A refrigerator includes a cabinet defining a storage compartment therein, a door that provides selective access to the storage compartment, and an ice maker provided in the door. An air duct directs a flow of air from an insulated chamber to the ice maker. An air cooling system cools air inside the insulated chamber and comprises a first non-evaporative heat exchanger positioned independent of and adjacent to an evaporator, a second non-evaporative heat exchanger provided within the insulated chamber, and a fluid line that directs a circulation of fluid between the first and second non-evaporative heat exchangers. The first non-evaporative heat exchanger is provided in heat exchanging relationship with the evaporator to cool the fluid positioned in the first non-evaporative heat exchanger, and the second non-evaporative heat exchanger is provided in heat exchanging relationship with the air inside the insulated chamber to cool the air therein.

A refrigerator includes a main body that has a storage chamber and a drying chamber; a thermoelectric module that includes a heat absorber and a heat dissipater; a cooling fan that circulates air in the storage chamber to the heat absorber and the storage chamber; a heat-dissipating fan that blows air to the heat dissipater; an air guide that has a passage for guiding air heated by the heat dissipater to the drying chamber; a heater that is disposed in the passage; and a damper that controls a flow of air in the passage between the heat-dissipating fan and the heater. Heat of the heat dissipater transfers to the drying chamber through the passage of the air guide and the damper, thereby being able to dry an object to be dried.

A blower configured to circulate cold air inside a body of a refrigerator. The blower includes a casing, an impeller accommodated in the casing, and a support member configured to support the impeller against the casing. The impeller includes a disk-shaped base plate rotatably supported by the support member. The casing includes an inner circumferential surface extending so as to gradually move away from an outer circumference of the base plate toward a rotational direction of the impeller at a predetermined position around the outer circumference of the base plate, and a first case flow path between the inner circumferential surface and the outer circumference. An introduction port configured to introduce the cold air to a second case flow path branched from the first case flow path is formed on the inner circumferential surface of the casing.

A refrigerator having an improved structure that enhances the cooling efficiency. The refrigerator includes a main body, a storage compartment formed inside the main body, and a cold air supplier to supply cold air to the storage compartment, the cold air supplier including a compressor compressing a refrigerant, a condenser condensing the compressed refrigerant, a decompressor expanding the condensed refrigerant, an evaporator disposed at a rear of the storage compartment to evaporate the expanded refrigerant, and a refrigerant moving tube connecting the evaporator to the compressor through which the evaporated refrigerant is moved to the compressor so that the refrigerant is recirculated, wherein the evaporator includes a case, a refrigerant tube disposed inside the case such that the refrigerant introduced into the evaporator flows therethrough, and connected to the refrigerant moving tube at an inside of the case, and a heat insulating material filling the inside of the case to cover where the refrigerant tube and the refrigerant moving tube are connected to each other.

A self-contained water cooler module for use with a water dispenser includes a chassis. The chassis includes a back panel, a pair of spaced side panels extending forwardly from the back panel, a bottom panel extending forwardly from the back panel and attached to bottom edges of the pair of spaced side panels, and the back panel, side panels and bottom panel are constructed of a single, unitary sheet. A strut interconnects front edges of the pair of spaced side panels. A support bracket interconnects the back panel and the horizontal frame member. A refrigeration unit includes an evaporator, a condenser, a fan and motor assembly, and a compressor. The refrigeration unit is attached to the chassis. A water storage tank is configured to receive cooled water from the refrigeration unit. The chassis is configured to be attached to and detached from the water dispenser via a tool-free connection.

A fluid distributing device that can be utilized in a refrigerated transport unit, an air duct for an HVAC system in a building, a heat exchanger, etc. The fluid distributing device includes a body having an outlet that directs fluid from the fluid distributing device and a positive fluid displacement device configured to draw fluid into an interior of the body. A method for a fluid distributing device to distribute air within an interior space of the refrigerated transport unit includes drawing air into the fluid distributing device and discharging air out of the fluid distributing device via an outlet.

The present invention relates to a drawer assembly and a refrigerating and freezing device with the drawer assembly. The drawer assembly comprises a cartridge defined a drawing space and a modified atmosphere film assembly, an accommodating cavity is defined in a top wall of the cartridge, the accommodating cavity is communicated with the drawer space; the modified atmosphere film assembly is mounted in the accommodating cavity, and the modified atmosphere film assembly is provided with a modified atmosphere film and an oxygen-enriched gas collecting cavity, so that when the pressure of the oxygen-enriched gas collecting cavity is less than the pressure of the accommodating cavity, oxygen in air of the accommodating cavity penetrates the modified atmosphere film to the oxygen-enriched gas collecting cavity, so as to obtain a gas atmosphere with rich nitrogen and lean oxygen, facilitating for fresh keeping of foods.

Disclosed is a refrigeration unit having an accumulator, a refrigeration system and a method for controlling a refrigeration unit having an accumulator, wherein the refrigeration unit has a refrigeration chamber for receiving and storing goods to be refrigerated, an accumulator having an accumulator holder in which a storage medium is accommodated, a heat exchanger, a controller and a coolant line arrangement which can be connected to a coolant supply network via connections. The coolant line arrangement is guided through the accumulator holder, and the heat exchanger is thermally coupled to the storage medium accommodated in the accumulator holder. A coolant control device is arranged in the flow pipe of the coolant arrangement, wherein the storage medium accommodated in the accumulator holder is cooled via a coolant in the coolant line arrangement, and the heat exchanger is cooled via the storage medium.

A refrigerator includes a compressor configured to circulate a refrigerant, a condenser configured to condense the refrigerant circulated by the compressor, a cooling component configured to cool a storage compartment using the refrigerant condensed by the condenser, and a processor configured to control driving of the cooling component, obtain a load variation of the storage compartment of the refrigerator, the load variation comprising a refrigeration cycle, identify a drive value for driving a component forming the refrigeration cycle based on the load variation, drive the cooling component based on the drive value, and obtain the load variation with a lapse of time during at least one cooling period in which the refrigeration cycle cools the storage cornpartment.

A blower configured to circulate cold air inside a body of a refrigerator. The blower includes a casing, an impeller accommodated in the casing, and a support member configured to support the impeller against the casing. The impeller includes a disk-shaped base plate rotatably supported by the support member. The casing includes an inner circumferential surface extending so as to gradually move away from an outer circumference of the base plate toward a rotational direction of the impeller at a predetermined position around the outer circumference of the base plate, and a first case flow path between the inner circumferential surface and the outer circumference. An introduction port configured to introduce the cold air to a second case flow path branched from the first case flow path is formed on the inner circumferential surface of the casing.