DE647958C - Additional device for a district pressure regulator provided between a high-pressure gas line and a low-pressure gas network - Google Patents

Description

In the case of gas distribution networks that are fed from a high pressure line via district pressure regulators it is known that the pressure waves used for actuating ignition devices in to trigger the low pressure network by the fact that from the gasworks in the high pressure line a Pressure wave is generated, the control regulator arranged on the individual district pressure regulators opens and by means of an auxiliary regulator an additional pressure is applied to the top of the membranes of the There is a district pressure regulator or similarly causes an increase in the diaphragm load, so that the district pressure regulators emit a pressure wave to the low-pressure network.

In many cases, however, the network is fed via several district pressure regulators from a high pressure line independent of the gasworks itself, so that a pressure wave in the High pressure line cannot be created from the factory. Simultaneous pressure waves in the distribution network could in this case only be caused by electrical interference individual district pressure regulator can be achieved. However, electrical cables would be used for this purpose required from the factory according to the individual district pressure regulators and you would be back to work depends on the electrical equipment.

According to the invention, such electrical devices are avoided, and the preferred ones Pressure wave is generated in the network by acting on the district pressure regulator Low pressure side generated from. For this purpose, in the network in any way, for example by temporarily increasing the load on one of the district pressure regulators, and expediently the one arranged in the gasworks itself, causing a pressure wave in the low-pressure network, however, those for actuating the ignition devices in the area of the other feed points not enough. This pressure wave is planted in the entire network up to the district pressure regulators away. Organs that respond to this weak pressure wave are arranged on these and at the same time an increased membrane load on the district pressure regulator and thus a strong, for Actuation of the ignition devices caused a sufficient pressure wave in the low-pressure line. These organs can for example consist of a valve which is controlled by a membrane acted upon by the low pressure and when opened by a weak pressure wave in the low pressure line one of the High pressure line branched off and to the side communicating with the atmosphere releases the line leading to the diaphragm of the district pressure regulator. In this is used to measure the Determine the increase in load, it is advisable to install a pressure regulator. In order to avoid, that by connecting one side of the diaphragm of the district pressure regulator with the outside air

*) The patent seeker stated as the inventor:

• Ludwig Fischer in Fürstenwalde, Spree.

while too much gas escapes during the pressure waves, it is controlled with an adjustable throttle valve Mistake. To avoid attenuation that is undesirable during normal operation To avoid this throttling, the throttle valve can also be provided with a circulation which contains a diaphragm-controlled valve that closes when the inlet pressure is increased. This is fully open during normal controller operation, but is opened during the Pressure waves closed due to its increased form, so that during this There is only a connection with the outside air via the throttle valve for a period of time. Around after the pressure wave has been released, the district pressure regulator cancels its increase in load, becomes that on the side of the district pressure regulator diaphragm connected to the outside air The prevailing pressure is passed through an adjustable throttle point on a membrane, which is located under the Influence of this pressure the organ serving to provoke the increased stress again brings into the starting position, that is to say that in the branched off from the high-pressure line and closed the side of the district pressure regulator membrane that is in contact with the outside air Line located valve closes again.

An exemplary embodiment of the invention is shown schematically in the drawing. The district pressure regulator 1, whose task is to control the pressure of the high pressure line 2 to reduce the inflowing gas to the pressure that is connected to the line 3 in the Network is to prevail, consists essentially of a valve 4, which is controlled by a membrane 5. The room 6 below the membrane 5, which is separated from the regulator housing by an intermediate membrane 7 connected by line 8 to the low-pressure line 3. The space 9 above the membrane 5 is in communication with the outside air through the lines 10 and 11 via the throttle valve 12.

From the high pressure line branches off a line 14, which via a switching valve 15 and a pressure regulator 16 is connected to lines 10 and 11. From the low pressure line 3 branches off a line 18 which leads to the space 19 under the arranged in a housing weight-loaded membrane 20 leads. The lifting movement of the membrane 20 is through a Rod 21 outwards and onto a two-armed lever 23 rotatably mounted at 22 transferred, the other end of which is loaded with a weight 24 and at 25 rotatably mounted rocker arm 26 is connected. The rocker arm 26 is operated by means of the pull rod 27 the valve 15.

Another membrane 28 arranged in a housing is on the underside over the containing the adjustable throttle valve 29, connecting the space 30 with the space 9 Line 31 is acted upon by the pressure prevailing in space 9. Your stroke movement will transmitted to the rocker arm 24 by the rod 32 and the lever 34 rotatably mounted at 33.

The drawing shows the device in the position it is in immediately after it has been triggered the pressure wave occupies.

The mode of action is as follows:

If there is a weak pressure wave in the low-pressure line, the increased pressure is applied Press and lift the diaphragm 20. The rocker arm 26 is raised via the linkage 21, 23 and the weight 24 brought from the dotted position to the dead position, so that the Rocker arm 26 turns over and valve 15 opens. A from the now flows through this High pressure line 2 branched off partial flow, the pressure in the regulator 16 to a certain, the value given by the load on this controller is reduced. This pressure will passed through the lines 10 into the room 9. This opens under this increased load Valve 4 of the district pressure regulator 1 continues and thus generates a pressure increase in the to the Line 3 connected network, which is sufficient to operate the ignition device.

This pressure gradually penetrates through the line 31 and via the throttle valve 29 the space 30 and lifts the membrane 28. This brings this about the linkage 32,34 Rocker arm 26 back into the other end position, whereby the valve 15 is closed again and thus the increased load on the diaphragm 5 of the district pressure regulator 1 is canceled. At the same time, the rods 23, 21 also return the membrane 20 to the starting position brought and so the device is again provided for the delivery of a new pressure wave.

The through line 11 and valve 12 during the pressure wave movement, the amount of the fluid flowing through the line 14 from the high, Pressure line 2 branched off partial flow can dufth appropriate setting of the throttle valve 12 can be reduced. In order to restrict the connection between room 9 with the outside air and the resulting damping of the control can be avoided the valve 12 a handling of a valve; it will be provided that by opening the Valve 15 caused increased pre-pressure is closed by a membrane, however fully opens when only the breathing air of the regulator 1 flows through the lines 10 and 11.

Claims (5)

Patent claims: i. Additional device for one between a high pressure gas line and a low pressure gas network provided district pressure regulator, which is used to trigger a pressure wave serves in the low pressure network and is connected to the high pressure line to an additional Generate pressure over the top of the control diaphragm of the district pressure regulator, indicated by a ' Connecting line (14) arranged switching valve (15), which by two separate control chambers is controlled, one of which (19) is connected to the low-pressure line (3), and the valve (15) can open, while the other (30) with the one above the membrane (5) of the district pressure regulator (1) is connected to space (9) and the valve (15) can close. 2. Device according to claim 1, characterized in that in the connecting line (31) between the above the membrane (5) of the district pressure regulator (1) lying space (9) and def a control chamber (30) an adjustable throttle point (29) is arranged. 3. Device according to claim 1 to 2, characterized- by one in the branched off from the high pressure line (2) and connected to the outside air Side of the membrane (5) of a district pressure regulator (1) leading line (14) arranged Pressure regulator (16). 4. Device according to claim 1 to 3, characterized in that one side (9) the diaphragm (5) of the district pressure regulator (1) via an adjustable throttle valve (12) is in communication with the outside air. 5. Device according to claim 1 to 4, characterized by a diaphragm-controlled one arranged in a passage to the throttle valve (12) Valve that closes when the inlet pressure is increased. 1 sheet of drawings