DE102015209776A1 - Strut mounts - Google Patents

Abstract

The invention relates to a strut bearing with a cap (1) and with respect to the cap (1) rotatably mounted guide ring (2), wherein between the cap (1) and the guide ring (2) a bearing element (3) is arranged, wherein further the cap (1) comprises a soft component (4) and a hard component (5), and wherein the soft component (4) has at least two circumferential sealing lips (6a, 6b) which, in order to seal the bearing element (3), rub against the guide ring (2 ) issue.
According to the invention, at least one of the two circumferential sealing lips (6a, 6b) is arranged radially between the bearing element (3) and a snap device, wherein the snap device for detachable connection between the cap (1) and guide ring (2) has a first axially relative to the guide ring (2). extending, circumferentially on the hard component (5) formed snap hook (7) and a second axially to the cap (1) extending circumferentially on the guide ring (2) formed snap hook (8).

Description

The invention relates to a suspension strut bearing with a cap and with respect to the cap rotatably mounted guide ring, wherein between the cap and the guide ring, a bearing element is arranged, wherein the cap further comprises a soft component and a hard component, and wherein the soft component has at least two circumferential sealing lips , which abut the sealing ring of the bearing element to the guide ring.

Field of the invention

Strut bearings are part of the suspension for independent suspension. The suspension supports a desired driving safety and driving comfort, as well as easy and precise steering of the wheels. The suspension should keep road noise from the structure and be as light as possible. Depending on the version, the suspension strut bearing guides the shock absorber spring and forms a support surface for the shock absorber end stop. The strut bearing absorbs the transmitted via the shock absorber spring and the shock absorber radial and axial forces and ensures that the shock absorber spring during steering and compression twisted friction and tension-free and thus operates without restoring moment.

Strut bearings are often part of the so-called McPherson struts. The strut consists essentially of spring, shock absorbers and steering knuckle. The strut bearing is provided with a cap which is fixed to the chassis-side strut tower, and with a guide ring on which the shock absorber spring is supported and guided by this. The guide ring is rotatably mounted relative to the cap. The bearing allows steering of the spring relative to the body during steering, as the entire strut rotates during steering movements.

From the DE 10 2006 057 559 A1 a strut bearing is known which has a cap consisting of a soft component and a hard component and a rotatable relative to the cap guide ring. Between cap and guide ring a thrust bearing is arranged. The soft component is formed as a sealing element which extends from an inner periphery to an outer periphery of the cap. The soft component has two sealing lips. The sealing lips are rubbing against the guide ring. Further, on the soft component, an axially extending to the guide ring circumferential snap hook is formed, which cooperates with a radial groove on the guide ring to releasably connect the cap to the guide ring. Due to the elastic snap connection between the cap and the guide ring relatively low disassembly forces of at most 200 N are necessary to separate the cap from the guide ring.

task

The object of the invention is to further develop a suspension strut bearing, and form particularly stable. Furthermore, the seal of a suspension strut bearing should be optimized.

Inventive solution

According to the invention, at least one of the two circumferential sealing lips is arranged radially between the bearing element and a snap device, wherein the snap device for detachable connection between cap and guide ring has a first snap hook extending axially to the guide ring, peripherally formed on the hard component, and a second axially extending to the cap, has circumferentially formed on the guide ring snap hook.

In other words, high disassembly forces are required due to the rigid snap connection between the two snap hooks to separate the cap from the guide ring. In particular, the disassembly forces are between 800 N and 1200 N, particularly preferably 1000 N. This substantially increases the stability of the connection between the cap and guide ring. Further, by the arrangement of at least one of the two circumferential sealing lips radially between the bearing element and the snap device, the sealing of the strut bearing optimized. The interposed sealing lip is namely located in a protected area, which is accessible from the outside only by fine particles and moisture.

Preferably, the two sealing lips come to a respective axially inclined portion of the guide ring grinding to the plant. The two sections of the guide ring running obliquely in the axial direction are designed in such a way that they radially expand the two sealing lips in the event of an axial approach between the cap and the guide ring, thereby increasing the sealing effect. Thus, the two axially sloping portions of the guide ring form an axial ramp which rises radially outward from the cap to the guide ring.

Particularly preferably, the inclined portion of the guide ring is formed on the second snap hook, wherein the second circumferential sealing lip comes to rest on the inclined portion of the snap hook on the guide ring. Thus, the second circumferential forms Sealing lip a sealing surface on the inclined portion of the snap hook on the guide ring.

The invention includes the technical teaching that the hard component is provided for receiving radial and axial forces. In contrast, the soft component for sealing a lubricant-filled storage space, which is formed axially between the cap and the guide ring and radially between the two sealing lips provided. Thus, only forces are induced in the hard component. The axial forces are introduced via the axial end faces of the cap in the hard component, wherein the radial forces are introduced via arranged on the outer diameter of the cap press-in ribs in the hard component. Furthermore, the disassembly forces are introduced via the first snap hook into the hard component. The lubricant is preferably grease.

Furthermore, the soft component is preferably made of a polyurethane elastomer material and the hard component is made of a polyamide material. Advantageously, the cap is produced in a two-component injection molding time-saving and inexpensive. The polyamide material offers a sufficient strength and dimensional stability, wherein the polyurethane elastomer material has a necessary elasticity.

Preferably, the two snap hooks form a gap seal against dirt particles. Thus, the two snap hooks are also intended to seal the storage room, in particular the entrance of coarse dirt particles is reliably prevented. Advantageously, the gap seal is formed axially between the two snap hooks.

According to a preferred embodiment, the bearing element is designed as a ball bearing, comprising a voltage applied to the cap inner ring and a voltage applied to the guide ring outer ring and arranged therebetween rolling elements.

