DE102007034475A1 - Bearing arrangement for positioning components of a vehicle chassis comprises a receiving eyelet forming an inner cone tapering in the assembly direction with a cone tip and a cone base in an axial section receiving a bushing bearing - Google Patents

Abstract

Bearing arrangement comprises a receiving eyelet (6) forming an inner cone tapering in the assembly direction (11) with a cone tip (12) and a cone base (13) in an axial section (10) receiving a bushing bearing. The axial section has a minimum cross-section (14) in the region of the cone tip and a maximum cross-section (15) in the region of the cone base. Preferred Features: The inner wall of the inner cone formed by the eyelet is inclined from the cone base to the cone tip at an angle of 1.5-2.3[deg] from the bearing axis.

Description

The The invention relates to a bearing arrangement with a hydraulically damping elastomeric bush bearing or a hydraulic bush. she refers in particular to an arrangement in which the hydraulic bush without additional external reinforcement, that means without outer sleeve, for the immediate Installation formed in a receiving eye of a bearing carrier is. The invention is the particular, each other Coordinated design of the bearing geometry and the receiving eye.

elastomers Bushings, as in particular in vehicle construction, for example for the storage of components of the chassis, in large numbers use generally consist of a metallic, often cylindrical inner part and one with this by vulcanization connected elastomeric bearing body, through which a Support spring is formed. For the most part, this is how it is formed Rubber metal part of a metallic or plastic existing Outer sleeve added. However, there are also types known, which are not equipped with an outer sleeve and for direct installation in the receiving eye of a bearing carrier are formed.

Corresponding the respective, existing for the intended use purpose Requirements are the bearings if necessary in addition equipped with a hydraulic damping. At least two chambers - hereinafter also inflatable or pumping chambers - for Recording a fluid damping means in the bearing body or between the outer contour of the bearing body and the outer sleeve or the inner wall of the Rubber-metal part formed directly receiving receptacle eye and connected by at least one channel. As a result of that the damping means in the case of acting on a chamber Load is displaced from the relevant chamber and over the channel flows into the other chamber, arises a damping of the elastomeric bearing body supporting hydraulic damping.

at Bearings without outer sleeve become the Blähkammern by a corresponding outer contour of the bearing body in the course of pressing the bearing body in the receiving eye realized. The blow chambers must also by a suitable contouring of the bearing body and thus formed sealing lips are sealed to escape to avoid the damping agent.

A hydraulically damping elastomeric bush bearing with an outer sleeve, for example, by the DE 38 18 287 described. By the DE 198 59 067 C2 a corresponding bushing bearing for direct installation in the receiving eye of a bearing carrier is described. In the case of the bearing disclosed in the latter publication, which according to a described embodiment can also be equipped with chambers for a fluid damping means, the inner part and the bearing body also have a non-circular cross-section. However, such a bearing to be installed directly in the bearing carrier has the disadvantage that, when the bearing body is pressed into the receiving eye of the bearing carrier, the sealing elements which first come into contact with the bearing carrier are pushed along the wall of the receiving eye over the entire lining path. This may damage the sealing elements and cause the bearing to leak. In addition, the bearing body relative to the inner diameter of the cylindrical Aufnahmeauges have only a slight oversize, so that between the parts only a small overlap is given, otherwise the required for the press-fitting of the bearing body in the receiving eye mounting force would be too large. The shoring can also be done only with a moderate mounting speed, otherwise there would be too much friction between the contact surfaces of the rubber-metal part and the bearing body and as a result too high a heat development through which the bearing, in particular its sealing elements, also could be damaged. The low overlap between the bearing body and the bearing carrier also carries the risk of leaks. Furthermore, as a result, the elastomer of the bearing body can be acted upon only with a comparatively low bias, which also reduces its durability under certain circumstances.

From the DE 44 38 932 A1 In addition, a hydraulic bushing has become known, which has a first, substantially cylindrical portion and a subsequent in the axial direction of extension conical portion. In both sections chambers for a hydraulic damping means are arranged. Due to the special shape to be achieved that the bearing has a hydraulic damping both in the axial and in the radial direction.

task The invention is a bearing assembly with a corresponding designed to provide hydraulically damping bush bearing through which the insertion of the bearing body in the receiving eye a bearing carrier simplified and damage of the bearing body circumference formed sealing elements or sealing lips are avoided.

