RU2601980C1 - Actuating device of a pressure regulator - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: actuating device of a pressure regulator includes housing (1) with seat (2), elastic valve (6), input (3), output (4) and control (5) chambers, as well as channel (7) for connection of the control chamber with the control device and a pneumatic controlled locking device. Pneumatic controlled locking device is located in additional chamber (9) made in the seat of the housing on the side of the outlet chamber that is provided with mating seat (10). Housing has channel (8) for connecting the pneumatic controlled locking device with the control device.

EFFECT: reduced overall dimensions of the device.

9 cl, 7 dwg

Description

The invention relates to devices for regulating pressure and can be used in gas and other industries.

A known pressure regulator is a gas flow limiter, which is an axial valve with an elastic shutter designed for installation on a pipeline and equipped with channels for connecting to a distributor and a pilot regulator (see patent for invention RU2210098, IPC G05D 7/00, G05D 16/16) .

The main disadvantage of the known pressure regulator is the unregulated opening of the regulator when the elastic shutter (diaphragm) ruptures under the influence of external factors (untreated and not dried gas, cavitation, low temperatures, etc.), which leads to an unacceptable increase in the outlet pressure and, consequently, to an emergency in operation.

Closest to the claimed device of the claimed invention is an actuator for a gas pressure regulator containing a housing with a seat, a shutter in the form of an elastic diaphragm, input, output and control cameras (see patent for invention RU2239862, IPC G05D 16/06). The casing is equipped with channels for connecting the chambers with the throttle and the pilot, and the input chamber of the controller through the throttle is connected to the control chamber and the pilot, and the pilot is connected to the output chamber of the controller. Between the input and control chambers of the regulator, a backup channel with a pneumatically controlled shut-off device (protective valve) of a normally closed type is introduced, and the pilot has an emergency valve interacting with a pneumatically controlled shut-off device of a normally closed type, which allows for emergency shut-off of the regulator with an unacceptable increase in the outlet pressure or unregulated pressure drop in the control chamber (for example, due to malfunctions in the throttle, in the gas supply channel to the control chamber and whether the pilot’s membrane is broken).

However, the design of the known gas pressure regulator, adopted as a prototype, is cumbersome, in addition, does not provide separation of the input and output chambers of the actuator when the elastic shutter ruptures.

The purpose of the invention is the expansion of functionality and reliability by introducing a built-in pneumatically controlled locking device (safety valve - shutoff) to provide emergency closure of the controller both in automatic mode and from the operator’s console.

The technical result consists in reducing the overall dimensions by placing a pneumatically controlled locking device in the saddle of the actuator of the pressure regulator from the side of the output chamber.

The specified technical result is achieved by the fact that in the actuator of the pressure regulator, comprising a housing with a seat, an elastic shutter, an input, output and control chambers, as well as a channel for connecting the control chamber to the control device, a pneumatically controlled locking device, according to the solution, a pneumatically controlled locking device is located in additional camera, made in the saddle of the housing from the side of the output chamber, the output chamber is equipped with a response saddle, and in the housing there is a channel for connecting nii pneumatically controlled locking device with a control device. The pneumatically controlled locking device is a spring-loaded piston, the bottom of which has a shape and size corresponding to the response seat of the output chamber for mating with it in the closed position of the pneumatically controlled locking device. In the open position of the pneumatically controlled locking device, the piston is fixed in the additional chamber by means of a sealing element, or a permanent magnet, or a spring-loaded bilateral lock. When using the spring-loaded double-sided latch in the wall of the additional chamber, at least three annular grooves are made. A pneumatically controlled locking device in the form of a spring-loaded piston is equipped with an elastic membrane mounted on the saddle of the housing from the side of the outlet chamber. The pneumatically controlled locking device is a bellows, the bottom of which has a shape and size corresponding to the response seat of the output chamber for mating with it in the closed position of the pneumatically controlled locking device. The pneumatically controlled locking device is a reinforced membrane attached to the housing seat on the side of the outlet chamber, while the membrane is connected to the walls of the additional chamber by means of a conical tension spring.

