DE20304411U1 - Device for sealing of pipe led through brick wall has second fiber concrete pipe fitted inside first fiber concrete pipe fitted in cylindrical penetration in wall, with adhesive course introduced into space between the two - Google Patents

Abstract

The device for the sealing of a pipe (9) led through a brick wall (1) has a second fiber concrete pipe (4) fitted inside a first fiber concrete pipe (3) fitted in a cylindrical penetration (10) in the wall. An adhesive course (5) is introduced into the space (12) between the larger inside diameter of the first pipe and the smaller outside diameter of the second pipe and interconnects the two. A commercially available sealing element (8) is installed in the annular space (11) between the pipe and inner surface of the second fiber concrete pipe.

Description

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Dipl.-Bauing. Carsten Iwan
Construction guild
Ferret Way 8
04249 Leipzig
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Device for sealing a pipeline passing through a building wall

Description

The invention relates to a device by means of which a pipeline passing through a building wall can be reliably sealed against the ingress of water.

The device essentially consists of two parts, the first part being installed in the building wall from the side in contact with the ground and the second part from the side facing the building. In detail, the device consists of two fiber-reinforced concrete pipes of different diameters so that they can be pushed into one another. The larger pipe is inserted into the building wall from the side facing the ground, with its flange placed parallel to the building wall.

The smaller pipe is then pushed into the larger pipe from the inside of the building wall until its flange is also sitting parallel to the building wall. Before the smaller pipe is pushed in, an epoxy resin adhesive is generously applied to its outer diameter and to the inner diameter of the larger pipe. After the fiber-reinforced concrete pipes have been pushed into one another, they are then permanently connected to one another using the setting epoxy resin adhesive.

The bonding creates a fixed flange connection between the fiber-reinforced concrete pipes and the building wall. This fixed flange connection is able to accommodate a loose flange construction in the space formed by the inner diameter in a form-fitting manner.

In this way, the horizontal tensile forces, i.e. the forces acting parallel/axially to the pipes, are absorbed. The compressive forces occurring in the system are also reliably absorbed.

The outer flange on the subsoil side also serves to accommodate a building seal in accordance with DIN 18195. The fixed flange construction created as described above is particularly suitable for this, as the sealing materials in accordance with DIN 18195 can be connected to the fiber concrete flange in a system-compliant manner without the screws or bolts of the fixed flange penetrating the seal. The sealing of the fiber concrete flange therefore fully complies with the requirements of DIN 18195. If it should become necessary to carry out the seal as a double flange in accordance with DIN 18195/Part 9 and the sealing system, another pair of fiber concrete flange pipes can be installed. This could then be installed in the same way as a double flange device after the building seal described above has been created. The application - both the single and the double flange device - takes place in accordance with DIN 18195.

Flanges are known which are only located on the outside of the building and which, due to their form-fitting effect, are only able to absorb axial forces, i.e. in the direction of the building.

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Axial tensile forces are absorbed by these devices by means of screw connections on the outside of the building. These screw connections then in turn penetrate the building waterproofing and the waterproofing device itself. In this respect, this situation represents a violation of the DIN 18195 standard.
Axial tensile forces acting on the pipelines in the direction of the building ground often cause movements in the sealing device. Such movements lead to damage to the building seal, particularly at the screw connections of the flanges, and to water entering the building structure.

In addition to the metal flange that is screwed to the wall from the outside, there are other flanges - for example in the form of individual pipes - that are built into or embedded in a building wall. The sealing effect of such pipes depends on the quality of the building material of the building wall and its sealing effect. As a result, such pipe penetrations are only suitable for waterproof concrete structures in accordance with DIN 1045, but not for sealing in accordance with DIN 18195.

This also applies to the solution shown in OS-DE 10020493, which is close to the invention, because the fixed flange of this construction cannot be reworked with an external seal according to DIN 18195.

The aim of the invention is to develop a device with the help of which pipelines can be guided through a building wall, whereby the

The respective pipeline is sealed in such a way that no water can penetrate into the building structure from the outside. The aim of the invention is also to be able to work on building seals on and over the device, whereby the connection is made in accordance with DIN 18195.

The aim of the invention is ultimately to absorb all axial tensile and compressive forces emanating from the pipeline in such a way that the structural waterproofing is not damaged.