According to a preferred embodiment, the bearing element is designed as a sliding bearing.

Brief description of the drawing

Further measures improving the invention will be described in more detail below together with the description of preferred embodiments of the invention with reference to the two figures. Show it

1 a schematic detail sectional view illustrating the structure of a strut mount according to the invention according to a first embodiment, and

2 a schematic detail sectional view to illustrate the construction of a strut mount according to the invention according to a second embodiment.

Detailed description of the drawing

According to the 1 and 2 has a strut bearing according to the invention for a - not shown here - motor vehicle cap 1 and a guide ring 2 on. The guide ring 2 is opposite the cap 1 rotatably mounted about a longitudinal axis, wherein between the cap 1 and the guide ring 2 a bearing element 3 is arranged. The cap 1 includes a soft component 4 and a hard component 5 , wherein the soft component 4 made of a polyurethane elastomeric material and the hard component 5 is made of a polyamide material. Further, the cap 1 produced in a two-component injection molding process.

The soft component 4 has two circumferential sealing lips 6a . 6b on, to seal the bearing element 3 grinding on the guide ring 2 issue. Here are the two sealing lips 6a . 6b at a respective axially inclined portion 9a . 9b of the guide ring 2 grinding to the plant. The sealing lip 6b is formed such that in addition to a first, the inclined portion 9a grinding legs, a second, radially outer leg formed. The second, radially outer leg has the task of coarse dirt from the bearing element 3 keep away.

Axial between the cap 1 and the guide ring 2 as well as radially between the two sealing lips 6a . 6b is a with a - not shown here - lubricant filled storage space 10 in which the bearing element 3 is arranged, formed. The soft component 4 is for sealing the lubricant-filled storage room 10 intended.

At the hard component 5 is an axial to the guide ring 2 extending circumferential snap hook 7 formed with an axially to the cap 1 extending circumferential snap hook 8th on the guide ring 2 interacts with the cap 1 detachable with the guide ring 2 connect to. The second circumferential sealing lip 6b comes on the snap hook 8th of the guide ring 2 to the plant. The hard component 5 is intended to absorb radial and axial forces. When mounting the cap 1 with the guide ring 2 become the two snap hooks 7 . 8th positioned to each other. The two snap hooks form 7 . 8th a gap seal 11 against dirt particles. A Disassembly of the cap 1 from the guide ring 2 is due to the relatively rigid snap hook 7 . 8th only possible with high disassembly forces above 800 N.

To 1 is the bearing element 3 formed as a ball bearing, comprising one on the cap 1 adjoining inner ring 12 and one on the guide ring 2 adjacent outer ring 13 and arranged therebetween rolling elements 14 ,

According to 2 is the bearing element 3 designed as a plain bearing.

LIST OF REFERENCE NUMBERS

1

cap

2

guide ring

3

bearing element

4

soft component

5

hard component

6a, 6b

sealing lip

7

snap hooks

8th

snap hooks

9a, 9b

sloping section

10

storage space

11

gap seals

12

inner ring

13

outer ring

14

rolling elements

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 102006057559 A1 [0004]

Claims (10)

Suspension strut bearing with a cap ( 1 ) and with one opposite the cap ( 1 ) rotatably mounted guide ring ( 2 ), whereby between the cap ( 1 ) and the guide ring ( 2 ) a bearing element ( 3 ) is arranged, further wherein the cap ( 1 ) a soft component ( 4 ) and a hard component ( 5 ), and wherein the soft component ( 4 ) at least two circumferential sealing lips ( 6a . 6b ), which for sealing the bearing element ( 3 ) sliding on the guide ring ( 2 abutment, characterized in that at least one of the two circumferential sealing lips ( 6a . 6b ) radially between the bearing element ( 3 ) and a snap device is arranged, wherein the snap device for releasably connecting between cap ( 1 ) and guide ring ( 2 ) a first axially to the guide ring ( 2 ) extending around the hard component ( 5 ) trained snap hook ( 7 ) and a second axially to the cap ( 1 ) extending, circumferentially on the guide ring ( 2 ) trained snap hook ( 8th ) having. Strut bearing according to claim 1, characterized in that the two sealing lips ( 6a . 6b ) at a respective axially inclined portion ( 9a . 9b ) of the guide ring ( 2 ) come to a grinding contact. Strut bearing according to claim 2, characterized in that the inclined portion ( 9b ) of the guide ring ( 2 ) on the second snap hook ( 8th ), wherein the second circumferential sealing lip ( 6b ) at the inclined portion ( 9b ) of the snap hook ( 8th ) on the guide ring ( 2 ) comes to the plant. Strut bearing according to claim 1, characterized in that the hard component ( 5 ) is provided for receiving radial and axial forces. Strut bearing according to claim 1, characterized in that the soft component ( 4 ) for sealing a lubricant-filled storage room ( 10 ) axially between the cap ( 1 ) and the guide ring ( 2 ) and radially between the two sealing lips ( 6a . 6b ), is provided. Strut bearing according to claim 1, characterized in that the soft component ( 4 ) is made of a polyurethane elastomer material and the hard component ( 5 ) is made of a polyamide material. Strut bearing according to claim 1, characterized in that the two snap hooks ( 7 . 8th ) a gap seal ( 11 ) against dirt particles. Strut bearing according to claim 1, characterized in that the bearing element ( 3 ) is formed as a ball bearing, comprising one on the cap ( 1 ) adjacent inner ring ( 12 ) and one on the guide ring ( 2 ) adjacent outer ring ( 13 ) and arranged therebetween rolling elements ( 14 ). Strut bearing according to claim 1, characterized in that the bearing element ( 3 ) is designed as a sliding bearing. Strut bearing according to claim 1, characterized in that the cap ( 1 ) is produced in a two-component injection molding process.

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