Elastomer Bearing for Attaching an Assembly in a Vehicle

Abstract

An elastomer bearing includes a support block, a carrier, a bearing element, a stop damper, and an elastomer body. The bearing element is attached to the support block. The elastomer body connects the carrier to the bearing element. The support block and the carrier, as viewed in an axial direction of the bearing element, engage with one another with play. The stop damper is arranged in the region of the interface between the support block and the carrier. The stop damper limits a maximum displacement of the support block and the carrier, relative to one another both in a radial direction and in an axial direction.

Claims

1.-13. (canceled)

14. An elastomer bearing comprising: a support block; a stop damper; a carrier; a bearing element which is attached to the support block; and an elastomer body which connects the carrier to the bearing element, wherein the support block and the carrier, as viewed in an axial direction of the bearing element, engage with one another with play, and the stop damper is arranged in the region of the interface between the support block and the carrier, and the stop damper limits a maximum displacement of the support block and the carrier, relative to one another both in a radial direction and in an axial direction.

15. The elastomer bearing according to claim 14, wherein a cylindrical structure, which projects into the carrier, is provided on the support block.

16. The elastomer bearing according to claim 15, wherein the cylindrical structure is configured integrally in one piece with the support block.

17. The elastomer bearing according to claim 15, wherein the cylindrical structure is a bearing bushing which engages with the support block.

18. The elastomer bearing according to claim 17, wherein the stop damper is arranged on the cylindrical structure.

19. The elastomer bearing according to claim 17, wherein the stop damper is arranged on the carrier.

20. The elastomer bearing according to claim 19, wherein the stop damper is configured integrally in one piece with the elastomer body.

21. The elastomer bearing according to claim 19, wherein the stop damper is attached to a supporting ring.

22. The elastomer bearing according to claim 21, wherein the stop damper has a sleeve-shaped portion, which serves as a radial stop damper, and a collar, which serves as an axial stop damper.

23. The elastomer bearing according to claim 22, wherein the bearing element has a support-block-side portion and a carrier-side portion, which are screwed to one another.

24. The elastomer bearing according to claim 22, wherein the bearing element is formed of a single continuous body.

25. The elastomer bearing according to claim 24, wherein the bearing element is mounted in a bearing bushing via an elastomer bushing.

26. The elastomer bearing according to claim 25, wherein the elastomer body, in cross section along a center axis thereof, defines a shape of an X.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] FIG. 1 is a cross section through an elastomer bearing;

[0019] FIG. 2 is a cross section through an elastomer bearing; and

[0020] FIG. 3 is a cross section through an elastomer bearing.

DETAILED DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 shows an elastomer bearing 10 having a support block 12 and a carrier 14 which are vibrationally decoupled from one another by an elastomer body 16 and an elastomer bushing 18.

[0022] The elastomer bearing 10 can be used in particular to connect one component to another component in a vehicle, for example to mount an assembly such as a motor in an assembly carrier or a chassis frame on the vehicle body.

[0023] By way of example, the support block can be attached, for example screwed (see the schematically indicated screw holes 20), on the assembly side, whereas the carrier 14 is fastened on the vehicle side (see the schematically indicated screw holes 22). In principle, the support block 12 and the carrier 14 can also be assigned in an inverse manner.

[0024] A bearing bushing 24, within which the elastomer bushing 18 is arranged, is inserted into the support block 12. The elastomer bushing surrounds a support-block-side portion 26 of a bearing element 28.

[0025] The elastomer bushing 18 can be vulcanized onto the outer surface of the support-block-side portion 26 of the bearing element 28 and the inner surface of the bearing bushing 24.

[0026] The bearing element 28 also has a carrier-side portion 30, on which the elastomer body 16 is attached. The carrier-side portion 30 of the bearing element 28 is screwed to the support-block-side portion 26 (see the screw 32).

[0027] The elastomer body 16, in section, has an X shape, that is to say has two elastomer rings 34 which are oriented in the manner of disk springs whose inner edges have a smaller distance from one another than the outer edges.

[0028] Radial free spaces can also be provided within the elastomer rings 34, such that the elastomer rings 34 are embodied in the manner of spokes.

[0029] The two elastomer rings 34 of the elastomer body 16 are arranged, on the inner side, on conical surfaces 36 and are supported, on the outer side, on oblique surfaces 38. The conical surfaces 36 are configured in one piece with the carrier-side portion 30 of the bearing element 28.

