A heat-insulation box, includes: a heat-insulation-box main body that has a space; a door that seals the space; and a partition plate that partitions the space, wherein the partition plate includes (i) a design plate that is placed at a side of the door, (ii) a first plate part and a second plate part that are each provided at both edges of the design plate, (iii) a heat-insulation material that is located in a region surrounded by the design plate, the first plate part, and the second plate part, and (iv) a heat-insulation member that is placed in at least one of a gap between the design plate and the first plate part, and a gap between the design plate and the second plate part.

A drawer assembly is provided for a refrigeration appliance. The drawer assembly comprises a unitary storage bin configured to move relative to the cooled compartment. The storage bin is defined by a front wall, a rear wall and opposed sidewalls that are arranged substantially parallel to the first and second interior walls of the cooled compartment. An uppermost portion of each of the opposed sidewalls comprises a projecting edge. The rear wall comprises a reinforced edge that inhibits deflection. A pair of linear motion elements is installed to enable movement of the storage bin in and out of the cooled compartment. A pair of support brackets couples the pair of linear motion elements.

An appliance having a fresh food storage compartment and a freezer compartment. The appliance includes a forced air coil system disposed between the fresh food storage compartment and the freezer compartment and is configured to selectively provide cooling to one or both of the at least one fresh food storage compartment and the at least one freezer compartment. The forced air coil system includes an evaporator fan configured to provide cooling to the food storage compartment, the freezer compartment, or both.

A refrigerator according to an embodiment of the present invention includes a cabinet in which a storage space is formed; a main evaporator which is installed at one side of an inner portion of the storage space to cool the storage space; a case which is installed on the other side of the inner portion of the storage space and defines a deep-freezing storage chamber; a drawer which is accommodated in the case so as to be retractable and withdrawable and in which food is stored; and a rapid cooling module which is provided on a rear side of the inner portion of the case and rapidly cools the deep-freezing storage chamber, in which the rapid cooling module may includes an auxiliary evaporator; and a thermoelectric device which is coupled to the auxiliary evaporator and cools the deep-freezing storage chamber through heat exchange by heat conduction.

A refrigerator includes a refrigerator cabinet, a fresh food compartment disposed within the cabinet, a freezer compartment disposed within the cabinet, an ice compartment disposed within the cabinet, and an electronic control system associated with the refrigerator and adapted to monitor and control the fresh food compartment, the freezer compartment and the ice compartment. The control system provides for energy efficient control and operation through various means, including by monitoring state of an ice maker associated with the ice compartment and controlling temperature within compartments of the refrigerator based on the ice maker state. A damper controls air flow between the fresh food and freezer compartments. The control system can direct heat to the damper if the damper becomes frozen.

A refrigerator includes a body, a freezing compartment, a plurality of refrigerating compartments adjacent to the freezing compartment in a horizontal direction and including a first refrigerating compartment and a second refrigerating compartment, a freezing compartment cooling space arranged behind the freezing compartment to communicate with the freezing compartment, a freezing compartment partition configured to partition the freezing compartment and the freezing compartment cooling space and including a freezing compartment duct, an evaporator configured to generate cooling air, a first duct configured to supply the cooling air to the first refrigerating compartment and including a first cooling air inlet, and a second duct configured to supply the cooling air to the second refrigerating compartment through a second cooling air inlet formed on one wall of the freezing compartment duct. The first cooling air inlet and the second cooling air inlet are arranged above the evaporator.

A refrigerated device includes a compartment including an access door. A refrigeration circuit for cooling the compartment includes an evaporator coil with an associated evaporator fan and a condenser with an associated condenser fan. A temperature sensor is provided for indicating a compartment temperature within the compartment. A controller is configured to: (i) monitor the compartment temperature in order to approximate a number of door openings, (ii) compare the approximated number of door openings to a data point and (iii) take a control action based upon a certain result of the comparison.

A connector assembly includes a base plate that defines a fill opening and an aperture. A fill tube is coupled to a first side of the base plate. The fill tube is aligned with the fill opening. A radial flange is coupled to a second side of the base plate. The radial flange extends around the fill opening. A toggle magnet is coupled to the first side of the base plate proximate to the aperture. The toggle magnet is operable between an activated state and a deactivated state.

A refrigerating appliance includes an interior volume divided by a medial wall into refrigerating and freezing compartments. A horizontal false mullion extends through one of the compartments, parallel with the medial wall to define a pantry compartment in thermal communication with at least one of the refrigerating and freezing compartments. A center vertical mullion is removably engaged with the medial wall and divides the pantry compartment into first and second pantry sub compartments. First and second outer drawer glides are positioned on the cabinet structure within the pantry compartment and opposite first and second inner drawer glides of the center vertical mullion. The first inner and first outer drawer glides partially define the first pantry sub compartment. The second inner and second outer drawer glides partially define the second pantry sub compartment. First and second pantry drawers are slidably engaged with first and second pantry sub compartments, respectively.

An appliance includes a cabinet having outer walls that define a portion of a contact surface. Operable panels are engaged with the cabinet and operate between closed and open positions. A lateral mullion is pivotally attached to a mullion panel of the plurality of operable panels and is operable between contact and tucked positions. When the mullion panel is in the closed position, an outer surface of the lateral mullion is in the vertically pointed contact position and defines a portion of the contact surface to receive a seal of the mullion panel and selectively receive a seal of a vertically adjacent panel. Movement of the mullion panel to the open position rotates the lateral mullion about a horizontal axis to define the tucked position such that the mullion panel can move to the open position free of operation of the vertically adjacent panel.