DE19849142A1 - Sub-surface concrete water pipe supported at ends in concrete muffs simplifying manufacture and installation, muffs being made of two halves bolted together - Google Patents

Abstract

A mains water drainage pipe consists of sections each at least three meters long, made of cylindrical concrete pipe. The pipe sections are placed end to end in a trench. The interface of adjacent pipes (5,6,7) is supported in an essentially U-shaped concrete block bearing (8) with a covering clamp (3).

Description

The invention relates to the laying of sewer pipes, in particular sewage pipes Concrete or ceramics or the like (hereinafter collectively called concrete pipes). Such Pipes mostly have a sleeve at one end and one at the other end Spiked. The laying is done so that each pipe with its pointed end in the socket of the next pipe grips or each pipe with its sleeve the spigot end of the next pipe includes. There are pipes that are laid at the joints without a seal. Contemporary Pipes are provided with a seal at the joints. There are different Seals, sprayed-on seals or opened / pushed-on seals. For the quality of the pipeline, in addition to the quality of the material, the quality of the Pipe laying decisive. In addition to handling the pipes, the excavation pit crucial importance.

In the ATV manual, construction and operation of the sewage system, 4th edition, the influence of the excavation pit on the laying is described as follows:
Pipelines are technical constructions in which the interaction of pipe, pipe connection, pipe support, embedding and overfilling is the basis for stability and operational security. A significant part of the structural safety of the pipeline is determined by the execution of the earthworks.

Small negligence in the installation of pipes often cause large errors caused by Reinforcing the pipe in a technical-economic sense can hardly be caught. Inadequate execution of the support and insufficient compression of the line zone, especially next to the pipes, lead to additional stress, the size of which Multiple of the load calculated for normal construction work. Upcoming non-cohesive soils are suitable for support formation if they are stone-free and the largest grain does not exceed certain limits. Likewise, cohesive soils suitable if there is no fear of softening. The grown soil must, however  up to a hard or rocky bottom layer that may be underneath Have minimum thickness.

If there is no suitable floor, a floor replacement must be carried out. The merging of the pipes in the direction of the pipe axis should be centric without any noteworthy Bending between the pipes. The related movement in Longitudinal direction is difficult to carry out. Errors occur again and again. The mistakes lead to incorrect loading of the seals and the pipes, so that there are leaks and too Broken pipe comes.

The above list is not exhaustive. There are a number of other problems in the manufacture of sewer pipelines. Nevertheless, the above technology is very strong spread.

The object of the invention is to manufacture the sewer pipelines improve. The invention breaks away from the previous, widespread technology.

The invention turns to a technique that initially appears to be more complex than the manufacture and handling of pipes with sleeves and spigot ends. According to the invention, this is achieved with the aid of split bearings which can be clamped together and between which the pipe ends can be clamped. This technique opens up several advantages:

• a) the installation is much easier because the pipes are only lowered and no longer with their pointed end in the longitudinal direction in the sleeve or with the sleeve must be pushed lengthwise onto the spigot end.
• b) the excavation pit no longer has to be prepared over its entire length. The elaborate soil measures can affect the comparatively low Limit the area of the supports.
• c) the manufacture of the tubes can be made much easier by Sleeve and spigot end is dispensed with. The one end to the other end Uniformly cylindrical pipes cause only a fraction of the Manufacturing effort of the known sleeves / pointed end pipes. There is one If necessary, desired other shape at the pipe ends is not excluded.
• d) a production of special dimensions is by cutting / cutting to length Standard pipes easily possible
• e) the support technology enables much longer pipe lengths  
• f) gentle and reliable handling of the seals
• g) Soil mortaring can take place between the supports. Suitable for this also a recycling material. If necessary. is also sufficient without mortar to shed or to flush in soil material.
• h) on the support can be advantageous ventilation and flushing of the channel respectively.
• i) the positioning of the pipes in the longitudinal direction is considerably simplified, because the pipe ends can be put together

Overall, the additional effort of the supports is by far overcompensated by the advantages above. This is especially true when using longer pipe lengths. The larger the pipe length, the smaller the number of supports and the circumference necessary soil preparation. The conventional pipe lengths are clearly on average less than 2 m. Only in rare cases can pipe lengths of z. B. 2.5 m application. Therefore already include pipe lengths of 3 m a considerable development step. The Excess lengths provided according to the invention are preferably dimensionally designed so that they are divisible by 0.5. Lengths up to 5 m are also possible.

