DE4404473C2 - Process for the rehabilitation of pipelines - Google Patents

Description

The invention relates to a method for the rehabilitation of pipelines, the At least two ends of the open pipeline are freed of inner linings and with one viscous curing coating material is coated on the inside.

Basically, it should be noted at this point that it is the to be renovated Pipelines are already installed pipelines that are gas, steam or rivers can lead. For example, there may be feed and / or drain lines for Trade water or gas in residential, industrial and municipal facilities, whereby also fall under household and industrial sewage pipes. All of this lei tends to incrustation, mainly due to limescale from what water, on rust formation on the inner wall of the line, on excretions from the Fluid, on reaction products between the fluid and carried substances as well as the line material, etc. as well as combi from it effects. The aforementioned phenomena lead to Leakages or very significant reductions in the pipe cross sections where disturbed, if not impossible, by the transport of the flow medium is made.

The method claimed here for the rehabilitation of pipelines helps a com Avoid complete pipeline renewal, which is particularly true in terms of completely installed sanitary facilities proves to be particularly advantageous. Here the pipes are more or less free after removing the fittings accessible so that the claimed cleaning and coating process can be turned. In any case, it is essential that a pipeline at least At least two open ends are accessible, so that the individual process steps are feasible. The claimed method includes an at least partial one Conventional repair of the pipelines is not sufficient, so that complete pipelines networks also partially renewed and partially after the claimed Procedures can be remediated.

Methods of the type in question have been known in practice for some time. For example, reference is made here to European patent 0 299 134 sen. A generic method is known from this European patent knows, whereby the removal of the inner linings in the pipeline exclusively by  Abrasive is done. The abrasive is fed into the pipe by compressed air blown. In other words, compressed air as sol according to the known method che or compressed air as a carrier medium through the pipeline. Of the In practice, however, the use of compressed air is problematic insofar as compressed air in the area of bends or bends an already attacked pipeline easily destroyed. If the pipeline already has leaks, use of Compressed air to a compressed air outlet at the damaged areas and thus also to an outlet of the medium entrained in the compressed air. Furthermore, the Use of compressed air to clog the internal surfaces, in particular Pipeline and thus a very considerable effort to eliminate the Ver darnings. Flat parts torn away by compressed air tend to tilt in Arc areas to accumulations that eventually lead to a complete clogging of the Run the pipeline. Pulsating compressed air or compressed air Additions from the other side of the pipeline are then mandatory required what the expenditure of equipment and time and thus the costs entirely significantly increased.

A method is known from US Pat. No. 4,692,982 with which inner linings of Pipelines can be removed using ultrasound. The ultrasound exam action is preceded by a low-temperature treatment. To do this, the behan The first pipeline is a cryogenic liquid - liquid carbon dioxide or liquid nitrogen - introduced, with an overpressure in the line to reuse the cryogenic liquid after flowing through the line to be able to. With the help of the cryogenic liquid, the line is so abge cools that both the cohesive bonds within the inner covering as well as the weakened adhesive bonds between the inner lining and the pipe wall will. Only then does the ultrasound treatment only supplement the low temperature treatment.

From US-PS 3 409 031 and from US-PS 3 421 939 it is known the inside Wall of a pipe with the help of ultrasound to remove internal coatings, whereby the pipe is filled with a liquid medium. It is an ultra sound-conducting liquid, which either to dissolve the inner covering or to Flushing away the inner surface.

The present invention is based on the object of a method for sanitation Specification of pipelines with which on the one hand an increase of Leakage in the pipeline during renovation is avoided and others clogging of the pipeline is also avoided during the renovation.

The method according to the invention solves the above object by the note Male of claim 1. Then the interior coverings by means of ultrasound detached from the inner wall of the pipeline and crushed by the ultrasound via a liquid as an ultrasound-conducting medium into the pipeline leads or spreads in the pipeline. It also becomes a medium Abrasive added.

According to the invention it was first recognized that the ver in the prior art compressed air on the one hand damaged the pipeline to be renovated lead or blockages in the pipeline and on the other hand without very special measures entail considerable environmental pollution because namely the compressed air blown into the pipeline at the outlet side towards the end together with pollutants - under very high pressures - into the reverse exercise. Special collecting and filtering devices are accordingly regardless of or apart from the inlet-side compressed air generation required where due to the additional equipment and thus also costly is.

In the manner according to the invention, namely those on the inner wall of the tubing tion formed inside coverings by means of ultrasound from the inner wall of the Rohrlei tion loosened and crushed if necessary. Hence, it is for removing the inner linings a prio-ri not required to use any abrasive media. The one on the Ultrasound that hits the inner coverings detaches them from the inner wall of the pipeline and on top of that causes a shredding of these inner coverings so that they are effortless can be conveyed out of the pipeline.

