RU2239862C2 - Gas pressure adjuster - Google Patents

Abstract

FIELD: gas pressure adjusters engineering.

SUBSTANCE: device ha throttle 1, executing device 2, consisting of bolt 3, saddle 4, input 5, output 6 and controlling 7 chambers, pilot 8 including adjusting valve 9, membrane block 10 with membranes 11, 12 and adjustment mechanism 13 consisting of adjusting screw 14 and springs 15, 16, 17, reserve channel 18 having pneumatically controlled normal-closed type locking device 19 connecting input 5 and control 7 chambers of executing device 2, emergency valve 20 placed in pilot 8 and interacting with pneumatically controlled normal-closed type locking device 19 via channel 21, while input chamber 5 of executing device 2 is connected to throttle 1 by channel 22, which is in turn connected to control chamber 7 via channel 23 and two adjusting valve 9 via channel 24, and pilot 8 is connected to output chamber 6 of executing device 2 by channel 25 and 26.

EFFECT: broader functional capabilities and higher reliability by providing for emergency closure in case of not allowed increase of output gas pressure.

1 dwg

Description

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

Known pressure regulators of indirect action of a normally open type with a control device in which the change in the flow area occurs due to a change in the deflection of the elastic diaphragm under the action of an external control pressure [V. M. Plotnikov et al. Gas pressure regulators. - L .: “Nedra”, 1982, p. 80, Fig. 36; p. 84, fig. 38]. The advantage of these designs of pressure regulators is the absence of moving rubbing parts.

The closest in technical essence to the claimed solution is the pressure regulator “Axial Flow Valve” [Prospectus of the American American company, November 1982].

This design contains an actuator with a shutter, a saddle, an input, output and control cameras, an adjustable throttle and a control device (pilot).

The main disadvantage of the known gas pressure regulators of indirect action of a normally open type is their property to open when there is an unregulated pressure drop in the control chamber of the actuator. Such a pressure drop can occur for several reasons, for example, due to malfunctions in the throttle or in the gas supply channel to the control chamber of the actuator, as well as when the pilot membranes rupture.

Unregulated opening of the regulator can lead to an unacceptable increase in the outlet pressure, and therefore to an emergency.

The purpose of the invention is to expand the functionality and increase reliability by providing emergency closure with an unacceptable increase in output pressure.

This goal is achieved by the fact that in the gas pressure regulator containing an actuator with a shutter, a saddle, an input, output and control chambers, a throttle, a pilot with a control valve, a membrane unit and a setting mechanism, the input chamber of the actuating device through a throttle connected to the control chamber and the pilot, and the pilot is connected to the output chamber of the actuator, between the input and control chambers of the actuator, a backup channel with a pneumatically controlled locking device is introduced stvom normally closed type, and placed in a pilot safety valve, pneumatically cooperating with the locking device of the normally closed type.

Analysis of the patent, information and catalog materials found as a result of the search for gas pressure regulators from the funds of the Saratov Regional Universal Scientific and Technical Library allows us to conclude that the proposed device is not known from the prior art, i.e. is new. In addition, the proposed device does not follow explicitly from the analyzed sources, i.e. has an inventive step.

The design of the proposed gas pressure regulator is caused by operating practice, as well as the fact that the well-known normally open type gas pressure regulators with a control device (pilot) and an elastic shutter do not have an emergency shutdown function in cases when the output pressure rises to an unacceptable regulator for this setting quantities, which can lead to an emergency.

Introduction to the proposed design of the gas pressure regulator of the backup channel connecting the input and control chambers of the actuator, and the installation of a pneumatically controlled shut-off device of a normally closed type that overlaps the backup channel in normal operation, as well as the placement in the pilot of an emergency valve that shuts off the channel connecting in regular mode the pilot and the air-operated locking device of the normally closed type, provide the emergency closure of the gas pressure regulator and inappropriate for a given setting of the output increase of the gas pressure. This function is carried out by automatically opening the emergency valve, applying a normally closed type of pneumatic control action to the pneumatically operated locking device, as a result of which the normally closed type pneumatic controlled locking device is opened, connecting the input and control chambers of the actuator, as a result of which the gas pressure in the input and control chambers of the actuator device becomes the same and the regulator closes. Thus, an emergency is prevented.

Therefore, the proposed device has industrial utility.

The invention is illustrated in the drawing, which shows a General view of the device.

The gas pressure regulator contains a throttle 1, an actuator 2, consisting of a shutter 3, a seat 4, an inlet 5, an outlet 6 and a control chamber 7, a pilot 8, including a control valve 9, a membrane unit 10 with membranes 11, 12 and a setting mechanism 13, consisting of an adjusting screw 14 and springs 15, 16, 17, a backup channel 18, a pneumatically controlled locking device of a normally closed type 19, an emergency valve 20 located in the pilot 8 and connected to a pneumatically controlled locking device of a normally closed type 19 with a channel 21, and the input chamber 5spolnitelnogo device 2 is connected with a throttle passageway 22 1 which is in turn connected to the control chamber 23 and the duct 7 with a control valve 9 - channel 24 and the pilot 8 is connected to the outlet chamber 6 of the actuator 2 channel 25 and 26.

The gas pressure regulator operates as follows.