The invention is illustrated by drawings, where:

in FIG. 1 presents the inventive actuator pressure regulator with pneumatic locking device, which is a spring-loaded piston, fixed in the open position by means of a sealing element;

in FIG. 2 - a saddle of the housing of the claimed actuator of the pressure regulator with a pneumatically controlled locking device, which is a spring-loaded piston fixed in the open position using a permanent magnet;

in FIG. 3 - a saddle of the housing of the claimed actuating device of the pressure regulator with a pneumatically controlled locking device, which is a spring-loaded piston, fixed in the open position by means of a spring-loaded bilateral lock;

in FIG. 4 - the claimed actuator of the pressure regulator with a pneumatically controlled locking device, which is a spring-loaded piston with an elastic membrane mounted on the saddle of the housing from the side of the outlet chamber, on the wall of the opening of the saddle of which there are three annular grooves for fixing the piston in different positions using a spring-loaded bilateral lock;

in FIG. 5 - the inventive actuator pressure regulator with pneumatic locking device, which is a bellows;

in FIG. 6 - the claimed actuator pressure regulator with pneumatic shut-off device, which is a reinforced membrane, in the open position;

in FIG. 7 - the inventive actuator pressure regulator with pneumatic shut-off device, which is a reinforced membrane, in the closed position.

The positions in the drawings indicate:

1 - housing;

2 - a saddle of the body;

3 - input camera;

4 - output camera;

5 - control camera;

6 - elastic shutter;

7 - channel control camera;

8 - channel locking device;

9 - additional camera;

10 - reciprocal saddle;

11 - a piston;

12 - the bottom of the piston;

13 - spring;

14 - a sealing element;

15 - a permanent magnet;

16 - two-way spring clip;

17 - an annular groove;

18 - elastic membrane;

19 - reinforced membrane;

20 - conical tension spring;

21 - bellows;

22 - bottom of the bellows.

The inventive actuator of the pressure regulator is an axial (axial) valve with an elastic shutter and comprises a housing 1 with inlet and outlet openings, inside of which a saddle 2 is fixed, made in the form of two lattices in the form of rings attached from different sides to the inner partition along its perimeter . The saddle divides the interior of the casing into three parts: the inlet chamber 3 from the inlet side, the outlet chamber 4 from the outlet side and the control chamber 5. An elastic shutter 6 is placed in the control chamber 5 with a tight fit to the grids of the saddle 2 to isolate the three casing chambers apart from each other. The housing of the actuator of the pressure regulator is equipped with a channel 7 for connecting the control chamber 5 to the control device, for example, a pressure controller "after itself" (by the pilot) through the distributor. A blind cylindrical hole is made in the inner baffle of the saddle 2 on the side of the outlet chamber 4, forming an additional chamber 9, designed to accommodate a pneumatically controlled locking device in it, while in the housing 1, as well as in the saddle 2, a channel 8 is made for connecting the pneumatically controlled locking device to the control device (not shown in the drawing). The output chamber 4 is provided with a mating seat 10 located around the outlet and configured to fit snugly against it with a pneumatically controlled locking device.

Several embodiments of a pneumatically controlled locking device are possible.

In FIG. 1 shows the inventive actuator of the pressure regulator with a pneumatically controlled locking device made in the form of a spring-loaded piston 11, while the channel 8 of the locking device is connected to the sub-piston space in the additional chamber 9 of the seat 2. The bottom 12 of the piston 11 has a shape and size corresponding to the output return saddle 10 cameras 4 for interfacing with him in the closed position of a pneumatically controlled locking device. In the open position of the pneumatically controlled locking device, the piston 11 is fixed in the additional chamber 9 of the body seat using the sealing element 14, the spring 13 is in a compressed position, and the force of the compressed spring is insufficient to overcome the friction of the sealing element.

