DE102012018054A1 - Elastic bearing for supporting steering wheel in motor car, has connection elements for connecting mounting components on inner portion, such that connecting axis is offset from center axis at preset distance in inner portion - Google Patents

Abstract

The elastic bearing (1) has a rotationally symmetric inner portion (2) with center axis (3). The connection elements (8,9) are arranged for connecting mounting components on inner portion along connecting axis (10). A rotationally symmetric elastomer structure (4) is provided to surround the inner portion, and is inserted into receiving portion of supporting component. The connecting axis is extended in parallel to center axis, and is offset from center axis at preset distance (11) in inner portion.

Description

The invention relates to an elastic bearing according to the preamble of claim 1.

A known generic elastic bearing ( DE-OS 2,144,507 ) consists of a rotationally symmetrical inner part with a central center axis, which has two opposite connection elements as connection claws along a connection axis on the inner part. The inner part is surrounded by a rotationally symmetrical elastomer body which can be inserted into a receiving eye of a second component to be supported.

Specifically, here the radial inner part outer contour is spherical with executed in the longitudinal direction of the center axis on both sides scheduled cylinder extensions and each subsequent connection claws. This inner part outer contour is enclosed by an elastomer body ring part, which in turn has a circular cylindrical elastomer outer contour, with which it can be inserted into an associated receiving eye. In addition, outer shells are axially mounted on both sides of the elastomeric body ring member, whereby displacement and preload in the elastomeric body ring member are achieved by axially opposing one another.

In addition, bushing designs are generally known as elastomer bushings with a circular cylindrical outer contour of the inner part, an elastomeric circular cylinder ring surrounding the inner part and an outer sleeve bushing longitudinally slotted above it as a sheet-metal bushing. During assembly, such a bearing part is pressed under closure of the longitudinal gap in a reduced diameter receiving eye for applying a bias in the elastomer body.

In these known elastic bearings, the force is introduced for the relative movement of the two components to be stored as Radialkrafteinleitung Axialkrafteinleitung and Torsionskrafteinleitung over and around the central center axis, which here also represents the connection axis, in the course of the connection elements for connecting the first component to be stored. The elastomeric body is thus compressed in a radial load, starting from the center axis in the radial direction and twisted at a pure torsional load. The thus achievable spring characteristics, in particular Torsionsfederkennlinien are known and only conditionally suitable for a variety of applications.

The object of the invention is to develop a generic elastic bearing so that an initial Torsionsfedersteifigkeit soft and then disproportionately rising, wherein the elastomeric body is not overloaded in particular in the torsional shear stress in wide limits.

This object is achieved in that the connection axis for the connecting elements for connecting a first component to be stored mittachsparallel but offset by a distance from the center axis is located on the inner part. This results in a compact bearing structure an eccentric arrangement on the inner part, since the introduction of force from a second component to be stored, for example, a supporting force of a stationary second component to be stored, is introduced at the center axis, but the load acting on the first component to be stored, in particular, a torque offset to the connection axis of the inner part is initiated. In other words, a bearing installation advantageously takes place such that a torque acts as a main load component eccentrically to the central axis on the connection axis of the inner part and is introduced into the bearing, so that the Exzentereffekt can be used to obtain the desired spring characteristic or Torsionsfederkennlinie. Thus, in the case of an eccentric rotation of the inner part in the circumferential direction, the elastomer body is both crimped and twisted. The combination of such a radial loading component and torsional loading component in the elastomer body results in the desired initially flat, then progressively extending spring characteristic or torsion spring characteristic.

Such an elastic bearing can be advantageously used, for example, as a joint bearing for the storage of handlebars in motor vehicles or other suitable for the above-mentioned characteristic curve applications.

For the connection of a first component to be stored on the inner part, the skilled person has various options known per se:
Such a connection can follow via a connection bore with the connection axis as a bore axis for a screw connection. In this case, known per se rotation, for example, by positively engaging and supporting in the direction of rotation contours can be provided.

An alternative connection can optionally take place on both sides projecting connection pipe socket, the pipe axes are coaxial with the connection axis and optionally extend a through hole.

Another alternative and per se known connection technology used on both sides of the inner part to the connection axis aligned connection claws, with which the first component to be mounted is connected by means of screw.

The outer contour of the elastomeric body is preferably circular cylindrical in cross-section with the central center axis as the cylinder axis. The inner part is then used together with its associated elastomeric body in a receiving eye with an associated circular cylindrical inner diameter, said receiving eye is part of the second component to be stored or connectable to this.

In a fundamentally first embodiment of the elastic bearing of the entire structure is concentric, wherein the radial outer contour of the inner part is circular cylindrical and the elastomeric body has the shape of an elastomeric circular cylindrical ring accordingly. The elastomeric body is surrounded here by an associated outer bushing, preferably a sheet-metal bushing. In a further embodiment, the outer bush in the production state on a longitudinal gap, which preferably continues in the elastomer body wedge-shaped. During assembly, the inner part is pressed with the elastomer body and the longitudinally slotted outer bushing in a smaller inside receiving diameter receiving eye with closure of the longitudinal gap. Characterized a bias in the elastomeric body is constructed, which leads to a rotationally fixed connection in the receiving eye and counteracts an overload of the elastomeric material.