The task is performed by a Lageranord solved with the features of the main claim. Advantageous training or further developments of the bearing assembly are given by the dependent claims.

The to solve the problem proposed bearing assembly consists in a conventional manner from a bearing carrier with a Receiving eye and one, without outer sleeve directly in this receiving eye installed hydraulically damping elastomers Bush bearing. In this case, the bush bearing consists of a pipe or strand-like inner part and a surrounding the inner part, with him by vulcanization associated elastomeric bearing body. The inner part can be made of steel, die-cast aluminum or one piece Plastic exist.

Corresponding the formation of the bush bearing as a hydraulic bushing has the arrangement two, relative to the bearing circumference staggered arranged and by at least one channel interconnected Blähkammern for a fluid damping agent. By the Direct mounting of the bearing in the receiving eye are the Blähkammern between the outer surface of the elastomeric bearing body and the inner surface of the Aufnahmeauges formed. she are due to a corresponding shape of the bearing body, by preferably curved extending elastomeric Blähwände and the inner surface of the Aufnahmeauges bordered. Radial spaced from the inner part is at least one reinforcing element vulcanized into the bearing body, which is a channel support element for forms the channel connecting the Blähkammern together. The channel support element is also made of steel, die-cast aluminum or plastic. The channel is from the outer, covered with the elastomer of the bearing body contour of the channel support member and the inner wall of the Aufnahmeauges bordered. By a corresponding shaping of the bearing body are on the outer contour in the Area of the axial bearing ends in the form of radially outward towering bulges Seals for the blow chambers and the connecting channel formed.

Forms according to the invention the receiving eye in its sleeve bearing the receiving axial section one in the mounting direction, that is the direction inserting or pressing the bush bearing into the receiving eye, tapered inner cone with a cone tip and a Cone foot off. Adapted to this is that of the inner cone the Aufnahmeauges included axial portion of the bearing body also cone-shaped, with a in the area the cone tip minimum and one in the area of the cone foot maximum Cross-section.

By the inventive cone-shaped training the receiving eye and the bushing bearing is achieved that the after inserting the bushing bearing into the receiving eye in the region of the cone tip of the inner cone formed by this on the inner wall of the receiving eye fitting seal during the assembly process no longer over the entire axial extent of the Aufnahmeauges the bearing carrier pushed along the inner wall along becomes. This simplifies the assembly of the bush bearing, ie its insertion or pressing into the receiving eye, wherein at the same time, in particular those first introduced into the receiving eye, formed by the outer contour of the bearing body Seal is effectively slotted against damage. The fact that, based on the mounting direction when inserting or Pressing the bearing the bearing first with his lowest cross-section axial portion in a range the Aufnahmeauges with a contrast significantly larger diameter is introduced and the receiving eye until further Course of mounting direction steadily tapered, can be between the bush bearing and the receiving eye one opposite camps of Prior art realized higher coverage become. This high coverage is achieved without that makes the assembly difficult or on the outer contour the bearing formed seals damaged during assembly become. It is thus possible, the elastomer of the bearing body, as well as bearings with a separate outer sleeve known to act in the course of assembly with a high bias voltage. The mounting of the bush bearing in the receiving eye takes place under liquid, that is preferably in the later through the Blähkammern trapped fluid damping means. When inserting the bushing bearing in the receiving eye builds thus in the hydraulic room, that is in the chambers and the channel connecting them, advantageously a high pre-pressure on.

According to one preferred embodiment of the invention Bearing arrangement is the inner wall of the trained by the receiving eye Inner cone in its course from the cone base to the cone tip tilted at an angle between 1.5 and 2.3 degrees against the bearing axis.

The conically widening in adaptation to the inner cone of the receiving eye shape of the bush bearing can be achieved for example by a corresponding conical shape of the bearing inner part. However, since this increases the manufacturing cost of the inner part, the bearing is preferably designed so that the cross section of the bearing body or its outer diameter varies despite a constant in this axial section cross-section of the inner part. This is geome by a corresponding achieved trical design of the vulcanization of the bearing body in its connection with the inner part and the channel support member used form.

