DE10018763A1 - Joint with an eccentrically and angularly adjustable bearing shell comprises a spherical element with a bore for the bearing shell which has a bore for an eccentrically and angularly adjustable bolt - Google Patents

Abstract

The joint with an eccentrically and angularly adjustable bearing shell (5) comprises a spherical element (3) with a bore (4) for the bearing shell. The latter has a bore (16) for a bolt in such a way that this bolt is eccentrically and angularly adjustable relative to the joint outer ring (1).

Description

The present invention relates to a joint with an eccentric and angular adjustable spherical bearing sleeve according to the preamble of claim 1.

The joint in question here is in particular a Guide joint for setting the toe-in or camber angle of the wheels Motor vehicle.

So far, solutions with elongated holes and for lane adjustment or camber adjustment Eccentric screws or adjustable tie rods and sliding sleeves are known. The Arrangement of an eccentric screw in an elongated hole leads due to the im Chassis area high forces that cause the screw connection with a high preload must be applied, since that of the Chassis components held over these high forces Friction must be transmitted to apply shear to the screw avoid. At the same time, more and more are growing in the chassis area of motor vehicles Aluminum alloy components used because of the significantly reduced unsprung masses a higher driving comfort can be achieved in the chassis area. It However, this in turn leads to high pretensioning forces in such Aluminum alloy components cause the material to flow and thus to permanent damage.

The present invention is therefore based on the object of a joint for to create the lane and camber setting of a vehicle, which the problem avoids the flow of the material due to high surface pressures.

To achieve this object, the invention has that specified in claim 1 Characteristics on. Advantageous refinements of this are in the further claims described.  

According to the invention, a joint with an eccentric and angularly adjustable Joint bearing sleeve provided, the joint an outer joint ring and a has rotatably received spherical body, the spherical body a Has through hole and the spherical bearing sleeve is received and the Spherical bearing sleeve has an eccentric mounting hole for a bolt in such a way that the bolt can be adjusted eccentrically and angularly relative to the outer ring.

Due to the eccentric through hole in the spherical bearing sleeve achieved that by rotating the spherical body relative to the outer joint ring an eccentric arrangement of the in the receiving bore of the spherical bearing sleeve arranged bolt is reached. At the same time, the spherical body can also be relative to Longitudinal central axis of the outer joint ring are pivoted so that an angular Setting the longitudinal central axis of the bolt relative to the longitudinal central axis of the Joint outer ring is possible.

To simplify the manufacture of the joint according to the invention, it is provided that that the spherical bearing sleeve is designed to be divided transversely to its longitudinal direction in such a way that the spherical bearing sleeve halves can be pressed into the through hole of the spherical body are. It can thus be manufactured in each case identical spherical bearing sleeve halves and in the Through hole of the spherical body are pressed in on both sides, so that they with their end faces opposite each other in the through hole of Ball body can be included.

The spherical bearing sleeve halves have an advantageous embodiment Thrust collar for support on thrust surfaces of the spherical body, so that the penetration depth the joint bearing sleeve half in the through hole of the spherical body through the The contact surfaces of the spherical body lie on one another with the contact collar Sleeve halves is limited.

According to a further advantageous development of the invention, it is provided that the spherical bearing sleeve halves in their mounting holes for the bolt Positive locking profile for positive locking with a complementary profile on Bolts have such that the spherical body by applying force to the Bolt can be rotated so that the longitudinal axis of the bolt is relative to Joint center axis can be offset and thus an eccentric arrangement of the Central axis of the bolt relative to the longitudinal central axis of the outer joint ring is possible.  

An alternative to this can be on one or the joint bearing sleeve halves on one externally accessible area also a profile for engaging with a tool such as for example, a flat or a square profile for engagement with one An open-end wrench can be provided for turning the spherical body.

According to the invention, it is provided that the area between the outer ring and the spherical bearing sleeve halves is sealed by means of two sealing bellows, wherein these on the outer ring and on the spherical bearing sleeve halves by means of clamping rings can be set.

To facilitate the relative movement between the spherical body and the Joint outer ring is provided that the contact area between the hollow body and the outer ring has a sliding layer, in particular polytetrafluoroethylene can have.

The invention is explained below with reference to the drawing. This shows in:

Figure 1 is a sectional view of a joint according to the invention.

Fig. 2 is a left side view of the joint of Fig. 1;

Figure 3 is a schematic and partial representation of a rear axle of a motor vehicle with two joints for adjusting the camber angle. and

Fig. 4 is a schematic perspective view of a wheel suspension with a joint for adjusting the toe-in.

Fig. 1 of the drawing shows a sectional view of an embodiment of a joint according to the invention. The joint has an outer joint ring 1, on the inside of which a spherical segment-shaped contact surface 2 is formed, on which a spherical body 3 can perform a sliding movement relative to the contact surface 2 via a sliding layer made of polytetrafluoroethylene.

The spherical body 3 has a through hole 4 in which a joint bearing sleeve 5 is arranged, the joint bearing sleeve 5 being composed of two joint bearing sleeve halves 6 , 7 which can be pressed into the through hole 4 from both sides of the through hole 4 .

The arrangement of the spherical bearing sleeve halves 6 , 7 in the through bore 4 is such that the end faces 8 of the spherical bearing sleeve halves 6 , 7 lie opposite one another with a small gap 9 .

To arrange the two spherical bearing sleeve halves 6 , 7 , they are pressed into the through hole 4 from both sides, so that a thrust collar 10 on the respective spherical bearing sleeve halves 6 , 7 comes into contact with a contact surface 11 of the spherical body 3 .

