DE4034760A1 - Seal for use between underground concrete pipes - consists of sealing rings with rigid annular band, and support ring - Google Patents

Abstract

The seal between abutting concrete pipes (1,2) laid underground, has two sealing rings (5) and a more rigid annular band (4) by which the sealing rings (5) are pressed against rhe inside pipes in a groove (3) at the join in the sides of the concrete pipes (1,2). The more rigid annular band (40 is a self-supporting support ring (4) for the sealing rings (5) which are pulled onto the support ring (4) or stuck to it. ADVANTAGE - The more permanent seal also enables the concrete pipes to be laid underground at a slight angle or with axial displacement, and is not damaged by subsidence.

Description

The invention is based on a seal between each other closing concrete pipes of an underground pipeline with two Sealing rings and a stiffer annular band, by means of whose the sealing rings on the inside of the pipe in one on the ver Connection point in the wall thickness of the recessed niche are pressed against the pipe walls and are tightly bridged.

Such a seal is proposed in DE-OS 38 32 832 around the conventional sleeve seals or under one instead a molded concrete sleeve firmly attached to one end of the pipe Steel jacket arranged to replace seals that turn out to be have proven susceptible to subsidence.

The proposed seals should only be installed and Showering the pipes can be installed when working with these contiguous settlements have been completed. That is with the usually accessible, often more than 2 m inside diameter having piping easily possible. The sealing rings z. B. glued and it is the stiffer tape z. B. from Stainless steel or hard PVC in front of it and with the pipe wall e.g. B. connected by retractable screws so that the sealing rings pressed and kept immovable.

The invention has for its object one in the long run creating safer seals.

The solution according to the invention has the known at the beginning mentioned features common and differs structurally in that the stiffer annular band is self-supporting Support ring for the sealing rings and the sealing rings on the support ring is preloaded or glued and against are slidable over the pipe walls.

In order for the large diameters under consideration in the Form of long, narrow and thin band enough mechanical Strength also for pressing the sealing rings onto the pipe the support ring is usually made of steel consist. The arrangement leaves slight angles of the concrete pipes against each other at the connection, but above all belie bige axial displacements, as far as they can occur in practice nen. This means that the seal remains even with larger ground changes stakes, such as pit subsidence, are intact. The elongation due to the Deflection of the pipeline on the depression is without damage by pulling apart the concrete pipes at the connection points possible. The sealing rings slide and remain in tight contact. The support ring forms with the sealing rings mounted on it a prefabricated unit.

The seal is used by this unit in the Lay the pipeline first in the last concrete laid pipe or into the newly added concrete pipe while pressing the concerned a sealing ring is inserted and then at Position the newly added concrete pipe in this or in the last concrete pipe laid, pressing the other seal ring is inserted.

So that the sealing rings do not slip on the support ring, they are preferably axially from the outside up to the support ring arranged holders, suitably rings, on the support ring wound.  

To later in case of axial displacement caused by subsidence exercises of the concrete pipes in the opposite direction the sealing rings not to be able to slide off the retaining ring are before preferably also the sealing rings placed axially from the outside te holder, conveniently rings, secured on the support ring.

Rounded or, preferably at an angle of 25 to 35 ° to the axial direction, bevelled inner edges on the forehead ten of the concrete pipes can be used to seal the sealing rings in their Push gently into the desired pres in the pipe ends bring solution.

It is understood that in the manufacture of concrete pipes the ends of the pipe walls on the inside of the pipe where the sealing rings fit, especially carefully, evenly and smoothly is, for example using an appropriate insert ring in the shape.

Finally, the invention enables advantageous further development that a further seal on the Pipe outside or between two fold surfaces of the two pipes is set up ends and in the support ring a passage with a Connection for a pressure medium line or vacuum line arranged is not.

This allows the tightness of each seal individually or the pipe Line as a whole or in sections checked at intervals will.

The support ring is preferably protected against corrosion, e.g. B. fire galvanized.

The drawings show exemplary embodiments of the invention.

Fig. 1 shows a section of a pipeline at the joint between two concrete pipes, in axial section,

Fig. 2 shows on a larger scale a section in FIG. 1 corresponding field from another pipe and

Fig. 3 shows on a larger scale than Fig. 1 a section corresponding to the circled field in Fig. 1 from another pipe.

In Fig. 1, two concrete pipes 1 and 2 meet. They each have a recess at their ends on the inside such that the recesses of the two concrete pipes at the joint together form a niche 3 on the inner wall of the pipeline. In the recess 3 , a support ring 4 made of steel tape is inserted, on which two sealing rings 5 are seated with pretension. They are pressed against the pipe walls by the support ring 4 .

The shock shown in Fig. 2 differs from that of FIG. 1 by a seam connection of the two, here designated 6 and 7 , concrete pipes and by a further sealing ring 8 , which between the approximately axially parallel, central surfaces 9 and 10 of the two Fold is inserted.

On a support ring 11 are two sealing rings 12 of known under the designation "wedge slide ring" in the relevant art. They are pushed from the outside up to the support ring 11 on welded retaining rings 13 .

