An adjustable shelf assembly including a number of mounting members and an adjustable shelf. The number of mounting members are provided with a main body and a number of fingers extending from the main body. The number of fingers collectively define a number of interstices disposed interstitially between adjacent fingers of the number of fingers. A first finger of the number of fingers define an aperture configured to receive a shelf of the refrigerator. The adjustable shelf is configured to be inserted into one or more of the interstices so that adjustable shelf is detachably connected to one or more of the number of interstices.

A structure of an ice making compartment of a side by side type refrigerator to enhance ice making efficiency and to reduce energy consumption. The ice making compartment may be separately provided between a refrigerating compartment and a freezing compartment and be insulated from the refrigerating compartment and the freezing compartment. A portion of a refrigerant pipe is inserted into the inside of the ice making compartment so as to directly cool down the ice making compartment. A front opening of the ice making compartment can be closed by an ice bucket, and the ice bucket can be inserted into or drawn from the ice making compartment with being accessible without opening a refrigerating compartment door and a freezing compartment door.

A handle top includes a top panel defining a first side edge and a second side edge disposed opposite from the first side edge; a side panel, an inner edge of the side panel hingedly attached to the top panel at the first side edge; and a handle loop comprising a handle portion and a base portion, the base portion secured to the side panel.

For the purpose of improving efficiency a home appliance device, in particular a home chiller appliance device, is proposed. The device includes an insert (16) which is insertable into a storage space (12) and which has a front cover element (32) and a cover support element (34), wherein the front cover element (32) is connected to the cover support element (34) in a form-fit manner in at least one first direction (36) and is in at least one pre-assembly state movable with respect to the cover support element (34) in at least one second direction (38) that is at least substantially perpendicular to the first direction (36).

Methods and systems for an energy efficient MTRS are provided. In one embodiment, a refrigerated transport unit is provided that includes a multi-zone transport unit and an energy efficient MTRS. The multi-zone transport unit includes an internal space separated into a first zone and a second zone. The internal space includes a zone separator separating and thermally isolating the first zone and the second zone. The energy efficient MTRS is configured to control and maintain a separate environmental condition requirement of each of the first zone and the second zone. The energy efficient MTRS includes a remote fan unit provided between the first zone and the second zone. The remote fan unit is configured to provide a heat exchange between the first zone and the second zone for providing climate control within the second zone.

An insulation system for an appliance includes a first vacuum insulated structure having a first set of sidewalls that define a first refrigerating compartment, a second vacuum insulated structure having a second set of sidewalls that define a second refrigerating compartment and a medial insulation structure having a rigid perimeter wall. The rigid perimeter wall includes a front portion that defines at least one hinge support adapted to support an appliance door. The rigid perimeter wall defines an insulating cavity that is filled with an insulating material. The first vacuum insulated structure engages a first edge of the perimeter wall and the second vacuum insulated structure engages a second edge of the perimeter wall.

A sectorized cooling arrangement for refrigerators housing products, wherein the arrangement has a direct access to the products without having to open a cooling chamber of the refrigerator, which arrangement has a compartment defining sectorized housings and air passage regulators between the cooling chamber of the refrigerator and the compartment.

Provided is a vacuum adiabatic body. The vacuum adiabatic body includes a mullion configured to divide the first space into two spaces and a connection pipe supported on the mullion so as to be fixed in position, the connection pipe being configured to connect the two space to each other. According to the embodiment, the vacuum adiabatic body may increase in strength, and also, a passing path of defrosting water may be secured.

Disclosed is a refrigerator having an improved structure to improve space utilization of a storage container.

Provided is a refrigerator including a refrigerator including: a main body; a storage chamber provided inside the main body and having an open front surface; a door provided to open and close the open front surface of the storage chamber; and a storage container having a storage space and provided to be withdrawn in the storage chamber, wherein the storage container may include a plurality of guide rails installed to face each other on an inner wall of the storage container; and a divider provided to be movable along the plurality of guide rails to divide the storage space into a plurality of storage spaces.

A refrigeration apparatus performs refrigeration by freezing circuitry using refrigerant. The refrigeration apparatus includes: an inner door that is provided with a thermal insulation material inside; a case section that includes a peripheral edge section facing a perimeter section of the inner door while the inner door is closed, and that is refrigerated inside by the refrigerant; a packing that is pressed between the perimeter section of the inner door and the peripheral edge section while the inner door is closed; a pipe that is placed along the peripheral edge section, and that circulates the refrigerant warmed by a compression effect of a compressor; and an outer door that covers the inner door while the inner door is closed.