DE202013103887U1 - Sealing arrangement on a building wall - Google Patents

Abstract

Sealing arrangement (1) of a building wall (2) through which a pipe (4) is guided, wherein the building wall (2) has a through this opening (3) and in the opening (3) a longitudinal portion of the tube (4) is arranged and on a outer side (6) of the building wall (2) a sealing coating (7) is arranged, characterized in that a flange (8) in the region of the outer side (6) is arranged, wherein the flange (8) is a from this radially outwardly extending film (10) which is fluid-tightly coupled to the coating (7) and the flange (8) further comprises an elastic ring (12) which surrounds the outer circumferential surface (9) of the tube (4) and through mechanically constructed voltage on the outer circumferential surface (9) of the tube (4) comes fluid-tight to the plant.

Description

The present invention relates to a sealing arrangement on a building wall through which a pipe is guided, according to the features in the preamble of claim 1.

From the state of the art it is known to apply these sealing layers to structures or to arrange at these. In this case, coatings are applied, in particular in the case of submerged-mounted building walls, for example basement outer walls, which in turn are formed, for example, in the form of bituminous sheets or bitumen thick-layer coatings. These are to protect the masonry behind it as well as the premises located behind it from penetrating moisture or else from water that is pressing or standing on the outside wall. The walls of the building itself may, for example, be masonry walls made of bricks or bricks, or cast concrete walls.

If pipes or pipes now have to be routed through these walls, a weak point is created at the point of penetration, through which water can penetrate. Thus, it is necessary for such a penetration in the building wall, to design them so that they can not be traced by water or submerged depending on the expected moisture load. Occasionally, different materials encounter each other here, on the one hand, a stone material of the masonry, which is usually based on bitumen material of the coating and the material of the pipe made of plastic or even of metal.

For example, from the DE 20 2007 011 160 U1 a sealing arrangement is known in which a plastic tube with the aid of a sealing film and a corresponding seal arrangement which is placed on an outer circumferential surface of the plastic tube, the penetration of the building wall seals. However, especially when using metallic pipes which are guided through the building wall, such a known sealing arrangement is only conditionally applicable.

Object of the present invention is therefore to show starting from the prior art, a sealing possibility with which a pipe can be passed through a building wall and permanently seals, even against oppressive water, the penetration in the building wall.

The aforementioned object is achieved with a sealing arrangement for a building wall according to the features in claim 1.

Advantageous embodiments of the present invention are the subject of the dependent claims.

The seal assembly on a building wall, wherein a pipe is guided through the building wall, wherein the building wall has a through this opening and in the opening a longitudinal portion of the tube is arranged and on a outer side of the building wall, a sealing coating is arranged according to the invention characterized in that a flange is arranged in the region of the outer side of the building wall, wherein the flange has a foil extending outward therefrom, which is fluid-tightly coupled to the coating and the flange further comprises an elastic ring which engages around the outer lateral surface of the pipe and comes through a mechanically applied voltage on the outer circumferential surface of the tube fluid-tight to the plant.

As already mentioned, the building wall can be a brick wall, a stone wall or even a cast concrete or even reinforced concrete wall. The sealing arrangement is particularly suitable for the implementation of steel pipes, most preferably of stainless steel pipes both in the underground and in the above-ground area of a building. According to the invention it is now provided that the tube passes through the building wall and a longitudinal section of the tube, further preferably an outwardly lying longitudinal section of the tube, is overlapped by the flange. Arranged on the flange is a film, in particular a sealing film, which is designed to project in the manner of a disk over the flange, in particular radially outward. The sealing film is coupled fluid-tight with the coating of the building wall. Consequently, the outer region of the flange and the cutout in the coating for the penetration is thereby sealed not only against moisture but also against short-term pressing or even pressing water.

In the context of the invention, the pipe can also be a tubular body, for example also a cable or a pipe. The cross section of the tube is preferably round, but may also be oval or angular.

