SU1015106A1 - Thermocompressor - Google Patents

Abstract

TERMOCOMPRESSOR tio aut. St. No. 826072, characterized in that, in order to increase productivity, a layer of sorbent is applied to the inner and outer surfaces of the cylinder. s

Description

The invention relates to pump and compressor engineering, in particular to devices whose compression is effected by thermal expansion of the compressible gas, to thermocompressors. According to the main author. St. No. 826072 is known a thermocompressor, comprising a housing with gas distribution valves, in which a thermoelectric battery is placed, operating in a mode of periodic polarity of the supply current, made in the form of a hollow cylinder and separating the housing into two working chambers. A disadvantage of the known thermocompressor is low productivity. The purpose of the invention is to improve the performance of thermocompressor. This goal is achieved by the fact that in a thermocompressor comprising a housing with gas distribution valves, in which a thermoelectric battery is placed, operating in the mode of periodic polarity of the supply current, is made in the form of a hollow cylinder and separates the housing into two working chambers, the inner and outer the surface of the cylinder deposited layer of sorbent. The drawing shows schematically thermocompressor. The thermocompressor includes a housing 1 with gas distribution valves 2 and 3 in which a thermoelectric battery 4 is placed, operating in the mode of periodic polarity of the supply current, made in the form of a hollow cylinder and separating the housing 1 into two working chambers 5 and 6, one of which has the volume covered by the inner surface of the cylinder, and the other - by its outer surface and the inner surface of the housing 1, with a layer 7 of sorbent applied to the inner and outer surfaces of the cylinder. Thermocompressor works as follows. When the supply current is supplied to the thermoelectric battery 4 in one of the working chambers, for example, chamber 5, the gas in it and the sorbent layer 7 are cooled. At the same time, the temperature of the layer 7 and the gas decreases, which leads to a decrease in the gas pressure. Due to the decrease in pressure in chamber 5 below the pressure in the suction line, valve 2 opens and the compressible gas enters chamber 5. Suction takes place until the pressure in the chamber and the line are not equal. At the same time, the gas in chamber 6 is heated by the heat from the thermopile. At the same time, the gas pressure in chamber 6 rises and, when the value corresponding to the final pressure is reached, valve 3 opens and compressed gas is supplied to the discharge line. When the current flow changes in the chamber 5, the gas is heated (discharge), and in the chamber 6 it is cooled (suction). With a further periodic change in the polarity of the current in each of the chambers, heating and, consequently, injection or cooling and suction are periodically carried out. The presence of the sorbent on the surfaces of the hollow cylinder (thermopile 4) ensures, during cooling, the absorption of a large amount of gas due to its adsorption in the pores of the sorbent. When heated, this gas is desorbed, which in general causes an increase in the performance of the thermocompressor.

Claims (1)

HEAT COMPRESSOR St. No. 826072, characterized in that, in order to increase productivity, a layer of sorbent is applied to the inner and outer surfaces of the cylinder. I ___ ί ΐ>