DE3711547A1 - Safety valve for gas supply line - Google Patents

Abstract

The safety valve is fitted into the gas supply line before the feed (25) into the consumer. A wire or cable pull (10) is laid inside the pipe to the consumer and attached inside. The outer end of the cable is attached to a spring loaded valve. If the pipe is stretched by more than a set amount the valve closes. The valve is fitted into a widened section which is connected between the customer feed and the main pipe. An alternate design pull a sealing plug into the customer feed when the pipe is stretched.

Description

The invention relates to a device for yourself switch off gas supply lines in the event of breaks due to tensile loads.

It happens again and again that during dredging and similar earthworks in populated areas Gasver supply lines from the excavator shovel undetected are gripped and pulled up from the ground. This leads to breaks in the gas supply line and Outflow of gas. So that these fractures are not inside from buildings where such gas supply broken line would result in a serious explosion you can destroy an entire house before the Introduction of the gas supply line in the Soll building breaks in the gas supply line in the form of so-called traction limiters installed. Exceeds the axial tensile force on an underground gas pipe If the specified values are correct, the gas supply goes line apart at this predetermined breaking point, whereby  is achieved that tensile forces no longer on the gas pipes occur that are installed inside the building, so that no gas pipes break inside the building go. In front of the building, however, the gas flows out of the torn apart gas supply line and it can escape gas in unfortunate circumstances open cellar windows can penetrate into buildings, it can especially when there is no wind in the open air accidents occur. Therefore, such Broken gas pipes often blocked entire streets.

The present invention avoids these disadvantages. It is the object of the present invention, a fold and inexpensive solution to find at gas pipe breaks due to tensile loads on the gas pipe itself to achieve active shutdown of the gas supply line.

The invention is to secure that at the beginning of the a valve is installed in the gas pipeline that A rope is laid in the gas pipeline to be secured or a rod is arranged to secure that at the end of the the gas pipeline a mounting point for the rope laid in the gas pipeline or the te rod is provided and that this rope or this rod with its other end on the movable one Valve body or on a device for triggering the movement of the valve body is attached.

This device is very easy to manufacture and to install. It can also be used on long gas lines Find application and its effect is safe. Becomes e.g. this device for securing one by one Front yard used used gas supply line, so  one becomes the valve on the branch of this through the front installed gas supply line from the in the garden Install the gas supply line laid on the road and one the rope will be close to the building to be supplied or lay it into the building, if possible through the predetermined breaking point in front of the building. Now earthworks in this front yard become machine with an excavator such as carried out an excavator and accidentally grabs the tool of this excavator and undetected the Gasver secured in this way supply line, it goes to the predetermined breaking point Break, but at the same time it becomes inside the gas supply line laid rope so tensioned that the Valve body, be it a valve plate or a Ven tilkegel or a differently designed valve body securely in the valve seat and thereby closes the gas supply line before the break point, so that now no gas can escape.

This device is also effective when it is like easily possible with plastic pipes, only one Elongation of the pipes does not lead to a pipe break. Such cases often occur because of the excavator leaders in excavation work suddenly out of the ground well-known gas supply line recognizes and then immediately opens his shovel so the line doesn't to tear apart. Such lines are hidden but there is a risk that they will be treated in this way are damaged. Therefore it is necessary to also in sol occasions to close the gas supply line, so that it is recognized that on the gas supply line Tensile forces and thus the gas  supply line can be excavated and checked. Also in this case, where there is an expansion of the gas ver management has taken place, but not yet a break, pulls the rope not subject to these tensile forces the valve body in its valve seat and closes so that the gas supply line is reliable.

It is advantageous if the rope or the rod on the Valve bodies are attached over a predetermined breaking point, because the forces that occur at break first the gas supply line had worked now work more on the rope. If the valve body is in its Valve seat is stuck, no more forces from that Rope should not be exerted on the valve body the valve seat may be out of its housing or is torn out of the pipe surrounding it. The predetermined breaking is conveniently located in the immediate vicinity of the Relocated valve body. It is advantageous if as A helical spring is used at the predetermined breaking point kem train is so overstretched that it with their En which slips out of the eyelets in which it is hung is.

It is advantageous if the valve body is in a protection sleeve is housed, which is towards the Ven tilsitz is open. It rests in such a protective sleeve the valve body unaffected by all currents, that flow past him on the side.

So that the device on its operability can be checked, it is appropriate if the valve housing closed by a removable cover is.  

It is advantageous if the valve body is relative pointed sealing cone is formed so that the rope the valve body as securely as possible into the valve seat can pull in.

The essence of the invention is based on a execution shown schematically in the drawing example explained in more detail. Show it:

FIG. 1 is a relocated from a road into a building gas supply line,

Fig. 2, the anchorage for the rope,

3 stem position. A section through the valve in Ready,

Fig. 4 is a section through the valve in closed position ner,

Fig. 5 shows a section through a gas Zugkraftbegrenzer termination device,

Fig. 6 shows another way of anchoring the rope.