[0030] The oblique surfaces 38 are arranged on two supporting rings 40, 42, wherein the supporting ring 40, as viewed in the axial direction, has approximately the width of the outer end of the elastomer ring 34, whereas the ring 42 is designed to be significantly wider such that it extends, on the side of the support block 12, to a significant extent beyond the elastomer body 16. A spacer 44 is arranged between the two supporting rings 40, 42.

[0031] Here, the supporting rings 40, 42 and the spacer 44 are mounted in a bearing housing 45 which is inserted into the carrier 14. However, it is also possible to dispense with the bearing housing and attach the components directly in the carrier 14.

[0032] The two elastomer rings 34 of the elastomer body 16 are configured in one piece with one another here; a material web which connects the two rings to one another can be seen.

[0033] The elastomer body 16 is arranged eccentrically in the carrier 14, and is specifically displaced such that it is located on the side which faces away from the support block 12 and there is still an axial free space within the carrier 14. Projecting as cylindrical structure into this free space is the bearing bushing 24 which projects beyond the carrier-side outer surface of the support block. The bearing bushing 24 thus engages in the carrier 14 with play. Expressed differently, there is an overlap between the support block 12 (more specifically the bearing bushing 24 attached to the support block 12) and the carrier 14 in the radial direction.

[0034] On that part of the bearing bushing 24 which protrudes beyond the support block 12, there is arranged a stop damper 46 which has a sleeve-shaped portion 48 and a collar 50. The stop damper is formed from elastomer material and is used to limit the maximum relative movement between the support block 12 and the carrier 14. Specifically, the sleeve-shaped portion 48 is used to limit a movement in the radial direction, whereas the collar 50 is used to limit the maximum movement in the axial direction, in which the distance between the support block 12 and the carrier 14 is reduced.

[0035] The sleeve-shaped portion 48 lies within the region of the ring 42 which projects beyond the elastomer body 16 in the axial direction. The stop damper thus acts in the radial direction as soon as the free space between the outer surface of the sleeve-shaped portion 48 and the cylindrical inner surface of the ring 42 is exhausted.

[0036] In the axial direction, the stop damper 46 acts as soon as the distance between the support-block-side outer surface of the collar 50 and the opposite outer surface of the support block is exhausted.

[0037] The stop damper 46 can be vulcanized onto the bearing bushing 24.

[0038] By means of the elastomer body 16 and the elastomer bushing 18, the support block 12 and the carrier 14 are vibrationally decoupled from one another, wherein the elastomer body 16 can be matched with different vibration excitations than the elastomer bushing 18. In this case, suitable selection of the weight of the bearing element 28 makes it possible for the absorber formed by bearing element and elastomer bushing to be matched with a desired frequency, which is absorbed.

[0039] A refinement is shown in FIG. 2. The same reference designations are used for the components from the above embodiment, and reference is made to the explanations above in this respect.

[0040] The difference between the embodiments is that the stop damper 46 is attached to the carrier 14 in the case of this embodiment.

[0041] It is conceivable for the stop damper 46 to be attached to the ring 42. However, in the embodiment shown, the ring 42 is designed to be narrower than in the case of the previous embodiment, such that a retaining ring 55 is attached next to the ring 42, the sleeve-shaped portion 48 of the stop damper 46 being located on the inner surface of said retaining ring. The collar 50 extends along the support-block-side outer surface of the carrier 14.

[0042] With regard to the function of the stop damper, there are no differences in relation to the previous embodiment.

[0043] Another refinement is shown in FIG. 3. The same reference designations are used for the components from the above embodiment, and reference is made to the explanations above in this respect.

[0044] A difference in relation to the previous embodiments is that, in this embodiment, a bearing bushing does not project in the axial direction proceeding from the support block 12 into the carrier 14, but rather the support block 12 is provided with a cylindrical structure 60 in the present embodiment, said cylindrical structure being configured in one piece with said support block and extending into the interior of the carrier 14. The elastomer bushing 18 is arranged within the cylindrical structure 60, said elastomer bushing being connected on the inner side to a bearing bushing 62 here. The bearing element 28 is then mounted within the bearing bushing 62.

[0045] A further difference is that the bearing element 28 is of continuous design in the present embodiment.

[0046] A yet further difference lies in the configuration of the stop damper. Here, the stop damper is configured in one piece with the elastomer body 16 and extends, proceeding from the outer circumference of the inner elastomer ring 34, with its sleeve-shaped portion 48 along the ring 42, which is configured in the manner discussed above, and then with its collar 50 along the outer surface of the carrier 14.

[0047] A factor common to all embodiments is that they have a defined stop system in the radial direction, said stop system being independent of the different relative movements of the elastomer body 16 and the elastomer bushing 18. Furthermore, a compact construction is produced which can also be used in confined installation spaces.