FRICTION CLUTCH WITH A COVER MADE FROM SHEET METAL WITH FOLDED ANTI-FRICTION BEARING SEATS, TRANSMISSION ARRANGEMENT AND PRODUCTION METHOD

Abstract

A friction clutch for a drive train of a motor vehicle includes a cover. The cover is a deep drawn sheet metal component having a contour with folds. The folds form an inner bearing seat for receiving an inner anti-friction bearing for mounting a shaft or an outer bearing seat for receiving an outer anti-friction bearing for mounting the friction clutch in a transmission housing. The folds may include radial folds. The contour may be sinusoidal in a circumferential direction.

Claims

1. A friction clutch for a drive train of a motor vehicle, with a cover which, in order to be mounted in a transmission housing or in order to mount a shaft, has an inner bearing seat or an outer bearing seat for respective receiving of an anti-friction bearing, wherein the cover is a (deep-drawn) sheet metal a component having a contour with folds in the region of the inner bearing seat or the outer bearing seat.

2. The friction clutch according to claim 1, wherein the cover comprises radial folds in the inner bearing seat or the outer bearing seat.

3. The friction clutch according to claim 1, wherein the contour runs sinusoidally in a circumferential direction.

4. The friction clutch according to claim 2, wherein the radial folds are selected to be so thick and lie so close together that, for machining of the inner bearing seat or the outer bearing, when the planned removal material is removed, sufficient residual material remains for a desired stability.

5. The friction clutch according to claim 2, further comprising a groove for receiving a securing ring introduced into the folds.

6. The friction clutch according to claim 1, wherein the contour with folds is machined on its inside to form the inner bearing seat and on its outside to form the outer bearing seat.

7. The friction clutch according to claim 1, wherein the cover has axial folds on a surface that is oriented perpendicular to an axis of rotation of the cover.

8. The friction clutch according to claim 7, wherein a groove for a securing ring assigned to an inner bearing is further away from a region with axial folds than a groove for a securing ring assigned to an outer bearing.

9. A transmission arrangement with a transmission housing in which the friction clutch according to claim 1 is supported via an anti-friction bearing and an input shaft is mounted via a further anti-friction bearing in the cover of the friction clutch.

10. A method for manufacturing the friction clutch according to claim 1, wherein the inner bearing seat to the outer bearing seat is folded.

11. A friction clutch for a drive train of a motor vehicle comprising a cover, the cover being a deep drawn sheet metal component comprising: a contour comprising folds forming: an inner bearing seat for receiving an inner anti-friction bearing for mounting a shaft; or an outer bearing seat for receiving an outer anti-friction bearing for mounting the friction clutch in a transmission housing.

12. The friction clutch of claim 11 wherein the folds comprise radial folds.

13. The friction clutch of claim 11 wherein the contour is sinusoidal in a circumferential direction.

14. The friction clutch of claim 13 wherein the radial folds are sufficiently thick to maintain a desired stability after material is removed during machining of the inner bearing seat or the outer bearing seat.

15. The friction clutch of claim 13 wherein the contour further comprises a groove for receiving a securing ring disposed in the folds.

16. The friction clutch of claim 11 wherein: the contour is machined on its inside to form the inner bearing seat; or the contour is machined on its outside to form the outer bearing seat.

17. The friction clutch of claim 11 wherein the cover further comprises axial folds on a surface oriented perpendicular to an axis of rotation of the cover.

18. The friction clutch of claim 17 wherein the cover further comprises: a groove for an inner bearing securing ring disposed at a first distance from the axial folds; and a groove for an outer bearing securing ring disposed at a second distance, less than the first distance, from the axial folds.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] The present disclosure is further explained below with the aid of drawings. An example embodiment is shown. In the figures:

[0021] FIG. 1 shows a longitudinal section through a friction clutch according to the disclosure, in which not all components that are valuable for the friction clutch are shown,

[0022] FIG. 2 shows an enlarged longitudinal section through the cover of the friction clutch from FIG. 1, shown in isolation,

[0023] FIG. 3 shows a cross-sectional illustration along the line III from FIG. 2 through the cover of the friction clutch according to the disclosure,

[0024] FIG. 4 shows a cross section through the cover of the friction clutch from FIG. 1 with anti-friction bearings which are assigned to an inner bearing seat and an outer bearing seat, and

[0025] FIG. 5 shows the construction of a drive train of a motor vehicle with the friction clutch inserted according to FIG. 1.

DETAILED DESCRIPTION

[0026] The figures are only schematic in nature and serve only for comprehension of the disclosure. The same elements are provided with the same reference signs.

[0027] FIG. 1 shows a first exemplary embodiment of a friction clutch 1 according to the disclosure. The friction clutch 1 is intended to be installed in a drive train 2 of a motor vehicle 3, for which reason reference is made to FIG. 5.

