DE9411878U1 - Device and arrangement for drying the pipes of the gas piping system of a house - Google Patents

Description

Description

The invention relates to a device for connection to a gas line system installed in a house for drying the pipes of the gas line system and for draining liquid residues from the gas line system after carrying out a method for sealing leaky threaded connections of the pipes of the gas line system, as well as an arrangement consisting of the device and a gas line system.

As part of an internal sealing of gas pipeline systems, the pipes in a house that are to be sealed are filled with a liquid sealing agent under pressure. After draining the agent, the pipes must be freed of as much of the agent residue as possible and then dried. Even if no significant amount of sealing agent can be detected, there may still be residues of the sealing agent in pipe diversions. These only gradually flow to the lowest points of the gas pipeline system, which can subsequently clog valves in the pipeline system or the pipelines themselves.

The conventional drying processes are based on blowing in warm air. After the gas consumers have been removed, the air is supplied to the lowest points of the gas pipe system, where the sealing agent is usually filled in using inert gas and then drained again. The blown-in air flows upwards and is distributed throughout the pipe system, where it exits into the rooms of the house via the open shut-off valves.

While the air flows upwards under pressure, the remains of the sealing agent try to flow from top to bottom to the low points of the gas pipe system. This "working against each other" of the sealing agent residues and the air flow can lead to the sealing agent residues only being able to escape after

After drying has finished, the water will drain gradually and, in the worst case, the pipe cross-section will be completely closed.

Another disadvantage of the conventional drying process is that the fumes generated during the drying process of the sealant are blown into the rooms of the house.

Furthermore, processes are known in which air is sucked from the rooms of the house into the pipe system through the open shut-off valves. The air is sucked in and discharged by means of a high negative pressure acting on the low points of the gas pipe system. For safety reasons, however, it is necessary to install safety devices at the open pipe ends due to the high negative pressure. To carry out this process, pumps with high suction pressures are used, which have a very high output and therefore require a lot of electricity.

The invention is therefore based on the object of creating a device and an arrangement that allow the pipes of the gas line system to be completely dried and liquid residues to be completely drained from the gas line system in a simple manner. The risk of the gas lines subsequently becoming clogged by sealant residues should be eliminated. In addition, the device should be able to be operated without electricity if possible and be manufactured inexpensively.

0 The problem underlying the invention is solved in that an intake nozzle of a jet pump can be connected in a sealing manner to a low point of the gas line system.

The task is completely solved in this way because it is possible to achieve almost 100% drying of the gas line in a simple manner by means of the known measure of sucking in air or liquid using a jet pump.

systems without the risk of the pipe subsequently becoming clogged by sealant residues. This has the advantage that the residents of the rooms in the house are not bothered by any unpleasant smells, as room air is sucked into the pipe and then discharged.

It is also advantageous that the natural tendency of any remaining sealant to drain away is supported by sucking the air from the rooms to the lowest points of the gas pipe system.

Another advantage is that the device can be operated using only air, without an additional power connection.

Further advantages are apparent from the description and the attached drawings.

An embodiment of the invention is shown in the drawing and is explained in more detail in the following description. 0 Shown are:

Fig. 1 is a schematic view of an application of the device according to the invention, also to explain an embodiment of the arrangement according to the invention in a house with a gas pipe system,-

Fig. 2 is a perspective view of the device according to the invention as shown in Fig. 1, partly in section.

The device 1 comprises a housing 8 which contains an arrangement of three pipes. The first pipe has the function of an intake nozzle 10, which is intended for connection to a gas pipe system 13, and the other pipe has the function of a connection nozzle 14, which is intended for the air supply. The third pipe is intended for the function of an outlet nozzle 17 for the discharge of air and

Liquid residues are provided. The intake nozzle 10, the connection nozzle 14 and the discharge nozzle 17 together form a jet pump 6, in that the connection nozzle 14 is connected in series with the discharge nozzle 17 in terms of fluid and the intake nozzle 10 is arranged parallel to the connection and discharge nozzle, whereby the intake nozzle 10 opens between the connection nozzle 14 and the discharge nozzle 17. The connection nozzle 14 has a nozzle 5 provided in the connection nozzle 14, which is arranged in the area of the mouth of the intake nozzle 10.

