PRESS SEAL HAVING AN ELASTOMER BODY

Abstract

The invention relates to a press seal (1) for building up a sealing closure of a through-opening intersected by a line, having an elastomer body (2), a press plate (3a) and a tensioning bolt (4) intersecting the elastomer body (2), wherein the press plate (3a) can be pressed by said tensioning bolt (4) onto said elastomer body (2); the tensioning bolt (4) is screwed into a nut (20) around a rotational axis (21), a section (20a) of said nut (20), which section (20a) lies proximal to said elastomer body (2), being held by a form-fit in a recess in said press plate (3a) and being secured against a rotational movement around said rotational axis (21) thus, a section (20b) of said nut (20), which section 20b lies distal to said elastomer body (2), comprising a flange which protrudes beyond said recess in directions perpendicular to said rotational axis (21) outwards for transferring a force onto said press plate (3a) and pressing said press plate (3a) onto said elastomer body (2) when said tensioning bolt (4) is tensioned.

Claims

1. Press seal (1) for building up a sealing closure of a through-opening intersected by a line, having an elastomer body (2) for contacting said line sealingly, a press plate (3a) and a tensioning bolt (4) intersecting said elastomer body (2), wherein said press plate (3a) can be pressed by said tensioning bolt (4) onto said elastomer body (2) in such a way, that said elastomer body (2) contacts said line sealingly, wherein a threaded portion of said tensioning bolt (4) is screwed into a nut (20) around a rotational axis (21), a section (20a) of said nut (20), which section (20a) lies proximal to said elastomer body (2), being held by a form-fit in a recess in said press plate (3a) and being secured against a rotational movement around said rotational axis (21) thus, a section (20b) of said nut (20), which section (20b) lies distal to said elastomer body (2), comprising a flange which protrudes beyond said recess in directions perpendicular to said rotational axis (21) outwards for transferring a force onto said press plate (3a) and pressing said press plate (3a) onto said elastomer body (2) when said tensioning bolt (4) is tensioned, wherein a front face (23) of said press plate (3a), which lies distal to said elastomer body (2), is even in its area region, namely apart from the edges, if appropriate, and wherein said press plate (3a) is an even plate in its area region, namely apart From the edges, if appropriate.

2. Press seal (1) according to claim 1, wherein a surrounding surface of said press plate (3a), which defines said recess perpendicularly to said rotational axis (21) outwards, verges directly into a front face (23) of said press plate (3a), which lies distal to said elastomer body (2), said flange contacting said distal front face (23).

3. (canceled)

4. (canceled)

5. Press seal (1) according to claim 1, wherein said press plate (3a) is made of metal.

6. Press seal (1) according to claim 5, wherein said press plate (3a) is worked from a sheet metal.

7. Press seal (1) according to claim 1, wherein a surrounding surface of said press plate (3a), which defines said recess perpendicularly to said rotational axis (21) outwards, extends solely in parallel to said rotational axis (21) and free of a step.

8. Press seal (1) according to claim 7, wherein said recess is a portion of a through hole in said press plate (3a) and wherein a through-hole-surrounding-surface, which defines said through hole perpendicularly to said rotational axis (21) outwards, extends solely in parallel to said rotational axis (21) and free of a step.

9. Press seal (1) according to claim 1, wherein said flange is, with respect to a circumference around said rotational axis (21), provided over the whole circumference and projects beyond said recess in all directions perpendicular to said rotational axis (21) outwards.

10. Press seal (1) according to claim 1, wherein said flange contacts said press plate (3a) with a contact area (22), said contact area (22) having an area which is at least the 1,1-fold of an area of a front face of said nut (20), said front face of said nut (20) lying proximal to said elastomer body (2).

11. Press seal (1) according to claim 1, wherein said tensioning bolt (4) comprises a bolt head (29) with a bolt head drive at its end opposite to said nut (20).

12. A method for manufacturing a press seal (1) according to claim 1, comprising the steps: providing said press plate (3a) having said recess; inserting said nut (20) into said recess; arranging said elastomer body (2) and said press plate (3a) in contact with each other; and, subsequent to those steps, inserting said tensioning bolt (4) so that said tensioning bolt (4) intersects said elastomer body (2), and screwing said tensioning bolt (4) into said nut (20).

