RU32253U1 - Thermoelectric heat exchanger - Google Patents

Abstract

1. Thermoelectric heat exchanger comprising an internal heat exchanger of highly heat-conducting material, thermocouple blocks in contact with the primary junctions with the internal heat exchanger, the secondary junctions of which are located in radial openings and provided with longitudinal ribs of the external heat exchanger with end parts filled with sealant, characterized in that the internal and external heat exchangers are made in the form of separate flat plates and interconnected by flexible films of low-heat-conducting material. 2. A heat exchanger according to claim 1, characterized in that one of the surfaces of the flat plates of the internal heat exchanger has a blackened developed surface. The heat exchanger according to claim 1, characterized in that each plate of the internal heat exchanger has a perimeter gasket of an elastic material. The heat exchanger according to claim 1, characterized in that the external heat exchanger has a system of openings for the duct of the secondary coolant.

Description

Thermoelectric heat exchanger

The utility model relates to a power system, namely to thermoelectric semiconductor heat exchangers.

A thermoelectric semiconductor heat exchanger is known, containing coaxially mounted pipes of highly heat-conducting material and blocks of thermocouples with primary junctions in contact with the internal multifaceted pipe, and the secondary junctions are in the radial holes of the external pipe and provided with longitudinal ribs, the ends of the annular space are sealed and have a pipe.

W. Patent No. 2156424 IPC R28D7 / 00 2000

The disadvantages of the known thermoelectric heat exchanger are low performance.

Tasks, the solution of which the proposed solution aims to increase operational properties, expand the scope of application.

The aforementioned drawback is eliminated by the fact that the thermoelectric heat exchanger containing the internal heat exchanger is made of highly heat-conducting material, the blocks of thermoelements are in contact with the primary junctions with the internal heat exchanger, and the secondary junctions are located in the radial holes of the heat exchanger and provided with longitudinal ribs, and the end parts of the heat exchangers are sealed with an external sealant, while the inner and made in the form of separate plates and interconnected by flexible films of low heat wire material, and one of the surfaces of each flat plate has a blackened developed surface and an elastic gasket is located around its perimeter, and the external heat exchanger has a system of openings for the flow of the secondary coolant, as well as inlet and outlet pipes.

The drawing shows a thermoelectric heat exchanger.

in FIG. 1 - general view with a radiator pipe

in FIG. 2 - general view (heat source is the sun)

in FIG. 3 - flat plates of internal and external heat exchangers

in FIG. 4 - plates of heat exchangers (section)

The thermoelectric heat exchanger contains an internal heat exchanger 1, consisting of flat plates 2, one side 3 of each flat plate 2 is blackened and has a developed surface; blocks of thermocouples 4 are attached to the other side of the flat plates 2, the outer junctions of which are located in the radial holes 5 of the flat plates of the external heat exchanger 7 and provided with longitudinal ribs 8, while the flat plates 6 are connected to each other by means of a flexible film 9, and on the side E 3 are flat plates 2 there are elastic gaskets 10 around the perimeter, and the external heat exchanger 7 has a system of openings 11 for the secondary coolant duct, inlet 12 and outlet 13 of the pipe. The cavity between the flat plates 2 and 6 of the inner 1 and outer 7 heat exchangers have a heat insulator 14 and are filled with sealant. The thermoelectric heat exchanger can be mounted on the radiator pipe 15.

MPK R28D7 / 00

The principle of operation of the thermoelectric heat exchanger is as follows in the heat pump modes. With a primary heat source in the form of a radiator pipe 15, a thermoelectric heat exchanger is attached directly to the pipe 15 and is fixed on it; while the elastic gaskets 10 are tightly in contact with the pipe 1 $. An intermediate heat carrier can be poured into the cavity between the pipe 15 and the internal heat exchanger 1 for better heat transfer from the radiator pipe 15 to the internal heat exchanger 1, which is the “cold heat exchanger 1 of the thermoelement blocks 4. At the same time, when the current passes through the thermoelement block 4, the external heat exchanger 7 heats up and transfers warm to the consumer. The longitudinal ribs 8 facilitate heat transfer, for example in the case of convective heat transfer of the room air. Heat exchange with the consumer can be carried out using a secondary heat carrier in the form of a liquid, while the consumer heating system (not shown) is connected to the inlet and outlet pipes of the external heat exchanger 7.

A thermoelectric heat exchanger can use other primary heat sources, for example, solar heat, for transformation and subsequent transmission to the consumer. In this mode of operation, the flat plates 2 and 6 are deployed in a single plane, while the developed blackened side 3 is facing the sun and absorbs solar heat; when current flows through the blocks of thermoelements 4, an external heat exchanger 7 is heated from which heat is removed to the consumer using a heat transfer fluid through a system of holes 11 or in the form of air through longitudinal ribs 8. Teimj о 6f. Tegshyub с о Formula of utility model 1. Thermoelectric heat exchanger containing an internal heat exchanger made of highly conductive material, blocks of thermocouples in contact with primary junctions with an internal heat exchanger, secondary junctions of which are located in radial openings and are equipped with by the fins of an external heat exchanger with end parts filled with sealant, characterized in that the internal and external heat exchangers are made in the form of separate flat plates and interconnected by flexible films of en; t f low heat conductive material. 2 / According to item f, characterized in that one of the surfaces of the flat plates GTIN / k of the internal heat exchanger has a blackened developed surface. Claim. 1, characterized in that each plate of the internal heat exchanger has a perimeter gasket of elastic-elastic glare to the material. L. 1, characterized in that the external heat exchanger has a system of openings for the flow of the secondary coolant.

Claims (4)

1. Thermoelectric heat exchanger comprising an internal heat exchanger of highly heat-conducting material, thermocouple blocks in contact with the primary junctions with the internal heat exchanger, the secondary junctions of which are located in radial openings and provided with longitudinal ribs of the external heat exchanger with end parts filled with sealant, characterized in that the internal and external heat exchangers are made in the form of separate flat plates and interconnected by flexible films of low-heat-conducting material. 2. The heat exchanger according to claim 1, characterized in that one of the surfaces of the flat plates of the internal heat exchanger has a blackened developed surface. 3. The heat exchanger according to claim 1, characterized in that each plate of the internal heat exchanger has a perimeter gasket of an elastic material. 4. The heat exchanger according to claim 1, characterized in that the external heat exchanger has a system of openings for the duct of the secondary coolant.