Yet may be the cross-sectional area of the inner part of the bushing bearing according to provided refinements of the invention Bearing arrangement may be formed deviating from the circular shape. According to one Particularly preferred development, with a bush bearing on its bearing circumference opposite each other two, by elastomeric webs of the bearing body separated from each other Blähkammern are arranged, is the cross-sectional area of the inner part formed as an ellipse. The inner part and the Bearing bodies are assembled so that the big axis of this ellipse through the inflatable chambers runs and their small axis through the, the Blähkammern separating webs. Through this oval respectively elliptical contour of the inner part, in which the location of the large Main axis of the ellipse, based on the bearing circumferential direction, with the Blähkammern coincide, are in an advantageous manner formed long Blähwände through which the Stock shows a favorable damping behavior and the Blähkammern or their walls too at high radial loads, even in the absence of radial stops, effectively protected against damage. At the same time, they are arranged on the small axis of the ellipse Webs with respect to their radial extent only a small Height up so that it is possible to insert them without inserting of intermediate plates with one for static basic identification form high rigidity and so they too from damage at high, acting in the web direction to protect radial loads.

at the further developed in the manner described above bearing assembly combines the appropriately designed bush bearing the advantage of sufficiently large outside diameter and thus a sufficiently large space in the Pumpbeziehungsweise Blähkammerrichtung with the advantage of a simultaneously low Installation space in the web direction. It thus represents a technical as cost Optimization is because the components of the bearing, in particular its elastomeric bearing body, in terms of their material volumes between which are large and small camps.

at the bush bearing of the bearing assembly according to the invention are preferably inserted through one or more in the bush bearing Insert axially above and / or below the Blähkammern Radial stops formed. In case of an elliptical Shape of the bearing inner part is in an advantageous manner in the area of the major axis of the ellipse, ie in the area the Blähkammern, a particularly large space for the insertion of appropriate radial stops available. The radial stops are preferably made by inserts Plastic or metal realized, which at its radially inner Side are covered with an elastomer or rubber. Alternatively, as an insert but also an elastomeric element used which is on the inside of the bearing body above and / or inserted under the Blähkammern under bias and in a positive connection to the bearing body or the Fixed by him channel support element is fixed.

at a practice-oriented embodiment of the invention Bearing arrangement protrudes the channel support element of the bush bearing in the region of the cone foot of the formed by the receiving eye Inner cone in the axial direction against the mounting direction out of the receiving eye. For the formation of radial stops is in this outstanding from the receiving eye section the channel support member inserted a plastic ring, the inner surface each in the peripheral region of the Blähkammern a rubber buffer or radially inward towering bulges having. This form of training is advantageously developed by that the outer diameter of the channel carrier element extended stepwise in the area protruding from the receiving eye is. By the appropriate stage is for by pushing or pressing the bush bearing into the receiving eye assembly taking place formed in the axial mounting direction an end stop. hereby This prevents the bush bearing from reaching too far into the receiving eye is inserted.

The Inventive bearing assembly may further characterized be further developed advantageous that the channel carrier element or at least one segment of the channel carrier element in the area of the cone tip of the receiving eye in the mounting direction from the elastomer of the bearing body and also from the Receiving eye sticking out. It is characterized by the corresponding segment of the Channel carrier element formed a tab, which after the First insert the bushing bearing in the area of the cone tip protrudes from the receiving eye and then folded radially outward or flanged. This is a backup against an axial emigration of the bearing from the receiving eye opposite the mounting direction forms.

Furthermore, the bearing arrangement according to the invention can be further developed by the fact that in or on the bush bearing an additional channel acting as a bypass to the actual main channel is formed. In this bypass channel, a blocking element is arranged, which is the bypass channel only releases, provided that the radial load of Blähkammern exceeds a predetermined maximum load. The corresponding maximum load at which the bypass for the damping means is opened as a short connection, is determined by the nature of the design of the locking element and the bearing geometry.

following the bearing assembly according to the invention is based on of an embodiment explained in more detail become. In the accompanying drawings show:

1 : An embodiment of the bearing assembly for mounting a axle guide inserted therein in axial section;

2 : The bush bearing of the bearing assembly according to 1 also in an axially cut representation;

3 : The bush bearing of the bearing assembly according to 1 in a plan view of the remote from the recorded handlebar axial end face of the bearing.

