A refrigerator includes a cabinet defining a refrigerated compartment and a machine compartment. A compressor is disposed within the machine compartment and is adapted to compress a refrigerant within a refrigerant line. A micro-channel condenser is positioned in communication with the compressor and adapted to selectively reject heat from the refrigerant into the machine compartment. A condenser fan is positioned within the machine compartment between the condenser and compressor. The fan is adapted to draw heated air through the condenser and also draw fresh air from an area adjacent the machine compartment and beneath the refrigerated compartment. The heated air and fresh air combine to define mixed air that is directed toward the compressor for cooling the compressor.

A refrigerator having a flow channel device provided at opposite sides of a machinery compartment to introduce and discharge external air into the machinery compartment. The refrigerator includes a main body including an inner liner having a storage compartment defined therein, an outer liner coupled to an outside of the inner liner to form an external appearance thereof, and an insulation member filled between the inner liner and the outer liner, a machinery compartment, provided at a lower part of the main body, in which a compressor is disposed, and a flow channel device provided at opposite sides of the machinery compartment such that external air is introduced into the machinery compartment, flows along the machinery compartment, and is discharged from the machinery compartment, wherein the flow channel device extends through the insulation member filled between the outer liner and an inner wall of the machinery compartment.

The present invention discloses a control system and a control method of a refrigerator. The control system comprises a collection unit and a fan control unit, and the fan control unit controls a heat dissipation fan to operate at different rotation speeds according to a power-on signal of the refrigerator, a closing signal and an opening signal of the first air port collected by the collection unit. The present invention solves the problem that the hot air discharged out of the compressor compartment blends with cold air and re-enters the compressor compartment, and the problem of poor heat dissipation of the refrigerator when the refrigerator is embedded in the cupboard.

A refrigerator includes a lowermost storage liner, an evaporator, an air supply duct, and at least one air supply fan. A storage compartment and a cooling chamber positioned under the storage compartment are defined in the storage liner. The evaporator is disposed in the cooling chamber and is configured to cool air passing through the evaporator so as to form cooling air supplied to the storage compartment. The air supply duct is disposed in a space defined by the storage liner and is configured to convey the cooling air cooled by the evaporator to the storage compartment. The air supply fan is disposed in the air supply duct and is configured to promote air circulation between the cooling chamber and the storage compartment.

A home appliance includes air inlets and air outlets that are defined at a machine room cover and configured to have flow rates different from each other. Accordingly, a design for the volume of air introduced into a machine room and the volume of air discharged to the outside of the machine room from the inside thereof may be facilitated.