Axial rolling bearing

Abstract

An axial rolling bearing consisting of at least one annular bearing disc which has a circumferential raceway arched in profile cross section, and consisting of a multiplicity of rolling elements formed as bearing needles or bearing rollers and arranged next to one another in a circular form, which roll on the raceway of the bearing disc and are kept at uniform distances from one another by a bearing cage. The arched raceway is formed having at least one circumferential groove-shaped depression at least in the region of one of the two ends of the rolling elements.

Claims

1. An axial rolling bearing comprising: an annular bearing disc, which has a circumferential raceway arched in profile cross section; and a multiplicity of rolling elements formed as bearing needles or bearing rollers and arranged next to one another in a circular form, which roll on the raceway of the bearing disc and are kept at uniform distances from one another by a bearing cage; wherein, in a region of one of two ends of the rolling elements, the arched raceway has at least one circumferential groove-shaped depression.

2. The axial rolling bearing according to claim 1, wherein the arched raceway in the region of both ends of the rolling elements is formed with groove-shaped depressions, a maximum depth of which in each case is between 0.1% and 15%, of a material thickness of the bearing disc.

3. The axial rolling bearing according to claim 2, wherein an inner radius of the outer groove-shaped depression is equal to a distance between an outer end face of the rolling elements and an axis of rotation of the axial rolling bearing minus a distance measure, which is between 5% and 45% of a diameter of the rolling elements.

4. The axial rolling bearing according to claim 2, wherein an outer radius of the inner groove-shaped depression is equal to a distance between an inner end face of the rolling elements and an axis of rotation of the axial rolling bearing plus a distance measure, which is between 5% and 45% of a diameter of the rolling elements.

5. The axial rolling bearing according to claim 2, wherein a width of the groove-shaped depressions in the arched raceway each is at least 5% of a diameter of the rolling elements.

6. The axial rolling bearing according to claim 2, wherein the transitions of the groove shaped depressions to the arched raceway in the rolling region of the rolling elements each have a rounded contour.

7. The axial rolling bearing according to claim 1, wherein the rolling elements in the region of the two ends thereof additionally have a transition profile of an outer surface thereof to end faces thereof reducing the diameter thereof.

8. The axial rolling bearing according to claim 7, wherein the transition profile at the ends of the rolling elements is formed in each case by a logarithmically sloping section in the profile cross section and by rounded portions connecting thereto and ending on the end faces of the rolling elements.

9. The axial rolling bearing according to claim 8, wherein the transitions from the outer surfaces to the logarithmically sloping sections and from these to the rounded portions at the ends of the rolling elements are formed in an edge-free manner, preferably with a constant curvature.

10. The axial rolling bearing according to claim 1, further comprising a second annular bearing disc having a second circumferential raceway arched in profile cross section wherein, in a region of the two ends of the rolling elements, the second arched raceway has circumferential groove shaped direction.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] A preferred embodiment of the axial rolling bearing is explained in more detail below with reference to the accompanying drawings. Therein:

[0018] FIG. 1 shows a partial view of a cross section through an axial rolling bearing in the unloaded state;

[0019] FIG. 2 shows the partial view of the cross section according to FIG. 1 of the axial rolling bearing in the loaded state;

[0020] FIG. 3 shows an enlarged illustration of the detail X of the axial rolling bearing according to FIG. 1;

[0021] FIG. 4 shows an enlarged illustration of the detail Y of the axial rolling bearing according to FIG. 1.

DETAILED DESCRIPTION

[0022] From the FIGS. 1 and 2 emerges a corresponding axial rolling bearing 1 formed as an axial needle bearing, which consists of an annular bearing disc 2 as well as of a multiplicity rolling elements 4 formed as bearing needles and arranged side by side in a circular shape, which roll off on the track 3 of the bearing disc 2 and are held by a latching nose, not further specified, at a likewise not further specified rim-fixed bearing cage 14 at uniform distances from one another. In a clearly visible manner, the bearing disc 2 has a circumferential, in the profile cross section arched raceway 3, so that the rolling elements 4 of the axial rolling bearing 1 in the unloaded state shown in FIG. 1 lie only few and far between on the raceway 3, while the axial rolling bearing 1 in the loaded state shown in FIG. 2 lies almost over the entire length of the rolling elements 4 on the raceway 3.

