DE4032696A1 - Process for lining insides of pipelines - uses resin-impregnated hose with weak spot near end of branch pipe - Google Patents

Abstract

The process for lining the insides of pipes consists in introducing a resin-impregnated hose, provided on the outside with a protective foil, in the collapsed state into the pipe line whereupon the hose is then inflated and the resin sets. When lining the inside of a branch pipe leading off from an alrady lined mains pipe the hose foil is provided with a circumferential weakened area, such as perforation, adjoining the end piece of the hose inserted in the branch pipe. The hose is then drawn into the branch pipe so that the weakened area lies flush with the inner lining of the main pipe. The hose is then charged with compressed air so that the resin emerges through the perforation of the hose and sealingly connects with the inner lining of the main pipe. USE - To provide inner lining for branch pipes from already lined main pipes.

Description

The invention relates to a method for lining the inside of pipelines, especially sewer pipes, one of which is impregnated with resin, the outside is protected foil provided hose in collapsed condition in the Tube is inserted, the tube by inserting Inflated compressed air in place, the resin through Applying energy is cured and that End piece of the hose closing the hose then Will get removed.

Such a method is described, for example, in EP 03 01 204 A1 suggested using a light-reactive resin is used, the setting with the help of a very  strong UV source that is pulled through the tube, is regulated.

Another known method is the introduction of Water that inflates either beforehand or in situ and malleable making thermoelastic hoses is heated.

With all of these methods, however, the problem arises that when a second pipe goes into the first pipe tion opens a connection between this second In inner lining and the first inner lining It is produced because the adhesive resin is coated on the outside with an egg ner film is surrounded, and you can not ge ge ge long can be glued to to glue there manually. Usually there are no man holes provided at the points where the house branch line open into the main lines.

The object of the invention is therefore a method create where the inner lining branches off the pipeline, in particular a secondary calibration line, to an existing inner lining ei ner main sewer line can be used.

According to the invention, this object is achieved in that for lining one, one of them already with one Inner lining provided main sewer pipe branching sewer line the tubular film the end of the in the secondary sewer line brought hose adjacent to a circumferential Weakening is provided, the hose so far into that Side sewer pipe is pulled in that the Schwä with the inner lining of the main sewer system  The pipe is aligned and the hose is pressurized with compressed air is struck so that resin through the perforation of the Hose emerges and with the inner lining of the main sewer pipe sealingly connects.

Other features and advantages of the invention are subordinate patent claims.

The invention is explained in more detail below.

At the beginning of the lining, the hose that is used for Lining to be used with the temperature freak resin soaked.

Subsequently, he is preferably before entering the Pipeline is inserted once again for leaks checked by inflating it with air so that you can get it later with the help of the introduced air against the inside wall of the pipeline to be lined.

So that the hose is now in the secondary sewerage line can move into the secondary sewerage line first a fiberglass rod from the house side to pushed through to the main sewer line. On then a rope is attached to the fiberglass rod, that you pull back into the house with the fiberglass rod.

The end piece, the main channel, is now attached to this rope lization-pointing closure of the hose, which in the Auxiliary sewer pipe should be introduced brings.

With the help of the rope you pull the hose into the Secondary sewer line.  

At its other, the house end, is now a attached further end piece, so that you have two end pieces owns the hose that serve the hose seal and one of those air supply hoses and means for regulating the air intake and the like means for regulating the outlet cross section hold.

In addition, the sensors are in these end pieces, which later used to regulate the pressure, humidity and Serve temperature conditions in the hose, attached.

After the hose has been prepared so far, you begin by expanding it by breathing air into it brings.

The moment the pressure in the hose is sufficient is increased, perforation occurs in the resin Outer film from or tears a weakening, so that Resin can leak out and deal with the place of out the existing inner lining of the main canalisa tion can connect.

Normal outside air is used for inflation, since one want to have no part of the hose set, so long before the final shape is reached.

When the hose has finished expanding and you it with some internal pressure, usually 2 bar, against the inner wall of the secondary sewer line has pressed, you can start to warm up the air bring who step through the hose as quickly as possible should, since the parts of the  Hose in the same way as the front parts.

The use of water vapor as a transport medium for the Thermal energy facilitates the measure described above men, because steam has much more energy over larger ones Can transport routes.

