DE102015218187A1 - vibration - Google Patents

Abstract

A vibration damper comprising an outer cylinder having at least one internal working space, wherein at a bottom of the outer cylinder an elastomeric body is supported, which receives a transmission plate for a connecting member, wherein the elastomeric body is disposed within the outer cylinder and seals the internal working space.

Description

The invention relates to a vibration damper according to the preamble of patent claim 1.

From the JP2001221273 A2 a vibration damper is known which has an attached housing with an elastomeric body at its end opposite the outlet end of a piston rod. Within the elastomer body, a transfer disc is arranged to a pin joint. Due to a bottleneck-like bottom, the pin joint can only perform effective spring travel in the axial direction. Transverse forces on the pin joint are supported by the bottle neck profile of the soil.

The housing itself is integrally connected to an outer cylinder of the vibration damper. Thereby, the elastomeric body is fixed axially between a bottom of the cylinder and the bottom of the housing.

The object of the present invention is to realize a vibration damper with a gimbal mounted connection member.

The object is achieved in that the elastomeric body is disposed within the outer cylinder and seals the internal working space.

The great design advantage is that no additional housing must be welded to the outer cylinder. The elastomer body is simply placed in the cylinder, practically forming a bottom for the cylinder and also provides the sealing function.

Preferably, the cylinder has a radially inwardly shaped edge which forms a passage opening. The reshaped edge forms a ring bottom which provides a support surface for the elastomeric body and provides clearance for gimbal movement of the transfer disc.

Optionally, the elastomeric body is axially fixed between the edge and at least one preferably radially inwardly formed bead of the cylinder. It is also possible to achieve the fixing forces by means of a press fit between the elastomer body and the cylinder and if necessary to take advantage of a working pressure in the vibration damper. The advantage of the bead is that you can set a precisely reproducible holding force.

According to an advantageous embodiment, a support disk is arranged between the at least one bead and the elastomer body. The support disc provides even better grip of the elastomer body in the cylinder.

Furthermore, it can be provided that the elastomeric body has a Stützarmierung. The Stützarmierung z. B. particularly advantageous to transfer the bias starting from the deformed edge.

It can also be provided that the Stützarmierung is formed by a cup-shaped housing. The entire housing with the elastomeric body and the transfer disk for the connecting member is simply inserted into the cylinder and fixed there.

There is also the possibility in this design that the housing is supported on the at least one bead.

In order to better absorb the operating forces acting on the elastomeric body, the support disk is spherically shaped in the direction of the elastomer body.

Alternatively, the Stützarmierung be designed as an annular disc and z. B. be vulcanized in the elastomeric body. This gives a particularly simple and inexpensive design.

The invention will be explained in more detail with reference to the following description of the figures.

It shows:

1 Sectional view through a vibration damper

2 Elastomer body after 1 with a support disk

3 Elastomer body after 1 with a support armor

4 Elastomer body after 1 with a housing

The 1 shows a vibration damper 1 in the design of a monotube vibration damper, the invention is by no means limited to this design principle of the vibration damper.

The vibration damper 1 includes an outer cylinder 3 in which a piston rod 5 with a piston 7 is guided axially movable. The cylinder 3 has several workrooms. A piston rod side and a piston rod far work space 9 ; 11 are completely filled with a damping medium. A separating piston 13 separates the piston rod remote working space 11 from a gas filled workroom 15 , which serves as a compensation chamber for that of the piston rod 5 displaced volume acts.

At the end, the vibration damper has a connecting element 17 that in the simplest version via a transmission disc 19 and an attachment bolt extending axially therefrom 21 features. Preferably, the fastening bolt is designed as a threaded bolt, so that the connecting member can be used as a pin joint. The transfer disc 19 is on both sides and at the edge of an elastomeric body 23 enclosed, wherein the elastomeric body itself can also be designed in several parts, z. B. in the form of a lower and an upper disc.

The elastomer body 23 with the transfer letter 19 is inside the outer cylinder 3 arranged and seals at least one working space, in this embodiment, the compensation space 15 , starting by a direct contact between the elastomeric body 23 and the inner wall 25 of the cylinder 3 consists. Axially, the elastomeric body is supported on a bottom of the outer cylinder 3 from, wherein the bottom of a radially inwardly shaped edge 27 of the cylinder is formed.