In the 1 exemplified a possible embodiment of the bearing assembly according to the invention with a guided in the axial direction a through the arrangement section shown. You can see the receiving eye 6 a bearing carrier 5 , the elastomeric bushing bearing pressed therein and a part of a axle guide mounted by means of the arrangement 27 , The bush bearing consists, as is well known, of a tubular inner part 1 with a one-sided open cavity for receiving the pin of the handlebar 27 and one the inside part 1 surrounding, connected to it by vulcanization elastomeric bearing body 2 for forming a suspension spring. The bush bearing formed in this way is in the receiving eye 6 pressed. As a result, due to a corresponding outer contour of the elastomeric bearing body 2 two on the bearing circumference or in the circumferential direction u opposite Blähkammern 3 . 3 ' formed, which of by the outer contour of the bearing body 2 or by the trained by this Blähwände 23 . 23 . 24 . 24 ' and the inner surface of the receiving eye 6 be enclosed. The inflatable chambers 3 . 3 ' are flow-conducting through a channel 4 connected with each other. This is also due to the outer contour of the bearing body 2 formed by the shape of a in the elastomer of the bearing body 2 vulcanized channel carrier element 7 is determined and through the inner wall of the Aufnahmeauges 6 edged. Through the channel carrier element 7 the bush bearing is reinforced at the same time. In the illustrated embodiment, the channel support member protrudes 7 in the axial direction a, against the mounting direction 11 , in which the bearing in the receiving eye 6 is inserted, from the receiving eye 6 out. The outer diameter of the channel carrier element 7 is at his, the handlebar 27 facing axial foot end to form a step-shaped heel expands. Through the appropriate paragraph 21 is an end stop for the insertion of the bush bearing in the receiving eye 6 educated. As can be seen from the illustration, sticking out on the handlebar 27 remote axial side of the bush bearing parts, that is, at least one circumferential segment of the channel support member 7 , also from the receiving eye 6 and also from the elastomer of the bearing body 2 out. The after insertion of the bush bearing in the receiving eye 6 in the mounting direction 11 from this outstanding circumferential segments or tabs 22 . 22 ' are bent in the radial direction r outward and then form a backup, which is an axial emigration of the bearing from the receiving eye 6 contrary to the mounting direction 11 prevented. The bearing is in the receiving eye 6 thus in the axial direction a on the one hand by that of the paragraph 21 trained end stop of the channel carrier element 7 and on the other hand by the folded or folded flap or tabs 22 . 22 ' the channel carrier element 7 fixed. In the axial section, in which the channel support element 7 on the handlebar 27 facing side in the axial direction a from the receiving eye 6 protrudes, is on the radially inner side covered with rubber plastic ring 19 in the channel carrier element 7 inserted, by which to protect the Blähkammern 3 . 3 ' against radial overload Radial stops 20 . 20 ' are formed in the form of radially inwardly directed bulges. In the area of the other axial end of the bearing, if appropriate, radial stops may be formed, notwithstanding the embodiment shown by way of example.

According to the invention, the receiving eye forms 6 in its axial section receiving the bush bearing 10 , in the present case over its entire axial extent, an inner cone. The inner diameter of the receiving eye tapers from the cone foot 13 in the direction of the side facing away from the handlebar and the cone tip formed there 12 by one against the bearing axis 26 at an angle 25 between 1.5 ° and 2.3 ° inclined course of its inner wall. Corresponding herewith reduces the cross-section of the receiving eye 6 inserted elastomeric bushing bearing of a maximum cross-section 15 to a minimum cross-section 14 in the direction of the cone tip 12 of the recording eye 6 , The conical shape of the recording eye 6 and the bearing outer contour are due to the aforementioned low, but sufficient to achieve the object of the invention angle 25 barely visible in the image with the naked eye. As already explained, relieved the conical training the mounting of the bearing in the receiving eye 6 and prevents those in the area of the cone tip 12 formed by a corresponding profiling of the elastomeric bearing body seal 8th , which when inserting the bearing in the receiving eye 6 must be performed in the mounting direction over the entire axial extent through the receiving eye is damaged.