The support ring 11 is arranged in a niche which is formed by shoulders 14 and 15 formed on the inside at the ends of the concrete pipes 6 and 7 . The end edges of the heels, otherwise looking at the inner edges 16 and 17 of the concrete pipes 6 and 7 , are chamfered at an angle of 30 ° to the axial direction of the pipes. The pipe inner walls 18 and 19 adjoining in paragraphs 14 and 15 then only have a draft angle of, for example, 1 °. They have a relatively smooth surface on which the sealing rings slide.

When inserting the support ring 11 with the sealing rings 12 in the paragraphs 14 and 15 of the concrete pipes 6 and 7 , the sealing rings 12 are pressed against the chamfered inner edges 16 and 17 and then glide th on the pipe inner walls 18 and 19 . The sealing ring 8 does not require a slope, it is rolled. Likewise, the sealing rings 12 slide and the sealing ring 8 rolls when the concrete pipes 6 and 7 later move axially against each other.

In the further variant according to FIG. 3, the concrete pipes are 20 and 21 and the support ring is designated 22. The sealing rings bear the reference numerals 23 and the retaining rings in turn have the reference numerals 24 .

The retaining rings 24 and the sealing rings 23 are offset somewhat further inward compared to FIG. 2 and thus make space on the outside for further retaining rings 25 welded onto the supporting ring 22 . The retaining rings 25 ensure that the sealing rings 23 do not slip off the support ring 22 if the concrete pipes 20 and 21 should pull apart a little.

The concrete pipes 20 and 21 are provided with a further seal on the outside of the pipe at the joint: the concrete pipe 21 is cast together with a steel jacket 26 . A round bar 27 welded to the inside of the steel jacket anchors the steel jacket in the concrete mass. The protruding from the end face of the concrete pipe 21 section of the steel jacket 27 takes place in a recess 28 of the other concrete pipe 20 , and a sealing ring 29 inserted there under the steel jacket 26 . The sealing ring 29 is rolled up again; its path is limited by a shoulder 30 designed in the recess 28 .

The concrete pipes 20 and 21 are steel-reinforced jacking pipes. This means that the pipeline is pushed in one piece at a time by pushing in new concrete pipes at the back, whereby at the front end a cutting head later recovered through a shaft works and the shredded soil is conveyed back through the pipeline. The steel jacket 26 , which must slide on the cut tunnel wall, is therefore easily sunk into the outer tube wall and arranged in a scale-like manner overall. (The direction of advance is from left to right in accordance with FIG. 3.) A wooden disc 31 transfers the force from one tube to the other during advance.

An installed after the laying of the pipeline compressed air pipe 32 is connected via branches 33 provided with valves each with a connection 35 arranged on the support rings 22 of the pipeline, which leads through the support ring into the space 36 sealed by the sealing rings 23 and 29 .

This can be done by introducing compressed air into the space and determining a possible leakage current from time to time the tightness can be checked.

Claims (7)

1.Seal between adjoining concrete pipes ( 1 , 2 ; 6 , 7 ; 20 , 21 ) of an underground pipeline with two sealing rings ( 5 ; 12 ; 23 ) and a stiffer annular band ( 4 ; 11 ; 22 ), by means of which the sealing rings ( 5 ; 12 ; 23 ) on the inside of the pipe in a recess ( 3 ; 14-15 ) recessed in the wall thickness of the concrete pipes ( 1 , 2 ; 6 , 7 ; 20 , 21 ) pressed against the pipe walls ( 18 ; 19 ) and are bridged tightly, characterized in that the stiffer annular band ( 4 ; 11 ; 22 ) is a self-supporting support ring ( 4 ; 11 ; 22 ) for the sealing rings ( 5 ; 12 ; 23 ) and the sealing rings on the support ring ( 4 ; 11 ; 22 ) are pretensioned or glued and are slidable against the tube walls ( 18 , 19 ). 2. Seal according to claim 1, characterized in that the sealing rings ( 12 ; 23 ) axially from the outside up to on the support ring ( 11 ; 22 ) arranged holders ( 13 ; 24 ), preferably rings ( 13 ; 24 ), on the support ring ( 11 ; 22 ) are raised. 3. Seal according to claim 1 or 2, characterized in that the sealing rings ( 23 ) by axially placed from the outside holder ( 25 ), preferably rings ( 25 ), are secured on the support ring ( 22 ). 4. Seal according to one of claims 1 to 3, characterized in that the concrete pipes ( 6 , 7 ; 20 , 21 ) have beveled or rounded inner edges ( 16 ; 17 ) on their end faces. 5. Seal according to claim 4, characterized in that the bevel ( 16 ; 17 ) forms an angle with the axis direction of 25 ° to 35 °. 6. Seal according to one of claims 1 to 5, characterized in that a further seal ( 26-30 ) is set up at the connection point on the outside of the tube or between two folded surfaces of the two tube ends and in the support ring ( 22 ) a passage with a connection ( 35 ) for a pressure medium line ( 32 ) or vacuum line is arranged. 7. Seal according to claim 6, characterized in that on the inside of the tube, preferably above, a pressure medium line ( 32 ) is laid, from which on each seal ( 22-30 ) leads a branch ( 34 ) to the connection ( 35 ).