The edge 27 in turn forms a passage opening 29 for the fastening bolt 21 that is inside the passage opening 29 gimbals and axially resilient move.

In the direction of the piston rod remote working space 11 becomes the elastomeric body 23 from a radially inwardly formed bead 31 held so that the elastomeric body axially between the at least one bead 31 and the reshaped edge 27 of the cylinder 3 is fixed.

The 2 shows a vibration damper with the basic structure 1 , In addition, the vibration damper has 1 over a support disk 33 between the at least one bead 31 and the elastomeric body 23 is arranged. Preferably, the support disk is spherically shaped in the direction of the elastomer body. For a force transmission starting from the fastening bolt 21 in the elastomeric body 23 there is a full-surface support for the elastomer body end, wherein the spherical shape a particularly versformungssteife support disk 33 is present.

With the 3 , which also according to the design 1 based, it should be shown that the elastomeric body 23 may have a Stützarmierung. A first support armor 35 , which is designed as an annular disc, abuts against the molded edge of the cylinder. A second support armor 37 is at an opposite top surface at the at least one bead 31 at. Also in this variant, there is a large-area sealing surface between the elastomer body 23 and the inner wall 25 of the outer cylinder 3 , so that none of the working media from the vibration damper 1 along the elastomer body 23 can escape.

The 4 discloses an embodiment in which the elastomeric body 23 in one to the cylinder 3 separate cup-shaped housing 39 is arranged and the housing 39 the Stützarmierung for the elastomeric body 23 forms. This will ultimately be the support disk 33 to 2 and the annular Armierungsscheiben 35 ; 37 to 3 combined in one component. Nevertheless, the housing exercises 39 together with the elastomeric body 23 a sealing function, on the one hand on the contact surface between the housing 39 and the inner wall 25 of the cylinder 3 in the form of a labyrinth seal and via an annular contact surface between the inner wall 25 of the edge 27 or of the cylinder 3 and the elastomeric body.

LIST OF REFERENCE NUMBERS

1

vibration

3

cylinder

5

piston rod

7

piston

9

piston rod side working space

11

Kolbenstangenferner workspace

13

separating piston

15

compensation space

17

connecting member

19

transmission disc

21

mounting bolts

23

elastomer body

25

inner wall

27

edge

29

Through opening

31

Beading

33

support disc

35

Stützarmierung

37

second support reinforcement

39

casing

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

• JP 2001221273 A2 [0002]

Claims (9)

vibration 1 comprising an outer cylinder ( 3 ) with at least one internal workspace ( 9 ; 11 ; 15 ), whereby on a ground ( 27 ) of the outer cylinder ( 3 ) an elastomeric body ( 23 ) supporting a transmission disc ( 19 ) receives a connection member, characterized in that the elastomeric body ( 23 ) within the outer cylinder ( 3 ) and the internal workspace ( 9 ; 11 ; 15 ) seals. Vibration damper according to claim 1, characterized in that the cylinder ( 3 ) has a radially inwardly shaped edge ( 27 ) having a passage opening ( 29 ). Vibration damper according to claim 2, characterized in that the elastomeric body ( 23 ) axially between the edge ( 27 ) and at least one bead ( 31 ) is fixed. Vibration damper according to claim 3, characterized in that between the at least one bead ( 31 ) and the elastomeric body ( 23 ) a support disk ( 33 ) is arranged. Vibration damper according to claim 1, characterized in that the elastomeric body ( 23 ) a support reinforcement ( 35 ; 37 ; 39 ) having. Vibration damper according to claim 5, characterized in that the Stützarmierung ( 39 ) is formed by a cup-shaped housing. Vibration damper according to claim 6, characterized in that the housing ( 39 ) on the at least one bead ( 31 ) is supported. Vibration damper according to claim 4, characterized in that the support disk ( 33 ) in the direction of the elastomeric body ( 23 ) is spherically shaped. Vibration damper according to claim 5, characterized in that the Stützarmierung ( 35 ; 37 ) is designed as an annular disc.

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