NL2023052B1 - Method and device for closing a gas pressure control device - Google Patents

Abstract

A method and device for shutting off the gas supply in a gas pressure control device, the gas pressure control device comprising: a valve bolt (5) connected to a control cap (2); a control valve (7) and optionally a lack of gas valve (6) on the valve bolt, the control cap comprising a pressure chamber (11) and a vent chamber (12) with a vent line (13), the method comprising the steps of: installing a control line (14) with a pressure device (15) on the vent line; provided with a pressure change with the pressure supply in the control line and in the vent chamber, whereby the valve bolt presses a valve onto a seat and closes the gas path.

Description

Title: Method and device for closing a gas pressure regulating device

DESCRIPTION The invention relates to a method and a shut-off device for shutting off a gas pressure control device, comprising: a housing having a gas inlet and a gas outlet; a control body in the gas path between the gas inlet and the gas outlet, the control body including a control seat and optionally a gas failure seat; a valve bolt, which is connected to a control cap; a control valve rigidly connected to the valve bolt; and optionally a lack of gas valve rigidly connected to the valve bolt, the control cap comprising a pressure chamber and a vent chamber, the vent chamber being connected to the environment by means of a vent line.

Such a shut-off device and method is known from European patent 1 923 631 A2, in which a bistable three-way valve and an electronic control unit are connected to a gas pressure control device. The object of this shut-off device is to remotely shut off the gas supply through the gas pressure regulating device, for instance in the event of a calamity such as a fire. To this end, gas lines are provided from the three-way valve to the pressure chamber, to the gas inlet, and to the gas outlet. This solution has the drawback that existing gas pressure regulating devices already installed in homes cannot easily be provided with such a closing device. New gas connection lines must be fitted to the gas inlet and gas outlet of the gas pressure control device. In addition, a new connection must be made to the pressure chamber of the gas pressure control device so that the pressure chamber can be supplied with the pressure at the gas inlet that closes the control valve. These modifications are labor intensive and expensive because they cannot be made by an installer on an installed gas pressure control device, without disassembling the gas pressure control device and without specialist testing equipment and tools.

In addition, this solution can only be applied to gas pressure regulating devices with a control valve.

German Pat. No. 197 29 229 A1 also discloses an emergency shut-off device to be fitted in the gas line to the gas pressure control device. An integrated solution for a gas pressure control device with shut-off device is also shown. A new connection must be made to the pressure chamber. An adjusting body simultaneously closes the channel between the gas outlet and the pressure chamber, and opens the vent line to the pressure chamber, and closes the bypass line over the gas lack of valve. This supplies the pressure chamber with atmospheric ambient pressure and closes the lack of gas valve. This complicated shut-off device is part of the housing of the gas pressure control device and can only be installed with specially designed and adapted parts of the gas pressure control device. For this, the gas pressure regulating device must be uninstalled and converted by a certified company. The existing gas pressure regulating device will therefore usually be replaced in its entirety by a new one and the old gas pressure regulating device will be removed. Replacing a properly functioning, sustainable gas control valve is contrary to the principles of a circular economy. This solution can only be applied to gas pressure regulators with a gas lack valve. The object of the invention is therefore to provide a method and a shut-off device which can be simply, easily, reliably and safely mounted on and removed from installed gas pressure regulating devices - whether with a control valve, a gas shortage valve or both - without having to do so. complicated modifications to, or new parts are needed for, the gas pressure control device.

These objects are achieved in that the invention provides a method for shutting off the gas supply in a gas pressure regulating device according to the opening paragraph, the method comprising the following steps: arranging a control line with a pressure supply on the vent line; provided with a pressure change with the pressure supply in the control line, so that a pressure change is made in the vent chamber via the vent line, whereby the valve bolt presses a valve onto a seat and closes the gas path. By making use of the atmospheric part of the gas pressure regulating device, a closing device can be fitted to an existing and installed gas pressure regulating device in a simple, reliable and safe manner. It has been found that by using the existing vent pipe from the venting chamber in the control cap, the control valve or the lack of gas valve can be closed simply by applying an underpressure or an overpressure, without requiring complicated adjustments or new parts for the gas pressure control device. .

Preferably, the pressure change is a pressure drop, whereby the valve bolt presses the control valve against the control seat and closes the gas path.

In particular, the pressure supply is a (vacuum) pumping device.