For the larger pipe lengths, pipe cross sections are advantageous, those of the pipes a larger one Give bending stiffness to the extra long pipes despite the considerable weight Laying harmless at the ends with the crane to lift and transport. Such Cross sections can be egg-shaped or oval cross sections. Conveniently, the longer concrete pipes with steel reinforcement, optionally with a prestress. Egg-shaped pipe cross sections are known per se, but so far they have a different purpose as a harmless transport.

Otherwise, the tubes, which are excessively long according to the invention, can be different than at the ends be transported. Optionally, damage-free transportation is also different than through special cross-section and / or reinforcement / prestress. A suitable remedy is a C-hook that is attached to the crane with one end and in with the other end enough space in the tubes so that damage-free transport is ensured. The C-hook expediently grips from the end into the respective pipe after laying of the pipe is open before the next pipe is laid. Since the pipes are usually in in one direction of installation is always one end open. To the  Connection points of the line / channel may result in a different situation, which may also occur with a special tableware is solved.

Optionally, a harness for laying the pipes is used, which consists of tabs or grippers exists and the pipes are gripped at the points that are favorable in terms of bending technology. The favorable places are in the first or last quarter. The first / last A quarter digit results from a quarter of the pipe length at the transition from the first quarter to the second quarter or at the transition from the third quarter to the last quarter. Essentials Advantages of this arrangement are still present when the selected position is still 10% of the correct quarter digit. The 10% mentioned are calculated from the Total pipe length.

Quarter places are expediently marked. Optional are at the Quarter digits are also provided for gripping surfaces or stop surfaces. These areas can molded in or molded with mortar. The surfaces can also be glued on separate parts are formed.

The load due to the dead weight of the pipes can also immediately after Settling can be caught by relining with soil or building material.

The bearings according to the invention are optionally designed as blocks. The blocks own a bearing opening and are divided so that the division through the center of the bearing opening runs. At this point the blocks can be divided so that the lower ones first Block halves positioned in the construction pit, the pipes placed on the lower block halves and then the upper block halves can be put on.

Each bearing includes the opposite ends of two adjacent tubes. The block halves lying one above the other are preferably joined together Screw connections clamped. The screw connections are detachable connections and reusable with sufficient protection against rust. Instead of the reusable Connections can also be other connections, e.g. B. seals are used, the be destroyed when loosening.

Instead of the block form, the bearings can also be in the form of clamps or a mixed form exhibit. In the clamp shape, ring halves are provided at their points of contact pass into a clamping flange. The clamping flanges are like the block halves tense together. The clamp shape minimizes that required for the bearing  Cost of materials. This applies to both a production as a molded concrete part and one Made of metal. With suitable reinforcement, the concrete molding can also be used Withstand the clamping forces that occur.

A mixed form is a lower bearing part designed as a block half and an as Clamped upper bearing part.

The lower half of the block offers an advantageous stability.

The pipes of the pipe / duct system according to the invention can have the same ends Seals can be provided like conventional pipes. In addition to or instead of the seals on the pipe ends it is possible to have one or more seals in the bearing parts to arrange. The seal can also be molded, for. B. foamed or be sprayed on. Molded-in grooves have also proven to be favorable for insertion Seals. Such seals can be easily replaced.

The seals have the task in particular with conventional seals at the pipe ends to seal the space in the bearing between these seals. Optional the seals inserted in the bearing parts also take on the task of the usual Seals on the pipe ends.

The seals then run on each bearing part on the contact surfaces of the two Stock parts and in the warehouse opening. This results in a rectangular view in plan view Bearing part shape a square course of the seal.

The seals can be congruent or congruent on both bearing parts run. In the case of differences in coverage, it occurs when the bearing parts are placed on top of one another to cross the seals. This creates sealing spaces, which in the case of a Leakage can be pressed. The compression takes place when there is no leakage can be eliminated by retightening the tension of the bearing parts.

The pressing is made easier by pressing holes. They are preferably located Compression bores in the upper bearing part and are the compression bores with one Compression nipple closed.

The pipe / duct systems according to the invention form with the seal described above a closed system, so that not only operation with a free mirror but also one Use as a pressure line is possible. The wastewater runs when operated with an open level depressurized due to the gradient through the pipes.  