In FIG. 2 shows a saddle 2 of the inventive actuator for a pressure regulator with a pneumatically controlled locking device made in the form of a spring-loaded piston 11 similar to that shown in FIG. 1, except that in the open position of the pneumatically controlled locking device, the piston is fixed in the additional chamber 9 of the body seat using a permanent magnet 15 located at the bottom of the additional chamber with the possibility of contacting the piston in the open position of the pneumatically controlled locking device. The force of the compressed spring 13 is not enough to overcome the attraction of a permanent magnet.

In FIG. 3 shows a saddle 2 of the inventive actuator for a pressure regulator with a pneumatically controlled locking device made in the form of a spring-loaded piston 11 similar to that shown in FIG. 1, except that in the open position of the pneumatically controlled locking device, the piston is fixed in the additional chamber 9 of the body seat using the double-acting ball spring retainer 16 (http://www.kippcom.ru/ru/ru/Products/Industrial-accessories- Standardized -products / Spring-clamps-locking-pins-locking-ball-bolts / K0337-Catches-spring-smooth-surface-double-sided.html) fixed in the piston. On the wall of the additional chamber 9 of the saddle 2, recesses are made to accommodate the retainer balls, while the efforts of the compressed spring are not enough to remove the balls from the recesses. The recesses can be made in the form of three annular grooves 17 (Fig. 4) for fixing the piston in various positions of the pneumatically controlled locking device: open, closed and intermediate. It is possible to perform a larger number of annular grooves to provide smoother adjustment of the gap between the pneumatically controlled locking device and the reciprocal seat 10 of the output chamber 4.

In all versions of the actuator with a pneumatically controlled locking device in the form of a spring-loaded piston, it can be equipped with an elastic membrane 18 mounted on the saddle 2 of the housing 1 from the side of the output chamber 4 and allowing to increase the tightness of the isolation of the piston cavity from the output chamber, as well as to improve the quality of fit of the pneumatically controlled locking devices in the mating seat 10. In FIG. 4 presents the inventive actuator of the pressure regulator with a pneumatically controlled locking device, which is a spring-loaded piston 11 with an elastic membrane 18 mounted on the saddle 2 of the housing from the side of the output chamber 4, three annular grooves 17 are made on the wall of the additional chamber 9 for fixing the piston 11 in different positions pneumatically controlled locking device using a latch 16 spring bilateral.

In FIG. 5 presents the inventive actuator of the pressure regulator with a pneumatically controlled locking device made in the form of a bellows 21. Channel 8 of the locking device is connected to the inner space of the bellows. The bottom 22 of the bellows has a shape and size corresponding to the mating seat 10 of the output chamber 4 for interfacing with it in the closed position of the pneumatically controlled locking device.

In FIG. 6 and 7 present the inventive actuator of the pressure regulator with a pneumatically controlled locking device, made in the form of a reinforced membrane 19, mounted on the saddle 2 of the housing 1 from the side of the output chamber 4. The membrane 19 is connected to the walls or the bottom of the additional chamber 9 using a conical tension spring 20.

The inventive device operates as follows.

Gas through the pipeline enters the inlet of the inventive axial valve. In the initial state, the elastic shutter 6 is tightly pressed to the grids of the seat 2 due to the fact that gas is supplied from the control device to the control chamber 5 through channel 7 under excessive pressure; grooves of lattices are blocked - the axial valve is closed. The axial valve is closed and in a state where the gas pressure in the inlet 3 and the control 5 chambers on the different sides of the elastic shutter 6 is the same. When the pressure in the control chamber 5 decreases, under the influence of gas pressure in the inlet chamber 3, the elastic shutter 6 is deformed, squeezed from the grids of the seat 2, the axial valve opens, and gas enters the outlet chamber 4. By adjusting the pressure in the control chamber 5, the inventive device operates as a gas pressure regulator.