In a fundamentally modified second embodiment of the elastic bearing, the radially inner part outer contour is convex, optionally spherical, with cylinder projections set on both sides in the longitudinal direction of the center axis, preferably with connecting claws. The inner part outer contour is enclosed radially by an elastomer body ring part, which has a circular cylindrical elastomer body outer contour. In addition, in each case axially adjacent to the elastomeric body ring member and connected to this outer shells are used, which are preferably in the longitudinal region of the cylinder extensions.

During assembly, the inner part is used with the elastomer body ring member and the outer shells in a receiving eye with an inner diameter corresponding to the outer diameter of the elastomeric body ring member. By axially clamping the outer shells a displacement and bias in the elastomeric body ring member is achieved, which leads to a fixation in the receiving eye and also acts against overloading of the elastomeric material.

In a generally known and proven manner, the elastomeric body can each be a vulcanized rubber body. The inner part and optionally connecting pipe socket, connection claws, outer sockets, outer shells and receiving eyes are advantageously made of metal in a conventional manner. Depending on the circumstances, however, other materials, especially plastics, can be used.

Reference to a drawing, two embodiments of the invention are explained in detail.

Show it:

1 an end view of a manufacturing part of an elastic bearing;

2 a plan view of the manufacturing part after 1 ;

3 an elastic bearing according to 1 in assembled state in frontal view;

4 a section through the camp after 3 along the line AA;

5 a section through the camp after 3 off along the BB line 4 ;

6 an end view of a manufacturing part of an elastic bearing of a second embodiment;

7 a section along the line AA 6 ; and

8th a section along the line BB 7 ,

In 1 is in frontal view a manufacturing part of an elastic bearing 1 and in 2 a corresponding plan view shown. The manufacturing part consists of a circular cylindrical inner part 2 with the cylinder axis as central center axis 3 , The inner part 2 is of an elastomer layer of an elastomeric body in the form of an elastomer circular cylinder ring 4 surrounded, in turn, by an external socket 5 enclosed and connected in the form of a sheet metal bushing.

In the manufacturing state, the outer sleeve 5 a longitudinal gap 6 on, which wedge-shaped in the elastomer circular cylinder ring 4 into it continues.

The inner part 2 is designed to connect a first component to be supported with a through hole 7 , on the front side connection pipe socket 8th . 9 connect.

The through hole 7 and the connection pipe sockets 8th . 9 run along a connection axis 10 which by a distance 11 offset to the center axis 3 lies.

The inner part with the pipe socket 8th . 9 as well as the outer bush 5 are made of metal.

In the frontal view 3 and the cuts after 4 . 5 is the production part after the 1 and 2 shown in the assembled state:
During assembly, the manufacturing part was in a receiving eye 12 pressed, which has a reduced compared to the outer diameter of the manufacturing part inside diameter. This created a bias in elastomeric annulus cylinder 4 constructed for a rotationally secure connection and fixation of the outer bush 5 in the receiving eye 12 , In addition, the bias counteracts an overload of the elastomeric material.

Based on 3 exemplifies the principal function of the elastic bearing, including the receiving eye 12 is assumed to be stationary;
Here is a main load component on the inner part 2 Act. In similar bearings of the prior art engages such a vertical main force component (dashed arrow 13 ) as a main load component via central connection elements on the center axis 3 at. This force component acts radially perpendicular down to the local elastomer area (with dotted arrow 14 indicated) and presses there together the elastomeric material, which leads to a relatively high rigidity even at small Lagerauslenkungen apparent.

In contrast, in the bearing according to the invention a relatively soft initial spring stiffness or Torsionsfedersteifigkeit should be obtained but then progressively extending spring characteristic or Torsionsfederkennlinie. This is determined by the distance 11 between the center axis 3 and the connection axis 10 reached the local connection elements. According to the invention thus engages the horizontal distance 11 the main load component as torque (arrow 15 ) on the connection axis 10 on, which rotates in an eccentric the elastomeric material of the elastomeric circular cylinder ring (arrow 16 ), but additionally compressed radially. By this additional twisting and dodging of the rubber material, the initially relatively soft spring stiffness or Torsionsfedersteifigkeit is achieved in comparison to the prior art, which increases progressively in a desired manner upon further spring deflection.

In an alternative second embodiment of the 6 to 8th there is also a gap 11 between a central center axis 3 and a connection axis 10 before, so that here too an eccentric effect occurs, which leads to a similar initially soft and then progressively increasing spring characteristic or torsion spring characteristic as in the first embodiment. Thus, only the differences from the first embodiment are explained for the second embodiment:
The outer contour of the inner part 2 here has a longitudinally centered area 17 with in the longitudinal direction of the center axis 3 on both sides scheduled cylinder extensions 18 . 19 , which in connection claws 20 . 21 pass over whose connection holes the connection axis 10 and thus the distance 11 to the center axis 3 define.