In the 2 is again the elastomeric bush bearing without the insert 19 for the formation of radial stops 20 . 20 ' shown in an axial sectional view. Good to see is its existence from the inner part 1 , with the inner part 1 vulcanization bonded elastomeric bearing body 2 and in the bearing body 2 vulcanized channel carrier element 7 , Furthermore, it can be seen by the outer contour when inserted into the receiving eye 6 forming Blähkammern 3 . 3 ' and the connecting channel 4 , The chambers 3 . 3 ' and the channel 4 are through on the outer contour of the bearing body 2 trained seals 8th . 9 sealed to prevent the escape of damping means.

In the 3 , which the bush bearing again in a plan view of the axial, according to 1 inserted in the bearing handlebar 27 facing away from side, it can be seen that its inner part 1 has a slightly elliptical shape. Here the big axis runs 17 the ellipse through the inflatable chambers 3 . 3 ' while her little axis 18 , to orthogonal, through which the chambers 3 . 3 ' relative to the circumferential direction u separating webs 16 . 16 ' runs. As a result, without affecting the radial height of the webs 16 . 16 ' enlarged, long expanding walls 23 . 23 ' . 24 . 24 ' for the blow chambers 3 . 3 ' realized. With a correspondingly large travel over the Blähkammern 3 . 3 ' are thereby the webs 16 . 16 ' even without the insertion of additional insert sheets sufficiently rigid and mechanically stable.

The warehouse according to the 2 and 3 is used to form the bearing assembly according to 1 under liquid, that is preferably in a bath of the later causing the hydraulic damping of the bearing damping means in the receiving eye 6 assembled. In a particularly advantageous manner, this builds in the course of insertion of the bearing in the receiving eye 6 of the bearing carrier 5 already a relatively high form in the hydraulic chamber of the arrangement, so the chambers 3 . 3 ' and the channel 4 , on.

1

inner part

2

bearing body

3, 3 '

Blähkammer

4

channel

5

bearing bracket

6

receiving eye

7

Channel support element

8th, 9

poetry

10

section

11

mounting direction

12

cone tip

13

Konusfuß

14

minimal cross-section

15

maximum cross-section

16 16 '

web

17

size axis

18

small axis

19

Insert, for example, plastic ring

20 20 '

radial stop

21

paragraph

22 22 '

flap

23 23 '

Blähwand

24 24 '

Blähwand

25

angle

26

bearing axle

27

(Axis) Handlebar

a

axial direction

r

radial direction

u

circumferentially

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 3818287 [0005]
• - DE 19859067 C2 [0005]
• - DE 4438932 A1 [0006]

Claims (12)

