SU615336A1 - Thermoelectric refrigerator - Google Patents

Description

(54) THERMOELECTRIC REFRIGERATOR

Claims (2)

The invention relates to cooling devices that operate on thermoispectric elements and are intended for use in motor vehicles, for example during cooling and thermostatting of food products. Thermoelectric coolers are known that contain a heat insulated cylinder case with a lid and a thermoelectric battery. A disadvantage of the known refrigerators is that it is inconvenient in operation due to additional assembly and disassembly operations (disconnecting the thermopile with subsequent installation of the heat-insulated cover), special sealing of the cooled products, vertical installation of the refrigerating chamber, a significant portion of which is occupied by the cold junction collector. . The aim of the invention is to increase operational reliability. It is achieved by fixing a container in the form of a segment on the inner surface of the lid, the cylindrical stew of which has thermal contact with the inner surface of the body, and forms a flat refrigerator with the rest of the body of the body, and a thermoelectric battery is placed on the outer side surface of the body that contacts the container. . FIG. -1 depicts the described thermoelectric cooler; in fig. 2 is a section along A-A in FIG. 1. The refrigerator includes a housing 1, a thermopile 2, a heat exchanger 3 hot junctions, a collector 4 cold junctions connecting the battery to the cylindrical cusp 2 of the Refrigerating chamber 5 providing heat insulation in, a liquid container 7 having a cross section segment and made on the inner side of the heat insulating circular lid 8, elastic heat-conducting metal fins 9, which are a continuation of the cylindrical wall of the container and are in thermal contact with the inner surface of the cylindrical body. refrigerating chamber, id protection for power supply products 11 made on the surface container 7, contacts 12 of the switch of the emitting thermopile, made on the contact surfaces of the housing 1 of the cold box in the container 7, stopper 13, mixed in the opening of the lid 8, intended for supplying a bone in the branch, rib 14. The operation of the proposed refrigerator is carried out as follows. The container 7 is filled with liquid, for example water, and the volume of the chamber, bounded by the enclosure 10, is loaded with products. Then the lid 8 is installed with onto the casing 1 so that between the container 7 located in the casing and the surface of the casing 1 provides thermal contact. At the same time, the contacts 12 of the switch are closed and turn on the thermopile 2 with the power supply. Working thermopile 2 removes heat from the container and generates heat in the pool 1 of the pool 3, which can be blown by the air flow through a network connected with the thermopile 2. On the outer cylindrical surface of the container 7 and the internal cylindrical surface 1 of the cooling chamber a thread can be inserted. In this case, the container 7 with the lid 8 is screwed into the body 1 of the cooling chamber. After reaching the required: temperature of the cooled products 11, the cap & rotates 180, which can be done automatically. At the same time, thanks to the turning of the cover S, the contacts 12 are opened and the battery power supply is turned off (the power supply of the fan can also be turned off). As the food heats up, the servo servo is turned on by turning it back to 18 °. When container 7 is made and from materials with different (linear expansion coefficients, not only thermal, but also tighter mechanical contact is provided, due to compression of container 7 by body 1. At the same time, to facilitate rotation, the power-on moments and rotation of the cover do not match (eyut. So, first of all, the heat is supplied to the refrigerating chamber through the thermopile 2 and the contact between the container 7 and the housing is weakened by heating the materials of the housing 1 and the container 7. Thereafter The cover turns 180 °, Products 11, thanks to: The presence of a 1O fence made of a heat-insulating material is separated from the part of the housing 1 adjacent to the thermopile 2 and being a source of heat when the thermopile power supply is turned off when turning the hood 8 with the container 7, the latter is found in contact with the upper part of the body 1 of the refrigerating chamber, made of low thermal conductivity materials. A part of the body 1 adjacent to the term “battery 2”. made of a material with high thermal conductivity. The presence of a chilled liquid tank in the refrigerator, which is an accumulator of cold Ti OM, allows for a long time to maintain a low temperature of the stored products while the aneiSr- is off, keeping the battery dry, for example, in a car station, and effectively operating the refrigerator as a thermostat connected alecriticus, thanks to in “h) from the round heat insulating cover on 18O, This simplifies maintenance and allows maximum use of the capacity of the refrigerator. Claims Thermoelectric walker containing thermally insulated cylinder case with Krishka and thermoelectric battery, characterized in that, in order to increase operational reliability, a container is mounted on the inner surface of the LIFTING CELL in which the cylindrical wall has thermal contact with the inner | the surface of the case, and the flat one forms with the rest, the surface of the refrigerator compartment sa, and the thermoelectric battery is placed on the outer side surface of the case, ctrc with container. Sources of information taken into account in the examination: 1. Kolenko E. A. Thermoelectric cooling devices. ML, Science, 1963, p.156, 157,