DE1111468B - Valve saddle for supply lines laid in the ground, especially under streets - Google Patents

Description

Valve saddle for laying in the ground, especially under streets Supply lines The shut-off devices of the previously known valve saddles for supply lines laid in the ground, especially under roads actuated by turning a valve spindle. To use these shut-off devices can, a rod guided in a protective tube is brought to the surface of the earth. The protective tube usually ends in a so-called built into the road surface Street cap.

The necessary to seal the spindle in such shut-off devices Stuffing boxes can and must leak after a certain period of operation then repackaged. For this purpose it may be necessary to use the road dig up to get to the stuffing box. Apart from the amount of work, which is necessary for this are also the barriers that are often associated with it of road traffic disadvantageous. There is also the risk that the roadway The road does not become perfectly level again after the excavation site has been filled in.

Another disadvantage of the valve linkage leading to the road surface consists in the fact that any changes required for traffic-related reasons the height of a road, the position of the road caps is adapted to the changes and possibly even the valve rods and the protective tubes have to be shortened or lengthened have to. When deep rolling the pavement of new roads with built-in road caps it can eventually happen that the protective tubes and the rods are crushed by the roller because they don't give way like the road surface.

To avoid these disadvantages, it is proposed according to the invention that in the case of valve tapping saddles for supply lines laid in the ground, especially under streets Provide a pressure-actuated piston or diaphragm valve as a shut-off valve, which via a control line by applying or releasing an overpressure, z. B. be operated from the basement of a house supplied by the branch line can. This eliminates the need for the previous valve saddles to Road surface guided valve linkage as well as the protective tube and the road cap with their disadvantages outlined above. With the elimination of the valve spindle, this is no longer necessary the stuffing box and its maintenance.

Pressure medium-actuated piston or diaphragm valves are in many Embodiments known, but not yet in valve saddles for underground installed supply lines have been used. Another advantage of the invention Valve tapping clamp consists in the fact that they also act as a backflow preventer can serve, the backflow of water in the event of a pressure drop in the main line not only, as prescribed by DIN 1988, from those laid within a house Distribution lines, but also from those laid in the ground and possibly due to corrosion prevented destroyed part of the connection line in the supply line. To this Purposes according to the invention in the control line of the piston or diaphragm valve the tapping saddle with the aid of a valve located at the end of the control line maintain an overpressure that is below normal pressure in the supply line, but is above atmospheric pressure. This ensures that the piston or diaphragm valve automatically when the pressure in the supply line drops closes.

In the embodiment of the invention shown in the drawing is the valve body 1 of a valve saddle with the interposition of a seal placed on the supply line 7. On the side of the valve body 1 is a Branch line 9 connected via the interior of the valve body 1 with the Tapping point of the supply line 7 is in communication. That to shut off the Branch line 9 serving diaphragm valve has an elastic, with a valve plate 4 a provided membrane 4, which with the help of a pierced, in the valve body 1 screwed pressure piece 2 between a collar 6 inside the valve body 1 and a metal ring 3 is clamped. Will be in the room at the back of the Membrane 4 over, a control line 5 a pressure medium introduced, so the membrane and its valve plate 4a bulges and lies against one of the Inflow channel of the valve body surrounding valve seat B.

The control line 5 is connected to the pressure piece by a screw connection 10 2 and leads over or next to the branch line 9 in the basement of the the branch of the supplied house. There the end of the control line 5 is over a screw connection 15 tightly connected to the housing of a valve 12, through which Valve screw 13 sealingly completed the control line or with a side Threaded connector 19 of the valve housing can be connected. The thread of the valve screw 13 is sealed by an elastic sealing body 14 like a stuffing box. The threaded connector 19 carries an end cap 16 with ventilation holes 18 is provided and secured by a seal 17 against unauthorized opening.

When the valve screw 13 is turned back and the branch line 5 over the bores 18 of the end cap 16 is connected to the atmosphere, the Diaphragm 4 of the diaphragm valve from the excess pressure in the supply line 7 against the The end face of the pressure piece 2 is pressed. The valve plate is in this position of the membrane 4 a lifted from the valve seat 8 and the flow from the supply line 7 to Branch line 9 released.

If the branch line 9 is to be shut off, the closure cap is 16 unscrewed after removal of the seal 17 from the threaded connector 19 of the valve 12 and a pressure medium source, z. B. an air pump or a Pressurized gas cylinder, connected. As soon as the pressure behind the membrane 4 increases the pressure exceeds 7 in the supply line, the membrane is curved, its sealing plate 4n rests against the valve seat 8 and closes the inflow channel in the valve body 1. The connection between supply line 7 and branch line 9 is now blocked. If the valve screw 13 of the valve 12 is now screwed tightly onto its seat, so the pressure in the control line 5 is maintained even when the connection is released from the threaded connector 19 to the pressure medium source. Should the diaphragm valve are opened again, the valve screw 13 is turned back and thereby the control line 5 is connected to the atmosphere.

If a pressure is maintained in the control line 5 between the normal pressure in the supply line 7 and the atmospheric pressure, so sets the valve plate 4 a against the valve seat 8 as soon as the overpressure in the supply line 7 falls below the specified pressure in control line 5. The diaphragm valve in this case acts as a backflow preventer.

Claims (3)

PATENT CLAIMS: 1. Pipe tapping clamp for supply lines laid in the ground, especially under streets, with a shut-off valve for the branch line arranged in the clamp body, characterized in that a known pressure-medium-actuated piston or diaphragm valve (3, 4) is provided as the shut-off valve, which via a control line (5) by applying or releasing an overpressure, e.g. B. from the basement of a house supplied by the branch line (9) can be operated. 2. Rohranbohrschelle according to claim 1, characterized in that on End of the control line (5) to maintain the overpressure in this line a valve (12) is arranged. 3. Rohranbohrschelle according to claim 1 or 2, characterized in that in the control line (5) with the help of the valve (12) an overpressure is maintained which is below the normal pressure in the supply line (7), but above atmospheric pressure, so that the piston or diaphragm valve (3, 4) closes automatically when the pressure in the supply line (7) drops. Considered publications: German Patent Nos. 349 305, 450 345, 805 474, 857 722; French patents Nos. 360 059, 165 185, 974 246, 1110 137; British Patent Nos. 320 778, 709 839; U.S. Patent No. 2,638,127.