In case of rupture of the elastic shutter 6 or, if necessary, through the channel 8, an additional chamber 9 is supplied with a pneumatically controlled locking device to move it from the open to the closed position, in which the locking device fits snugly on the return seat 10 and blocks the passage from the exit chamber 4 to outlet hole. This allows the inventive device to function as a gas pressure regulator with a shutoff.

When using the device shown in FIG. 4, through channel 8, pressure pulses are fed into an additional chamber 9 to an air-controlled locking device to exit the spring clip 16 from one ring groove 17 and fix it in the adjacent one, and, as a result, transfer the piston 11 from one position to another. The transfer of the piston from one position to another in the opposite direction is carried out at the existing pressure in the output chamber 4, reducing the pressure in the additional chamber 9 of the saddle 2 of the housing. This allows you to use the inventive device as a two-stage gas pressure regulator or gas pressure regulator with a gas flow limiter.

When using the device shown in FIG. 6, the gas pressure is regulated in the additional chamber 9 of the seat 2. When the gas pressure supplied to the pneumatically controlled locking device increases, the reinforced membrane 19 stretches and approaches the seat 10, providing a smooth decrease in the gap between the outlet chamber 4 and the outlet. With a further increase in pressure in the additional chamber, the reinforced membrane 19 rests on the reciprocal seat 10 and completely covers the outlet of the outlet chamber (Fig. 7). When the pressure in the additional chamber decreases, the reinforced membrane under the action of the conical spring 20 returns to its original position and opens the outlet of the outlet chamber. This allows the inventive device to function as a two-stage gas pressure regulator.

Thus, the following functions are provided in the regulator: pressure regulation (stabilization); regulation (stabilization) of flow; flow restriction; cutting off the flow of the working medium in case of excess (decrease) at the output of the regulator in automatic mode, by operator's command or by program it is possible to automatically return the pneumatically controlled locking device from closed to open position; use as a safety valve to relieve excess pressure. In this case, the claimed universal multifunctional actuator pressure regulator has a compact size.

Claims (9)

1. The actuator of the pressure regulator, comprising a housing with a seat, an elastic shutter, an input, output and control chambers, as well as a channel for connecting the control chamber to the control device, an air-operated locking device, characterized in that the air-operated locking device is located in an additional chamber made in the saddle of the casing from the side of the outlet chamber, the outlet chamber is provided with a reciprocal saddle, and in the casing there is a channel for connecting a pneumatically controlled locking device to a fusing device. 2. The actuating device according to claim 1, characterized in that the pneumatically controlled locking device is a spring-loaded piston, the bottom of which has a shape and size corresponding to the outlet seat of the output chamber for mating with it in the closed position of the pneumatically controlled locking device. 3. The actuating device according to claim 1, characterized in that the pneumatically controlled locking device is a bellows, while the bottom of the bellows has a shape and size corresponding to the response seat of the output chamber for mating with it in the closed position of the pneumatically controlled locking device. 4. The actuating device according to claim 1, characterized in that the pneumatically controlled locking device is a reinforced membrane attached to the housing seat on the side of the outlet chamber, the membrane being connected to the walls of the additional chamber using a conical tension spring. 5. The actuator according to claim 2, characterized in that in the open position of the pneumatically controlled locking device, the piston is fixed in the additional chamber using a sealing element. 6. The actuator according to claim 2, characterized in that in the open position of the pneumatically controlled locking device, the piston is fixed in the additional chamber using a permanent magnet. 7. The actuator according to claim 2, characterized in that in the open position of the pneumatically controlled locking device, the piston is fixed in the additional chamber using a spring-loaded double-sided latch. 8. The actuator according to claim 2, characterized in that the pneumatically controlled locking device is equipped with an elastic membrane mounted on the saddle of the housing from the side of the output chamber. 9. The actuator according to claim 7, characterized in that at least three annular grooves are made on the wall of the additional chamber.

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