The cross-section of the drain nozzle 17 is dimensioned such that it is smaller than the cross-section of the connecting nozzle 14. On the side facing the connecting nozzle 14, the opening of the drain nozzle 17 has a funnel-shaped design. On the side opposite the side of the connecting nozzle 14, the outlet of the drain nozzle 17 is also funnel-shaped.

The jet pump 6 ensures that an air supply connected to a connection 4 of the connection piece 14 generates a fluid flow acting on the mouth of the intake piece 10 due to the nozzle 5. Due to this fluid flow, a negative pressure is generated in a gas line system 13 connected to a connection 3 of the intake piece 10, which sucks room air through the open pipes at the gas consumers through the gas line system.

The magnitude of the negative pressure is such that the boiling temperature of the fluid 0 contained inside the gas pipeline system is reduced due to the negative pressure and can thus be easily transported away in the vaporous state.

The sealing agent residues contained in the gas line system 13 are also sucked in by the negative pressure and fed into a collecting container 18 via a connection 7 provided on the drain nozzle 17.

Arrangement and application

After draining the sealing agent, the device 1 is to be installed at the lowest point of the gas line system 13. For this purpose, the connection for a gas meter 15 is particularly suitable for connection 4 of the device 1.

The shut-off valves 19 on this gas line system, including the gas consumers, must then be removed so that room air can flow into the gas line system 13.

A compressed air device 20 required for the introduction of sealing agent is connected to the connection 4 of the connection piece 14 of the jet pump 6.

A collecting container 18 is provided for collecting agent residues and is arranged on the drain outlet 17 of the device 1.

The air that flows through the connection piece 14, through the nozzle 5 to the outlet piece 17 of the device 1, creates a slight negative pressure of approximately 50 mbar at the mouth of the intake piece 10 in the jet pump 6. As a result, room air flows from the rooms of the house through the gas line system 13 into the device 1. The sealing agent residues transported with this flow are introduced into the collecting container 18 and can then be disposed of.

The device and arrangement described above are suitable for any type of drying. Due to its structural design, the device can be operated with both air and water. A power source is not necessary to carry out the drying.

Claims (11)

Expectations 1. Device for connection to a gas line system laid in a house for drying the pipes of the gas line system and for removing liquid residues from the gas line system after carrying out a method for sealing the interior of the pipes of the gas line system, characterized in that an intake nozzle (10) of a jet pump (6) can be sealingly connected to one end (12) of the gas line system (13). 2. Device according to claim 1, characterized in that the jet pump (6) comprises a nozzle (5) which is arranged in the jet pump (6) in the region of the mouth of the outlet nozzle (10). 3. Device according to one of claims 1 or 2, characterized 0 characterized in that the inner diameter of the drain nozzle (17) is smaller than the inner diameter of the connection nozzle (14). 4. Device according to one of claims 1 to 3, characterized in that the jet pump (6) can be operated with air. 5. Device according to one of claims 1 to 4, characterized in that a further connection piece (14) of the jet pump (S) is provided for connection to an air supply. 6. Device according to one of claims 1 to 5, characterized in that a drain connection (17) is provided on the jet pump (6) for liquid residues. 7. Device according to one of claims 1 to 6, characterized characterized in that in addition to the device (1) a collecting container (16) for liquid residues is provided. 8. Device according to one of claims 1 to 7, characterized in that a connection (3) for the gas line system (13) is provided on the outlet connection (10) of the jet pump (6). 9. Device according to claim 8, characterized in that the connection (3) has the size of the line pipe (12) leading to a gas meter (15). 10. Device according to claim 8, characterized in that a connection between the lower end of the gas line system (13) and the connection (3) of the device (1) can be made by means of an adapter. 11. Arrangement for connection to a gas pipe system laid in a house for drying the pipes of the gas pipe system and for draining liquid residues from the gas pipe system, in particular following the implementation of a pipe seal, consisting of the device according to one or more of claims 1 to 10, characterized in that the device (1) is sealingly connected to the gas pipe system (13), and the shut-off valves (19) which are arranged on this pipe string including the gas consumers are removed.