[0023] To avoid increased contact pressure between the ends 5, 6 of the rolling elements 4 and the raceway 3 in such an axial rolling bearing at high bearing loads, the arched raceway 3, as can also be seen in FIGS. 1 and 2, in the region of the two ends 5, 6 of the rolling elements 4, has two circumferential groove-shaped depressions 15, 16 which are designed with a rounded profile cross section.

[0024] From the enlarged representations of the details X and Y marked in FIG. 1 according to FIGS. 3 and 4, it can be seen that the groove-shaped depressions 15, 16 in the arched track 5 have a maximum depth a.sub.1, a.sub.2 of between 0.1% and 15% of the material thickness t of the bearing disc 2, and that the width b.sub.1, b.sub.2 of the groove-shaped depressions 15, 16 is in each case at least 5% of the diameter d of the rolling elements 4.

[0025] The inner radius r.sub.1 of the outer groove-shaped depression 15 visible in FIG. 3 corresponds to the distance between the outer end face 8 of the rolling elements 4 and the rotational axis of the axial rolling bearing 1, which is not shown, minus a distance measure x.sub.1, which is between 5% and 45% of the diameter d of the rolling elements 4. The outer radius r.sub.2 of the inner groove-shaped depression 16 indicated in FIG. 4, however, corresponds to the distance of the inner end face 9 of the rolling elements 4 to the rotational axis of the axial rolling bearing 1, not shown in detail, plus a distance measure x.sub.2, which is also between 5% and 45% of the diameter d of rolling element 4. In both cases, the width b.sub.1, b.sub.2 of the groove-shaped depressions 15, 16 in the arched track 5, as shown, is greater than the distance measure x.sub.1, x.sub.2. In addition, it can be seen in FIGS. 3 and 4 that the transitions 17, 18 of the groove-shaped depressions 15, 16 to the arched raceway 3 in the rolling region of the rolling elements 4 each have a rounded contour.

[0026] Furthermore, it can be seen from FIGS. 3 and 4 that the rolling elements 4 in the region of the two ends 5, 6 thereof additionally have a transition profile, which reduces the diameter d thereof, of the outer surface 7 thereof to the end faces 8, 9 thereof. This transition profile at the ends 5, 6 of the rolling elements 4 is clearly visible in each case by a logarithmically sloping section 10, 11 in the profile cross section as well as an adjoining rounded portion 12, 13 which ends at the end faces 8, 9 of the rolling elements 4, whereby the transitions from the outer surfaces 7 to the logarithmically sloping sections 10, 11 and from these to the rounded portions 12, 13 at the ends 5, 6 of the rolling elements 4, are edge-free, preferably with a constant curvature.

LIST OF REFERENCE SYMBOLS

[0027] 1 Axial rolling bearing [0028] 2 Bearing disc [0029] 3 Raceway [0030] 4 Rolling element [0031] 5 End of 4 [0032] 6 End of 4 [0033] 7 Outer surface of 4 [0034] 8 End face of 4 [0035] 9 End face of 4 [0036] 10 Section at 5 [0037] 11 Section at 6 [0038] 12 Radius at 5 [0039] 13 Radius at 6 [0040] 14 Bearing cage [0041] 15 Depression [0042] 16 Depression [0043] 17 Transition from 15 to 3 [0044] 18 Transition from 16 to 3 [0045] a.sub.1 Depth of 15 [0046] a.sub.2 Depth of 16 [0047] b.sub.1 Width of 15 [0048] b.sub.2 Width of 16 [0049] r.sub.1 Inner radius of 15 [0050] r.sub.2 Outer radius of 16 [0051] d Diameter of 4 [0052] t Material thickness of 2 [0053] x.sub.0 Distance measure [0054] x.sub.2 Distance measure