SU771629A1 - Two-step pressure regulator - Google Patents

Description

one

The invention relates to pressure regulators and can be used in gas supply systems.

Known two-stage regulation. pressure torus containing two coaxial 5. sequentially connected regulators l.

The closest to the technical essence of this invention is a two-stage pressure regulator, containing a housing with inlet and outlet cavities, two serially connected coaxial regulating organs, two sensitive elements, the first cavity of each of which is connected to the outlet the appropriate regulator, and the second cavities with the control cavity, as well as the adjusting spring with screw 2.20

A disadvantage of the known devices is the relatively long time to reach the mode after opening the shut-off element installed at the outlet of the regulator, with the inlet pressure of 25 and with the regulator adjusted to the required outlet pressure.

In the initial position, regulirukivky organs overlap the saddles and at 30

2

In the absence of expenditure, they need to go some way up to the value of the necessary throttling gap.

The aim of the invention is to increase the speed of the controller.

This goal is achieved by the fact that the regulator contains a spring-loaded valve and a piston mounted between the adjusting spring and the second cavity of the second sensing element, and connected by a rod with a spring-loaded valve mounted between the control and the output cavities.

The output cavity with the control cavity through a spring-loaded valve, which interacts through a rod with a piston located in the cavity of the second sensing element and in contact with the adjusting spring, reduces the time to reach the mode, since the pressure in the control cavity holds close to the regulator adjustment pressure

In that case, if the connection between the output cavity and the control cavity. Is carried out only by means of a channel, as in the prototype, the second regulator will be released in the initial position (before the flow is achieved) by an amount greater than

The required throttling slit for this gas flow, and the second regulating body needs an additional route to provide the necessary throttling slit, the increased pressure in the control cavity requires additional time to drop to the required pressure Pgyn, while the gas flow through the regulator is realized. The drawing shows the scheme of the proposed controller.

It comprises a housing 1 with an inlet 2 and an outlet 3 cavities, a first regulating member consisting of valve 4 and a seat 5, a second regulating member consisting of valve b and a saddle 7, two sensitive elements 8 and 9 having first cavities 10 , 11, and second cavities 12, 13, connected to the control chamber cavity 14, transitional part 15, movable cup .16, with which the regulating bodies are pre-installed, adjusting spring 17, screw 18, prefix 19-piston 20, s By setting the controller to the required e pressure Rwun

In the second sensing element 9, a saddle 21, a spring-loaded valve 22 with a spring 23 and a pusher 24 are placed to maintain the required control pressure in the control cavity 14 and, therefore, at the regulator outlet.

A limb 25 is mounted on the body to read the value of the pre-release of the reducing valves for a given gas flow rate. The valve 4 of the first regulator is preloaded with a spring 26 for sampling the dead stroke.

The regulator works as follows.

In the initial position (before the pressure is applied to the regulator), the rotation of the glass 16 sets the values of pre-compression of the valves 4 and 6 of the first and second stages from the seats 5 and -7, respectively, for a given gas flow rate. This sets the required response speed of the controller (its output to the mode).

By turning the adjusting screw 18, the spring 17 is loaded, setting the required value of the Control pressure in the cavity 14, and, consequently, at the regulator output.

The valve 22 pusher 24 is pressed from the saddle 21.

When pressure P is applied to the input of the regulator and the closed shut-off element installed after the regulator, pressure PWX - Pftb is established in the input cavity 2 and the output cavity 3, while valves 4 and 6 of the first and second stages are pressed to values slightly smaller than the required values throttling spruce when working with the required gas mass.

In the control cavity 14, a pressure equal to the pressure Pgj is established when working with the flow rate of the gas, the valve 22 will overlap the saddle 1.

Area F and area F are chosen so that they determine the pressure Pgy of the first stage, while the area F is the area of the sensitive element of the first stage of the regulator. Area F is the area of the second stage sensing element.

When opening the shut-off element installed after the regulator, and the implementation of the gas flow, the outlet pressure drops to the value of the adjustment pressure

With further pressure drop (below the setting pressure), the control valves 4 and 6 of the first and second stages move to the sides and the throttling slots increase, the outlet pressure increases up to the setting pressure Rsykh

In the event of a decrease in gas flow, the pressure at the regulator outlet increases, the reducing valves 4 and 6 of the first and second stages move upwards, the throttling gap decreases, the pressure at the regulator outlet as well as the output of the first stage decreases to the value of the setting pressure.

The positive effect of the invention is to increase the speed of the pressure regulator approximately fivefold.

Claims (2)

1. Authors certificate of the USSR 396517, cl. G 05 O 16/10, 1970. 2. The patent of Germany 804635, cl. 47 q 48/02, published 1964 (prototype). 25 / 7 sixteen flffw