High-pressure gas from the inlet chamber 5 of the actuator 2 through channel 22 enters the throttle 1 and through the backup channel 18 to the air-operated locking device of the normally closed type 19, which shuts off the backup channel 18 in the normal operation mode. After throttle 1, the gas flows through channel 23 into the control chamber 7 of the actuator 2 and through the channel 24 to the pilot 8. In the initial state (before tuning the pilot 8), the adjusting screw 14 of the adjusting mechanism 13 is unscrewed, the spring 15 is in the free state, the control valve 9 is closed t, since the force on it from the action of the differential pressure of the gas on the membranes 11 and 12 is less than the total force of the springs 16 and 17 acting in the direction of closing the control valve 9. There is no gas flow through the throttle 1 and therefore the pressure in the control chamber 7 of the actuator 2 is equal to the pressure in the input chamber 5 of the actuator 2. In this case, due to the presence of preliminary force acting on the shutter 3 of the actuator 2, it is pressed tightly against the seat 4, without passing gas from the input chamber 5 to the output chamber 6 In this case, the gas pressure regulator is closed, i.e. there is no gas flow through it. In addition, in the initial state, the emergency valve 20 is closed, there is no overpressure in the channel 21.

A pneumatically operated shut-off device of a normally closed type 19 closes the backup channel 18, and gas through this channel does not enter from the inlet chamber 5 into the control chamber 7 of the actuator 2.

Setting the gas pressure regulator to the desired output pressure is as follows. Using the adjusting screw 14 of the adjustment mechanism 13, the spring 15 is compressed by a certain amount, the force of the compressed spring 15 acts on the membrane unit 10, leading to the deflection of the membranes 11, 12, the movement of the membrane unit 10 and the opening of the control valve 9. Gas from the control chamber 7 of the actuator 2 through channels 23 and 24 through the ajar control valve 9 and channel 26 enters the output chamber 6 of the actuator 2 (in the low pressure region), the pressure in the control chamber 7 decreases. The shutter 3 by the action of gas pressure in the inlet chamber 5 of the actuator 2 opens slightly, gas from the inlet chamber 5 enters the outlet chamber 6 and then to the consumer. In the output chamber 6 of the actuator 2, a set value of the output pressure is set.

When changing gas consumption, the pilot 8 automatically maintains a given output pressure by adjusting the pressure in the control chamber 7 of the actuator 2.

If the gas flow increases, then the pressure in the output chamber 6 of the actuator 2 and the channels 25, 26 decreases, the resultant of the forces from the action of the differential pressure of the gas on the membranes 11, 12 and the forces of the springs 15, 16, 17 compressed by a certain amount are directed so that causes additional deflection of the membranes 11, 12, further movement of the membrane unit 10 and, as a result, an increase in the bore of the control valve 9. The pressure in the control chamber 7 of the actuator 2 decreases, the shutter 3 opens even more, p converging gas through the actuator 2 is increased, gas pressure in the outlet chamber 6 the actuator 2 is increased to restore the original setpoint.

In the case of a decrease in gas consumption, the pressure in the output chamber 6 of the actuator 2 and the channels 25, 26 increases, the resultant of the forces from the action of the differential pressure of the gas on the membranes 11, 12 and the forces of the springs 15, 16, 17 compressed by a certain amount are directed in such a way that causes moving the membrane unit 10 towards the closing side of the control valve 9 and reducing the flow area of the control valve 9. The pressure in the control chamber 7 of the actuator 2 rises, the shutter 3 is covered, the gas flow through the executor The device 2 decreases, the pressure in the output chamber 6 of the actuator 2 decreases until the initial set value is restored.

In normal operation, the movement of the membrane unit 10 of the pilot 8 is always less than the gap “a” (see drawing), therefore, such a movement will not cause the emergency valve 20 to open. In this case, there will be no excess gas pressure in the channel 21, and the air-controlled shut-off device is normal closed type 19 will block the backup channel 18, not allowing gas through the backup channel 18 to pass from the input chamber 5 into the control chamber 7 of the actuator 2.

When the gas pressure in the outlet chamber 6 is increased to a value that is unacceptable for the regulator setting, for example, due to clogging or hydrate formation in the throttle 1 or channels 22, 23, the resultant forces from the action of the gas pressure drop across the membranes 11, 12 and the forces of the compressed springs 15, 16, 17 will be directed in such a way that the control valve 9 closes, the membrane unit 10 moves to the side of decreasing the clearance “a” (see drawing) by an amount exceeding the clearance “a”, causing more compression of the springs 15, 16, and opens emergency valve 20. Then channel 21 gas pressure will act on the pneumatically controlled locking device 19, which will open the backup channel 18 for supplying gas, connecting the input 5 and control 7 of the camera of the actuator 2, and will be fixed in this position. The pressure in the control chamber 7 will become equal to the input pressure, the shutter 3 will be pressed firmly against the seat 4, the gas pressure regulator will close.

The proposed gas pressure regulator works similarly in the event of other malfunctions that cause an increase in the gas outlet pressure, which is unacceptable for this regulator setting, for example, rupture of the membranes 11, 12 of pilot 8.

The controller is restored to its initial state by dumping the gas pressure from the channel 21, returning the pneumatic locking device 19 to its original closed position, in which the backup channel 18 is closed, as well as by eliminating malfunctions that caused an unacceptable increase in the gas outlet pressure and opening the emergency valve 20.

Claims (1)

Gas pressure regulator comprising actuating device with a shutter seat, input, output and control chambers, the throttle, the pilot with the control valve, the membrane unit and the adjustment mechanism, wherein the inlet chamber of the actuator via a throttle coupled to the control chamber and the pilot, and pilot is associated with the output chamber of the actuator, characterized in that between it the input and control chambers of the actuator, a backup channel with an air-controlled shut-off device of norms flax gated and pilot safety valve is placed, which interacts with a locking device pneumatically normally closed type.