DE202004013748U1 - Sealing element for sealing of design gaps or working gaps in structure has guide ribs constructed with means of fastening which are simultaneously orientation aid for installation of sealing element in structure - Google Patents

Abstract

The sealing element (1) for sealing of design gaps or working gaps in a structure has a hollow base component (2) which on the outer face has several ribs extending along the longitudinal axis (3) and formed as gap guide ribs (5) and sealing ribs (4). The guide ribs are constructed with means of fastening which are simultaneously an orientation aid for the installation of the sealing element in the structure. Several fastening means in the form of holes are spaced apart in the direction of the longitudinal axis of the base component. An independent claim is included for a concreted wall in which is embedded the sealing element.

Description

The The invention relates to a sealing element for sealing predetermined crack joints and / or construction joints on a building, in particular on one concreting wall, with a base body designed as a hollow body, the several on its outer surface, along the longitudinal axis of the basic body extending webs, which serve as crack guide webs and as sealing webs are formed, the crack guide web a smooth wall and the sealing web has a profiled wall, wherein in the main body a hard body can be used.

to Avoidance of unwanted cracks on walls in concrete structures it practice on schedule Make predetermined breaking joints where there is uncontrolled cracking is to be expected or a construction joint as a seam between two Concreting sections is not appropriate. By planned weakening of the Cross-section at a predetermined point, for example through a notch, is on the component surface a straight course of the crack, a so-called predetermined crack brought about.

Around the water impermeability of buildings to ensure it is necessary to ensure the tightness of such by suitable means Ensure predetermined crack joints as planned. It should be noted here that predetermined crack joints against unwanted ones Cracks are known to have a larger crack width exhibit. There are various technical methods for sealing predetermined crack joints solutions known.

For example come to the production of such predetermined crack joints sealing pipes Use that are positioned in the center of a wall to be concreted. The sealing tube, the webs which generally have a longitudinal axis includes, causes the cross section of the wall to be concreted deliberately weakened becomes. In this way, shrinkage cracks are delimited locally and by the sealing tube reliable sealed. One of the disadvantages of these known sealing tubes (Sealing element) is that during the concreting process the in the Rule sealing elements standing vertically in the wall through the influent Knocked over concrete can be so that a targeted target crack is no longer possible at these points. Another major disadvantage is that the fitter is easy the known sealing element incorrectly installed. To a crack in the wall to be concreted, it is necessary to create the Sealing element arranged crack guide webs and sealing webs accordingly align within the wall. In the case of incorrect assembly is a Targeted crack and the tightness of the wall is not guaranteed.

task the invention is to provide a sealing element in which the disadvantages mentioned above are avoided, in particular the sealing element has a simple structure and without much effort within the concrete structure is mountable.

This Task is achieved by a sealing element with the features of claim 1 solved. preferred Further developments are described in the subclaims.

According to the Crack guide with Fasteners executed, which is also an orientation aid for the installation of the sealing element are in the building. The fasteners, for example as openings can be trained serve as fixation while the concrete is introduced under high pressure. For the concrete to be concreted Wall can be, for example, a wall or a wall Act element wall (double wall). To stabilize the walls to be concreted usually horizontal and vertical reinforcements. One of the preferred embodiments is that the sealing element with a metal wire on the reinforcement is attached, which extends through the fastener. The metal wire can be, for example, a so-called Trade in solder wire, which through the opening extends and is preferably arranged on the vertical reinforcement which is a reliable one Attachment of the sealing element when introducing the fresh concrete represents. The metal wire can of course also on others, in the objects to be concreted are fixed.

In a further embodiment the fastening means can be designed as a kind of tab, with this an attachment of the sealing element to the reinforcement also possible is.

One of the main advantages of this invention is that incorrect mounting of the sealing element in the wall to be concreted can be significantly reduced by the fastening means arranged on the crack guide web, since the fitter can more easily recognize the crack guide webs due to the fastening means arranged there. In order for a planned crack to develop within the wall to be concreted, it is particularly important to arrange the crack guide bars within the wall in such a way that crack guide bars face the outer and inner wall surfaces. If the flaw-guiding webs are confused with the sealing webs by the installer, so that, for example, two sealing webs each face an outer and an inner wall surface, there is a risk that a controlled predetermined crack does not arise and reliable sealing of the concrete wall is not guaranteed.

Each crack guide web expediently has a plurality of fastening means which are arranged at a distance from one another in the direction of the longitudinal axis of the base body. It is thus achieved that the sealing element can be reliably attached to the reinforcement along its entire longitudinal extent. In an alternative of the invention, the fastening means designed as an opening is at a distance from the free end of the crack-guiding web. The distance should be at least about 1 cm so that tensile forces generated during the concreting process do not tear out the openings in the crack guide bar. In a preferred embodiment of the invention, the sealing element should have a hardness of approximately 60 to 75 Shore A, with the tensile strength of the sealing element being greater than approximately 10 N / mm ² in an additional embodiment. These material properties effectively counteract any damage to the sealing element, in particular the crack guide web.

to further reinforcement the opening can this be a metal eyelet include. Here, the metal eyelet, for example made of steel can exist, form-fitting and / or non-positive and / or cohesive with the opening of the crack guide web connected his.

