EP0735303A1 - Process for laying underground pipes between control chambers - Google Patents

Abstract

To lay the pipes between two control shafts first a secondary bore (7) is drilled in the ground reaching the level of the pipe (3) in one shaft. The pipe line is then drawn through this secondary bore and through the bore between the two shafts into the other shaft. The length of the pipe to be drawn through corresponds to the entire distance between the two shafts. The pipe line can be made of individual pipe sections which before entering the secondary bore are connected together above ground by mirror welding or by spigot connections. The secondary bore can be produced by a self-driven pile ram. A draw cable can be passed through the bores and operated by a winch at the other end to draw the pipe line along.

Description

The invention relates to a method for laying pipelines between inspection shafts, as they have waste water pipes at regular intervals.

In order to be able to lay pipelines between such inspection shafts, it is known to let a self-propelled ram boring machine run from one inspection shaft towards the other inspection shaft, to attach a piece of pipe to be drawn in at the rear end of the ram boring machine and to attach this piece of pipe with the advancing ram boring machine in to pull in the existing hole or a hole created by the ram boring machine. The length of the pipe section can at most correspond to the diameter of the inspection shaft, so that after a pipe section of this length has been drawn into the bore, the ram boring machine has to be stopped in order to connect a new pipe section to the retracted pipe section, after which the ram drilling machine is put into operation again to pull in the further piece of pipe. At a distance between the inspection shafts of up to 60 m and a diameter of conventional inspection shafts of 100 to 120 cm, at most up to 160 cm, this means that pulling in a pipe over the entire distance takes a considerable amount of time.

Due to the shortness of the pipe sections, a large number - for example sixty or seventy - of expensive and fault-prone sleeve or screw connections is also required. In addition, there are starting difficulties with pneumatically driven ram boring machines when the hose length led from a compressor to the ram boring machine exceeds a certain value.

The above-mentioned problems arise both when a new earth hole is drilled between the inspection shafts and a new pipeline is pulled, and when there is an old pipeline between the inspection shafts that is destroyed by a cutter head ram boring machine in order to subsequently pull in a new pipeline.

The invention is based on the problem of moving as large pipe lengths as possible when laying pipes in the ground between inspection shafts or a start and a target pit.

Based on this task, it is proposed according to the invention that, starting from the surface of the earth, a preferably inclined, reaching to the level of the pipeline in the control shaft Auxiliary borehole created and through this auxiliary borehole and then through the borehole between the two inspection shafts, a pipeline is drawn up to the target inspection well. The pipe to be pulled in can consist of relatively short pieces of pipe that are connected above ground by mirror welding or by means of socket connections to the full distance between the two control shafts before being pulled into the auxiliary bore, but preferably the length of the pipe to be pulled in corresponds to the full distance between the two Inspection shafts.

In any case, the length of the pipe sections can be greater than the diameter of the inspection manholes, so that the assembly of the pipe sections is required much less frequently than is necessary when assembling in the inspection manhole itself.

Furthermore, the assembly above ground can be carried out much more simply and conveniently and, if necessary, without stopping before being drawn into the auxiliary bore, because there is sufficient space for each type of auxiliary unit.

If the length of the pipe to be drawn in corresponds to the full distance between the two inspection shafts, it is no longer necessary to stop until the target inspection shaft is reached.

In any case, the auxiliary bore must be created in such a way that the bend in the pipeline required for the transition from the auxiliary bore into the bore between the inspection shafts is absorbed by the pipeline elastically or by a slight, permissible angle in any socket connections. The permissible deformation of the pipeline is not exceeded if the auxiliary bore is arranged accordingly.

If the pipe to be pulled in consists of short pipe sections that are connected to one another above ground before being pulled into the auxiliary hole, this can be done either by mirror welding, gluing or by means of socket connections.

Although the auxiliary bore and the bore between the control shafts can be produced in any way, at least the auxiliary bore can be created by means of a self-driven ram boring machine. However, the hole between the inspection shafts can also be created using a self-driven ram boring machine if such a hole is not yet available.