By applying negative pressure to the vent chamber of the control cap, the valve bolt is moved upward so that the control valve on the control seat is closed and no gas can flow from the gas inlet to the gas outlet.

This underpressure can be applied by means of a pump device suitable for extracting air and for bringing the control line and the associated venting chamber to underpressure.

Furthermore, this method has the advantage that when the control valve is closed, no gas can flow through the bypass of the lack of gas valve from the gas inlet to the gas outlet.

In a special embodiment of the gas pressure regulating device, a lack of gas valve and a lack of gas seat are provided, wherein the pressure change according to the method in the control line is a pressure increase, whereby the valve bolt presses the lack of gas valve against the lack of gas seat and closes the gas path.

In particular, the pressure supply is a pressure reservoir and / or a pumping device.

In an embodiment of the gas pressure control device, in which a gas lack valve and a gas lack seat are provided, the gas pressure control device can be shut off by applying an overpressure in the control line, so that an excess pressure is applied in the vent chamber via the vent gas-deficient seat and closes the gas path.

The overpressure in the vent chamber can be provided with a pressure reservoir in which sufficient air at a high pressure is present to bring the vent chamber to a sufficient overpressure one or more times to close the gas break valve on the gas lack seat.

It is also possible to bring the deaeration chamber to an overpressure with the aid of a pump device, or even with the aid of the inlet pressure, but then the existing installation must be adapted to create a connection point.

Preferably, in the method according to the invention, a three-way valve is used, or a valve configuration corresponding thereto, which three-way valve is provided in the control line between the gas pressure control device and the pressure supply, and wherein the three-way valve is provided with a valve vent, wherein in the release position of the three-way valve, the valve vent is in open connection with the vent pipe of the venting chamber and the connection to the pressure supply is closed, and where in the closed position of the three-way valve the pressure supply is in open connection with the vent pipe of the venting chamber and the connection to the valve vent is closed.

By using a three-way valve, or a configuration corresponding thereto, such as two two-way valves, the method according to the invention can be carried out in a simple manner.

In the release position of the three-way valve, the gas pressure control device can operate and regulate normally, and the vent line of the vent chamber is connected to the ambient or atmospheric pressure by the pilot line being in fluid communication with the valve vent.

In the closed position of the three-way valve, this connection between the ambient pressure and the vent chamber is broken, and a fluid connection is made between the vent chamber and the pressure supply to create an overpressure or underpressure in the vent chamber.

The invention also relates to a shut-off device for applying the method, comprising a control line and an associated pressure facility for effecting a change in pressure in the venting chamber through the control line.

In particular, the pressure supply is a pressure reservoir and / or a (vacuum) pumping device.

The shut-off device can be used both with gas pressure regulating device with and without a gas shortage valve, in that when an underpressure is applied in the venting chamber the control valve can be closed on the regulating seat, and by applying an overpressure in the venting chamber the gas shortage valve can be closed on the gas-deficiency seat.

To this end, the pressure supply is a pumping device or a pressure reservoir, with which sufficient air (or another gas such as Nz or CO: at overpressure from a pressure reservoir) can be supplied at a high pressure to bring the deaeration chamber to a sufficient overpressure one or more times to Close the low gas valve on the low gas seat.

Or is the pressure supply a vacuum pump, which is arranged to remove air from the vent chamber and to apply a negative pressure, so that the valve bolt can close the control valve against the control seat.

In a preferred embodiment, the shut-off device comprises a three-way valve, or a corresponding valve configuration, and the three-way valve is provided with a valve vent, in the release position of the three-way valve, the valve vent is in open communication with the vent line of the vent chamber and the connection to the pressure supply is closed, and wherein in the closed position of the three-way valve the pressure supply is in open connection with the vent line of the venting chamber and the connection with the valve vent is closed.

In an alternative embodiment, the closing device is provided with a control unit, which controls the pressure supply and / or the three-way valve, or a corresponding valve configuration.

In particular, the control unit is provided with a receiver, so that with a remote transmitter 5 the gas pressure control device can be closed with the shut-off device.

With the above-mentioned measures, the closing device can be operated remotely and the control valve can be closed, for example by a utility company when shutting off the utilities in a house of the moving residents.