Conveniently, is the basic body of the sealing element is cylindrical. To reinforce the Sealing element can be a hard body in the form of a tube the cylindrical body be used. It has been found that two crack guiding webs and four sealing webs are sufficient to meet the required technical To meet requirements. Here are the two crack guide bars Offset 180 ° arranged to each other and separate the cylindrical outer surface of the with four sealing webs in two half shells, the outer surface of each Half shell each has two sealing webs. Preferably each bar radially on the base body arranged. The adjacent webs preferably each have an angle of 60 °. In order to bring about a planned target crack at the most suitable point, the wall of the crack guide web smooth (without any profiling). To ensure adequate tightness to be provided at this predetermined crack joint are the sealing webs, which are also known as locking anchors, executed with a profile. The Profiling, for example, by protruding along the longitudinal axis of the basic body parallel rows of teeth can be formed, increase the Sealing effect due to the large Number of changes of direction and thus the extended circulation route for the possibly emerging water. The rows of teeth are pressed against the concrete, so that there is an additional sealing effect from the pressure. On both sides of the wall of the crack guide web is formed over the entire longitudinal axis of the basic body one positive Binding with the concrete. The circulation of water between concrete and Sealing element is further complicated by the fact that the crack guide web is anchored in the concrete (locking anchor).

A further increase the resistance to water circulation can, for example, by a roughened wall of the sealing web can be achieved. A alternative embodiment is to design the wall of the sealing web with recessed recesses. These alternatives of profiling the wall just described of the sealing web can Of course in a further embodiment The invention can be combined with each other in a variety of ways.

Conveniently, is the basic body with the webs (crack guide web, Sealing web) in one piece connected. Connects with this particularly preferred embodiment of the invention the advantage of producing the sealing element from a single molded body. This also means that the profile strand when using a set thermoplastic elastomer to save material in just can be produced in a single operation. Preferably the sealing element consists of an extruded, thermoplastic plastic profile strand.

Further Advantages, features and details of the invention result from the following description in the with reference to the drawings embodiments of the invention are described in detail. The in the claims and features mentioned in the description individually for be essential to the invention or in any combination. It demonstrate:

1 a sealing element which is used in a wall to be concreted,

2 an enlarged partial view of a crack guide web with a fastener designed as an opening and

3 a sectional view of a concrete wall, in which a according 1 shown sealing element is embedded.

1 shows an inventive sealing element 1 , which can be used in a concrete wall in the present embodiment. The sealing element 1 points egg NEN designed as a hollow body 2 from that on its outer surface several, along the longitudinal axis 3 of the basic body 2 extending webs 4 . 5 includes. At the piers 4 . 5 on the one hand there are crack guide bars 5 as well as sealing webs 4 , which are also known as locking anchors. How particularly clear in 1 you can see the crack guiding webs 5 with a smooth, flat (unprofiled) wall. Furthermore, both are crack guiding webs 5 according to the invention with fasteners 6 executed in the form of openings, which advantageously at the same time an orientation aid for the installation of the sealing element 1 into the building for the fitter. In the present exemplary embodiment, the crack-guiding webs have 5 several fasteners 6 on that at a distance from each other in the direction of the longitudinal axis 3 of the basic body 2 are arranged. The distance between two openings 6 a crack guide bar 5 is approx. 20 cm. Furthermore, the openings 6 a distance to the free end of the crack guide web 5 which is approx. 1 cm. The diameter of the opening is approximately 0.5 cm. The dimensions given relate only to the exemplary embodiment shown, so that these can of course differ depending on different boundary conditions.

The radial on the body 2 arranged webs 4 . 5 each point to the neighboring webs 4 . 5 an angle of 60 °.

2 shows an enlarged portion of another embodiment in which the opening 6 of the crack guide bar 5 a metal eyelet 7 includes, which serves as a reinforcing agent. The metal eyelet made of steel 7 is here in the opening 6 of the crack guide bar 5 pressed.

So that the vertical sealing element during the concreting process 1 is not knocked over by the pressing fresh concrete, is by a metal wire 13 the sealing element 1 on a reinforcement 11 . 12 (please refer 3 ) attached. As a metal wire 13 can be used a wire which goes through the opening 6 stretches (see 2 ) and the reinforcement 11 . 12 is suitably attached.