In order to make it easier to pull in the pipeline, especially if this pipeline has a length that corresponds to the distance between the inspection shafts, a traction cable can be passed through the hole between the inspection shafts and the auxiliary bore, connected to the pipeline to be pulled in and connected by means of an im Area of from the Auxiliary hole remote control shaft arranged winch.

This arrangement is particularly advantageous if the pipeline to be pulled in is to replace an old line. In this case, a cutter head ram boring machine is arranged between the traction cable and the pipeline to be pulled in, which destroys the old pipe running between the inspection shafts when the pipeline is pulled in and presses the fragments radially outwards.

To make it easier to insert the pull cable into the hole between the inspection shafts or the old pipe running between them, an elastic rod can first be pushed through the auxiliary hole and the hole between the inspection shafts and then the pull cable can be pulled into the hole using the elastic rod.

It is particularly advantageous in the method according to the invention that the ram boring machine or the cutter head ram boring machine is positioned above ground and its length is therefore not dependent on the diameter of the inspection shaft. It is therefore possible to use longer ram boring machines or cutter head ram boring machines with a correspondingly higher propulsion energy.

Fig. 1

die schematische Darstellung einer zwischen zwei Kontrollschächten verlaufenden Altleitung,

Fig. 2

die Anordnung einer Winde mit Zugseil im Bereich eines Kontrollschachts und eine dem anderen Kontrollschacht schräg von der Oberfläche zulaufende Hilfsbohrung und

Fig. 3

das Einziehen einer neuen Rohrleitung durch die Hilfsbohrung, quer durch den Start-Kontrollschacht, durch die Bohrung zwischen den Kontrollschächten bis zum Ziel-Kontrollschacht.

The invention is explained below with reference to an embodiment shown in the drawing. The drawing shows:

Fig. 1

the schematic representation of an old line running between two control shafts,

Fig. 2

the arrangement of a winch with a pulling rope in the area of a control shaft and an auxiliary hole tapering obliquely from the surface to the other control shaft and

Fig. 3

pulling a new pipeline through the auxiliary hole, across the start inspection shaft, through the hole between the inspection shafts to the destination inspection shaft.

In Fig. 1, two control shafts 1, 2 are shown, between which an old pipe 3 runs. This old pipe 3 is to be replaced by a new pipe. Of course, this old pipe does not only have to extend between the inspection shafts 1, 2, but can also be extended beyond the inspection shafts 1, 2, so that a new pipeline is also installed in these areas if this is necessary.

In the area of the target inspection shaft 2, a winch 4 is arranged, the pull rope 6 of which is guided over deflection rollers 5 into the inspection shaft 2 to the level of the old line 3.

From Fig. 2 it can be seen how an auxiliary hole 6 obliquely to the inspection shaft 1 from the surface of the earth is guided and at about the same level as the old line 3 in the inspection shaft 1 opens. This auxiliary hole 6 is made with the help of a pneumatically driven ram boring machine. Then an elastic rod is inserted through the auxiliary bore 6, across the inspection shaft 1 and through the old pipe 3, until it enters the target shaft 2 from the old pipe. Such an elastic rod can consist of a glass fiber reinforced plastic and can be inserted over longer lengths in bores without getting caught. Glass fiber rods of this type can be pushed into bores and find their way through the bore and follow any curvature, since they are dimensionally stable and yet highly elastic.

The traction cable is then connected to the glass fiber rod in the control shaft and pulled back to the surface of the earth through the old pipe 3 and the auxiliary hole 6. Now a cutter head ram boring machine is connected to the traction cable and the pipeline to be laid on the rear is connected to it and, as shown in FIG. 3, pulled through the auxiliary bore 6 until the cutter head ram boring machine enters the old pipe 3. Now the cutter head ram boring machine is put into operation and destroys the old line, at the same time the winch 4 pulls the cutter head ram boring machine together with the pipeline connected thereto by means of the pull cable 6 to the inspection shaft 2.

Should an old line from the inspection shaft 2 to another, not shown inspection shaft are replaced with a new pipeline, the winch is moved accordingly, and the entire process, including drilling an auxiliary hole, is repeated. In the control shafts 1, 2, the installed pipelines can be connected to one another in a known manner and optionally provided with branches.

