DE102005044232A1 - Flexible supporting unit for use as air bearing in motor vehicle, has transverse force dog that is arranged radially transverse to deflection direction between connecting part and base part and is implemented as rotatable roller - Google Patents

Abstract

The unit has a spring unit axially arranged between a connecting part (2) and a base part (1) in a deflection direction. A transverse force dog is arranged radially transverse to the deflection direction between the connecting part and the base part. The transverse force dog is implemented as a rotatable roller (11). The roller is connected with a dog surface (12) of the base part during arising of a transverse force in such a manner that the roller is rolled on the dog surface in an axial direction during axial movement of the connecting part and the base part.

Description

The The invention relates to an elastic bearing element for supporting Vibratory or to be protected from vibrations Aggregates, wherein the bearing element is an aggregate-side connection part and a base part, with at least one elastic spring element, in the compression direction axially between the connecting part and the base part is arranged and with at least one transverse force stop, the transverse to the compression direction radially between the connecting part and the base part is arranged.

such Bearing elements serve, for example, the body of a motor vehicle from the unevenness of the road surface or the internal combustion engine to isolate generated vibrations. This often results in the Situation that forces are absorbed transversely to the direction of compression or Movements of the connection part to the base part transversely to the spring direction must be limited. In general, this is done by handlebars outside of the bearing element, for example, between the body and an axle. However, this requires additional Components and is therefore expensive and expensive.

It also become stops used in the bearing elements. These are because of that, too in the state of touch the attacks occurring axial relative movements exposed to heavy wear. Furthermore it requires because of the friction occurring an undesirable breakout force, in order to be able to spring in or out the bearing element.

The DE 40 13 773 A1 shows a bearing element in which are compressed or relieved by the axial relative movement between the components via a system of rolling elements and inclined planes elastic elements and so a spring and damping effect can be achieved. A defined transverse force support is not given, since the support is also in the radial direction only against the elastic elements. In addition, lateral forces have a direct influence on the suspension properties, as these also lead to compressing or relieving the elastic elements.

The DE 43 27 90 A1 shows a linearly guided air spring, are prevented in the transverse movements by a telescoped telescopic device. This arrangement has considerable friction and breakaway force.

Of the Invention has for its object to provide a bearing element, which, while avoiding the disadvantages mentioned a defined Lateral force support allows.

These Task is solved by the bearing element has at least one transverse force stop, which is designed as a rotatable roller is.

In a development of the invention is the role of the aggregate side Attached connection part rotatably mounted and is on occurrence of lateral forces with a corresponding stop surface of the base part in operative connection, that during axial relative movement of the connection part and the base part the roll on the stop surface of the base part in the axial direction is unrolled.

In a further embodiment the invention, the roller is mounted rotatably mounted on the base part and stands at the occurrence of shear forces with a corresponding stop surface of the connection part in operative connection, that during axial relative movement of connecting part and base part of the roller on the stop surface of the Connecting parts in the axial direction can be unrolled.

These Arrangements have the advantage that the transverse forces over a defined geometry be intercepted, without that in an axial relative movement between Base part and connecting part a significant friction occurs, because the roll is on the stop surface can roll. The occurring rolling friction can be neglected here. As a result, no appreciable wear occurs on the one hand Lateral force attacks On the other hand, this arrangement does not require a breakaway force more, to perform a spring movement in the axial direction. A change the axial spring characteristic is also avoided.

In a further embodiment According to the invention, the roll has an elastic coating.

This coating prevents that in the case of a radial clearance between the roller and the stop surface when a lateral force occurs, a hard metallic impact between Roller and stop surface occurs. damage the metal parts are avoided. In addition, the noise of the Bearing element minimized.

In a further embodiment of the invention, the at least one transverse force stopper is formed as a toothed roller, wherein the base part and the connecting part each have a toothed stop surface corresponding to the toothed roller for each transverse force stop and each toothed whale ze in the radial direction between the respective toothed stop surface of the base part and the respective toothed stop surface of the connecting part is unrolled.