According to the invention the flange is now constructed so that it has an elastic ring, in particular of a rubber material, wherein now the elastic ring can be pushed onto the tube or the tube is inserted into the flange. By mechanically applied tension, in particular by a clamping or squeezing the elastic ring undergoes such Deformation that he expands in particular radially inwardly expands while fluid-tight with the outer surface of the pipe comes to rest and thus the transition region between the flange and pipe also seals so that the building wall against fluid from the outside prevailing moisture or pressurized water is permanently sealed fluid , The elastic ring is further squeezed or clamped and thereby comes positively and non-positively and thus fluid-tight to the plant.

In the context of the invention, the assembly process is not limited to that first the pipe is passed through the building wall and then the flange is coupled from the outside to the building wall and in turn the sealing insert is inserted into the flange. In the context of the invention it is also possible that first the flange is slipped over the pipe or the pipe is inserted into the flange and then the elastic ring is clamped or pressed with the pipe. Then, the tube is pushed through the opening and pressed the flange in particular on the outside of the building wall. Optionally, the flange can then still be further coupled to the building wall, for example by a positive coupling or the flange can also be glued to the building wall.

The sealing arrangement according to the invention with the elastic ring, it is possible, regardless of the material of the pipe to be performed to provide a long-lasting and durable seal that would be solvable if necessary, so that the tube in the disassembly of the seal assembly or by renewal of the elastic ring interchangeable is. Even pipes which have an outer diameter of more than 150, 200 or even 300 mm can be easily coupled to the flange according to the invention and by the subsequent application of the mechanical stresses and thereby exerted clamping connection, in particular in the form of a positive connection is still a fluid-tight seal.

The film itself is disc-shaped, in particular when using a tube which is round in cross-section, and likewise has a preferably round cross-section in a top view. The part of the sealing foil extending radially outward from the flange can then be applied to the building wall, for example, or even glued on, and is then preferably coupled overlappingly with a web coating or else with a spreadable coating. In particular, the film is formed from a material which can be coupled well with the coating. As a result, there is the advantage that the flange can be used in a versatile manner for a wide variety of coatings by replacing the film or the film material.

In the context of the invention, however, it is also possible, for example, to seal square pipes. In this case, the seal assembly according to the invention, in particular here the flange according to the invention then also has an angular configuration adapted in a plan view of the polygonal contour of the tube.

In order to ensure the interchangeability of the film as well as a sufficient mechanical stability of the Kiemmmechanismus for the elastic ring is preferably formed on a wall side on the flange, a metal ring in the form of a disc. The metal ring has a central opening for the passage of the tube and in the radial direction at least partially circumferential, the film rests on the metal ring. Further preferably, then the elastic ring on the film on or on the film and also surrounds the tube on an outer circumferential surface. On the opposite side of the metal ring, in turn, a clamping ring is arranged on the elastic ring, wherein the clamping ring has an analogous shape, with respect to the metal ring arranged on the wall side.

Now, the clamping ring and the metal ring are positively coupled to each other, in particular via bolts, preferably a number of bolts are distributed at equal intervals on the circumference. By actuating the bolts, the metal ring and the clamping ring are now moved towards each other in the axial direction, so that the elastic ring located therebetween expands radially while at the same time coming into fluid-tight contact with the film in the axial direction. By further pressing the bolts, the elastic ring is further expanded in the radial direction such that it comes to rest on the outer circumferential surface of the tube and in particular comes so form-fitting to the system that it seals the contact surface fluid-tight.

So that the elastic ring does not expand uncontrollably in the radial direction to the outside, thus on the side opposite the outer lateral surface of the tube, a tubular ring is furthermore arranged, which covers the outer circumferential surface of the elastic ring. Due to the expansion in the radial outer direction of the elastic ring this in turn comes to an inner circumferential surface of the tubular ring to the plant, which thereby homogenized inner stress state of the elastic ring homogenized such that in the elastic ring, a mechanical stress is present, for the fluid-tight seal a Outer shell surface of the tube provides. Likewise, prevents the tubular ring on the Outer jacket surface during assembly or service life over time, a flow of the rubber material of the elastic ring in the radial direction to the outside.

