SU1121497A1 - Method of controlling piston compressor capacity - Google Patents

Abstract

A METHOD FOR REGULATING THE PERFORMANCE OF THE PISTON COMPRESSOR, including changing the volume of the additional dead space communicated with the working cavity of the cylinder by moving the variator piston, characterized in that zero value of the volume of additional dead space and in the opposite direction - when the piston makes a compressor squeeze stroke. g

Description

1 The invention relates to compressor engineering and can be used in reciprocating compressor stations. A known method of controlling the compressor capacity includes changing the volume of the additional dead space associated with the working cavity of the cylinder by moving the piston located in the chamber of the additional dead space L. In the implementation of this method, the hydraulic drive with the feed cylinder is used to move the piston in the additional dead space control mechanism, which complicates the conditions for its implementation. There is also known a method for regulating the performance of a piston compressor, including changing the volume of the additional dead space communicated with the working cavity of the cylinder by moving the piston of the variator 2. In the known method, during rotation of the compressor shaft, the value of the additional dead space remains unchanged. the variator piston is a complex device, which includes a hydraulic actuator, a pump, a jet regulator, and a feedback link. In addition, the drive is loaded with full gas power, which makes it cumbersome. The purpose of the invention is to simplify the adjustment process. The goal is achieved by the method of controlling the performance of a piston compressor, which includes changing the volume of additional dead space communicated with the working cavity of the cylinder by moving the variator piston, moving the variator piston when the expansion piston completes the expansion stroke to the last value the volume of the additional dead space and in the opposite direction - when the piston makes the depressor of the compression stroke, On tezhe shows a device for adjusting the performance of the piston compressor. 9.72 The device contains a cylinder 1 of a compressor with a piston 2, suction and discharge valves 3 and 4, and a cavity 5 of additional dead space with a piston 6 of the variator, nozzles 7 and 8, and valves 9 and 10 for supplying and discharging power air. The movement of the piston 6 to the piston 2 of the compressor is limited by the stops 11, the position of which corresponds to the zero value of the volume of the additional dead space. A method for controlling the performance of a piston compressor is implemented as follows. With the additional dead space turned off, the cavity 5 is filled with power air. To connect additional dead space, open valve 10 for discharging power air until piston 6 takes a position at which it closes discharge branch pipe 8 when the injection process in the cylinder 1 of the compressor goes through. The pressure in the cavity 5 will be equal to the discharge pressure, and the volume of this cavity is chosen so that when the expansion air flows to the suction pressure, during the expansion process in the cylinder 1, the piston 6 moves in the direction of the piston 2 to the stops 11. After that, the valve 10 is closed. The gas injection pressure Rc, created by the movement of piston 2 of cylinder 1, is transmitted through piston 6 to the force air in cavity 5, which will also be under pressure Rc. When gas is pumped, some of it remains in the connected cavity of the dead space between piston 2 and piston 6 at pressure rts. When the gas located between piston 2 and piston 6 and the power air in cavity 5 expands, piston 6 moves to piston 2 of cylinder 1, which continues until gas pressure in cylinder does not reach suction pressure Pg, the piston 6 will not come to its original position, determined by the stops 11. Upon further movement of the piston 2, gas will flow into the cylinder through the suction valve 3. When the piston 2 moves, gas moves during compression of the gas

3

the piston 6 in the direction from the piston 2 with increasing pressure in the cavity 5.

During the period of the end of the compression, the pressure of the power air in the cavity 5 will reach Rc, and a part of the compressible gas will take up the amount of additional dead space determined by the position of the piston b. With further advancement of the piston 2, the gas is injected from the cylinder 1 through the pressure valve 4. The piston b movement cycle is repeated. To disable extra dead space from 2147

valve 9 is closed, one hundred sh 1st on the power supply air inlet nozzle 7 at the pressure Rc, and the piston 6 returns to the position determined by the 5 stop 11.

With this method of regulation, the process is simplified, since there is no need for an additional drive and 10 control devices: when the consumption of compressed air changes, the discharge pressure and, accordingly, the amount of additional dead space change.

Claims (1)

METHOD FOR REGULATING PISTON COMPRESSOR PERFORMANCE RA, including changing the volume of additional dead space communicated with the working cavity of the cylinder by moving the variator piston, characterized in that, in order to simplify the regulation process, the variator piston moves when the compressor moves the expansion stroke towards the last to zero additional dead volume space and in the opposite direction - when the compressor moves the compression stroke. 1 112149.7