These Arrangement has the advantage that the toothed roller is not on a the components of the bearing element must be attached. A rotatable bearing eliminated. The toothing prevents the toothed roller, for example in shakes, theirs leaves position defined relative to the components. Because the toothed roller rolls evenly on both the base and the connector is the possibly occurring wear evenly distributed on both stop surfaces.

In a further embodiment the invention is the shear force stop as a stop body with one opposite the stop surface rounded contact surface and an elastic positioning device, wherein engages the positioning in the connection part and the shuffle off the stopper body elastic on the stop surface is deformable.

In a further embodiment The invention is the stopper body roller-shaped educated.

In a further embodiment The invention is the stopper body spherical educated.

These Arrangements have the advantage that in bearings with low axial Federwegen a rotatable bearing can be omitted, which simplifies installation. The rollers or balls are moved through the positioning device in held their predefined position, so they even with stronger shocks can not leave.

Based The drawing below three embodiments of the invention explained in more detail. It shows

1 3 a longitudinal section through a bearing element according to the invention designed as an air bearing with transverse force stops mounted on the connection part,

2 a longitudinal section through a transverse force stop with mounted on the connector roller with an elastic coating and

3 a longitudinal section through a transverse force stop with roller-shaped stopper body and positioning.

The in 1 shown upper portion of an air bearing has a rotationally symmetric base part 1 and a cylindrical connection part 2 on. The base part 1 and the connector 2 are with a bellows 3 made of elastomeric material airtight. The bellows 3 is by means of clamping rings 4 each at the connection part 2 and at the base part 1 firmly clamped. connector 1 and base part 2 are each fastened to not shown here components of a motor vehicle.

The base part 1 is cup-shaped, wherein the inner diameter 5 is dimensioned such that the connecting part 1 and the bellows 3 together in the base part 1 can dive without touching it radially

At the base part 1 facing the end of the connection part 2 is an annular receptacle 7 made of elastomeric material, which by means of a screw 8th and a support element 9 at the connection part 2 is attached. The recording 7 carries on its radial circumference a bearing block 10 in which roles 11 are rotatably mounted. The example shows two roles 11 , The bearing block 10 with the roles 11 is so in the recording 7 arranged that the rollers 11 with the inner wall 12 of the base part 1 in contact or have only a small game.

The main spring direction of the air bearing is parallel to the common axis 13 from base part 1 and connection part 2 ,

For relative movements of base part 1 to the connection part 2 the bellows rolls 3 on the connection part 2 from. The connection part 2 dives into the interior of the base part 2 one, where are the roles 11 on the inner wall 12 of the base part 1 roll off.

If a constant play-free contact of the roles 11 with the inner wall 12 of the base part 1 is required, this can be achieved by a resilient bias in the recording 7 be generated.

When introducing lateral forces in the connection part 2 These are over the screw 8th , the support element 9 , the recording 7 , the bearing block 10 , the roles 11 and the inner wall 12 in the base part 1 transfer. Here is the elastic deformation of the recording 7 by choosing a suitable material to adjust so that a lateral offset of the connection part 2 against the base part 1 remains so low that the connection part 2 with the bellows 3 the base part 1 not touched radially.

In 2 is also an inventive bearing element with a base part 1 and a connector 2 shown in longitudinal section, wherein base part 1 and connection part 2 via an elastic spring element 15 made of elastomeric material are resiliently connected together.

The connection part 2 has a hole 16 on, over which the connecting part 2 can be screwed to an aggregate, not shown here. The main spring direction of the bearing element is parallel to the axis 17 the bore 16 ,

At the base part 1 facing the end of the connection part 2 is a roller transverse to the main spring direction 18 rotatable on the connection part 2 stored. The role 18 has an elastic coating 19 Made of elastomeric material, which firmly adheres to the tread of the roller 18 is connected, for example by vulcanization. On the connection part 2 acting forces transverse to the main spring direction of the bearing element are on the role 18 on the base part 1 transfer. With simultaneous axial movement of connection part 2 against the base part 1 rolls the roll 18 on the inner wall 12 of the base part 1 from.