To seal the contact surface 2 , a sealing bellows 12 is provided on both sides of the through-bore 4 , which can be releasably secured via clamping rings 13 both on the cylinder outer surface 14 and on an inner shoulder 15 of the outer joint ring 1 .

The spherical bearing sleeve 5 formed from the two spherical bearing sleeve halves 6 , 7 has an eccentric through bore 16 into which a bolt, not shown in the drawing, can be inserted. The spherical bearing sleeve halves 6 , 7 each have a positive-locking profile 17 in the area of their outer cylinder surfaces 14 , which is in engagement with a complementarily designed profile on the bolt, so that a rotational movement of the spherical body 3 on the contact surface 2 relative to the outer joint ring 1 is brought about by applying force to the bolt can. Due to the eccentric position of the through hole 16 relative to the longitudinal central axis 18 of the spherical body 2 , which can be seen in more detail in FIG. 2, this relative movement of the spherical body 2 to the outer joint ring 1 leads to an adjustment possibility of the longitudinal central axis 19 of the through bore 16 of the spherical bearing sleeve 6 relative to the longitudinal central axis 18 of the spherical body 2 ( FIG . 2).

Readily as with reference to FIG. 1 of the drawing, the spherical body 2 also in the angle can be adjusted relative to the longitudinal center axis 20 of the joint outer ring 1, so ultimately disposed in the through hole 16 bolt that relative to the outer ring 1, both eccentrically and angularly is adjustable.

Fig. 3 of the drawings, there is shown an example of application of the joint according to the invention for adjusting a camber rolling on a road surface 21 wheel 22. A wheel carrier 23 is coupled to upper and lower wishbones 25 , 26 via two joints 24 according to the invention. For adjusting the camber angle 27, the spherical body will be 2 of the two joints 24 twisted about arranged in the through holes 16 of the joints 24 pins in relation to the longitudinal central axes 20 of the joint outer ring 1, then a movement that according to the double arrow 28 in FIG. 3 of the drawing, and thus a Change of the camber angle 27 results.

Fig. 4 of the drawing now shows an application example of the joint according to the invention for adjusting the toe-in on a vehicle wheel. A joint 24 is arranged between the wheel carrier 23 and a front lower wishbone 29 , so that by moving the spherical body 2 relative to the outer joint ring 1 , as described above, an adjustment according to the double arrow 30 of the toe-in of the wheel 22 relative to the trailing arm 31 is possible.

Due to the large contact surface 2 compared to known solutions, the surface pressure in the contact area between the outer ring 1 and the spherical body 3 is significantly reduced and the risk of damage from high surface pressures is thus avoided.

With regard to the features of the invention not explained in detail above otherwise expressly referred to the claims and the drawing.  

REFERENCE SIGN LIST

1

Outer joint ring

2

Contact area

3rd

Spherical body

4

Through hole

5

Spherical bearing sleeve

6

Spherical bearing sleeve half

7

Spherical bearing sleeve half

8th

Face

9

gap

10th

Start-up covenant

11

Contact area

12th

Sealing bellows

13

Tension rings

14

Cylinder outer surface

15

Interior heel

16

eccentric through hole

17th

Positive locking profile

18th

Longitudinal central axis

19th

Longitudinal central axis

20th

Longitudinal central axis

21

Road surface

22

wheel

23

Wheel carrier

24th

joint

25th

Wishbones

26

Wishbones

27

Camber angle

28

arrow

29

lower front wishbone

30th

arrow

31

Trailing link

Claims (7)

1. joint with an eccentric and angularly adjustable spherical bearing sleeve ( 5 ) with an outer joint ring ( 1 ) and a spherical body ( 3 ) rotatably received therein, characterized in that the spherical body ( 3 ) has a through hole ( 4 ) and the spherical bearing sleeve ( 5 ) is accommodated therein and has a receiving bore ( 16 ) for a bolt in such a way that the bolt can be adjusted eccentrically and angularly relative to the outer ring ( 1 ). 2. Joint according to claim 1, characterized in that the spherical bearing sleeve ( 5 ) is divided transversely to its longitudinal direction in such a way that the spherical bearing sleeve halves ( 6 , 7 ) in the through bore ( 4 ) of the spherical body ( 2 ) can be pressed. 3. Joint according to claim 1 or 2, characterized in that the joint bearing sleeve halves ( 6 , 7 ) have a thrust collar ( 10 ) for support on thrust surfaces ( 11 ) of the spherical body ( 3 ). 4. Joint according to one of claims 1 to 3, characterized in that the spherical bearing sleeve halves ( 6 , 7 ) in their receiving bores ( 16 ) have a positive-locking profile ( 17 ) for positive locking with a complementary profile on the bolt such that the spherical body ( 3 ) It can be rotated on the bolt by means of the application of force such that the longitudinal axis ( 19 ) of the bolt can be displaced relative to the central axis of the joint ( 18 ). 5. Joint according to one of claims 1 to 4, characterized in that the area between the outer ring ( 1 ) and the joint bearing sleeve halves ( 6 , 7 ) is sealed by means of two sealing bellows ( 12 ). 6. Joint according to claim 5, characterized in that the sealing bellows ( 12 ) on the outer ring ( 1 ) and on the joint bearing sleeve halves ( 6 , 7 ) can be fixed by means of clamping rings ( 13 ). 7. Joint according to one of claims 1 to 6, characterized in that a sliding layer made of in particular polytetrafluoroethylene is provided in the contact area ( 2 ) between the spherical body ( 3 ) and the outer ring ( 1 ).