Furthermore, preferably welded bolts or through bolts are arranged on the elastic ring, with which an axial relative displacement of the elastic ring is possible. As a result of the axial displacement, these recesses are also reduced in the radial direction in such a way that the elastic ring likewise comes to bear against the bolt in a fluid-tight manner.

In the context of the invention, it is further conceivable for the assembly of the seal assembly that the metal ring is attached to the building wall itself. This can be done for example by gluing but also by a positive coupling, for example, the metal ring can be positively coupled to the building wall, in particular screwed so that the flange as it forms a pipe guide of the guided through the building wall pipe.

In the context of the invention, it is possible in a further preferred embodiment that the flange is arranged in the building wall such that an outer circumferential surface of the elastic ring in the installed state comes under tension on the inner circumferential surface of the opening in the building wall to the plant. In this case, the tubular ring can be dispensed with, without the material of the elastic ring migrating radially outwards during assembly or over the entire period of use.

Further advantages, features, characteristics and aspects of the present invention are the subject of the following description. Preferred embodiments are shown in the schematic figures. These are for easy understanding of the invention. Show it:

1 a seal assembly according to the invention on a performed through a building wall pipe and

2a and b is a detail view of the gasket assembly with flange in two different embodiments.

In the figures, the same reference numerals are used for the same or similar components, even if a repeated description is omitted for reasons of simplicity.

1 shows a seal assembly according to the invention 1 for a building wall 2 , The building wall 2 itself has an opening to it 3 on, being in the opening 3 a pipe 4 is arranged. The pipe 4 reaches through in its longitudinal direction 5 the building wall 2 and stands on an outer side 6 opposite the building wall 2 above. On the building wall 2 itself is a coating 7 applied to the building wall 2 protects against the ingress of moisture or pressing water.

In the area of the opening 3 or of the pipe 4 is now the seal assembly of the invention 1 provided, these having a flange 8th having an outer circumferential surface 9 of the pipe 4 encompasses radially peripherally. From the flange 8th a film extends 10 in the radial direction 11 outwardly projecting from the flange 8th , where the film 10 shown here by the coating 7 is at least partially overlapped and thus a fluid-tight seal between the film 10 and coating 7 is made. So now the tube 4 with an outer circumferential surface 9 or the area between the flange 8th and outer circumferential surface 9 of the pipe 4 is sealed fluid-tight, is in the flange 8th an elastic ring 12 arranged, with the elastic ring 12 between a metal ring 13 and a clamping ring 14 so energized that it is in the radial direction 11 expands inwards and here form-fitting and fluid-tight for engagement with the outer circumferential surface 9 of the pipe 4 comes. So that the elastic ring 12 in the radial direction 11 does not propagate to the outside, in particular uncontrolled, is also a tubular ring 15 the outer circumferential surface 16 the elastic ring 12 , at least partially in the longitudinal direction 5 arranged across. As a result, an uncontrolled flow of the particular rubber-elastic material of the elastic ring 12 in the radial direction 11 prevented to the outside.

This is shown again in 2a in a detailed view, here good the internal stress state of the elastic ring 12 in its corners 17 is shown. Here flows or is clamped between the metal ring 13 and the tubular ring 15 a negligible mass material to the outside, so that a sealing function is given. Furthermore, it can be seen that in particular on the longitudinal direction 5 based on the building wall 2 pointing away first the metal ring 13 is arranged, followed by the slide 10 again followed by the elastic ring 12 as well as the clamping ring 14 , So that the clamping ring 14 and the metal ring 13 in the longitudinal direction 5 or axial direction to move toward each other and the mechanical stress state of the elastic ring 12 are bolt bolts 18 intended. In the radial direction 11 outwardly extending film 10 will then turn from the coating 7 overlaps and forms a fluid-tight connection between the coating 7 and flange 8th out. Because the film 10 also with the elastic ring 12 to Plant comes, here is a fluid-tight connection is made. The metal ring 13 itself can turn with the building wall 2 be coupled, for example, by an adhesive connection or a non-illustrated positive connection. Also the foil 10 can on the building wall 2 itself glued on.