The invention will be explained in more detail below with reference to the appended drawing, wherein features and other advantages will become apparent. Figure 1 is a sectional view of a gas control device with a lack of gas valve in the control position, the vent pipe of the vent chamber of the control cap being provided with a shut-off device (shown schematically) in the release position; Figure 2 is a sectional view of the gas control device of Figure 1 with the Shut-off device in the shut-off position with the control valve closed as a result of an underpressure in the venting chamber; Figure 3 shows in cross section the gas control device of Figure 1 with the shut-off device in the shut-off position with the gas lack of valve closed as a result of an overpressure in the venting chamber.

Figure 1 shows a gas pressure regulating device 1 with a closing device for applying the method according to the invention. The gas pressure regulating device comprises a regulating cap 2, a gas inlet 3, a gas outlet 4, a valve bolt 5, which is connected to the regulating cap 2, a gas lack valve 6 and a regulating valve 7, both of which are rigidly connected to the valve bolt 5. The gas pressure regulating device is provided with a control body 8, which is arranged in the gas path between the gas inlet and the gas outlet. The control body is provided with a control seat 9 and with a gas-deficient seat 10. The gas pressure in the gas inlet is reduced from a high pressure to a low pressure by means of the control valve, which is rigidly connected to the valve bolt and the control cap. To this end, the valve bolt 5 is hollow so that the gas pressure at the gas outlet is equal to the gas pressure in the pressure chamber 11 in the control cap 2. A control loop is thus formed, in which the pressure chamber moves the valve bolt upward as the outlet pressure rises, so that the control valve moves towards the control seat and the gas path from the gas inlet to the gas outlet is narrowed or obstructed.

Above the pressure chamber 11 a vent chamber 12 is arranged in the control cap, which vent chamber communicates with the (atmospheric) environment by means of a vent line 13. When the gas pressure is lowered in the pressure chamber 11, for example because there is no more gas pressure at the gas inlet 3, the pressure chamber will move the valve bolt down and the control valve will move away from the control seat to the maximum open position, and also the gas lack valve 6 against Press the lack of gas seat 10 so that the lack of gas valve completely shuts off the gas supply. This movement of the valve bolt will increase the volume of the vent chamber 12 and air from the environment will be drawn in through the vent line 13. When the valve bolt moves in the reverse direction away from the lack of gas seat, the volume of the vent chamber will be decreased. and air will be blown out to the environment through the vent line 13. The universal shut-off device according to the invention comprises a control line 14 and an associated pressure supply 15. The control line is connected gastight to the vent 13 of the vent chamber 12 of the control cap 2. This makes it possible to adjust the pressure in the vent chamber and thereby influence the position of the valve bolt and the valves connected to the valve bolt. The universal shut-off device according to the invention can also be used for gas pressure regulating devices without a gas shortage valve and for gas pressure regulating devices without a control valve. In the exemplary embodiment shown in Figure 1, therefore, a three-way valve 16, here formed by two two-way valves, is provided in the control line 14. In the release position of the shut-off device, the control line 14 is connected to the valve vent 17, so that the vent chamber 12 can 'breathe' with the environment via the vent pipe 13. In Figure 1, the shut-off device is further provided with a control unit 18 for (electrically) controlling the pressure supply 15 and / or the three-way valve 16. This control unit 18 can be supplied from a receiver. are provided, so that with a remote transmitter the gas path of the gas pressure control device can be closed with the shut-off device. This makes it possible for the gas supply to be shut off remotely by means of sensors, by a utility company and / or by the resident, for example in case of calamities or when moving house. Figure 2 shows a first embodiment of the invention, in which a pressure reduction is made in the deaeration chamber with the aid of a (vacuum) pressure device such as a pumping device or another underpressure device.

12. For this purpose the three-way valve 16 has been switched to the closing position and the connection with the ambient pressure has been broken between the valve vent 17 and the control line 14. The control line 14 is now connected to the pressure supply 15, so that an underpressure can be provided in the vent chamber 12 via the vent line 13. As a result, the valve bolt 5 has moved upwards and the control valve 7 has been pressed against the control seat 9 and the gas path between the gas inlet 3 and the gas outlet 4 has been closed. This embodiment of the invention can also be applied to gas pressure regulating devices without a gas shortage valve. With gas pressure regulating devices, which reduce the pressure from 100 - 200 mbar at the gas inlet 3 to 20 - 30 mbar at the gas outlet 4, with a pressure reduction of + 20 - 30 mbar to a pressure of 970 - 380 mbar-a (absolute) the vent chamber 12 and the control valve 7 are closed. In practice, an underpressure of +200 mbar will be applied, so that the pressure in the deaeration chamber 12 will be approximately 800 mbar.

