A refrigerator including a cabinet, a liner defining a compartment within the cabinet, a fan to move cooled air, and an air tower positioned adjacent the liner and provided in fluid communication with the compartment via a plurality of primary exhaust openings. The refrigerator further includes an air filter bracket separate from and located adjacent to the air tower and provided in fluid communication with both the air tower and the compartment. The air filter bracket includes a duct positioned adjacent the flow path of the air tower to be in fluid communication with a secondary exhaust opening of the air tower.

A refrigerator a duct arranged to partition an inner space of a storage chamber body into a storage chamber and an air flow channel, wherein the duct has an ejection hole defined therein; a roll-bond evaporator disposed in the air flow channel, wherein the roll-bond evaporator has a top and a bottom, a left end and a right end; a blowing fan configured to draw air from the storage chamber to blow the air into the air flow channel; and a defrost sensor closer to one of the top and bottom than the other of the top and the bottom, wherein said one is closer to the blowing fan than the other, wherein the sensor is closer to one of the left end and the right end than the other of the left end and the right end.

A refrigerator includes a cabinet formed with a chamber, a partition wall configured to partition the chamber into a storage space and an air flow path and including a discharge port and a suction port, and a heat exchanger provided in the air flow path, in which the air flow path includes a discharge flow path to guide air discharged to the discharge port, the discharge flow path has an inlet closer to a first side edge of the partition wall, and the suction port is formed closer to a vertical centerline of the partition wall than either of a first or second side edge of the partition wall.

A air-cooled refrigerator is provided, comprising: a freezer compartment (103), a refrigeration compartment (104), a temperature changeable compartment (105), a finned evaporator (106), an electric air door (107), an air inlet duct (101) and an air return duct (102), wherein the main air duct (1011) has one end connected to the refrigeration compartment air inlet duct (1012) and the temperature changeable compartment air inlet duct (1013) respectively, and the other end connected to an outlet of the finned evaporator (106), and in the air return duct (102), both the refrigeration compartment air return duct (1021) and the temperature changeable compartment air return duct (1022) introduce the returning air into the bottom of the finned evaporator (106), the electric air door (106) is communicated with the refrigeration compartment air inlet duct (1012) and the temperature changeable compartment air inlet duct (1013) respectively.

A refrigerated merchandiser includes a case, a first case section defining a first product display area and a first air passageway having a first airflow inlet, a first airflow outlet, and a second airflow outlet, and a second case section having a glass panel through which a second product display area is visible. Moreover, the refrigerated merchandiser includes a fan positioned in the first air passageway to generate an airflow that is separated into a first airflow portion and a second airflow portion at or upstream of an evaporator. The first airflow portion is configured to flow through the evaporator and through the first airflow outlet. The second airflow portion is configured to bypass the evaporator via a bypass channel and flow through the second airflow outlet. The second airflow outlet is oriented to direct the second airflow portion over an exterior of the glass panel.

A refrigerator comprising a cabinet comprising a storage compartment provided therein; a first door rotatably coupled to the cabinet to open and close the storage compartment; an outer door rotatable opening and closing an opening that is provided in the inner door; and a multi-duct provided in an inner wall of the storage compartment and comprising: a first duct comprising a first upper outlet hole a first middle outlet hole and a first lower outlet hole for exhausting cold air toward the first door of the storage compartment; and a second duct comprising a second upper outlet hole, a second middle outlet hole and a second lower outlet hole for exhausting cold air toward the inner door of the storage compartment, wherein an inlet hole for sucking cold air to the first duct is smaller than an inlet hole for sucking cold air to the second duct.

The method for controlling the refrigerator includes operating a first cooling cycle for cooling the first storage compartment to operate the compressor and operating a first fan for the first storage compartment, and switching the first cooling cycle to a second cooling cycle for cooling the second storage compartment to operate the compressor and operating a second fan when a stop condition of the first cooling cycle is satisfied. A temperature of each storage compartment is sensed at sampling time intervals in each cooling cycle. Further, a cooling power of the compressor is determined for each sampling time based on a sensed current temperature of the storage compartment, and the compressor is operated at the determined cooling power.

A refrigerator according to an embodiment of the present invention may include: an inner case having a storage chamber; a thermoelectric module configured to cool the storage chamber and including a thermoelectric element and a cooling sink; a fan configured to circulate air, which has exchanged heat with the cooling sink, to the storage chamber; a fan cover configured to cover the fan and having an upper discharge hole, a lower discharge hole, and an inner suction hole formed between the upper discharge hole and the lower discharge hole; a first receiving member disposed in the storage chamber; and a second receiving member disposed over the first receiving member to be spaced apart from the first receiving member. At least a portion of each of the inner suction hole and the lower discharge hole may face a portion between the first receiving member and the second receiving member, and at least a portion of the upper discharge hole may face a portion between a top surface of the storage chamber and the second receiving member.

A refrigeration appliance includes an insulated cabinet having a side wall and a machine compartment positioned adjacent the side wall. An aperture is provided through the first side wall to allow air to flow into the machine compartment. An air vent is provided at the exterior surface of the side wall so as to cover the aperture. The air vent having a first set of louvers. A sound barrier is provided at the interior surface of the side wall at the aperture. The sound barrier has a second set of louvers, where the second set of louvers are positioned with respect to the first set of louvers such that there is no mechanical access to components in the machine compartment through the air vent, and such that sounds from within the machine compartment are dampened while still allowing air to flow through the air vent.

A refrigerator appliance is provided herein. The refrigerator appliance may include a cabinet, a door, a secondary liner, and a heat exchange case. The cabinet may include an internal liner defining a freezer chamber and a fresh food chamber. The door may be attached to the cabinet. The secondary liner may be attached to the cabinet and define a sub-compartment in fluid isolation from the freezer chamber and the fresh food chamber. The heat exchange case may be attached to the internal liner at the freezer chamber in conductive thermal communication therewith. The heat exchange case may at least partially define a convection compartment along a portion of the internal liner. The convection compartment may be defined in fluid isolation from the freezer and in fluid communication with the sub-compartment.