Such axial forces can occur, for example

- due to thermal longitudinal expansion of the pipes,

- through the compaction of the subsoil when filling the excavation pit,

- by uplift of the building ground during frost,

- due to water buoyancy caused by groundwater and/or aquifer water or stagnant seepage water,

or

- due to subsoil settlement following loading or as a result of traffic loads acting on the subsoil.

The aim of the invention is also to develop a fixed flange device with a simple structure, which can therefore be manufactured inexpensively and easily assembled on site.

The object of the invention is now achieved by inserting the first of two fiber-reinforced concrete pipes, each with a flange, into the cylindrical wall opening from the outside of the building. This pipe is then fixed with the aid of slurry and mortar

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positively connected to the building wall. A second fiber-reinforced concrete pipe is then inserted into the first fiber-reinforced concrete pipe from the inside of the building.

It is essential to the invention that the inner diameter of the first pipe is larger than the outer diameter of the second pipe in such a way that an adhesive - preferably an epoxy resin adhesive - can be introduced between the two pipes to connect them together. It is also essential to the invention that a sealing element known from the state of the art - such as a commercially available loose flange device - is arranged in the annular space between the pipeline and the second fiber-reinforced concrete pipe.

In this way, for example, the connection between a building waterproofing system according to DIN 18195 and the composite of fiber-reinforced concrete pipes, which has the character of a fixed flange, can be easily realized.

If it should become necessary according to DIN 18195/Part 9 to carry out the sealing as a double flange, another pair of fibre-reinforced concrete pipes can be installed in the clear opening of the second pipe.

The invention will be explained in more detail below using an exemplary embodiment. Fig. 1 shows the inventive device for sealing a pipeline 9 running through a building wall 1. Accordingly, a fiber-reinforced concrete pipe 3 merging into a flange is inserted into the cylindrical through-opening 10 of the building wall 1 on the outside thereof, after the building's outer wall 1 has previously been leveled in this area using a slurry or mortar 2.

A second fiber-reinforced concrete pipe 4, which also merges into a flange, is inserted into the fiber-reinforced concrete pipe 3 from the inside of the building wall 1, the outside diameter of the second pipe 4 having a smaller nominal dimension than the inside diameter of the first pipe 3, so that an epoxy resin-like adhesive 5 could be introduced into the resulting gap 12 before joining. This initially creates a fiber-reinforced concrete pipe assembly 3,4 which, with its flange-shaped end faces, surrounds the building wall 1 from both sides and reliably absorbs axial forces due to its positive connection.

The necessary sealing to the outside is achieved by means of a loose flange seal 8 known from the state of the art, which occupies the annular free space 11 between the pipeline 9 and the inner diameter of the fiber-reinforced concrete pipe 4.

The flange of the fiber-reinforced concrete pipe 3 inserted from the outside - including the epoxy resin bonding point 5 - is covered by a building seal 6 that is ultimately applied in accordance with DIN 18195. In order to ensure a high sealing effect, the desired gradual and flat transition between the building wall 1 and the building seal 6 is ensured by the fact that the flange of the fiber-reinforced concrete pipe 3 is provided with a corresponding slope 7 on its outside.

Claims (3)

1. Device for sealing a pipeline passing through a building wall, consisting of individual sealing elements preventing the penetration of water into the building, characterized in that a second fiber-reinforced concrete pipe (4), also having a flange, is inserted on the building side within a fiber-reinforced concrete pipe ( 3 ) which has a flange and is inserted into the cylindrical opening ( 10 ) of a building wall ( 1 ) on the outside and connected to the same by means of slurry/mortar ( 2 ), wherein an adhesive layer ( 5 ) connecting the two pipes ( 3 , 4 ) to one another is introduced into the space ( 12 ) between the larger inner diameter of the first pipe ( 3 ) and the smaller outer diameter of the second pipe ( 4 ), and that a commercially available sealing element is further inserted in the annular space ( 11 ) between the pipeline ( 9 ) and the inner casing of the second fiber-reinforced concrete pipe ( 4 ) . ( 8 ) and that in the area of the flange adjacent to the building wall ( 1 ) a building seal ( 6 ) covering the contact gap is applied. 2. Device according to claim 1, characterized in that the outer end face of the flange of the larger fiber-reinforced concrete pipe ( 4 ) is provided with a bevel-like slope ( 7 ) forming a flat transition to the building wall ( 1 ) in the direction of the latter. 3. Device according to claim 1 and 2, characterized in that within the composite of fiber concrete pipes ( 3 , 4 ) also a further pair of fiber concrete pipes can be installed.