SU1120295A1 - Pressure regulator - Google Patents

Abstract

1. A PRESSURE REGULATOR, comprising a housing with INPUT and output chambers and a valve installed in it connected to a sensitive element, equipped with a specified device, characterized in that flow relative to the valve axis. ; 2. Regulator under item 1, characterized in that the device for swirling flow is made in the form of a flat spiral guide, converging to the axis of the valve.

Description

This invention relates to a reinforcement structure. A flow regulator is known, consisting of a housing with inlet and outlet chambers, a valve and a sensing element f 1 j. The disadvantage of such a device is the asymmetry of the flow in the sections between the inlet and outlet chambers, which at high fluid flow rates leads to its unstable operation. The closest in technical essence and the achieved effect to the proposed is a pressure regulator, comprising a housing with inlet and outlet chambers and a valve rigidly connected to a membrane sensing element equipped with a driver 12 3. A disadvantage of the known device is instability in operation at large flow rates as a result of the occurrence of a noticeable pressure pulsation in the upper and lower throttling sections due to axial asymmetry nofoKa, i.e. uneven distribution of the main flow parameters around the perimeter of the annular throttling section. The purpose of the invention is to increase the stability of the regulator. This goal is achieved by the fact that in a device comprising a housing with inlet and outlet chambers and a clapboard installed therein connected to a sensing element equipped with a driver, a device is installed in the inlet chamber to twist the flow relative to the valve axis. In addition, a device for twisting; a flow in the form of a flat spiral guide, converging to the valve axis,. FIG. 1 depicts the proposed pressure regulator; in fig. 2 shows section A-A in FIG. 1. The pressure regulator comprises a housing 1 with an input 2 and an output 3 chambers, a valve 4 connected by a brush to a sensitive element 6 loaded with a rod 7, which is a master device and the device 8 located in the inlet chamber 2 for twisting the flow relative to. the valve 4 axis, made in the form of a flat spiral guide, converging to the valve 4 axis. The sensing element 6 consists of two rigidly connected membranes 9 and 10, forming an intermembrane chamber 11. communicated by channel 12 with the output chamber 3. Setting the spring 7 is carried out with a screw 13. The pressure regulator operates as follows. The working fluid under pressure enters the inlet chamber 2 and further into the device 8. When passing through the spiral flow path of the device 8, the fluid flow twists relative to the axis of the valve 4 and in this state passes through the throttling section. In a steady state, the total throttling section so that the sensitive element 6 in the output 3 and the intermembrane 11 chambers set the output pressure is balanced by the force of the spring 7. The change in input pressure leads to some change the output pressure which acts on both sides of the membrane 9 and on the one hand - by .membranu 10, equilibrium of forces on the sensor 6 is disturbed, it deflects and moves the valve 4 by changing the value of the throttle section. As the output pressure increases, the throttling cross section decreases and increases with decreasing pressure. As a consequence, the outlet pressure is maintained at a predetermined limit. The swirling of the flow in the inlet channel makes it possible to equalize its axial asymmetry at high flow rates, i.e. eliminate the uneven distribution of the main flow parameters around the perimeter of the throttling section and thereby eliminate the pressure pulsation in the throttling sections, and, consequently, the throttling pulsation acting on the valve plugs. Thus, the use in the proposed pressure regulator of a device for swirling a fluid flow relative to the valve axis in the inlet chamber makes it possible to increase the stability of the regulator at high flow rates.

II

FIG. one

Fi.2

Claims (2)

1. PRESSURE REGULATOR, comprising a housing with inlet and outlet chambers and a valve installed therein, connected to a sensing element, · equipped with a driver, characterized in that, in order to increase stability. In the inlet chamber, a device is installed for swirling the flow relative to the valve axis. , 2. The regulator by π. 1, characterized in that the device for swirling the flow is made in the form of a flat spiral guide, converging to the axis of the valve. § ω > f