SU1096394A1 - Heat compressor - Google Patents

Abstract

HEAT KO mPECCOP, containing (its cooled case, coaxially located in it the cylinders of the working and compressible gases, separated by a floating piston, and an electric heating coil located in the cylinder of the working gas and fixed on the pressure inlets, characterized in that, in order to improve performance and reduce energy consumption, electric heating coil is additionally attached to the piston.

Description

The invention relates to a compress rostroensho, and in particular, to the design of compressors with thermal drive. A thermocompressor is known, which comprises a cylinder with a piston and a heater Cl placed in a cylinder. . The disadvantage of this compressor is low efficiency due to the high energy consumption for heating the gas. Also known is a thermal compressor containing a cooled body, coaxially placed cylinders of working and compressible gases in it, separated by a floating piston, and an electric heating coil located in the cylinder of the working gas and fixed on the pressure seals of 2 J. However, the known compressor has low productivity and high energy costs due to the fact That the heating of the working gas is carried out unevenly throughout. The purpose of the invention is higher performance and lower power consumption. This goal is achieved by the fact that in a heat compressor containing a cooled case there are coaxially placed cylinders of working and compressible gases in it, separated by a floating piston, and an electric heating coil located in the cylinder of working gas and fixed, then on the water of the coil, the electric heating coil is additionally fixed on the piston. The drawing shows a diagram of a thermal compressor. The heat compressor contains a cooled housing 1, coaxially placed 1; cylinders 2 and 3, respectively, of the working and compressible gases, separated by a floating piston 4, and an electric heating coil 5 located in the working gas cylinder 2 and fixed on the pressure seals 6, and coil 5 additionally mounted on the piston 4. In addition, between the cylinders 2 and 3, the disputed ring 7 is installed. The compressor operates as follows. When the electric heating coil 5 is turned on, the working gas in the cylinder 2 is heated, which leads to an increase in pressure in this cylinder, a mixing piston 4 and a gas compression in the cylinder 3. Poscolo / coil 5 is fixed to the piston 4 with its middle part, the coil is lengthened, which leads to a more uniform distribution of the heat flux over the volume of the working gas. After a certain pressure has been reached, the compressed gas is delivered to the consumer, and at the time the piston 4 stops, the electric heating coil 5 turns off. The working gas is cooled due to contact with the cooled body 1, its pressure decreases, and pores 4 is moved to the initial position determined by the position of the support ring 7. The cylinder 3 is filled with a compressible gas. Then the cycle repeats. More evenly} the distribution of heat flux over the volume of the working cylinder leads to a decrease in energy consumption and a decrease in heating time, which causes an increase in production. duration of the thermal compressor.

Claims (1)

A HEAT COMPRESSOR, comprising a cooled body, coaxially placed cylinders of the working and compressible gases, separated by a floating piston, and an electric heating coil located in the working gas cylinder and mounted on. hermetic inlets, characterized in that, in order to increase productivity and reduce energy consumption, the electric heating spiral is additionally fixed to the piston. SU „„ 1096394> 1096394 i