A refrigerator includes a cabinet defining an upper storage space, a lower storage space and a machine room provided at a lower end of the cabinet. A dispenser is provided in an upper door of the upper storage space to dispense water or liquid, and an ice maker is provided inside the upper door to make ice. A pump assembly is provided inside the machine room to pump water through a water supply passage from a water tank to the dispenser and the ice maker. The water supply passage extends downward from the water tank after passing through a rear surface of the cabinet to connect to the pump assembly inside the machine room and extends upward from the pump assembly and passes through an upper surface of the cabinet to connect to the dispenser and the ice maker.

The present application discloses a refrigerator capable of easily fixing a drain hose to one side of an inner case without having an additional fixing member used of fixing a drain hose. A refrigerator having an inner case configured to have a storage compartment formed therein; an outer case disposed outside the inner case and spaced a predetermined distance away from the inner case; a drain hose connected to one side of the inner case and disposed in an inner space formed between the inner case and the outer case; and a connector configured to connect the drain hose to the inner case, wherein the connector is mounted in the inner case using a hooking method.

A refrigerator in which an ice making chamber case including a horizontal wall, a vertical wall, a front opening and a front edge is coupled to an inside of an inner case, to form an ice making chamber. A case insulator is disposed in a wall space of the ice making chamber case. The case insulator is foamed separately from a body insulator which is foamed between inner and outer cases of a refrigerator body. Since the case insulator is foamed separately from the body insulator, it is possible to easily achieve foaming of the case insulator. It is also possible to prepare the ice making chamber case separately from molding of the inner case.

The present invention provides a process for preparing a polymer material filled composite element, comprising the steps of: i) providing a partially closed space, wherein a polyurethane foam is disposed at least at part of the periphery of the space to restrain the flow of the polymer material resin, and the polyurethane foam is formed by in situ application of a polyurethane composition and has an air flow value of greater than 1 L/min as determined by ASTM D3574 test; ii) applying the polymer material resin into the space and curing the polymer material resin to form a polymer material that fills the space.

The present invention discloses a refrigerator. The refrigerator comprises a foaming layer disposed between a refrigeration inner liner and a housing and a conduit extending inward from an edge of the housing and buried in the foaming layer, the conduit comprises a rigid tube and a flexible tube that are connected to each other, an end of the rigid tube far away from the flexible tube is disposed close to the edge of the housing, and a strength of the flexible tube is lower than the strength of the rigid tube. A foaming material may be discharged from the flexible tube and press the flexible tube so that the flexible tube is spaced apart a certain distance from the housing or the refrigeration inner liner. The flexible tube is completely buried in the foaming layer, so that the amount of cold is very limited, thereby preventing condensation from appearing.

A gasket for a refrigerator door is provided. The gasket includes a body configured to be arranged between a main body of a refrigerator and a refrigerator door, and a magnet inserted to the body and arranged to be attached to or detached from the main body of the refrigerator. The body includes, by weight % (wt %), about 30 to 60% of thermoplastic resin, about 20 to 40% of plasticizer, about 3 to 30% of filler, and one or more other additives. The filler is provided with one or more hollow particles or a porous material having a diameter of about 1 to 100 μm, the filler having a heat conductivity of about 0.0001 to 0.2 W/m.Math.K.

A refrigerator includes an outer case. The refrigerator further includes an inner case that is located in the outer case and that defines a storage space. The refrigerator further includes a metal plate that is coupled to inner surfaces of an upper portion and both sides of the inner case and that includes a front end that is spaced apart from a front end of the inner case a first distance.

A refrigerator includes a refrigerator body and a door. The refrigerator body includes a storage chamber. The door closes off the storage chamber to be capable of opening and closing. The door includes a box-shaped outer contour member, an internal part, and a heat insulation member. The internal part is a part different from a foam heat insulation member and is provided inside the outer contour member. The heat insulation member is provided inside the outer contour member or as at least a part of the outer contour member, contains an aero gel, a xerogel, or a cryogel, and overlaps the internal part when the refrigerator is seen in a front view.

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 connector assembly includes a base plate that defines a fill opening and an aperture. A fill tube is coupled to a first side of the base plate. The fill tube is aligned with the fill opening. A radial flange is coupled to a second side of the base plate. The radial flange extends around the fill opening. A toggle magnet is coupled to the first side of the base plate proximate to the aperture. The toggle magnet is operable between an activated state and a deactivated state.