to the communication hole of the inner case, a vacuum space provided between the inner case and the outer case, with being maintained vacuum, to insulate the inner case from the outer case, and a connection pipe passing through the vacuum space, to connect the communication hole of the inner case and the communication hole of the outer case with each other.

A refrigerator includes an inner case, an outer case, a vacuum space, and a liquid-gas interchanger. The inner case defines an exterior appearance of a storage space. The outer case is spaced apart a predetermined distance from the inner case. The vacuum space is provided between the inner case and the outer case, and maintains a vacuum to insulate the inner case from the outer case. The liquid-gas interchanger is arranged in the vacuum space to generate heat exchange between a refrigerant after it is exhausted from an evaporator and a refrigerant before it is drawn into an evaporator.