Figure 3 shows a second embodiment of the invention, in which with the aid of (over) pressure device 15, such as a pump device or other overpressure device, a pressure increase is made in the deaeration chamber 12. For this purpose the three-way valve 16 has been switched over to the closed position and the connection is with the ambient pressure disconnected between the valve vent 17 and the pilot line 14. The pilot line 14 is now connected to the pressure supply 15 so that an overpressure can be provided in the vent chamber 12 through the vent line 13. As a result, the valve bolt 5 has been moved downward and the lack of gas valve 6 is pressed against the control seat 9 and the gas path between the gas inlet 3 and the gas outlet 4 is closed. This embodiment of the invention can also be applied to gas pressure regulating devices with only a gas lack valve. With gas pressure regulating devices which reduce the pressure from 100 - 200 mbar at the gas inlet 3 to 20 - 30 mbar at the gas outlet 4, the gas lack valve & can be closed with an overpressure of 100 mbar on the venting chamber 12. This also makes it possible to use the 100 mbar pressure at the gas inlet 3 as a pressure supply 15.

Claims (11)

CONCLUSIONS A method for shutting off the gas supply in a gas pressure control device, the gas pressure control device comprising: a housing (1) with a gas inlet (3) and a gas outlet (4); a control body (8) in the gas path between the gas inlet and the gas outlet, the control body comprising a control seat {9} and optionally a gas deficiency seat (10); a valve bolt (5) connected to a control cap (2); a control valve (7) rigidly connected to the valve bolt (5); and optionally a lack of gas valve (6) rigidly connected to the valve bolt (5), the control cap (2) comprising a pressure chamber (11) and a vent chamber (12), the vent chamber being connected to the environment by means of a vent line (13). connected, characterized in that the method comprises the following steps: arranging a control line (14) with a pressure supply (15) on the vent line; provided with a change in pressure with the pressure supply (15) in the control line (14), so that via the vent line (13) a change in pressure is made in the vent chamber (12), whereby the valve bolt (5) opens a valve (6, 7) on a seat (10, 9) and closes the gas path. A method according to claim 1, wherein the pressure change is a pressure drop, whereby the valve bolt (5) presses the control valve (7) against the control seat (9) and closes the gas path. A method according to claim 2, wherein the pressure supply is a (vacuum) pumping device. A method according to claim 1, wherein a lack of gas valve (6) and a lack of gas seat (10) are provided, and wherein the pressure change in the pilot line (14) is a pressure increase, causing the valve bolt (5) to push the lack of gas valve (6) against the lack of gas seat. (10) and closes the gas path. A method according to claim 2, wherein the pressure supply (15) is a pressure reservoir and / or a pumping device. A method according to any one of the preceding claims, wherein a three-way valve (16), or a corresponding valve configuration, is provided in the pilot line (14) between the gas pressure control device (1) and the pressure supply (15), and wherein the three-way valve (16) includes a valve vent (17), wherein in the release position of the three-way valve (16), the valve vent (17) is in open communication with the vent line (13) of the vent chamber (12). ), and wherein in the closed position of the three-way valve (16) the pressure supply (15) is in open communication with the vent line (13) of the vent chamber (12). Shut-off device for applying the method according to any one of the preceding claims, comprising a control line (14) and an associated pressure supply (15) for effecting a change in pressure in the vent chamber (12) through the control line. Closure device according to claim 6, wherein the pressure facility (15) is a pressure reservoir and / or a (vacuum) pumping device. Shut-off device according to claims 6 to 7, wherein the shut-off device is a three-way valve (16), or a corresponding valve configuration, and the three-way valve (16) includes a valve vent (17), in the release position of the three-way valve (16) the valve vent (17) is in open connection with the vent pipe (13) of the vent chamber (12), and with the pressure supply (15) in open connection in the closed position of the three-way valve (16) with the vent pipe (13) from the vent chamber (12). Closure device according to claim 9, wherein a control unit (18) is provided, which controls the pressure supply (15) and / or the three-way valve (16), or a corresponding valve configuration. Shut-off device according to claim 10, wherein the control unit (18) is provided with a receiver, so that with a remote transmitter the gas pressure control device (1) can be closed with the shut-off device.