A gasket is positioned on an icebox within a refrigerator appliance. The gasket includes a first lateral edge spaced apart from a second lateral edge. The first lateral edge has a first height and the second lateral edge has a second height. The first height is greater than the second height. A longitudinal edge extends between and is integrally formed with the first and second lateral edges. The longitudinal edge tapers from the first height to the second height. The second lateral edge is positioned proximate a hinge assembly of an appliance door.

A cabinet with anti-condensation mechanism is used to control opening and closing a cabinet door of the cabinet. The cabinet includes a control module, a temperature control module, and a locking module. The control module senses a cabinet-inside temperature inside the cabinet, and senses cabinet-outside temperature and a cabinet-outside humidity outside the cabinet to generate a dew-point threshold value. The temperature control module is used to adjust the cabinet-inside temperature. The locking module is used to lock the cabinet door or unlock the cabinet door. The control module controls the locking module according to the cabinet-inside temperature and the dew-point threshold value, and controls the temperature control module to adjust the cabinet-inside temperature to be greater than or equal to the dew-point threshold value when the control module receives a trigger signal.

A cabinet with anti-condensation mechanism is used to control opening and closing a cabinet door of the cabinet. The cabinet includes a control module, a temperature control module, and a locking module. The control module senses a cabinet-inside temperature inside the cabinet, and senses cabinet-outside temperature and a cabinet-outside humidity outside the cabinet to generate a dew-point threshold value. The temperature control module is used to adjust the cabinet-inside temperature. The locking module is used to lock the cabinet door or unlock the cabinet door. The control module controls the locking module according to the cabinet-inside temperature and the dew-point threshold value, and controls the temperature control module to adjust the cabinet-inside temperature to be greater than or equal to the dew-point threshold value when the control module receives a trigger signal.

A refrigeration appliance includes a cabinet having a plurality of walls that define a chilled chamber, a door attached to the cabinet to selectively restrict access to the chilled chamber, a cooling system for providing cool air to the chilled chamber via a duct extending through a wall of the plurality of walls of the chilled chamber, and at least one air vent positioned at an end of the duct. Further, the air vent(s) is mounted to the wall. Moreover, the air vent(s) has a body defining an opening through which the cool air exits during operation of the refrigeration appliance. The body of the air vent(s) further defines an outer perimeter having at least one discontinuity that creates at least one airflow passage between the body and the wall to reduce moisture in the chilled chamber.

A refrigeration appliance includes a cabinet having a plurality of walls that define a chilled chamber, a door attached to the cabinet to selectively restrict access to the chilled chamber, a cooling system for providing cool air to the chilled chamber via a duct extending through a wall of the plurality of walls of the chilled chamber, and at least one air vent positioned at an end of the duct. Further, the air vent(s) is mounted to the wall. Moreover, the air vent(s) has a body defining an opening through which the cool air exits during operation of the refrigeration appliance. The body of the air vent(s) further defines an outer perimeter having at least one discontinuity that creates at least one airflow passage between the body and the wall to reduce moisture in the chilled chamber.

In order to prevent condensation from forming on a surface of an inner gasket surrounded on a rear surface of an indoor side door of an entrance refrigerator, the entrance refrigerator has a flow passage structure in which a portion of indoor air, whose temperature is increased by heat exchange with a heat sink, flows along the surface of the inner gasket.

In order to prevent condensation from forming on a surface of an inner gasket surrounded on a rear surface of an indoor side door of an entrance refrigerator, the entrance refrigerator has a flow passage structure in which a portion of indoor air, whose temperature is increased by heat exchange with a heat sink, flows along the surface of the inner gasket.

A frame for a refrigerated enclosure includes a frame segment having, in cross-section, a main frame member including a base, a middle wall, and a forward flange. The forward flange of the main frame member absorbs heat from the ambient air to increase a temperature of one or more locations of the frame segment or a door of the refrigerated enclosure.

A frame for a refrigerated enclosure includes a frame segment having, in cross-section, a main frame member including a base, a middle wall, and a forward flange. The forward flange of the main frame member absorbs heat from the ambient air to increase a temperature of one or more locations of the frame segment or a door of the refrigerated enclosure.

A refrigerating apparatus may include a main body having an interior space in which an article is accommodated, a door configured to open and close an opening of the main body, a compressor configured to compress a non-azeotropic mixed refrigerant, a condenser configured to condense the compressed non-azeotropic mixed refrigerant, a hotline provided at a contact portion between the main body and the door through which the condensed non-azeotropic mixed refrigerant flows, an expander configured to expand the non-azeotropic mixed refrigerant, heat of which is radiated by the hotline, and an evaporator configured to evaporate the expanded non-azeotropic mixed refrigerant to supply cold air to the interior space. According to such structure, even when the non-azeotropic mixed refrigerant is used, a function of the hotline to prevent dew formation may be normally performed with hot refrigerant.