However, it is desirable to control the water content of the steam also control. Therefore, in the process another withdrawal of part of the steam generated in the be sensitive water provided.

This withdrawal is implemented by means of a condenser tors, which also allows the water extracted in this way reuse.

After the desired temperature is reached over a longer period, depending on the resin used, typically 2 hours, this temperature while maintaining the Maintain pressure until the resin hardens.

At the end a tempering to prevent subsequent shrinkage, as well as a final curing carried out by post-sintering. Finally, the End pieces from the newly lined pipe section be removed. On the house side, this is not a problem the side lying in the main sewer pipe mill the end piece and return it to the Bring surface.

The fact that the subsequent shrinkage after the Ab bind does not occur and even a pressure against the The old pipe can be used in conjunction with the strength  the old pipe can be increased and undesirable annular gap is omitted.

The strength of the new lining created can by changing the fabric structure and the thickness very much just be changed.

The cured lining can be used without any problems required stability requirements of the old pipe take over. This happens with the when using glass fiber reinforced plastics usual elasticity.

Likewise, due to the wide range of resins, stripping that are created for the different are most suitable for leading media, e.g. B. for media in a pH range from 1 to 12 or for media with very high temperatures (up to 110 ° C) in continuous use.

Resins can also be created that work directly with egg sound tube, although it is always it is preferable that an inner lining of the Main sewer system is available.

The low cross compared to other methods cut reduction is additionally achieved pens that you get a much smoother tube, that with a roughness Kb <0.02 mm (calculated Be driving roughness kW = 0.25 mm) the loss of cross cut out more in the hydrodynamic calculations equal.

The inner lining can also be created with resins that allow the pipe to harden after curing  as drinking water pipes according to the Food Act use.

Problems that arise with similar methods caused by that because of the cooling that occurs very hot air can be used in the air in the hose must, but on the other hand unchanged on the pressure must maintain, since an increase in pressure at egg nigen pipelines z. B. in such cement Can cause bursting, and thereby a significant, very pressure rose more quickly than when you put hot air in the Hose because it matches the existing right relatively cold air mixed with warm air that he considerably larger volume than the two components sitting, you can avoid, because on the one hand you have the generated Can mix hot air with outside air and so the tempe lowering the temperature and on the other hand with the help of Pressure sensors in both end pieces the air pressure in the Hose always the prevailing temperature ver conditions, which are also due to sensors in the hose can be adjusted by adjusting the cross section correspond to the air inlet or outlet opening controls.

To avoid backward penetration from the Hose of steam introduced into the steam generator or Incidentally, there are further returns in the mixing device impact valves provided.

Claims (8)

1. A method for the inner lining of pipelines, in particular sewer lines, in which a tube impregnated with resin and provided with a protective film on the outside is brought into the tube in a collapsed state, the tube is inflated by introducing compressed air into place, the resin is cured by the application of energy and the end piece of the hose which closes the hose is then removed, characterized in that, for the inner lining of a secondary sewer line branching off from a main sewer line already provided with an inner lining, the tubular film circulates adjacent to the end piece of the hose introduced into the secondary sewer line the weakening is provided, the hose is drawn so far into the secondary sewer pipe that the weakening is aligned with the inner lining of the main sewer pipe, and the hose is opened with compressed air so that resin dur ch the perforation of the hose emerges and connects to the inner lining of the main sewer pipe. 2. The method according to claim 1, characterized in that that the circumferential weakening in the tubular film Perforation is. 3. The method according to any one of the preceding claims, characterized in that the weakening is elliptical revolves around the outer circumference of the tubular film. 4. The method according to any one of the preceding claims, characterized in that the hose in the sub Sewer line from that of the main pipeline opposite end is introduced. 5. The method according to any one of the preceding claims, characterized in that the hose in the sub sewer line is introduced in which a fi Mounted glass rod into the secondary sewer line with an ax from the main channel line into the secondary sewer line is pulled, pulling the hose with the rope will. 6. The method according to any one of the preceding claims, characterized in that while the hose is in the secondary sewer line is introduced with ei ner camera from the main sewer line beo is observed when and how the end piece the desired Position reached.   7. The method according to any one of the preceding claims, characterized in that thermosetting resin is used. 8. The method according to any one of the preceding claims, characterized in that an end piece on which a Hook is attached to the end of the hose ver is turned, which points to the main sewer direction.