RU1362U1 - cooling chamber - Google Patents

Abstract

A refrigerator containing a housing, air and hydraulic heat exchangers, a fan, a heat-insulating layer of the housing, characterized in that it has a flattened row of thermoelectric modules, and air and hydraulic heat exchangers are installed in contact with the modules to form a thermoelectric battery, the latter being installed together with the fan on the inner wall of the casing, hydraulic heat exchangers are placed in the insulating layer of the chamber body, and air heat exchangers together with the fan p found on the rear front of the plane and the insulation layer together with the outer wall of the cupboard Single row linear air blowing duct fan.

Description

The utility model relates to refrigeration, in particular to refrigeration chambers.

Known refrigeration chambers (see Ship refrigeration units, Zakharov Y. B, et al., D., Shipbuilding, 1986, p. 42), comprising a housing, air and hydraulic heat exchangers, as well as a thermal insulation layer,

In these refrigerated chambers, a substantial part of the useful volume is occupied by cooling elements and an air duct.

The closest analogue is a refrigerator (see ibid., P. 15), which contains a housing, air and hydraulic heat exchangers, a heat-insulating layer of the housing and a fan. The cooling elements look like ribbed batteries,

In the prototype, the cooling elements and the duct also occupy a significant part of the useful volume of the chamber. Water heat exchangers with air channels are subject to freezing due to the accumulation of cold by the heat capacity elements of the chamber.

The technical problem to which the utility model is directed is to improve the mass-dimensional parameters of the refrigerating chamber.

The solution of this technical problem is achieved by the fact that in the refrigerating chamber containing the casing, air heat exchangers, a fan, the insulating layer of the casing, there is a paid series of thermoelectric modules equipped with their own air and hydraulic heat exchangers, and a number of thermoelectric modules with air and hydraulic heat exchangers are installed together with the fan in a wall cabinet on the inner wall of the housing, and the hydraulic heat exchangers are recessed into the insulating layer of the core whisker air heat exchangers together with the fan situated above the plane of insulation layer and form, together with the outer wall cupboard Single row linear air blowing duct fan.

IPC F251 13/00

The essence of the utility model is illustrated by the drawing of FIG. I, which shows a refrigerating chamber in section. Thermoelectric modules I are adjacent on the side of the cold junctions to the air heat exchanger 2, and on the side of the hot junctions - to the hydraulic heat exchanger 3. Thermoelectric modules I and heat exchangers 2 and 3 form the assembly of the thermoelectric battery. Thermoelectric batteries are assembled in a row in a wall cabinet. The outer wall of the cabinet 4 forms a single-row linear channel of air purge by the fan 9, mounted on the inlet of the air channel of the cabinet. Cabinet 4 is installed inside the working space of the pantry on its inner wall-Yograzhdeniye), or on the ceiling. The cabinet 4 is made so that the hydraulic heat exchangers 3 are buried in the thermal insulation 6, The supply and drain of the coolant is made through tubes 7 passing through the insulation 6 directly to the hydraulic heat exchangers, bypassing the working space of the chamber.

The power supply unit is installed outside the camera and connected to the installation by a cable (not shown in Fig. I).

The camera. works as follows. When applying electric power due to the Peltier effect, cooling of the air heat exchangers 2 is carried out. The air is pumped by the fan 9, is taken from the chamber, then it is cooled and re-enters the chamber. The heat of the junctions is removed by pumping through heat exchangers 3 a liquid coolant, nalimer, water.

Due to the fact that the heat exchangers are buried in the thickness of the insulation of the chamber, they are not susceptible to freezing when the water supply is turned off and the unit is turned off. In addition, the warm surfaces of hydraulic heat exchangers do not introduce a thermal load into the chamber,

The space inside the insulation (niche) where the heat exchangers are marked is always dry, t, k, it is continuously dried due to the higher temperature of the heat exchanger in relation to the chamber air. /.

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Thanks to its flat shape, several cabinets can be diminished - installations on the free surfaces of the pantry. The amount is determined by the size of the chamber and its cold demand,

According to this proposal, a refrigerator was made (dimensional drawing and specifications are attached), Ksheler provides cooling capacity of 800 - 1000 W at a temperature in the pantry of minus 16 - minus and a temperature of cooling water of 10-20 C (consumption 4 kW).

The unit is easily mounted on the wall of the pantry, and in terms of mass and dimensions, it is several times (5-10 times) smaller than previously used compression-refrigeration units.

Claims (1)

A refrigerator containing a housing, air and hydraulic heat exchangers, a fan, a heat-insulating layer of the housing, characterized in that it has a flattened row of thermoelectric modules, and air and hydraulic heat exchangers are installed in contact with the modules to form a thermoelectric battery, the latter being installed together with the fan on the inner wall of the casing, hydraulic heat exchangers are placed in the insulating layer of the chamber body, and air heat exchangers together with the fan p found on the rear front of the plane and the insulation layer together with the outer wall of the cupboard Single row linear air blowing duct fan.