With regard to a specific implementation of the ultrasound exposure, the Pipeline an ultrasound probe can be inserted. For effective ultrasound  treatment of the entire pipeline could essentially be the ultrasound probe over the entire length through the pipeline or be be moved. This movement could take place, for example, by means of a flexible shaft. However, it would also be conceivable to regulate the ultrasound probe into the pipeline suck right in, namely up to the outlet end of the pipeline. The ul trasound probe itself could have a miniaturized ultrasound exciter that approximately orthogonal to the direction of movement, i.e. H. transverse to the longitudinal extension of the pipe line, ultrasound emitted. This would ensure that the ultrasonic vibration gen directly hit the interior coverings, whereby a damping of the ultrasound vibrations are largely prevented due to the short distances.

Would also be or in addition to the above-mentioned method steps however, it is also conceivable that the ultrasound via an ultrasound-conducting medium the pipeline is led in or in via the ultrasound conductive medium of the pipeline. A liquid that the Ultra only slightly dampens sound vibrations. Not least for cost reasons especially water for use here. The medium could become statio när in the pipeline, the treatment is only on the ul traschall application relates. However, it would also be conceivable that the medium flows through the pipeline. So the medium could be in the pipeline are sucked in, always negative pressure in the pipeline prevails. However, it would also be conceivable that the medium by means of overpressure is pressed into the pipeline, then in the pipeline accordingly There is overpressure. After all, it would be a particularly nifty one Design of the process step in question here is possible that the Me dium is pressed into the pipeline by means of excess pressure, but that the Pipeline is sucked out from the downstream end, in such a way that in the pipeline itself is always under pressure. This configuration of the in speech standing process step are particularly suitable when in the pipeline Leaks are to be feared. The fluid would then escape at least largely prevented. Otherwise there could be a leak due to pressure changes be determined.  

As part of a particularly effective removal of the interior coverings "Cleaning" the inner wall of the pipeline is a further advantage if an abrasive is added to the - flowing - medium. With this The abrasive could be particles that are preferably sharp surface. Here are particles with a grain size in the range between 0.3 mm and 6 mm. These particles preferably have a specific weight of greater than 3.0 g / cm³, but with corundum and any quartz sand can be used. Regarding an effective It would be complete if these particles were caught at the outlet end of the pipeline Particularly advantageous if metal particles, in particular ferromagnetic particles Particles. Furthermore, the end of the pipe is at the downstream end a filter device is provided, which the particles - regardless of their procurement fenenness - intercept. In the case of magnetic particles as particles, these could be difficult separated from the detached and shredded inner coverings.

Furthermore, the pipeline could, in particular, after the ultrasound treatment if water is used as the ultrasound-conducting medium, with air or Warm air can be dried. With regard to a particularly environmentally friendly Carrying out the method according to the invention is advantageous if the for Air that is used to dry and possibly preheated the pipeline is not simply removed sucks, but rather out of the pipeline via a filter device or is sucked through the pipeline. The compressor used for this could the filter device be connected directly upstream, so that no separate Equipment is required.

The application of the coating agent and, on the one hand, good wetting connect with the inner wall of the pipeline and on the other hand a quick one hardening - depending on what will be used later Coating agent - particularly favored by the fact that the pipeline after removing the inner coverings to a temperature above room temperature temperature is heated. A temperature of around 40 ° C was very special proven. The pipeline could in turn be heated by sowing through it heated air that is sucked through the pipeline until the desired temperature is reached at the outlet end. This  could in turn be about the temperature drop between the inlet end and detect the outlet end of the pipeline. In any case, it is essential that the heating of the pipeline by sucking in heated air and not about by pushing compressed air. After all, that could open up preheated air serving the pipeline is also heated via a filter device tion are suctioned off, this filter device also for suction ning compressor can be connected directly upstream.

Furthermore, the pipeline could be heated up in a further advantageous manner finally or additionally, after cleaning and before cleaning layers sucked into the pipeline. To that extent that would be Intake of heated air is not absolutely necessary if the capacity of the heating device sucked into the pipeline is sufficient. In any case, it could Heating device, especially in the case of extremely long pipelines, cooling of the ends Avoid sucked-in air so that the warm-up process accelerates considerably is inclined. The heating device used for this could be in a further advantageous manner be designed as a heating wire, in particular as a self-regulating heating wire. A sol cher heating wire could, for example, in the sense of resistance heating with ceramic Insulation of the heating conductor. Basically, however, all are in here a pipeline insertable or suction devices applicable.

With regard to effective heating of the pipeline, it is a further matter Advantage if the heating wire extends essentially over the entire length of the tube line extends through this. Even heating of the pipeline is thus guaranteed.

