A refrigeration appliance including a partition that defines a through passage between an upper compartment and a lower compartment. A temperature control system is positioned in the upper compartment and includes an air passage. A lower inlet opening extends through a front surface of the vertical partition to the air passage. A damper assembly includes a door that is moveable between a first position and a second position. When the door is in the first position the door fluidly isolates the through passage in the partition from the upper compartment while allowing the lower inlet opening in the vertical partition to fluidly communicate with the air passage in the vertical partition. When the door is in the second position the door fluidly isolates the lower inlet opening from the air passage while allowing the through passage to fluidly communicate with the upper compartment.

A fan assembly for a refrigeration appliance includes a fan for circulating air within a compartment of the refrigeration appliance. The fan includes a frame. A housing is provided for mounting the fan. The housing includes a plate with an opening extending through the plate. A plurality of walls extends from a surface of the plate. A first retaining member extends in a direction generally parallel to a surface of the plate and is disposed proximate the opening for hindering movement of the fan in a direction generally perpendicular to a surface of the plate. The plurality of walls and the first retaining member define a pocket for receiving the frame. A vibration damping member is provided for allowing the fan to vibrate relative to the housing and for hindering the transmission of vibrations from the fan to the housing.

A supercooling refrigerator (1000) including: a refrigerator body (100); a door (200) for opening and closing one side of the refrigerator body (100); an accommodating portion (400) provided inside the refrigerator body (100) and seated with an object (M) to be stored; a cooling duct (600) including a fan for taking in air in the refrigerator body (100) and discharging the air, and an evaporator (630) for cooling the air discharged from the fan; and a cool air supply duct (700) formed with a cool air discharge port (710) through which the air cooled through the cooling duct (600) is discharged into the refrigerator body (100), the fan being a cross flow fan (620) including a plurality of discs (622), and a plurality of blades (623) disposed between the discs (622) along outer circumferential surfaces of the discs (622).

To provide an ice making device including an ice making tray, a drive unit configured to turn over the ice making tray, a frame including a frame body, the frame configured to support the ice making tray, and a fan motor configured to send wind to the ice making tray. The frame includes a block unit configured to contact a part of the ice making tray turning over to partially disturb the turning over of the ice making tray, and the fan motor is fixed only to a first frame part including one of a plurality of frame parts constituting sides surrounding a periphery of the ice making tray in a plan view of the frame.

Described herein is an electric motor assembly for an environmental control system. The electric motor assembly includes a fan configured to rotate to circulate air within a controlled environment chamber of the environmental control system, and an electric motor coupled to the fan and configured to rotate the fan. The electric motor includes a motor controller configured to receive a braking control signal from a sensor associated with the controlled environment chamber. The braking control signal indicates an entrance to the controlled environment chamber is about to be opened. The motor controller is also configured to initiate braking the electric motor in response to receiving the braking control signal.

In one instance, a cooling unit for cooling a refrigerated room includes a fan base and a fan guard that both twist and rotate to change pitch thereby allowing the cooling unit air to be directed in many directions as desired. The fan base has a flange portion and a conduit portion. The conduit portion of the fan base mates with an opening in a conduit member of the fan guard. The opening in the fan guard is sized and configured to form an interference fit with at least a portion of a conduit portion of the fan base while allowing rotation of the fan guard relative to the fan base about the longitudinal axis. The second longitudinal end of the fan-guard conduit member is at least partially angled to allow the rotation about a lateral axis in order to pitch the direction of the grill front wall.

A fan assembly including an air duct; an evaporator coil cover; a radial fan mounted onto the evaporator coil cover and disposed between the air duct and the evaporator coil cover; wherein the air duct includes a ring portion which interlocks with the evaporator coil cover around the radial fan; wherein the evaporator coil cover comprises three darts positioned substantially uniformly around the radial fan position; three grommets, each grommet having a central opening configured to fit over a dart, each grommet having a circumferential ridge configured to interlock with a lower rim or the radial fan is provided. Further provided is a method of reducing noise in a refrigeration appliance.

The present invention relates to a refrigerator having a separate deep-freezing space which is partitioned inside a storage space of the refrigerator. Provided is a refrigerator having a flow path which allows cold air to circulate inside a deep-freezing chamber. According to an embodiment disclosed in the present document, a flow path portion is formed on one part of the inner surface of the housing which forms the inner space of the deep-freezing chamber. The flow path portion is formed in a stepped shape on the inner surface of the housing.

A refrigeration appliance including a partition that defines a through passage between an upper compartment and a lower compartment. A temperature control system is positioned in the upper compartment and includes an air passage. A lower inlet opening extends through a front surface of the vertical partition to the air passage. A damper assembly includes a door that is moveable between a first position and a second position. When the door is in the first position the door fluidly isolates the through passage in the partition from the upper compartment while allowing the lower inlet opening in the vertical partition to fluidly communicate with the air passage in the vertical partition. When the door is in the second position the door fluidly isolates the lower inlet opening from the air passage while allowing the through passage to fluidly communicate with the upper compartment.

There is disclosed a refrigerator including an evaporator configured to generate cold air; and a grill fan assembly configured to blown the cold air generated by the evaporator to a freezer compartment and an ice-making chamber, wherein the grill fan assembly includes a freezing fan module; an ice-making fan module disposed in a predetermined area of the freezing fan module; a first cold air flow path guide disposed between the freezing fan module and the ice-making fan module; and a second cold air flow path guide disposed between the freezing fan module and the first cold air flow path guide, and the first cold air flow path guide and the second cold air flow path guide are spaced apart from an upper wall of the grill fan assembly.