SU950944A1 - Thermocompressor - Google Patents

Description

(54) TERMOKOMPRESSOR

one

The invention relates to low capacity compressors that implement thermal compression processes, and can be used to create microcold devices for producing ultrahigh pressures.

Known thermocompressor containing a working cylinder with a floating piston 1.

A disadvantage of the known thermocompressor is the high consumption of thermal energy.

The purpose of the invention is to increase efficiency.

The goal is achieved in that the floating piston is provided with a rod, and the thermocompressor further comprises a second cylinder with its floating piston and an inlet valve connected to the working cylinder by means of a sleeve into which the floating piston rod is inserted, the sleeve having a second connection to the working cylinder as a channel connected to it at a distance from the end of the working cylinder, as far as possible from the second cylinder, equal to the length of the rod and the thickness of the specified piston, and Kakpl, in turn, is connected to the second cylinder through a check valve, and both cylinders are additionally connected to each other through a pipeline with a valve.

The drawing shows the scheme of thermocompactors.

The thermocompressor contains a working cylinder 1, a floating piston 2, a rod 3, a heater 4, a channel 5, a check valve 6, a sleeve

, Q 7, the second cylinder 8, the floating piston 9 of the second cylinder 8, the inlet valve 10, the refrigerator 11, the valve 12 and the release valve 13.

The thermocompressor works as follows.

Claims (1)

When the heater 4 is turned on, the working fluid warming up is located in the working cylinder 1. The working fluid expands, as a result of which the floating piston 2 starts to move and compresses the gas that is in the working cylinder 1. In certain | Now, the inlet valve 13 opens and the consumer is supplied with compressed gas, and the floating port 295 continues to move to the bottom dead center. When the bottom dead center is reached, the rod 3 takes such a position when the sleeve 7 is connected to the valve 6, and at this moment the heater 4 is turned off. The working body, having a working capacity, enters channel 5 into the piston space of the second cylinder 8 and acts on the floating piston 9 in it, which begins to compress the gas in the over-piston space. When equalizing pressures in: all cavities and lines of the thermocompressor, the refrigerator 11 is turned on. The working fluid is cooled, its pressure decreases, and both floating pistons are displaced (piston 2 moves up, piston 9 goes down). At the same time, the rod 3 closes the opening of the channel 5 in the sleeve 7, the cavities of the cylinders are separated, and then the working fluid is cooled only in the working cylinder 3. The floating piston 2 moves towards the upper dead center, while the floating piston 9 of the second cylinder 8 it also begins to move toward the top dead center, forcing the compressed gas into the increasing cavity of the working cylinder 1 through the valve 12. Continuous cooling of the working fluid leads to the opening of the check valve 6, through which the working the body from the cavity of the second cylinder 8 enters the cavity of the working cylinder 1. The floating piston 9 of the second cylinder 8 begins to move towards the bottom dead center, the inlet valve 10 opens, and a fresh portion of gas enters the second cylinder 8. The refrigerator 11 is turned off, the plunger 9 is in the bottom dead center, and the cycle is closed. Thus, the second cylinder 8 can be considered as the first stage, and the working cylinder 1 as the second stage of the thermocompressor. The economic efficiency of the invention is to reduce the thermal waste energy loss, since the energy of the heated working fluid is partially used to pre-compress the gas entering the thermocompressor. A thermocompressor comprising a working cylinder with a floating piston, characterized in that, in order to increase efficiency, the floating piston is provided with a rod, and the thermocompressor further comprises a second cylinder with its floating piston and inlet valve connected to the working cylinder by means of a sleeve in which a floating piston rod is inserted, and the gsaz has a second connection to the working cylinder in the form of a channel connected to it at a distance from the end of the working cylinder, as far as possible from the second cylinder, equal to the length of the rod and the thickness of the specified piston, the channel in turn being connected to the second cylinder through a check valve, and both of the two cylinders are additionally connected to each other by means of a pipeline with the valve. Sources of information taken into account in the examination 1. French patent number 2363006, cl. F 04 B 9/12, published in 1978. 7- b 2 f LAr / 2