DE3801472A1 - Process for repairing a buried pipeline - Google Patents

Abstract

With the destruction of the old pipeline (11), the intention is to achieve that the replacement pipeline, formed from pipe pieces (17), can be set up without any problems, even if the old pipeline (11) lies within the groundwater and/or if the penetration of fine particles (grit and sand) is to be expected and no point loads are to arise in the annular space between the new and the old pipes. A sealing hose (13) is drawn into the old pipeline (11) before the latter is destroyed, which sealing hose is calibrated (sized) by the rupturing apparatus (14) and encloses the replacement pipe formed from the pipe pieces (17). The process according to the invention is suitable particularly for repairing sewer ducts without any great amount of earthwork. <IMAGE>

Description

The present invention relates to a method for renovating a pipeline laid in the ground, preferably a sewer, in which the old pipeline is destroyed by means of a bursting device, and in which the replacement pipeline consists of pieces of pipe strung together is formed, one after the other according to the locomotion of the Be bursting device.

In the relevant industry, the procedure in question is called Burst lining method. The particular advantage is that by destroying the old pipe, the replacement pipe the same Chen diameter. In addition, a pipe offset is eliminated, so that the drainage values of the channel are improved. Another before Part of it is that for the underground construction of the Pipe no significant earthworks are necessary.

However, this known method can only be used if the The pipeline to be rehabilitated lies above the water table. Also hinder falling, by destroying the old pipe  tion formed shards creating the replacement pipeline. Provided the pipeline is laid in sandy soil, the Er position of the replacement pipeline additionally by penetrating Sands and gravel difficult.

An annular space is created between the old pipe and the renovation pipe of post-bagging allows point loads on the rehabilitation pipe and to Zer can cause interference.

The object of the present invention is a method of the type mentioned at the outset so that the type of Soil-related difficulties creating the replacement pipeline not affect, and which is still applicable if the pipeline to be rehabilitated is in the groundwater or there is a risk of Running sand exists.

The process of pulling the renovation pipes into the old pipe creates Be Damage to the outer wall of the redeveloped pipes.

The task is solved in that in the old pipe a flat sealing hose is pulled in before destruction, which is calibrated by means of the bursting device and which from the pipe piece ken formed replacement pipe encased.

Thanks to the seal that simultaneously fills the annular space to the old pipe hose is now ensured in an amazingly simple way, that after the destruction of the old pipeline, neither the shear formed ben hinder the creation of the replacement pipeline, because the sealing hose in the sense of a separating layer between the earth receiving the shards rich and the replacement pipeline or the bursting device can be seen. The Sealing hose is made of a material that is resistant to rotting manufactures. This ensures that even after a relative long service life the replacement pipeline still against damage is protected outside. Since the sealing hose is also flexible, the  Leak tightness of the replacement pipeline is not impaired if there is too there is an unavoidable pipe misalignment. The sealing hose will for example by means of a winch and a rope from a con troll shaft to the next inspection shaft in the Rohrlei tion moved in. A fiber tube without a dense outer skin helps Working in the groundwater like a filter. He lets water through, the one penetration of gravel and sand into the bursting robot is prevented. External damage to the renovation pipe to be pulled in is avoided the.

The sealing hose can be a liquid-tight felt hose. The The thickness of the hose wall is relatively large. Furthermore, one is The sealing hose is also suitable to prevent the old pipeline from bursting to transmit the necessary pressure without any risk that the sealing hose is damaged. Such hoses are used for example made of a non-woven fabric.

In a further embodiment of the invention it is provided that the felt hose before or after pulling it into the old pipeline with a curing plastic resin can be soaked. After creating the replacement pipeline and the curing of the plastic resin is made Another pipe was formed in the felt hose, which is the replacement protects pipeline even better. A pipe rehabilitated in this way Cable can be viewed as double-walled.

Based on the accompanying drawing, the invention will he still purifies.

It shows:

Fig. 1 is a partial view of a between two control shafts, the pipeline with a retracted sealing hose and partially created replacement pipeline.

In the underground 10 laid, made of concrete pipes device 11 , which extends from a control shaft 12 to a next control shaft, not shown, a sealing hose 13 is drawn in, which has a smaller wall thickness in the illustrated embodiment than the old pipe 11th Based on the usual wall thickness of hoses, the sealing hose 13 is relatively thick-walled, since it is a filter hose. The sealing tube 13 can be pulled in, for example, through the inspection shaft 12 by means of a traction means attached to the front end and a winch. The sealing hose 13 can be impregnated with a curable resin in a manner not described before or after it is drawn into the old pipeline 10 . After the retraction of the sealing Sly ches 13 is introduced through the manhole 12 a explained in greater detail not Berstgerät 14 into the sealing hose. 13 The bursting device 14 is moved from the inspection shaft 12 in the direction of arrow A to the next inspection shaft. For this purpose, a chain 15 is attached to the leading end, which is also within the sealing tube 13 . The bursting device is pulled from the inspection shaft to the inspection shaft by means of a winch. Through the appropriate design, the old pipeline is destroyed, whereby 10 pieces of broken glass 16 are formed in the ground.

As soon as the bursting device 14 has been advanced so far that it lies completely in the old pipeline 11 , a first pipe section 17 is attached to the trailing end face by means of a chain 18 . As soon as the trailing end of this pipe section has been pulled out of the control shaft 12 , another is attached. This process is repeated until the old pipe 11 is replaced over its entire length by the replacement pipe formed from the pipe sections 17 . The sealing hose 13 is continuously calibrated by the movement of the bursting device 14 .

In the present exemplary embodiment, the inside diameter of the sealing hose corresponds to the outside diameter of the old pipeline 11 . The outside and inside diameters of the old pipe 11 and the pipe sections 17 also match, so that the flow cross section of the replacement pipe formed from the pipe sections 17 is identical to the original flow section in a particularly advantageous manner.

From the drawing it can be seen that even the replacement pipe line is tight if there should be an offset of the pipe sections 17 in the course of time, or if leaks are caused by unavoidable wear.

If the sealing tube 13 is a felt tube that was soaked with a plastic resin before or after being drawn into the old pipeline 11 , a rigid protective tube is formed from the felt tube after the plastic resin has hardened. This version is relatively expensive, but the best quality version.

Reference symbol list

10 soil
11 old pipeline
12 inspection shaft
13 sealing hose
14 bursting device
15 chain
16 shards
17 pipe section
18 chain

Claims (6)

1.Procedure for the rehabilitation of a pipeline laid in the ground, preferably a sewer, in which the old pipeline is destroyed by means of a bursting device and in which the replacement pipeline is formed from pieces of pipe strung together, which are introduced one after the other according to the locomotion of the bursting device, characterized in that in the old pipe ( 11 ) before destruction, a flat sealing hose ( 13 ) is pulled in, which is calibrated by means of the bursting device ( 14 ) and envelops the replacement pipe formed from the pipe sections ( 17 ). 2. The method according to claim 1, characterized in that the sealing hose ( 13 ) has a tight outer coating, for example a film. 3. The method according to claim 1, characterized in that the sealing tube ( 13 ) is a felt tube made of a nonwoven fabric. 4. The method according to one or more of the preceding claims, since characterized in that the felt tube with a curable art Resin, such as epoxy or polyurethane, is soaked. 5. The method according to one or more of the preceding claims, characterized in that the wall thickness of the sealing tube ( 13 ) is greater than, equal to or less than the wall thickness of the old pipe ( 11 ). 6. The method according to one or more of the preceding claims, characterized in that the inner diameter of the sealing tube ( 13 ) is greater than or equal to the outer diameter of the old pipe ( 11 ).