In a preferred embodiment of the invention, the bearings have a ventilation connection and / or provide a flushing connection. The connection can be done by a simple Plastic tube are formed, the z. B. inserted into an opening in the upper bearing part and from there is led up. A diameter of 200 mm is for ventilation and one Flush cheap. A diameter of less than 50 mm is not used in practice Find.

The plastic pipe is flexible so that it can adapt to earth movements that occur. The cross section is also so stiff that it can withstand the occurring ground pressures.

The ventilation and / or flushing connection according to the invention opens between the two Pipe ends. In order to ensure this and / or a deepening between the outflow disturbing To avoid the pipe ends is in the bearing opening at least in the lower storage area Web provided that has the same height as the wall thickness of the tubes. The jetty can molded or fastened in the bearing opening or only be inserted there. By The web creates a closed channel in the area of the warehouse if the pipes against the Butt jetty.

Various exemplary embodiments of the invention are shown in the drawing.

Fig. 1 shows a pit 1 with a sole 2 and with a channel which consists of concrete pipes 5 , 6 and 7 . In the exemplary embodiment, the concrete pipes have a length of 3 m and a diameter of 1 m. The concrete pipes are held in bearings that consist of lower bearing halves 8 and upper bearing halves 3 . The dividing line between the two bearing halves 3 and 8 is designated 9.

The lower bearing halves 8 are placed on the sole 2 prepared at the appropriate place. Between the camps, the sole is made of soil.

The laying of the concrete pipes is shown on the basis of the pipe 6 in different variants in FIGS. 3 and 4.

According to FIG. 3, a C-hook is applied. The C-hook is suspended from a crane hook 20 and engages with the lower, straight leg 22 in the tube 6 . The other leg 21 forms the connection to the suspension. The straight leg 22 gives the tube 6 a very advantageous relief during transport or laying.

The C-hook can be pulled out of the free end after laying each pipe become. Before pulling out, the pipes are at the quarter places or at other If necessary, the entire area is relined. This ensures optimal installation.

According to FIG. 4, a harness is provided from cables 25 in place of the C-hook. The ropes 25 can rest against glued cams 26 . As a result, the ropes 25 are held in the quarter position.

The cams 26 are unnecessary in the case of a rope harness whose ropes are positioned by a spacer.

The ropes of the dishes can be pulled out laterally under the tube. Before loosening the ropes, the pipes are relined as shown in FIG. 3.

In the embodiments of FIGS. 1, 3 and 4, a lower bearing half 8 is provided. The lower bearing half 8 forms with the upper bearing half 3 a bearing block into which a bearing opening for the tubes 5 , 6 , 7 is formed in the center. The bearing opening is formed in the lower bearing half 8 by a lower half-shell-shaped bearing surface. In Fig. 2, the front part of this bearing surface is designated by 10 and the rear part of the bearing surface by 13 . The bearing surface continues in side surfaces 11 , which form the dividing line 9 . Grooves for a sealing cord are worked into the side surfaces 11 . The grooves continue in grooves in the bearing surface. The inserted sealing cord has a square shape when viewed from above. The parts of the sealing cord running in the longitudinal direction of the pipe are denoted by 15 , and the parts running in the circumferential direction of the pipe are designated by 14 .

Furthermore, passage openings 12 for tie rods are shown in FIG. 2. The lower halves of the bearing are prepared with the tie rods. The tie rods then protrude from the bearing half in a manner not shown after the positioning of the bearing half 8 on the sole 2 . This is no longer a problem because of the accuracy of conventional crane work for laying pipes 5 , 6 and 7 . After the pipes have been laid, the upper bearing halves 3 are put on. This is also done with the help of the crane, in such a way that the tie rods immediately penetrate through the associated openings in the upper bearing half 3 and can be tensioned by screwing.

While the pipes 5 , 6 and 7 in the bearings according to FIG. 1 lie against one another, in the exemplary embodiment according to FIGS. 5 and 6 there is a distance between the pipe ends. According to Fig. 5 and 6, the bearing block from local support halves 30 and 31. The bearing opening is designated 32 .

Fig. 5, the lower bearing half 31 shows in a detail view with openings for tie rods 34 and with an inserted fitting 38th The fitting 38 has the thickness of the tube wall and acts as a spacer for the tube ends in the warehouse. At the same time, the adapter with the adjoining pipes forms a continuous channel.

The upper half of the bearing 30 has a connection bore for a 200 mm plastic tube 37 as a ventilation tube and flushing tube in the apex of the bearing opening and exactly opposite to the fitting 38 .