How special 1 illustrates the wall of the sealing webs 4 profiled, creating a sealing effect within the concrete wall 10 can be achieved. The profiled wall of the sealing web 4 is here by protruding along the longitudinal axis 3 of the basic body 2 extending rows of teeth 8th formed as an "anchor" in the concrete 9 act and create an extension and redirection of the waterway. The protruding rows of teeth 8th also serve to stiffen the respective sealing web 4 , For further stiffening of the sealing element 1 is in the cylindrical body 2 introduced a Han PVC pipe, which is not explicit in the 1 to 3 is shown.

In the exemplary embodiments shown, the webs are 4 . 5 with the main body 2 connected in one piece. With the sealing element 1 it is an extruded, thermoplastic plastic profile strand. In a further embodiment, not shown, the material thickness of the free end of the sealing web can 4 be reinforced. The material of the sealing element 1 has a hardness of 67 Shore A, the tensile strength of the sealing element 1 is greater than approx. 10 N / mm ² .

1

sealing element

2

body

3

longitudinal axis

4

sealing web

5

Plan guide web, stop anchors

6

Fasteners, opening

7

metal eyelet

8th

profiling, protruding rows of teeth

9

situ concrete

10

wall

11

reinforcement

12

reinforcement

13

metal wire

Claims (18)

Sealing element ( 1 ) for sealing predetermined crack joints and / or construction joints on a building ( 10 ), especially on a wall to be concreted ( 10 ), with a base body designed as a hollow body ( 2 ), which has several on its outer surface, along the longitudinal axis ( 3 ) of the basic body ( 2 ) extending webs ( 4 . 5 ) which, as crack guiding webs ( 5 ) and as sealing webs ( 4 ) are formed, the crack guide web ( 5 ) a smooth wall and the sealing webs ( 4 ) has a profiled wall, with the base body ( 2 ) a hard body can be used, characterized in that the crack guide web ( 5 ) with fasteners ( 6 ) which also serves as an orientation aid for the installation of the sealing element ( 1 ) in the building ( 10 ) are. Sealing element ( 1 ) according to claim 1, characterized in that a plurality of fastening means ( 6 ) at a distance from each other in the direction of the longitudinal axis ( 3 ) of the basic body ( 2 ) are arranged. Sealing element ( 1 ) according to claim 1 or 2, characterized in that the fastening mit tel ( 6 ) is designed as an opening. Sealing element ( 1 ) according to claim 3, characterized in that the opening ( 6 ) a distance from the free end of the crack guide bar ( 5 ) having. Sealing element ( 1 ) according to claim 4, characterized in that the distance is at least 1 cm. Sealing element ( 1 ) according to one of the above claims, characterized in that the opening ( 6 ) a metal eyelet ( 7 ) includes. Sealing element ( 1 ) according to claim 6, characterized in that the metal eyelet ( 7 ) form-fitting and / or force-fitting and / or material-fitting with the opening ( 6 ) of the crack guide bar ( 5 ) connected is. Sealing element ( 1 ) according to one of the above claims, characterized in that the fastening means ( 6 ) is designed as a tab. Sealing element ( 1 ) according to one of the above claims, characterized in that the base body ( 2 ) is cylindrical. Sealing element ( 1 ) according to one of the above claims, characterized in that two crack guide webs ( 5 ) 180 ° offset from each other and the cylindrical outer surface of the with 4 sealing webs ( 4 ) executed basic body ( 2 ) separate into two half-shells, the outer surface of each half-shell having two sealing webs ( 4 ) having. Sealing element ( 1 ) according to one of the above claims, characterized in that the base body ( 2 ) with the webs ( 4 . 5 ) is connected in one piece. Sealing element ( 1 ) according to one of the above claims, characterized in that the sealing element ( 1 ) consists of an extruded, thermoplastic plastic profile strand. Sealing element ( 1 ) according to one of the above claims, characterized in that the material thickness of the free end of the sealing web ( 4 ) is reinforced. Sealing element ( 1 ) according to one of the above claims, characterized in that the hardness of the sealing element ( 1 ) is approximately 60 to 75 Shore A. Sealing element ( 1 ) according to one of the above claims, characterized in that the tensile strength of the sealing element ( 1 ) is greater than approximately 10 N / mm ² . Sealing element ( 1 ) according to one of the above claims, characterized in that the profiled wall of the sealing web ( 4 ) along the longitudinal axis ( 3 ) of the basic body ( 2 ) and through protruding rows of teeth ( 8th ) is formed and / or the wall is at least partially roughened and / or has recesses. Concrete wall ( 10 ) with in-situ concrete ( 9 ) in which a sealing element ( 1 ) according to one of the claims mentioned in the in-situ concrete ( 9 ) is embedded, the fastening means ( 6 ) indirectly or directly on one of the in-situ concrete ( 9 ) reinforcement ( 11 . 12 ) are connected. Concrete wall ( 10 ) according to claim 17, characterized in that the sealing element ( 1 ) with a metal wire ( 13 ) on the reinforcement ( 11 . 12 ) which is fastened by the fastening means ( 6 ) extends.