SU1302252A1 - Pressure regulator - Google Patents

Abstract

The invention relates to the field of hydraulics, in particular to fluid pressure regulators. The purpose of the invention is to improve the accuracy of pressure control. The device comprises a pipeline 1, a valve 2, a hydraulic actuator 3 and a governing body consisting of a housing 4, spring-loaded membranes 5 and 6 with springs 7 and cups 8, sensing membranes 9 and 10, partitions 11 and 12, valves 13 and 14, two flow cavities 15 and 16, drain cavities 17 and 18, and cavity 19. The increase in control accuracy is achieved due to the absence in the control body of the device of friction forces inherent to pressure regulators with control bodies of the spool-type, and thereby reducing the dead zone. I il. 15 19 L 18 SAE O bO IsD SL to

Description

The invention relates to the field of hydraulics, in particular to fluid pressure regulators.

The aim of the invention is to improve the accuracy of pressure control.

The drawing shows a pressure regulator circuit.

The device comprises a pipeline 1, a valve 2, a hydraulic actuator 3 and a control member consisting of a housing 4, spring-loaded membranes 5 and 6 with springs 7 and cups 8, sensing membranes 9 and 10, partitions 11 and 12 with central openings and valves 13 and 14.

The spring-loaded membrane 5 and the partition 11 form a flow cavity 15, and the spring-loaded membrane 6 and the partition 12 form a flow cavity 16. The partition 11 and the sensitive membrane 9, as well as the partition 12 and the sensitive membrane 10 form the confluent cavities 17 and 18. Sensitive membranes 9 and 10 form a cavity 19 connected by means of the tube 20 with the pipe 1 after the valve 2. The flow cavities 15 and 16 are connected on one side with the pipe 1 to the valve 2, and on the other hand on the cavities of the hydraulic actuator 3.

The device works as follows.

With the help of springs 7 and 8 glasses, the device is adjusted to the required pressure behind the valve 2. With the required fluid pressure in the pipeline 1 behind the valve 2, the valves 13 and 14 block the central openings in the bulkheads 11 and 12 and the piston of the hydraulic actuator 3 is in a stationary state when the pressure in the pipeline 1 after the valve 2 is increased, it passes through pipeline 20 to field 19 and, acting through the membrane 9 on the valve 13, opens it. As a result, the fluid from the flow cavity 15 through the central opening in the partition 11 and the drain cavity 17 is drained, the pressure in the flow cavity 15 and, consequently, in one of the hydraulic drive cavities decreases, causing the valve position to change, the pressure in pipeline 1 after flap 2 is stabilized.

When the pressure in the pipeline 1 decreases after the valve 2 opens the valve 14, the liquid from the flow cavity 16 through the central opening in the partition

12 and the drain cavity 18 passes to the drain. The pressure in the flow cavity 16 and, consequently, in one of the cavities of the hydraulic actuator 3 will decrease, which will lead to the opening of the valve 2 and the stabilization of the pressure in the pipeline 1 after the valve 2. The valve 14 will close.

The use of the present invention allows an increase in the pressure control accuracy due to the lack of frictional forces inherent to pressure regulators with spool-type control elements.

Claims (1)

Invention Formula A pressure regulator containing a valve installed in the pipeline and connected to the hydraulic actuator, the above-piston and sub-piston cavities of which are connected to the governing body, which in order to improve the control accuracy, the governing body includes a housing in which two spring-loaded membranes are installed with two adjustment nodes, two sensitive membranes, two partitions with central openings, the first spring-loaded membrane and the first partition forms the first flow cavity hydraulically connected to the pipeline to the valve on one side and on the other side from one of the hydraulic drive cavities; the second spring-loaded membrane and the second partition form a second flow cavity hydraulic connected to the pipeline to the valve; on the other hand, with the second cavity of the hydraulic actuator, the first partition and the first sensitive membrane form the first drain cavity, and the second partition and the second sensitive membrane form the second drain cavity, and second moat sensitive membranes define a cavity associated with the conduit after the valve, wherein the first spring-loaded membrane and the first sensitive membrane, as well as the second spring-loaded membrane and the second sensitive membrane, are pairwise rigidly connected by means of rods, with shutters installed on them, the seats of which are partitions, the first of which It is located on the side of the flow cavity, and the second - on the side of the drain cavity.