Abstract:
A refrigeration appliance and a method for manufacturing a refrigeration appliance are disclosed. The refrigeration appliance includes: a case body (10, 100), where the case body (10, 100) includes a pair of opposite case walls (11, 101); and a beam (20, 60), which bridges the pair of case walls (11, 101). The beam (20, 60) includes at least two beam section, a length of each of the beam sections is less than a length of the beam (20, 60), and the at least two beam sections are connected along a length direction of the beam sections to form the beam (20, 60). The beam in the present invention is formed by connecting at least two end beam sections, and a length of each beam section is less than the length of the beam. Therefore, the beam may be installed before a foaming process of the case body, or may be assembled to the case body after a foaming process of the case body.
Abstract:
A three-dimensiona l (3D) vacuum insulation panel (VIP) (100) and a folding approach to create the 3D VIP (100) from a two-dimensional (2D) VIP of non-uniform thickness for a refrigerator, a refrigerator freezer or a non-appliance (Para. 0038), are disclosed. The folding approach includes placing a VIP main panel (110) and a plurality of VIP wall panels (410-450) on an outer film (200), where one or more panels (430, 440) are of a greater thickness than other VIP panels; placing an inner film (210) on top of the VIP main (110) and wall panels and sealing the films together. The inner film (210) is longer than the outer film (200) and this allows the films and the VIP wall panels to be folded into a finished panel (Fig. 1C and Fig. 4), wherein the longer inner film (210) allows for fording without causing tears or micro-cracks (Para. 0032) in the film.
Abstract:
Electrodoméstico para enfriar o congelar y calentar que comprende: un soporte común (17), un habitáculo aislado (18), unos elementos necesarios para enfriar y calentar, ambos dispuestos sobre el soporte común (17) y unos elementos comunes a ambos modos de funcionamiento, donde el habitáculo (18) está formado por una serie de paneles laterales y superiores (15) realizados en un material aislante y capaz de soportar las microondas, y está dispuesto sobre un panel aislante (16) colocado entre el habitáculo (18) y el soporte común (17), en el interior del habitáculo (18) se dispone un plato giratorio en forma de parilla o agujerado y el habitáculo (18) cuenta con una compuerta interior(12) accionada mediante un electroimán que solamente se acciona cuando se selecciona el modo de funcionamiento para enfriar, quedando dicho electroimán desactivado cuando se selecciona el modo de funcionamiento para calentar para permitir la ventilación. Gracias a las características del electrodoméstico se consigue además de poder enfriar o congelar y calentar, tener una eficiencia energética y uniformidad en el proceso de enfriado.
Abstract:
A cooled storage system comprises a grid structure (20) of storage cells, where each cell is arranged to accommodate a vertical stack of storage bins and having a top level, at least one remotely operated vehicle (27) arranged to move at the top level of the grid structure (20) and receive a bin from a storage cell at the top level of the grid structure (20), where there is provided thermal insulation between at least a section of the grid structure (20) and the remotely operated vehicle (27), and said section of the grid structure (20) has a temperature that is lower than the temperature of the remotely operated vehicle (27).