DE10115656A1 - Valve tapping device for gas pipes, includes safety valve upstream from shut off valve seat - Google Patents

Abstract

The sliding tool (10) used to form an opening in the pipe (12) is offset relative to the shut-off valve body (4). A safety valve (7) for the flowing fluid is positioned upstream from the valve seat (6) relative to the direction of the flow into the device casing (2). The safety valve shuts-off the flow of fluid from the pipe into the branch connection (5) when the pressure acting on the body (8) of this valve exceeds a threshold value. The safety valve body is opened by the body (4) of the shut-off valve. The tapping device comprises a casing, a saddle (1) which is securable to the pipe, a branch connection, shut-off valve body which can be slid in a linear direction inside the casing and cooperates with a fixed valve seat (6), and a sliding tool.

Description

The invention relates to a valve tapping fitting for gas lines, with a housing, a saddle that can be attached to a pipe, a branch connector, an in the housing is arranged linearly displaceable, with a valve seat fixed to the housing interacting valve body of a shut-off valve for manually shutting off the Fluid flow from the pipeline in the branch pipe and a linearly displaceable arranged tool for cutting the pipeline.

Such a tapping fitting is known for example from DE 44 08 817 C1.

The valve tapping valve is used, for example, from pipe branches se to create a house connection. For this, the tapping fitting with their plastic saddle on the best plastic Gas pipeline is attached and fixed. Usually there are heating wires in the saddle integrated, which can be heated so far by applying a voltage that the Saddle is welded to the pipeline and thereby a tight connection between the tapping fitting and the gas line can be manufactured.  

The pipeline is then "turned on" via the tool arranged in the tapping fitting drilled "and thereby the connection between the pipeline and the one with the Ab branch connection of the valve connected house connection. About that in the Tapping valve located can connect to the gas line if necessary be closed manually.

The gas pipe system within a residential or commercial building must be very designed to be safe from tampering to minimize the risk of fire and explosion Ren. Are blind plugs loosened or consumers out of the system, for example disconnected without first closing the main tap flows uncontrollably Gas off. Even in the event of pipe damage to a house connection line, which is caused by Excavation or drilling work causes an uncontrolled gas flow. Around To prevent this, a so-called flow monitor is integrated in the gas line, as it is known for example from DE 298 18 904, and which in the event of danger Gas flow stops.

The well-known flow switch consists of a pressure spring-loaded valve that is integrated in the pipeline. Does the pressure drop behind the flow switch because the line cross section through conscious or unconscious line manipulation ver is enlarged and thus more gas escapes than at full load of all connected Ver is possible, causes the first in the flow direction in front of the closing body higher pressure closing the valve so that the line is sealed.

If the house connection line is to be installed with that of the utility company If the incoming gas line is connected, the flow switch immediately falls ne closed position, since only ambient pressure is present in the line system behind it, while the full gas pressure acts in front of him. To open the valve must be on the other At the end of the line (house connection) a counter pressure can then be built up Gas pressure exceeds. In order to be able to set a defined closing force, the Flow monitors are usually spring loaded. This compression spring supports the necessary opening force.  

In order to avoid the rather tedious build-up of a back pressure, the Lei system in the area of the flow switch used in the line bypassed so that a small amount of gas passes the flow switch flows, and a back pressure can build up. One disadvantage is that the Time to build up a sufficiently large back pressure be quite high can do what was still accepted when installing a new house connection but also that gas flows unchanged when a pipe break or tampering with the pipe system has occurred. Also if the volume flow is significantly reduced, the fire and explosion area don't drive with it.

Starting from this problem, the tapping fitting described at the beginning is intended be trained in such a way that the disadvantages described are avoided.

A generic valve tapping fitting is used to solve the problem characterized in that the tool is arranged offset to the valve body, and that based on the flow direction in the housing in front of the valve seat Fluid flow removable safety valve is used that the fluid flow from the Pipe in the branch pipe closes, if a defined, on its valve body force is exceeded and that the valve body of the safe safety valve by means of the valve body of the shut-off valve from its closed position in its open position is feasible.

This configuration allows the additional use of a flow monitor ters within the pipeline, because this is in the tapping valve in is tegrated. This means that there is no need for an Ar when installing the house connection beitsgang. The shut-off valve is on while the gas line is being tapped drill fitting closed. If the safety valve when opening the shut-off valve closes, it can then ge again manually by lowering the valve body be opened. Since the tapping valve in the ground is always accessible from the outside, the safety valve can then be opened manually quickly and easily,  if it has interrupted the gas flow in the event of danger and the danger has been eliminated de.

The valve body of the safety valve is preferably one in flow direction extension projecting beyond the valve seat. When installing the House connection line or drilling into the gas line is the shut-off valve of the An drilling valve closed. Its valve body affects the approach of the safety vein tils and opens this. If the gas line is drilled, this can do this Shutoff valve are only opened slightly so that gas at the The valve body of the safety valve can flow into the house connection line Valve body but can not be pressed into its closed position. Is the pressure balanced in front and behind the valve body of the safety valve, the Ab shut-off valve can be opened completely without the risk that the Ven til body locks. The valve body of the safety valve preferably seals ge against the force of a spring. This enables the necessary closing force to be defined be put. The spring is advantageously biased.

When the shut-off valve is turned on substantially perpendicular to the longitudinal axis of the saddle is set, the valve body of the safety valve is in its closing direction Exposed to gravity, so that due to its own weight a necessary closing force can be specified without a bias by a spring not is agile.