Fig. 7 shows another form of bearing. The upper bearing half 40 is cup-shaped or clamp-like and provided with two side flanges 43 . The lower half of the bearing 41 is provided with a minimized contact area and has two lateral flanges 42 which correspond to the flanges 41 . The advantage of the design lies in the significantly shorter tie rods and in a much lower material expenditure for the bearings. Despite the shell or clamp construction, the bearing according to FIG. 7 can also be designed as a reinforced concrete component.

Claims (23)

1. Line, in particular in the ground channel, consisting of concrete pipes, characterized in that the opposite ends of two adjacent concrete pipes ( 5 , 6 , 7 ) are clamped in a common bearing ( 3 , 8 ; 30 , 31 ; 40 , 41 ) . 2. Pipe according to claim 1, characterized in that the concrete pipes ( 5 , 6 , 7 ) are cylindrical throughout. 3. Pipe according to claim 1 or 2, characterized by excessively long concrete pipes ( 5 , 6 , 7 ). 4. Pipe according to claim 3, characterized by concrete pipe lengths of at least 3 m. 5. Pipe according to one of claims 1 to 4, characterized in that the preparation of the soil is limited to the bearing surface of the bearing ( 3 , 8 ; 31 , 32 ; 40 , 41 ) and / or the concrete pipes ( 5 , 6 , 7 ) between the bearings ( 3 , 8 ; 31 , 32 ; 40 , 41 ) and / or poured and / or mortared and / or the concrete pipes ( 5 , 6 , 7 ) after they have been placed on the lower bearing parts ( 8 , 31 ) are relined. 6. Line according to claim 5, characterized by the use of recycling material 7. Line according to one of claims 1 to 6, characterized in that the concrete pipes ( 5 , 6 , 7 ) with a C-hook and / or with a tableware ( 25 ) are laid, which at the first quarter position and the last Quarter place attacks on the concrete pipes ( 5 , 6 , 7 ). 8. Pipe according to one of claims 1 to 7, characterized by a bending stiffening of the concrete pipes ( 5 , 6 , 7 ) and / or prestressed concrete pipes ( 5 , 6 , 7 ) 9. Pipe according to claim 8, characterized by an egg-shaped or oval cross-section for the concrete pipes ( 5 , 6 , 7 ). 10. Pipe according to one of claims 1 to 9, characterized in that the concrete pipe ends are close to each other or on a spacer ( 38 ) which forms a closed channel with the concrete pipes ( 5 , 6 , 7 ). 11. Pipe according to one of claims 1 to 10, characterized by a ventilation or flushing opening on the bearing ( 31 , 32 ) 12. Pipe according to claim 11, characterized in that the opening is in the upper bearing part ( 32 ) and / or has a minimum diameter of 50 mm. 13. Line according to one of claims 1 to 12, characterized in that the bearings ( 3 , 8 ; 31 , 32 ; 40 , 41 ) have a block shape and / or shell shape and / or a clamp shape and / or the bearings ( 3 , 8 ; 31 , 32 ; 40 , 41 ) are composed of two halves. 14. Line according to claim 13, characterized by lateral flanges ( 42 , 43 ). 15. Pipe according to one of claims 1 to 14, characterized by tie rods as Clamping elements and / or releasable or destructible clamping elements. 16. Pipe according to one of claims 1 to 15, characterized in that there are seals ( 14 , 15 ) on the concrete pipe ends and / or on the dividing or separating surfaces ( 9 ) of the bearing ( 31 , 32 ). 17. Pipe according to claim 16, characterized by seals ( 14 , 15 ) which simultaneously extend over the dividing or separating surfaces ( 9 ) and over the bearing surfaces ( 10 , 13 ) for the concrete pipes ( 5 , 6 , 7 ). 18. Pipe according to claim 16 or 17, characterized by grooves in the bearing parts and inserted seals ( 14 , 15 ). 19. Pipe according to claim 18, characterized in that the seal ( 14 , 15 ) is angular in plan view. 20. Pipe according to one of claims 16 to 19, characterized in that the seals ( 14 , 15 ) congruent or not congruent to the corresponding Surfaces run and / or seals ( 14 , 15 ) intersect and / or form closed, compressible spaces. 21. Line according to claim 20, characterized by injection lines in the warehouse. 22. Pipe according to one of claims 1 to 19, characterized in that the bearings ( 3 , 8 ; 31 , 32 ; 40 , 41 ) consist of concrete.