[0028] Returning to FIG. 1, it should be explained that the friction clutch 1 is inserted in a transmission housing 4 so that it can rotate. Inside the friction clutch 1, a shaft 5 such as an input shaft is rotatably inserted. For this double mounting, there is an inner bearing seat 6 and an outer bearing seat 7 on a cover 8 of the friction clutch 1. There are bearings provided there.

[0029] The cover 8 is a sheet metal component, in particular a deep-drawn component. The inner bearing seat 6 is provided for accommodating an inner anti-friction bearing 9, whereas the outer bearing seat 7 is provided for accommodating an outer anti-friction bearing 10. More precisely, an inner (bearing) ring 25 of the outer anti-friction bearing 10 sits on the outer bearing seat 7, whereas an outer (bearing) ring 26 of the inner anti-friction bearing 9 sits on the inner bearing seat 6.

[0030] In the region of the inner bearing seat 6 and the outer bearing seat 7, a contour with folds 11 is formed. In the region of this contour 11, which runs around an axis of rotation 12, radial folds 13 are present. These radial folds 13 of the cover 8 can also be seen clearly in FIGS. 3 and 4. However, it is noticeable that due to the waviness of the folds 13, the bearing seat 6 is not located above the axis of rotation 12 in the longitudinal section plane.

[0031] Both in the region of the inner bearing seat 6 and in the region of the outer bearing seat 7 there is a groove 14 for receiving a securing ring 15. The axis of rotation 12 specifies the axial direction 16, with a radial direction 17 running perpendicular thereto. It is valuable for the principle of the friction clutch 1 if a counterplate 18 is used, which clamps a clutch disc 20 together with a pressure plate 19 in the force-transmitting/torque-transmitting state.

[0032] The presence of the radial folds 13 in the region of the inner bearing seat 6 and the outer bearing seat 7 is visualized in FIG. 2. The material 21 removed during machining is indicated by dashed lines. In the case of such a machining operation, shoulders 22 are then also machined for axial contact with the anti-friction bearings 9 and 10, which are not shown in FIG. 2. Centrally between the bearing seats 6 and 7 there is an area with axial folds 23. The inner bearing seat 6 is finally worked out by means of machining on the outside. A sheet metal thickness set after non-cutting forming and before milling is referenced with the reference number 24.

[0033] The radial folds 13 are selected to be so thick and lie so close together that for machining of the bearing seat 6 and/or 7 when the planned removal material 21 is removed there remains enough/sufficient residual material for a given/desired stability. The thickness is measured in the radial direction. Before machining, an initial thickness/virtual thickness (shown in dashed lines in FIG. 2) is greater than after machining. The processed state is shown in FIG. 4. The region of the bearing seat is thus artificially thickened by the folding. It is thickened to such a level that sufficient material is available so that the desired contour can be achieved during machining and still enough residual material remains.

[0034] In FIG. 3, the sinusoidal contour 11 including the radial folds 13 becomes clear. Also, the machined shoulders 22 at the base of each radial fold 13 are evident.

[0035] If a cross section is taken through the cover 8 in the region of the inner and outer bearing seats 6 and 7 when the anti-friction bearings 9 and 10 are mounted, the situation shown in FIG. 4 arises. In the present case, the inner and outer anti-friction bearings 9 and 10 are ball bearings. The inner ring of the outer anti-friction bearing 10 is referenced with the reference number 25. An outer ring of the inner anti-friction bearing 9 is referenced with the reference number 26.

[0036] A general overview is finally shown in FIG. 5, with the drive train 2 of the motor vehicle 3 also having a hybrid module 27. Furthermore, an internal combustion engine 28 is coupled to a flywheel 29 in order ultimately to selectively transmit torque via a friction clutch to the hybrid module and then via a transmission 30 to two drive wheels 31.

REFERENCE NUMERALS

[0037] 1 Friction clutch

[0038] 2 Drive train

[0039] 3 Motor vehicle

[0040] 4 Transmission housing

[0041] 5 Shaft

[0042] 6 Inner bearing seat

[0043] 7 Outer bearing seat

[0044] 8 Cover

[0045] 9 Inner anti-friction bearing

[0046] 10 Outer anti-friction bearing

[0047] 11 Contour with folds

[0048] 12 Axis of rotation

[0049] 13 Radial fold

[0050] 14 Groove

[0051] 15 Securing ring

[0052] 16 Axial direction

[0053] 17 Radial direction

[0054] 18 Counterplate

[0055] 19 Pressure plate

[0056] 20 Clutch disc

[0057] 21 Removed material/disposal material

[0058] 22 Shoulder

[0059] 23 Axial fold

[0060] 24 Sheet metal thickness

[0061] 25 Inner ring of the outer anti-friction bearing

[0062] 26 Outer ring of the inner anti-friction bearing

[0063] 27 Hybrid module

[0064] 28 Internal combustion engine

[0065] 29 Flywheel

[0066] 30 Transmission

[0067] 31 Drive wheel