13. The method according to claim 12, wherein said nut (20) is arranged in a receiving apparatus such that said flange points downwards, said press plate (3a) being laid on said receiving apparatus in such a way that said proximal section (20a) of said nut (20) is held then by a form-fit in said recess, said elastomer body (2) being laid on said press plate (3a) subsequently.

14. The method according to claim 12, wherein said recess is cut into said press plate (3a) by laser cutting.

15. Use of a press seal (1) according to claim 1 for sealing an electric, gas, water, heat, telecommunication, signal or data line in a through-opening in a wall or floor element, preferably of a building.

Description

[0039] In detail it shows

[0040] FIG. 1 a press seal according to the invention in a sectional side view;

[0041] FIG. 2 a detailed view of the press seal according to FIG. 1

[0042] FIG. 3 the press seal of FIG. 1 in a top view.

[0043] FIG. 1 shows a press seal 1 according to the invention in a sectional side view. The elastomer body 2 is visible, which is embraced by two press plates 3. The two press plates 3 are functionally connected with each other via tensioning bolts 4 such that the press plates are moved towards each other by tensioning the tensioning bolts 4, the elastomer body 2 being compressed in between and, in consequence, sealingly contacting the soffit of a through-opening and a line led through (not shown).

[0044] In this example, the elastomer body 2 is assembled of two elastomer body parts 2a,b, each of them comprising a plurality of shells 6a,b extending circumferentially around the through hole 5 for the line. Likewise, each elastomer body part 2a,b can be manufactured by a forming procedure, for instance by pressing into a mold or by injection molding, because the intermediate spaces between the shells 6a,b of the respective elastomer body part 2a,b are sufficiently large. In the intermediate spaces resulting between the shells 6a of one elastomer body part 2a the shells 6b of the other elastomer body part 2b are arranged in the assembled elastomer body 2, and vice versa.

[0045] The shells 6,b can be taken out for adapting the through hole 5 to lines having a different outer diameter. Thereto, a respective material bridge 7a,b provided at an axial end of the respective shell 6a,b is opened. The material bridges 7a,b are marked at the front face by circumferential grooves 8a,b which also reduces the material thickness and simplifies the opening.

[0046] FIG. 2 shows in a detailed view the tensioning bolt 4 beared with respect to the press plate 3a in a manner according to the invention. With its threaded portion, the tensioning bolt 4 is screwed into a nut 20. This nut 20, a section 20a thereof lying proximal to the elastomer body 2, is held by a form-fit in a recess in the press plate 3a. A section 20b of the nut 20, which lies distal to the elastomer body 2, comprises a flange. The latter projects beyond the recess outwards, namely with respect to directions perpendicular to a rotational axis 21, the tensioning bolt 4 being screwed around this rotational axis into the nut 20.

[0047] With a contact area 22, the flange contacts the front face 23 of the press plate 3a, which lies distal to the elastomer body 2. When the tensioning bolt 4 is screwed further into the nut 20 for tensioning the elastomer body, the nut is held in the recess of the press plate 3a secured against a rotation, on the one hand; on the other hand, the section 20b with the flange, which lies distal to the elastomer body 2, forms a counter bearing, so that the press plate 3a is pressed onto the elastomer body 2. The elastomer body 2 is compressed in direction of the rotational axis 4 and expends perpendicularly thereto, contacting the line and the soffit.

[0048] FIG. 3 shows a press seal 1 according to the invention in a top view, namely looking onto the press plate 3b. At the latter, the respective tensioning bolts 4 have a bearing with a bolt head 29 with an external hexagonal profile, a washer being respectively provided in between the bolt head and the press plate. As described above, the through hole 5 is enclosed by a plurality of shells 6a,b for a diameter adaption, wherein the circumferential grooves 8b are visible in the top view. Further, vent holes 30 are shown in this top view, through which the air contained between the shells 6a,b can escape when the two elastomer body parts 2a,b are assembled.