SU1070522A1 - Pressure regulator - Google Patents

Abstract

A PRESSURE REGULATOR contains a spring-loaded valve with a seat and a nozzle with a diaphragm and a spring set installed coaxially in the housing, characterized in that, in order to improve the control accuracy, it is fitted with a hermetically embedded rvl on the housing and the valve. a flexible element, inside of which a valve spring is installed, and in the bottom end there are through holes for connecting the cavity of the flexible element to the cavity between the valve and the nozzle.

Description

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1E, the invention relates to a pneumatic boom and is intended to regulate pressure in pneumatic systems, in gas supply systems, and the same in all systems where control, protection, signaling is required, for example, as a setpoint for command pressure in pneumatic systems for regulating gas turbine units. A pressure regulator is known, containing a housing with inlet and outlet channels, a sensing element made in the form of a first step-down piston with a control valve and a control pressure cavity, a setting spring with an adjusting screw and a throttling valve, and containing , a spring and a second stepped piston 1. The disadvantage of this device is the complexity of the design, the presence of dry friction in moving parts and, as a consequence, high insensitivity of the regulator to changes in output p pressure adjustable. In addition, no leakage through the valve is provided with the valve fully closed (zero flow), which may cause an increase in the controlled pressure. Closest to the proposed technical entity is a pressure regulator that contains a spring-loaded valve installed coaxially in the housing with a seat and a nozzle with a diaphragm and a spring of task 2}. A disadvantage of the known devices is the dependence of the controlled output pressure on the value of the direct pressure. To reduce this dependence, it is necessary to have a membrane that is much larger in area. compared with the flow area of the valve seat, which in turn limits the maximum gas flow through devices of this type due to the need to have a large diameter diaphragm. Failure to observe the above relation between the diaphragm and valve dimensions is also a strong factor contributing to the vibration of a spring-loaded valve. The need to make the diaphragm much larger than the valve is due to the fact that the valve is made in the form of an integral element (ball), which is subject to the action of pressure in the axial direction, which negatively affects the quality of the device operation. The purpose of the invention is to improve the accuracy of regulation. This goal is achieved by the fact that the pressure regulator, which contains a spring-loaded valve installed with a saddle and a nozzle with a diaphragm and a spring set, coaxially in the housing, is fitted with a flexible element on the housing and the valve with a flexible element inside which the spring is installed, and in the latter - spaced openings for connecting the cavity of the flexible element with the cavity between the valve and the nozzle. The figure schematically shows a pressure regulator. The device includes a housing 1 with an input channel 2 and an output channel 3, in the housing 1 coaxially placed spring-loaded valve 4, which communicates with the seat 5, the nozzle 6 with the membrane 7. A flexible element, for example, bellows 8, sealed to the housing 1 and valve 4 It forms a cavity 9, isolated from pressure and connected through openings 10 in valve 4 with cavity 11 between valve 4 and nozzle 6. Spring 12 serves to set the value of the regulated pressure. Spring 13, spring-loaded valve. 4 is necessary in order to relieve the bellows 8 from the forces acting on it from the side of the nozzle 6 (force of the spring 12 and the membrane 7). The regulator works as follows. The gas under pressure P, 0p enters the body 1 through the inlet 2j and is then throttled in the channel between the surface of the valve 4 and the saddle 5 to the pressure value Rrrh set by the spring 12, and through the outlet channel 3 to the consumer is set to equal. When the pressure of the RV is increased, the remote control to the consumer increases the force on the membrane 7 from the pressure side of Pgbix, as a result of which the valve 4 begins to move in the direction of closing until the output pressure Pgjjix decreases to The reasons are initially given by the spring 12. When Pg decreases (, | y, the device will work in the opposite way, increasing the pressure Pgj ,, to the original value. Thus, when the gas flow to the consumer changes, the pressure will remain constant, and the regulation will be accuracy, since the device has no moving parts. In addition, a change in pressure pressure will cause errors in the output pressure setting level Pg (, ix P., does not act on the valve 4 in the axial direction due to the tight connection valve 4 with body 1 through bellows B.

O 10705224

When you switch to non-expendable mode, the spring will have 12 tasks and will be equal to

the operation of valve 4 is fully set to the originally specified value,

on the saddle 5, and leaks, if they exist in the proposed regulator of output, the leakage between the controlled pressure does not depend on

pan and saddle, entering the cavity of a change in pressure head pressure, which

outlet pressure, press the nozzle 5 allows to significantly increase the pro6 from the surface of the valve 4 and the withdrawal capacity of such

into the atmosphere through an axial hole .. devices with a simultaneous ulev nozzle. The output pressure Pgbix Tt will be determined by the determination of accuracy in this case as well.

Claims (1)

PRESSURE REGULATOR containing a spring-loaded valve with a seat mounted coaxially in the housing and a nozzle with a diaphragm and a reference spring, characterized in that, in order to increase the accuracy of regulation, it is equipped with a hermetically fixed to the housing and valve. a flexible element, inside which a valve spring is installed, and in the latter, through holes are made for connecting the cavity of the flexible element with the cavity between the valve and the nozzle.