The valve body of the safety valve is preferably cross-shaped in cross section formed, whereby good guidance within the housing is possible.  

With the help of a drawing, two exemplary embodiments of the invention are described below are explained in more detail. It shows:

Figure 1 is a perspective view of a first embodiment.

Fig. 2 is a perspective view of a second embodiment;

Fig. 3 shows the cross section of the tapping fitting according to Fig. 1;

Fig. 4 shows the cross section of the tapping fitting according to Fig. 2;

FIG. 5 shows an exploded view according to FIG. 3;

Fig. 6 is an exploded view of FIG. 6.

The tapping machine consists of the join by the utility to the gas pipe 12 connectable caliper 1, the welded in the saddle 1 housing 2 and the tool 10 for separating the conduit 12 and the outgoing from the housing 2 connecting piece 5 which is connected to the service line.

A valve body 4 arranged linearly displaceably in the housing 2 via the spindle 3 interacts with a valve seat 6 fixed to the housing and forms the shut-off valve. The safety valve 7 acting as a flow switch is used coaxially in the housing 2 . Offset from the valve body 4 , the linearly displaceable tool 10 is arranged in the saddle 1 in a threaded channel 13 . The tool 10 can be guided parallel to the valve body 4 ( FIG. 3) or at an angle to it ( FIG. 4). The duct 13 is sealed off from the environment in a gas-tight manner by a cover cap 11 . The cover cap 11 can be welded to the saddle 1 via heating wires 22 .

The safety valve 7 consists of the sleeve 14 with the valve body 8 guided therein perpendicularly to the longitudinal axis L of the saddle 1 . In the sleeve 14 , the seal seat 15 of the shut-off valve 7 is provided. The valve body 8 is shown biased in its open position by a compression spring 9 .

The valve body 8 is cross-shaped in cross-section, the round valve plate 18 on the side facing the sealing seat 15 is provided with a sealing ring not shown here. On both sides of the valve plate 18 extend zap fen-shaped approaches 17 , 19 , which take the leadership of the valve body 8 in the sleeve 14 on.

In order to connect the gas line 12 to the house connection line, the saddle 1 of the tapping fitting is placed around the pipe 12 and tightly fastened there by welding it over the heating wires 23 . Then the ver with an external thread 10 a tool 10 is rotated by means of a key not shown here in the saddle 1 down and cut the hole 16 in the tube 12 . The shut-off valve is closed at this time, so that the valve body 8 is pressed down by the valve body 4 beyond its position shown in FIGS. 3 and 4. The house connection line is then connected to the branch connector 5 . At closing, the valve body 4 is lifted a short distance from its seat 6 by rotating the spindle 3 , so that gas can flow from the tube 12 around the valve body 8 into the connecting piece 5 . If the pressure in the house connection line has equalized itself to such an extent that the pressure in front of and behind the valve body 8 in the system is the same, the valve body 4 is rotated completely upwards.

LIST OF REFERENCE NUMBERS

1

saddle

2

casing

3

spindle

4

valve body

5

spigot

6

valve seat

7

safety valve

8th

valve body

9

compression spring

10

Tool

10

a external thread

11

cap

12

Pipeline / gas line

13

channel

14

shell

15

sealing seat

16

drilling

17

approach

18

valve disc

19

approach

20

thread

21

heating wire

22

heating wire

23

heating wire

Claims (6)

1. Valve tapping fitting for gas lines, with a housing ( 2 ), a saddle ( 1 ) that can be attached to a pipe ( 12 ), a branch connector ( 5 ), a linearly displaceable arrangement in the housing ( 2 ), with a valve seat ( 6 ) interacting valve body ( 4 ) of a shut-off valve for manually shutting off the fluid flow from the pipeline ( 12 ) into the branch connector ( 5 ) and a linearly displaceable tool ( 10 ) for separating the pipeline ( 12 ), characterized in that the factory Stuff ( 10 ) to the valve body ( 4 ) is arranged offset, and that in relation to the direction of flow in the housing ( 2 ) in front of the valve seat ( 6 ), a safety valve ( 7 ) which can be exposed to the fluid flow is inserted and which detects the fluid flow from the pipeline ( 12 ) shuts off in the branch pipe ( 5 ) when a defined force acting on its valve body ( 8 ) is exceeded, and that the valve body ( 8 ) of the safety device Safety valve ( 7 ) can be brought from its closed position into its open position by means of the valve body ( 4 ) of the shut-off valve. 2. Valve tapping fitting according to claim 1, characterized in that the Ven tilkörper ( 8 ) of the safety valve ( 7 ) with a in the flow direction over the valve seat ( 6 ) projecting approach ( 17 ) is provided. 3. Valve tapping fitting according to claim 1, characterized in that the valve body ( 8 ) of the safety valve ( 7 ) seals against the force of a spring ( 9 ). 4. Valve tapping fitting according to claim 3, characterized in that the Fe ( 9 ) is biased. 5. Valve tapping fitting according to one of the preceding claims, characterized in that the shut-off valve ( 7 ) is used substantially perpendicular to the longitudinal axis (L) of the saddle ( 1 ). 6. Valve tapping fitting according to one of the preceding claims, characterized in that the valve body ( 8 ) of the safety valve ( 7 ) is cross-shaped in cross section.