Bearing arrangement consisting of a bearing carrier ( 5 ) with a receiving eye ( 6 ) and one, by insertion or pressing in an axial mounting direction ( 11 ) in the receiving eye ( 6 ) inserted hydraulic damping elastomeric bush bearing with a tubular or strand-like inner part ( 1 ), the inner part ( 1 ) and associated with it by vulcanization elastomeric bearing body ( 2 ) and with at least two, relative to the bearing circumference, offset from each other and arranged by at least one channel ( 4 ) interconnected Blähkammern ( 3 . 3 ' ) for a fluid damping means, which from the outer contour of the bearing body ( 2 ) and the inner surface of the receiving eye ( 6 ) are enclosed, wherein radially spaced from the inner part at least one reinforcing element in the bearing body ( 2 ) is vulcanised, which is a channel carrier element ( 7 ) for the channel ( 4 ) and wherein the shape of the elastomer on the outer contour of the bearing body ( 2 ) Seals ( 8th . 9 ) for the Blähkammern ( 3 . 3 ' ) and / or the channel ( 4 ) are formed, characterized in that the receiving eye ( 6 ) in its sleeve bearing the receiving axial section ( 10 ) in the mounting direction ( 11 ) continuously tapered inner cone with a cone tip ( 12 ) and a cone foot ( 13 ) and that of the inner cone of the Aufnahmeauges ( 6 ) included axial section ( 10 ) of the bushing bearing adapted to the inner cone of the receiving eye ( 6 ), in the area of the cone tip ( 12 ) a minimal cross section ( 14 ) and in the area of the cone foot ( 13 ) a maximum cross section ( 15 ) having. Bearing assembly according to claim 1, characterized in that the inner wall of the receiving eye ( 6 ) formed inner cone in its course from the cone foot ( 13 ) to the cone tip ( 12 ) at an angle ( 25 ) between 1.5 ° and 2.3 ° against the bearing axis ( 26 ) is inclined. Bearing arrangement according to claim 1 or 2, characterized in that the cross section of the bearing body ( 2 ) in which of the inner cone of the Aufnahmeauges ( 6 ) comprised axial section ( 10 ) at one within this section ( 10 ) constant cross section of the inner part surrounded by it ( 1 ) between the maximum cross section ( 15 ) in the area of the cone foot ( 13 ) and the minimum cross section ( 14 ) in the area of the cone tip ( 12 ) varies. Bearing arrangement according to one of claims 1 to 3, characterized in that the inner part ( 1 ) of the bush bearing has a deviating from the circular cross-sectional area. Bearing arrangement according to one of claims 1 to 4, arranged with two relative to the bearing circumference of the bush bearing opposite one another and by elastomeric webs ( 16 . 16 ' ) of the bearing body ( 2 ) separate Blähkammern ( 3 . 3 ' ), characterized in that the cross-sectional area of the inner part ( 1 ) of the bush bearing is formed as an ellipse whose major axis ( 17 ) through the inflatable chambers ( 3 . 3 ' ) and its small axis ( 18 ) through the, the Blähkammern ( 3 . 3 ' ) separating webs ( 16 . 16 ' ) runs. Bearing arrangement according to one of claims 1 to 5, characterized in that in the bush bearing one or more inserts ( 19 ) are inserted through which axially above and / or below the Blähkammern ( 3 . 3 ' ) Radial stops ( 20 . 20 ' ) are formed. Bearing arrangement according to claim 6, characterized in that the radial stops ( 20 . 20 ' ) by on its radially inner side with an elastomer occupied inserts ( 19 ) are made of plastic or metal. Bearing arrangement according to claim 6, characterized in that the radial stops ( 20 . 20 ' ) by an elastomeric under bias and inserted in a positive connection to the bearing body ( 2 ) fixed insert ( 19 ) are formed. Bearing arrangement according to claim 6 or 7, characterized in that the channel carrier element ( 7 ) of the bush bearing in the area of the cone foot ( 13 ) of the receiving eye ( 6 ) formed inner cone opposite to the mounting direction ( 11 ) from the receiving eye ( 6 protrudes) and that in the from the receiving eye ( 6 ) protruding portion of an annular insert ( 19 ) into the channel carrier element ( 7 ) is inserted, the inner surface in each case in the peripheral region of the Blähkammern ( 3 . 3 ' ) has radially upwardly rising bulges through which radial stops ( 20 . 20 ' ) are formed. Bearing arrangement according to claim 9, characterized in that the outer diameter of the channel carrier element ( 7 ) in which from the receiving eye ( 6 ) protruding portion is stepped, wherein the thereby on the outer contour of the channel carrier element ( 7 ) existing paragraph 21 for the installation of the bushing bearing in the receiving eye by inserting or pressing in ( 6 ) in the axial mounting direction ( 11 ) forms an end stop. Bearing arrangement according to one of claims 1 to 10, characterized in that at least one of a peripheral segment of the channel carrier element ( 7 ) formed after insertion of the bush bearing in the receiving eye ( 6 ) at the cone tip ( 12 ) first from the receiving eye ( 6 ) hey protruding tab ( 22 . 22 ' ) after its folding radially outward a backup against an axial migration of the bush bearing from the receiving eye ( 6 ) contrary to the mounting direction ( 11 ) trains. Bearing arrangement according to one of claims 1 to 11, characterized in that in or on the bush bearing an additional as a bypass to the channel ( 4 ) acting throttle channel is formed, in which a blocking element is arranged, which only releases the throttle channel, provided that the radial load of Blähkammern ( 3 . 3 ' ) exceeds a predetermined maximum load.