The inner part outer contour is of an elastomeric body ring part 22 enclosed, which is a circular cylindrical elastomer body outer contour 23 having. In the longitudinal area of the cylinder extensions 18 . 19 are frontally with the Elastomererkörperringteil 22 each outer shells 24 . 25 connected. During assembly, this is in the 6 to 8th shown manufacturing part used in a conventional manner in a receiving eye with a corresponding inner diameter and the outer shells 24 . 25 braced against each other in the axial direction. This builds up in the elastomer body ring part 22 a bias on which fixes the manufacturing part rotationally in the receiving eye and also counteracts an overload of the elastomeric material.

In both types of bearing anti-rotation against an optionally impermissible rotation in the receiving eye at high torsional loads and / or fuses against axial migration from a receiving eye can additionally be provided in a conventional manner.

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 2144507 A [0002]

Claims (9)

Elastic bearing with a rotationally symmetrical inner part ( 2 ) with a central center axis ( 3 ), with at least one connecting element ( 7 ; 8th . 9 ; 20 . 21 ) along a connection axis ( 10 ) on the inner part ( 2 ) for connecting a first component to be stored, and with an inner part ( 2 ) and associated with this rotationally symmetric elastomer body ( 4 ; 22 ) placed in a receiving eye ( 12 ) of a second component to be stored, characterized in that the connection axis ( 10 ) runs in the middle axis parallel and at a distance ( 11 ) to the center axis ( 3 ) offset on the inner part ( 2 ) lies. Elastic bearing according to claim 1, characterized in that for the connection of the first component to be supported a connection bore ( 7 ) with the connection axis ( 10 ) as a bore axis through the inner part ( 2 ) runs. Elastic bearing according to claim 1 or 2, characterized in that for connection of the first component to be supported on both sides of the inner part ( 2 ) Connection pipe socket ( 8th . 9 ), wherein the tube axes coaxial with the connection axis ( 10 ). Elastic bearing according to claim 1, characterized in that for connecting the first component to be supported on both sides (on the inner part 2 ) to the connection axis ( 10 ) aligned connection claws ( 20 . 21 ) are provided. Elastic bearing according to one of claims 1 to 4, characterized in that the outer contour of the elastomeric body ( 4 ; 22 ) is cylindrical in cross-section with the central center axis ( 3 ) as a cylinder axis, and that the inner part ( 2 ) with its elastomeric body ( 4 ; 22 ) in a receiving eye ( 12 ) is used with associated circular cylindrical inner diameter, wherein the receiving eye ( 12 ) Part of the second component to be stored or can be connected to this. Elastic bearing according to claim 5, characterized in that the radial outer contour of the inner part ( 2 ) is circular cylindrical, that according to the elastomeric body ( 4 ) an elastomeric circular cylindrical ring is that the elastomeric body ( 4 ) of an associated external socket ( 5 ), preferably a sheet metal bushing is enclosed, that the outer bushing ( 5 ) in the production state a longitudinal gap ( 6 ), which extends into the elastomeric body ( 4 ), preferably wedge-shaped continues, and that during assembly, the inner part ( 2 ) with the elastomeric body ( 4 ) and the longitudinally slotted outer sleeve ( 5 ) in an inner diameter smaller receiving eye ( 12 ) closing the longitudinal gap ( 6 ) for applying a preload in the elastomeric body ( 4 ) is pressed. Elastic bearing according to claim 5, characterized in that the radial inner part outer contour is crowned ( 17 ) optionally spherical with in the longitudinal direction of the center axis ( 3 ) on both sides attached cylinder extensions ( 18 . 19 ) is executed, that the inner part outer contour radially from an elastomeric body ring part ( 22 ), which has a circular-cylindrical elastomer body outer contour and the elastomer body ring part ( 22 ), each end axially abutting and connected outer shells ( 24 . 25 ), and that during assembly, the inner part ( 2 ) with the elastomeric body ring part ( 22 ) and the outer shells ( 24 . 25 ) in a receiving eye ( 12 ) having an inner diameter corresponding to the outer diameter of the elastomeric body ring member ( 22 ) and by axial clamping of the outer shells ( 24 . 25 ) a displacement and preload in the elastomeric body ring member ( 22 ) is achieved. Elastic bearing according to one of claims 1 to 7, characterized in that the elastomeric body ( 4 ; 22 ) is a vulcanized rubber body. Elastic bearing according to one of claims 1 to 8, characterized in that the inner part ( 2 ) and optionally connecting pipe socket ( 8th . 9 ), Connection claws ( 20 . 21 ), Outer sockets ( 5 ), Outer shells ( 24 . 25 ) and receiving eyes ( 12 ) are made of metal.

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