SU1476184A1 - Thermal compressor - Google Patents

Abstract

The invention can be used in thermoelectric compressors of low productivity. The purpose of the invention is to increase the degree of pressure increase. Case 1 is divided into two chambers / K / 2.3 by a thermoelectric battery 4 with a varying polarity of the supply current. To 2,3 equipped with suction and discharge nozzles / P / 5,6,7,8 with gas distribution valves 9. To 2 equipped with a heat exchanger 10, the output of which is brought out, the inlet is connected to P 8 K 3. P 7 K 2 connected to P 6 K 3. The heat exchanger 10 is countercurrent. The housing 1 is provided with vacuum insulation 11 from the environment. 2 hp f-ly, 1 ill.

Description

The invention relates to a compressor technique, in particular to low-performance thermoelectric compressors.

The purpose of the invention is to increase the degree of pressure increase.

The drawing shows a thermocompressor.

The thermocompressor contains a housing 1, divided into two chambers 2 and 3 by a thermoelectric battery 4 with varying polarity of the supply current, equipped with suction pipes 5 and 6 and discharge pipes 7 and 8 with gas distribution valves 9, one of the chambers 2 is equipped with a heat exchanger 15 kom 10 the output of which is brought out and the inlet is connected to the discharge pipe 8 of the other chamber 3, while the discharge pipe 7 of the chamber 2 with the heat exchanger 10 is connected to the suction pipe 6 of the other chamber 3, moreover, the heat exchanger 10 n countercurrent, and the housing 1 is equipped with vacuum insulation 11 from the surrounding.

Thermocompressor operates as follows. 25

When a current of the corresponding polarity is supplied to the thermoelectric battery 4 in the chamber 3, the gas in it is cooled. In this case, the gas temperature, and therefore its pressure, decreases. When the pressure in the chamber 3 of the gas becomes lower than in the chamber 2, the valve 9 opens and the gas enters the chamber 3 from the chamber 2 through the discharge pipe 7 and the suction pipe 6. The suction process into the chamber 3 is carried out to a pressure equal to 35 chamber 2.

At the same time, the gas in chamber 2 is heated by supplying heat from the thermopile 4. In this case, the gas pressure in chamber 2 rises and additional heating of the heated gas of chamber 3 is made.

When the polarity of the supply current of the thermopile 4 changes, the gas in the chamber 3 heats up with increasing pressure.

The pressure in the chamber 3 rises until the valve 9 in the discharge pipe 8 opens.

At the same time, the gas in chamber 2 cools, transferring heat to the cold junctions of the thermopile 4. The gas pressure decreases until it is equal to the gas pressure in the suction pipe 5 and valve 9 opens. After opening the valve 9 in the discharge pipe 8, hot gas from the chamber 3 enters the heat exchanger 10, is cooled there and enters the consumer.

The gas in the chamber 2 receives heat from the heat exchanger 10, begins to heat up, its pressure rises, the valve 9 in the suction pipe 5 closes.

Countercurrent to the flow of gas entering the chamber 2 from the suction pipe 5, the implementation of the heat exchanger 10 contributes to better cooling in it. Vacuum insulation AND housing 1 prevents unproductive heat loss to the environment.

In the future, the processes of the thermal compressor are repeated.

Claims (3)

Claim 1. Thermocompressor, comprising a housing divided into two chambers by a thermoelectric battery with varying polarity of the supply current, equipped with suction and discharge pipes with gas distribution valves, characterized in that, in order to increase the degree of pressure increase, one of the chambers is equipped with a heat exchanger, the output of which is brought out and the inlet is connected to the discharge pipe of another chamber, while the discharge pipe of the chamber with a heat exchanger is connected to the suction pipe of another camera. 2. Thermocompressor according to π. 1, characterized in that the heat exchanger is countercurrent. 3. Thermocompressor according to paragraphs. 1 and 2, characterized in that the housing is equipped with vacuum insulation from the environment.