In 3 a bearing element is also shown in a longitudinal section, which is a base part 1 and a connector 2 having. base 1 and connection part 2 are about an elastic spring element 15 resiliently connected. At one of the base part 1 facing side of the connection part 2 is a roller-shaped stopper body 21 with a positioning device 22 arranged, wherein the positioning device 22 a neck-shaped connector 23 and a head 24 having. The positioning device 22 is in a corresponding recess 25 of the connection part 2 knotted. The stopper body 21 is positioned as defined.

For axial relative movements of connecting part 2 to base part 1 rolls the stop body 21 on the inner wall of the base part 1 from, with the neck-shaped connector 23 is elastically deformed. In this way, a complex and relatively heavy rotatable bearing can be omitted.

1

base

2

connector

3

bellows

4

clamping ring

5

Inner diameter of the base part 1

7

admission

8th

screw

9

support element

10

bearing block

11

role

12

Inner wall of the base part 1

13

common axis of base part 1 and connection part 2

15

elastic spring element

16

Bore in the connection part 2

17

Axis of the hole 16

18

role with coating

19

elastic coating of the roll 18

21

stop bodies

22

positioning

23

neck-shaped connecting piece of the positioning device 22

24

Head of the positioning device 22

25

Recess of the connection part 2

Claims (8)

Elastic bearing element for supporting vibrations generating or from vibrations to be protected aggregates, wherein the bearing element is a unit-side connecting part ( 2 ) and a base part ( 1 ), with at least one elastic spring element ( 3 . 15 . 20 ), in the compression direction axially between the connecting part ( 2 ) and the base part ( 1 ) is arranged and with at least one transverse force stop, which transversely to the compression direction radially between the connecting part ( 2 ) and the base part ( 1 ), characterized in that the bearing element has at least one transverse force stop which serves as a rotatable roller ( 11 . 18 ) is executed. Elastic bearing element according to claim 1, characterized in that the roller ( 11 . 18 ) at the aggregate-side connection part ( 2 ) is rotatably mounted and when transverse forces with a corresponding stop surface ( 12 ) of the base part ( 1 ) is in operative connection that during axial relative movement of the connecting part ( 2 ) and base part ( 1 ) the role ( 11 . 18 ) on the stop surface ( 12 ) of the base part ( 1 ) is rollable in the axial direction. Elastic bearing element according to claim 1, characterized in that the roller ( 11 . 18 ) at the base part ( 1 ) is rotatably mounted and when transverse forces with a corresponding stop surface of the connecting part ( 2 ) is in operative connection that during axial relative movement of the connecting part ( 2 ) and base part ( 1 ) the role ( 11 . 18 ) on the stop surface ( 12 ) of the connection part ( 2 ) is rollable in the axial direction. Elastic bearing element according to one of the preceding claims, characterized in that the roller ( 18 ) an elastic coating ( 19 ) having. Elastic bearing element according to claim 1, characterized in that the transverse force stop is formed as a toothed roller, wherein the base part ( 1 ) and connection part ( 2 ) have for each transverse force stop each one corresponding to the toothed roller de toothed stop surface and each toothed roller in the radial direction between the respective toothed stop surface of the base part ( 1 ) and the respective toothed on impact surface of the connection part ( 2 ) is unrolled. Elastic bearing element according to claim 1, characterized in that the transverse force stop as stop body ( 21 ) with one opposite the stop surface ( 12 ) rounded contact surface and an elastic positioning device ( 22 ), wherein the positioning device ( 22 ) in the connection part ( 2 ) engages and when rolling the stop body ( 21 ) on the stop surface ( 12 ) is elastically deformable. Elastic bearing element according to claim 6, characterized in that the stop body ( 21 ) is formed roller-shaped. Elastic bearing element according to claim 6, characterized in that the stop body ( 21 ) is spherical.