A frozen food dispensing machine includes a refrigerated first zone including a product storage chamber. A second zone is operably connected to the first zone for flowing product from the first zone. A third zone is configured to receive a flow of product from the second zone, freeze the flow of product and dispense the flow of product. The first zone, the second zone and the third zone are isolatable from each other.

A method of absorbing heat from two or more devices can employ a two-phase cooling apparatus that pumps low-pressure coolant through two or more fluidly-connected and series-connected heat sink modules. A flow of subcooled single-phase liquid coolant can be provided to an inlet of a first heat sink module in thermal communication with a first device. Within the first heat sink module, the flow of subcooled single-phase liquid coolant can absorb a first amount of heat from the first device as sensible heat. The flow of subcooled single-phase liquid coolant can be transported from an outlet of the first heat sink module to an inlet of a second heat sink module. Within the second heat sink module, the flow of subcooled single-phase liquid coolant can absorb a second amount of heat from the second device partially as sensible heat and partially as latent heat and thereby transform to two-phase bubbly flow.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

A multitemperature storage system includes a storage structure including a plurality of upright members , a plurality of horizontal members supported by the upright members and forming a grid pattern defining a plurality of grid cells and allowing containers to be arranged in stacks beneath the grid cells defined by the grid pattern, and a track structure on top of the horizontal members , the track structure being configured to allow a load-handling device to move across the storage structure to retrieve a container from a stack ; and including temperature-control to maintain a first-temperature region within the storage structure at a first temperature and a second-temperature region within the storage structure at a second temperature.

Lighting units for refrigerator drawers and baskets are disclosed. An example refrigerator drawer assembly includes a shelf having a divider, the shelf defining at least a portion of a drawer compartment, first and second drawers disposed beneath the shelf, an elongated light source attached to a bottom surface of the divider, the elongated light source having a plurality of light-emitting diodes (LEDs) along the length of the elongated light source to provide a source of visible light for the first and second drawers.

An assembly for thermal insulation of an MR magnet system during such a transport has a container for accommodating an MR magnet, the container being equipped with thermal insulation, and the container has an opening for accommodating a cooling unit. The assembly further has a protective cap, such that the opening is sealed in a reversible manner by the protective cap, and the protective cap is likewise equipped with thermal insulation.

A heat sink module for cooling a heat providing surface can include an inlet chamber and an outlet chamber formed within the heat sink module. The outlet chamber can have an open portion that can be enclosed by the heat providing surface when the heat sink module is installed on the heat providing surface. The heat sink module can include a dividing member disposed between the inlet chamber and the outlet chamber. The dividing member can include a first plurality of orifices extending from a top surface of the dividing member to a bottom surface of the dividing member. The first plurality of orifices can be configured to deliver a plurality of jet streams of coolant into the outlet chamber and against the heat providing surface when the heat sink module is installed on the heat providing surface and when pressurized coolant is provided to the inlet chamber.

A refrigerator includes a cabinet with a first storage region sealable by a gasket of a door. A first hinge, outside a sealing region, allows the door to rotate relative to the cabinet. A second hinge, inside the sealing region, allows the door to rotate relative to a container having a second storage region that can be accommodated inside the first storage region. Rotating shafts of the first and second hinges are non-collinear, and a coupling between the container and the second hinge is drawn forward when the door rotates independent of the container. A guide unit protrudes into the first storage region and is selectively coupled to a fixing device at the container. The fixing device includes a push unit pushable by the door and a holder that fixes the guide unit as a rotation axis of the container, and releases the push unit from a pushed state.

A refrigerator includes a cabinet with a first storage region sealable by a gasket of a door. A first hinge, outside a sealing region, allows the door to rotate relative to the cabinet. A second hinge, inside the sealing region, allows the door to rotate relative to a container having a second storage region that can be accommodated inside the first storage region. Rotating shafts of the first and second hinges are non-collinear, and a coupling between the container and the second hinge is drawn forward when the door rotates independent of the container. A guide unit protrudes into the first storage region and is selectively coupled to a fixing device at the container. The fixing device includes a push unit pushable by the door and a holder that fixes the guide unit as a rotation axis of the container, and releases the push unit from a pushed state.

A thermally controllable cupholder that is advantageously designed for marine and other outdoor implementations. The thermally controllable cupholder includes a beverage receptacle and a thermal control device configured to change a temperature of the beverage receptacle. In one embodiment, the cupholder includes a drain passageway and a drain hole that connects the beverage receptacle to the drain passageway. In one embodiment, the cupholder includes a perforated heat sink to promote the thermal conductivity of the thermal control device.