A refrigerator includes an inner case defining a storage chamber, a door disposed at a front portion of the inner case and defining a storage space therein, a cool air distribution device disposed inside the inner case and defining a box inlet portion configured to receive cool air, a multi-duct disposed in the inner case and defining discharge holes configured to discharge a first portion of cool air in the cool air distribution device to the storage chamber, and a duct assembly that extends from the cool air distribution device toward the door and that is configured to carry a second portion of cool air in the cool air distribution device. The inner case defines a case inlet at the front portion of the inner case, and the case inlet is configured to communicate with the duct assembly and supply the second portion of cool air to the storage chamber.

An ice maker for mounting into a household cooling appliance, the ice maker includes an ice producer for producing ice; a storage container for storing ice; a driving unit for driving the storage container, the driving unit having a drive housing; and an air duct formed in the drive housing. The air duct has an air duct outlet configured in a front wall of the drive housing which faces towards the storage container and an air duct inlet provided in a side wall of the drive housing which faces towards the ice producer. A fan is arranged in the air duct. The fan generates an air stream from the ice producer to the storage container through the air duct.

The present disclosure relates to a refrigerator. The refrigerator is configured to supply cool air to a refrigerating compartment, a freezing compartment, and an ice-making compartment by a single evaporator. A cool air passage for the ice-making compartment for supplying cool air to the ice-making compartment is configured to supply the cool air to an upper space in a cool air passage for the freezing compartment, which. supplies cool air to the refrigerating compartment and the freezing compartment, through an upper supply passage. Accordingly, since additional cool air is supplied to the cool air passage for the freezing compartment by using the upper supply passage, sufficient cool air is supplied to the refrigerating compartment and the freezing compartment by the single evaporator.

The present disclosure relates to a refrigerator. Wherein a cool air passage for a freezing compartment, the cool air passage guiding the flow of cool air to the freezing compartment, and a cool air passage for an ice-making compartment, the cool air passage guiding the flow of cool air to the ice-making compartment, partially share the cool air thereof. Through the sharing of cool air, the amount of cool air supplied to the freezing compartment is increased and sufficient cool air is supplied to the refrigerating compartment. Accordingly, sufficient cool air is supplied to the refrigerating compartment, the freezing compartment, and the ice-making compartment even with a single evaporator.

A refrigerator is proposed. In the refrigerator, a cool air passage for a freezing compartment which guides the flow of cool air to the freezing compartment, and a cool air passage for an ice-making compartment which guides the flow of cool air to the ice-making compartment partially share the cool air with each other. Through the sharing of cool air, the amount of cool air supplied to the freezing compartment is increased and sufficient cool air is supplied to the refrigerating compartment. Accordingly, sufficient cool air is supplied to the refrigerating compartment, the freezing compartment, and the ice-making compartment even with a single evaporator.

A refrigerator appliance includes a cabinet that defines first and second compartments. A fan assembly is configured to direct cooled air from a cooling assembly into the first and second compartments. The fan assembly includes a housing that defines an inlet, a first outlet, and a second outlet. The first outlet is in communication with the first compartment, and the second outlet is in communication with the second compartment. A fan is positioned within the housing and is configured to direct the cooled air from the inlet toward the first and second outlets. A damper assembly is configured to selectively obstruct one of the first outlet and the second outlet.

Provide is a refrigerator provided with a defrosting device capable of enhancing the defrosting efficiency. The refrigerator includes main body, storage compartment provided inside the main body, an evaporator provided in the storage compartment and configured to generate cold air, a first flow path allowing air to be guided in a first direction for the air to be supplied to the storage compartment during a cooling operation, a defrosting heater configured to generate heat for defrost, a second flow path allowing air to be guided in a second direction opposite to the first direction for the air to be circulated around the evaporator during a defrosting operation, a fan allowing air having received heat from the defrosting heater to be circuited around the evaporator through the second flow path, and a flow path resistance portion provided on the second flow path to increase a flow path resistance in the first direction.

A composite film for a home appliance according to an embodiment of the present invention includes a first film part partially formed of metal material and forming an outer appearance, a second film part formed on one surface of the first film part and formed of resin material, an adhesive part formed on one surface of the second film part and adhering to injection products constituting the home appliance, and a plurality of exhaust grooves that are recessed in the adhesive part and extend from one end to the other end of the adhesive part to discharge air between the adhesive part and the injection products.

A temperature-controlled cradle and method of cooling same are provided. The temperature-controlled cradle may include a base having an outer housing and a cooling unit disposed within the outer housing, and a bassinet coupled to the base. The cooling unit may include a cooling plate having a first side configured to chill an interior portion of the bassinet, at least one thermoelectric cooling module coupled to a second side of the cooling plate, and a heat dissipation device configured to dissipate heat from the at least one thermoelectric cooling module.

A refrigeration appliance has an internal container, which has a back wall and side walls, and an air distributor cladding which is arranged on the back wall and bounds an air distributor duct. A visible surface of the air distributor cladding covers a majority of the width of the back wall. Side faces of the air distributor cladding, together with the internal container, bound grooves that run on either side of the air distributor cladding and that are open towards a front side of the internal container. Outlet openings of the air distributor cladding are formed on the side faces.