In 2 B an alternative embodiment is shown in which the flange 8th not in 2a is oriented to the outer side, but in another opening 19 in the building wall 2 even relative to the radial direction 11 comes form-fitting to the plant. The tubular outer ring can thus be omitted, so that the material of the elastic ring 12 in the radial direction 11 with respect to the outside to an inner circumferential surface 20 the further opening 19 arriving to the plant. The foil 10 itself is then shown in this embodiment between elastic ring 12 and clamping ring 14 arranged. The film is superimposed 10 then from the coating 7 , so that a fluid-tight connection between coating 7 and foil 10 is made.

As shown, the elastic ring is particularly preferred 12 rectangular in cross-section, in particular configured square, so that it by corresponding axial movements of clamping ring 14 and metal ring 13 each other an extension in the radial direction 11 and thus a seal between the outer circumferential surface 9 of the pipe 4 and flange 8th self-produced.

LIST OF REFERENCE NUMBERS

1

 sealing arrangement

2

 building wall

3

 opening

4

 pipe

5

 longitudinal direction

6

 outer side

7

 coating

8th

 flange

9

Outer jacket surface too 4

10

 foil

11

 radial direction

12

 elastic ring

13

 metal ring

14

 clamping ring

15

 tubular ring

16

Outer jacket surface too 12

17

 corner

18

 bolts

19

 opening

20

Inner jacket surface too 19

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202007011160 U1 [0004]

Claims (9)

Sealing arrangement ( 1 ) of a building wall ( 2 ) through which a pipe ( 4 ), the building wall ( 2 ) an opening that penetrates it ( 3 ) and in the opening ( 3 ) a longitudinal section of the tube ( 4 ) and on an outer side ( 6 ) of the building wall ( 2 ) a sealing coating ( 7 ), characterized in that a flange ( 8th ) in the area of the outer side ( 6 ) is arranged, wherein the flange ( 8th ) extending radially outwardly therefrom ( 10 ) which is in contact with the coating ( 7 ) is fluid-tightly coupled and the flange ( 8th ) continue to have an elastic ring ( 12 ), the outer circumferential surface ( 9 ) of the pipe ( 4 ) and by mechanically constructed voltage on the outer circumferential surface ( 9 ) of the pipe ( 4 ) comes fluid-tight to the plant. Sealing arrangement according to claim 1, characterized in that the elastic ring ( 12 ) on an outer circumferential surface ( 16 ) of a tubular ring ( 15 ) longitudinal ( 5 ) is at least partially enclosed, wherein in the installed state of the elastic ring ( 12 ) under tension on the inner circumferential surface of the tubular ring ( 15 ) is present. Sealing arrangement according to claim 1 or 2, characterized in that the film ( 10 ) is disc-shaped and in particular from one with the coating ( 7 ) is well coupled material. Sealing arrangement according to one of claims 1 to 3, characterized in that the elastic ring ( 12 ) is formed of a rubber material and / or has a rectangular, in particular square configuration in cross-section. Sealing arrangement according to claims 1 to 4, characterized in that the flange ( 8th ) on a wall side a metal ring ( 13 ), wherein the film ( 10 ) on the metal ring ( 12 ) rests. Sealing arrangement according to claim 5, characterized in that on the film ( 10 ) the elastic ring ( 12 ) rests on the outside of the elastic ring ( 12 ) a clamping ring ( 14 ) is arranged. Sealing arrangement according to claim 6, characterized in that the metal ring ( 13 ) and the clamping ring ( 14 ) are positively coupled with each other, in particular via bolts ( 18 ), wherein the bolts ( 18 ) prefers the elastic ring ( 12 ). Sealing arrangement according to one of the preceding claims 5 to 7, characterized in that the metal ring ( 12 ) on the building wall ( 2 ) is positively coupled. Sealing arrangement according to one of the preceding claims 1 to 8, characterized in that the elastic ring ( 12 ) in an opening ( 19 ) of the building wall ( 2 ), wherein an outer circumferential surface of the elastic ring ( 12 ) in the installed state under tension on the inner circumferential surface ( 20 ) of the opening ( 19 ) comes to the plant.

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