A wooden frame can be arranged in the control shaft 1, which bridges the gap between the auxiliary bore 6 and the old pipe 3.

Depending on the nature of the soil and the ram boring machine, the auxiliary bore 6 can either be created by a ram boring machine that is particularly suitable for producing the auxiliary boring, or the cutter head ram boring machine that is used to destroy the old line can be used to produce the auxiliary drilling.

If the pipeline to be laid is made of plastic, for example polyethylene, the entire distance between the control shafts 1, 2, which can be up to 60 m, can be bridged by a single PE pipe. However, there is also the possibility of connecting shorter pipe sections above ground by means of mirror welding, gluing or by means of socket connections and thus pulling them in as a continuous pipe run through the dimensions of the inspection shafts 1, 2 without hindrance.

After the pipeline has been drawn in, the auxiliary bore 6 is closed in some way.

The invention is not limited to the laying of a pipeline instead of an old pipe to be destroyed. Likewise, a new pipeline can be installed if first inspection shafts with the usual diameter and the usual spacing are created, then an oblique auxiliary hole is made from the surface of the earth by means of a ram boring machine, the pipeline to be drawn in is already pulled along and also when an earth hole is drilled between the inspection shaft 1 and the control shaft 2, the pipeline to be drawn in is drawn at the same time. In this case too, the pipeline to be drawn in can be prepared above ground for a length that corresponds to the distance between the control shafts 1, 2.

If necessary due to the soil conditions or the diameter of the pipeline to be drawn in, a ram boring device can first be used to create a pilot hole in the area of the oblique auxiliary hole 6 and between the inspection shafts 1, 2, a pulling cable 6 is passed through this pilot hole in the manner described and then the pipeline to be drawn in are pulled through the pilot bore by means of the winch 4 and the pull cord 6, whereby, if necessary, a ram boring machine is located between the pull cord and the pipeline to be drawn in, in order to expand the pilot bore to the diameter of the pipeline to be drawn in.

It is crucial both when replacing an old pipeline with a new pipeline and when laying a new pipeline that according to the invention, starting from the surface of the earth in each case, an oblique hole is drilled, which opens into a control shaft, from which a hole leads to the next control shaft, so that the pipeline to be installed is only laid with a slight bend and therefore cannot be damaged. This means that piping can be laid quickly and cost-effectively.

Claims (9)

Method for laying pipelines in the ground between inspection shafts, in which an auxiliary hole reaching up to the level of the pipeline in one inspection shaft is created from the surface of the earth and a pipeline is drawn through this auxiliary hole and then through a hole between the two inspection shafts to the other inspection shaft becomes. A method according to claim 1, characterized in that the length of the pipe to be drawn in corresponds to the full distance between the two control shafts. A method according to claim 1, characterized in that the pipeline to be drawn in consists of short pieces of pipe which are mirror-welded above ground before being drawn into the auxiliary bore or be connected to each other at full distance between the two inspection shafts by means of socket connections. Method according to one of claims 1 to 3, characterized in that at least the auxiliary hole is created by means of a self-driven ram boring machine. Method according to one of claims 1 to 3, characterized in that the auxiliary bore and the bore between the control shafts are created by means of a self-driven ram boring machine and the pipeline is retightened by the ram boring machine. Method according to one of claims 1 to 4, characterized in that a traction cable is guided through the bore between the control shafts and the auxiliary bore, connected to the pipeline to be pulled in and this is drawn in by means of a winch arranged in the region of the control shaft remote from the auxiliary bore. A method according to claim 6, characterized in that a cutter head ram boring machine is arranged between the pull cable and the pipeline to be pulled in and this destroys an old pipe running between the control shafts when the pipeline is pulled in. A method according to claim 6 or 7, characterized in that an elastic rod is first inserted through the auxiliary bore and the bore between the control shafts and then the traction cable is pulled through the bores by means of the elastic rod. Method according to one of claims 1 to 8, characterized in that the auxiliary bore is closed after the pipeline has been drawn in.

Images