With regard to the introduction of the heating wire, it is advantageous if it is by means of a towing system is sucked into the pipeline. As a towing system serve a kind of parachute or the like, which arises from the due to the negative pressure air flow through the pipeline and the heating wire pulls with it.

After sufficient heating of the pipeline, the heating wire becomes more advantageous Way - before the inner coating - pulled out of the pipeline.  

The heating wire could both from the inlet end and from exhaust side, d. H. vacuum-side end are pulled out, in in the latter case, the power connections would have to be disconnected on the inlet side.

Depending on the coating material, either the untempered or the heated pipeline entered the coating material, also here a negative pressure is generated on the outlet side. Because of this negative pressure it will Coating material together with the ambient air into the pipeline sucks, due to the different viscosity between air and Be layering material the viscous coating material on the pipe wall is pressed and wetted there. If resin or art is used Resin or plastic as the coating material results in a seamless coating tion of the inner wall of the pipeline, which for pulling in the coating tion material required pressure difference only through the outlet side Vacuum is generated.

In the event of significant leaks, the coating material can contain embedded fibers, in particular short fibers, wherein it is particularly advantageous here can be glass fiber. These glass fibers would be due of the irregularly designed outlet openings there or jamming and the viscous coating material a sufficient hold to clog the Arrange leakage. In this respect, at least small holes could be closed and Fix leaks.

Furthermore, it would be particularly to avoid further environmental pollution or necessary disposal is a very special advantage if it is outdoors Amount of coating material applied to the end of the pipeline in this way will measure that the inner wall of the pipeline is coated overall will, however, that no significant amounts of coating material from the suction side emerge from the pipeline. In other words, because of and the length of the coating to be coated Pipeline at least approximately the required amount of coating material specify without quantities of coating material escaping on the suction side and must be disposed of accordingly.  

Furthermore, the method according to the invention could be used at the end Vacuuming the free end of the pipeline is at least temporarily closed, and any leaks are detected via the gradually occurring negative pressure are animal. If hardly any negative pressure is reached, the lei to be renovated shows leakage system.

If you want the already cleaned pipeline before the actual coating examine their condition or do you want the after coating Checking the quality of the coating measure could be an optical means of doing this for inspection of the pipeline or for quality control of the inner coating in the pipeline can also be sucked in. A towing system could also be used here are used as aids. The optical means could be one The most technical case is a fiber optic line that on the one hand shines light into the tubing spend and on the other hand there reflected light rays from the pipeline can lead out. Glass fiber bundle or different fiber optic cables with different tasks could be provided. With very special The optical means could be a kind of endoscopic device include, d. H. a miniature camera with ent talking lighting and even with miniaturized, remote-controlled Hand tools for sampling or the like .

Claims (13)

1. A method for the rehabilitation of pipelines, wherein the open pipeline of at least two enes is freed from inner linings and internally coated with a viscous, hardening coating material, characterized in that the inner linings are detached from the inner wall of the pipeline by ultrasound and crushed by the ultrasound is introduced via a liquid as an ultrasound-conducting medium into the pipeline or spreads in the pipeline and that the medium is added with an abrasive. 2. The method according to claim 1, characterized in that conduct as ultrasound of the medium water is used. 3. The method according to claim 1 or 2, characterized in that in the Rohrlei an ultrasound probe is introduced. 4. The method according to claim 3, characterized in that the ultrasonic probe moved essentially along the entire length through the pipeline becomes. 5. The method according to claim 3 or 4, characterized in that the ultrasound probe approximately orthogonal to the direction of movement, d. H. transverse to the longitudinal extent of the pipeline, ultrasound emitted. 6. The method according to any one of claims 1 to 5, characterized in that the Medium is sucked into the pipe by means of negative pressure, whereby in the pipe line is always under pressure. 7. The method according to any one of claims 1 to 5, characterized in that the Medium is pressed into the pipeline by means of overpressure, whereby in the pipe line is always under pressure.   8. The method according to any one of claims 1 to 5, characterized in that the Medium pressed into the pipeline by means of overpressure and that the pipeline is suctioned off from the downstream end. 9. The method according to any one of claims 1 to 8, characterized in that it the abrasive is about particles with a grain size in the range between 0.3 mm and 6 mm. 10. The method according to claim 9, characterized in that the particles a spe specific weight greater than 3.0 g / cm³. 11. The method according to claim 9 or 10, characterized in that as particles Corundum or quartz sand is used. 12. The method according to claim 9 or 10, characterized in that as particles Metal particles are used. 13. The method according to any one of claims 1 to 12, characterized in that on a filter device is provided on the downstream end of the pipeline.