The gas supply line 1 for the supply of the Ge building 2 is guided through a front garden 3 and connected to the gas supply line 5 laid under the street 4 via a T-branch 6 . In building 2 , the other end of the gas supply line 1 is also connected via a T-branch 7 to the pipe system installed in the house with the shut-off valve 8 .

In the dead end of this T-branch 7 in the building is an anchoring point in the form of a hook 9 for a cable 10 laid in the gas supply line 1 is arranged.

Immediately next to the T-branch 6 on the street side, a valve 11 is installed in the gas supply line 1 . This valve has a housing 12 in which there is a valve seat 13 and a protective sleeve 14 and in this a valve cone 15 . The protective sleeve can be arranged centrally in the valve housing and ge by a holder so that it is flowed around on all sides by the flowing gas. But it can also, as shown in the exemplary embodiment shown, are located on the bottom of the valve housing 12 .

The valve cone 15 is connected to the cable 10 via the helical spring 16 . On the inner wall of the valve seat 13 , two sealing rings 17 are inserted into grooves provided for this purpose. Is the valve plug 15 from its rest position shown in Fig. 3 by star ke, acting on the gas supply line axial Kr te te in the closed position shown in Fig. 4 ge, so the coil spring 16 tears off at stronger forces. The valve cone 15 is under the pressure dea in the gas supply line laid in the street gas supply and is held by this in addition to the clamping effect in the valve seat.

So that the valve cone 15 in the valve housing 12 is accessible from the outside, it is expedient if the Ven tilgehäuse 12 is closed at the top by a cover 18 from.

Another example is shown in FIG. 5. Here is shown in section a force limiter serving as a predetermined breaking point, which consists of two metal tubes 19 , 20 which are connected to each other by the sleeve 21 , which has sealing rings 22 on its inner wall, with which a gas-tight connection between the metal tubes 19 , 20th will be produced. Inside each of the two metal tubes 19 , 20 there is a web 23 which is penetrated by a rod 24 with a predetermined breaking point 25 . The rod 24 has a head 26 on one side and a nut 27 on the other side. The direction of gas flow is marked by arrow 28 .

If large tensile forces occur on the metal pipes 19 , 20 , the rod 24 breaks at the predetermined breaking point 25 and one or both metal pipes 19 , 20 are pulled out of the sleeve 21 so that gas can flow freely out of the metal pipe 19 .

To prevent this, the valve seat 13 is formed in the metal tube 19 and a cable 10 is laid from the web 23 in the metal tube 20 to the valve cone 15 , which on the end facing away from the sleeve 21 (viewed from the valve seat 13 ) in the metal tube 19 is inserted. If the rod 24 now breaks under the tensile forces and the metal tube 19 and / or 20 pulls out of the sleeve 21 , the valve cone 15 is pulled into the valve seat 13 by the cable 10 . A coil spring arranged at the end of the cable 10 in turn serves as a predetermined breaking point. Thus, the Me tallrohr 19 immediately before the predetermined breaking point in gas supply line break securely closed.

Another possible way of anchoring the rope is shown in FIG. 6. Here, a hook or eyelet 30 is attached to the inside of the screw cap, to which the end of the rope 10 is attached.

• List of reference numbers: 1 gas supply line
  2 buildings
  3 front yard
  4 street
  5 gas supply line
  6 T branch
  7 T branch
  8 shut-off valve
  9 hooks
  10 rope
  11 valve
  12 valve housing
  13 valve seat
  14 protective sleeve
  15 valve cone
  16 coil spring
  17 sealing ring
  18 lid
  19 metal tube
  20 metal tube
  21 sleeve
  22 sealing ring
  23 footbridge
  24 bar
  25 predetermined breaking point
  26 head
  27 mother
  28 direction of gas flow
  29 screw cap
  30 eyelet

Claims (6)

1. Device for automatically turning off gas supply lines in the event of breaks due to tensile loads, characterized in that
that a valve ( 11 ) is installed at the beginning of the gas pipeline ( 1 ) to be secured,
that a rope ( 10 ) is laid or a rod is arranged in the gas line string ( 1 ) to be secured,
that of being provided to be secured gas pipe line (1) has a fixing point (9) for the processing in the Gaslei strand (1) decomposed rope (10) or the threaded rod at the end,
and that this rope ( 10 ) or this rod is attached with its other end in the movable valve body ( 15 ) or on a device for triggering the movement of the valve body ( 15 ). 2. Device according to claim 1, characterized in that the rope ( 10 ) or the rod on the valve body ( 15 ) are attached via a predetermined breaking point. 3. Apparatus according to claim 1, characterized in that the valve body ( 15 ) is housed in a protective sleeve ( 14 ) which is open in the direction of the valve seat ( 13 ). 4. The device according to claim 1, characterized in that the valve housing ( 12 ) is completed by a removable cover ( 18 ). 5. The device according to claim 1, characterized in that a helical spring ( 16 ) serves as the predetermined breaking point. 6. The device according to claim 1, characterized in that the valve body ( 15 ) has the shape of an acute cone.