ROLLING-ELEMENT BEARING UNIT FOR A MOTOR VEHICLE WHEEL OR A MOTORBIKE ROCKER ARM

Abstract

A rolling-element bearing unit for use in a motor vehicle wheel or in a motorbike rocker arm includes outer and inner raceway elements and a set of rolling elements between the inner and outer raceway elements such that the inner and outer raceway elements are pivotable or rotatable relative to each other and also a lubricant reservoir body in the bearing interior for storing and dispensing a lubricant, the body including bridge elements extending between adjacent pairs of the rolling elements and a side ring connecting the bridge elements.

Claims

1. A rolling-element bearing unit for use in a motor vehicle wheel or in a motorbike rocker arm, the rolling-element bearing unit comprising: an outer raceway element, an inner raceway element, a set of rolling elements disposed between the inner and outer raceway elements such that the inner and outer raceway elements are pivotable or rotatable relative to each other, and a lubricant reservoir body configured to store and dispense a lubricant, the body including bridge elements extending between adjacent pairs of the rolling elements and a side ring connecting the bridge elements.

2. The rolling-element bearing unit according to claim 1, wherein the lubricant reservoir body is configured as a bearing cage.

3. The rolling-element bearing unit according to claim 1, wherein the lubricant reservoir body has a given clearance from the rolling elements and raceway elements and substantially fills intermediate spaces between the rolling elements.

4. The rolling-element bearing unit according to claim 1, wherein the rolling-element bearing assembly includes a rolling-element bearing cage formed of a different material than the lubricant reservoir body, and wherein the lubricant reservoir body at least partially encloses the rolling-element bearing cage.

5. The rolling-element bearing unit according to claim 1, wherein lubricant reservoir body is configured to function as a bearing cage.

6. The rolling-element bearing unit according to claim 1, including at least one seal element sealing a space between the inner and outer raceway elements.

7. The rolling-element bearing unit according to claim 6, including seals on both sides of the rolling elements, wherein at least 80% of a space between the seals is filled with the lubricant reservoir body.

8. The rolling-element bearing unit according to claim 1, wherein the rolling-element bearing assembly is free on both sides from a seal or shield integrated between the raceway elements, the raceway elements are annular, and an envelope of the two annular raceway elements defines a space remaining between the raceway elements, which space, adjacent to the rolling elements is filled with the lubricant reservoir body by a proportion of greater than 80%,

9. The rolling-element bearing unit according to claim 1, wherein the lubricant reservoir body is porous or spongy.

10. The rolling-element bearing unit according to claim 1, wherein the lubricant reservoir body comprises a lubricant impregnatable polymer matrix.

11. The rolling-element bearing unit according to claim 1, wherein the lubricant is a lubricating oil.

12. The rolling-element bearing unit according to claim 1, wherein the lubricant body comprises a porous polymer matrix impregnated with lubricating oil, the polymer matrix extending between adjacent pairs of the rolling elements and filling at least 80% of a space between the inner and outer raceway elements.

13. The rolling-element bearing unit according to claim 1, including a bearing cage formed from a material different than the polymer matrix, the polymer matrix at least partially surrounding the bearing cage.

14. The rolling-element bearing unit according to claim 1, wherein the polymer matrix comprises a bearing cage configured to maintain a separation between the rolling elements.

15. The rolling-element bearing unit according to claim 12 including a first seal element at a first axial side of the rolling elements and a second seal element at a second axial side of the rolling elements, wherein the space between the inner and outer raceway elements is bounded by the first and second seal elements.

16. The rolling-element bearing unit according to claim 1, wherein the lubricant reservoir body is configured as a prong-type bearing cage or as a window-type bearing cage.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] FIGS. 1 and 2 show an upper region of a longitudinal section through a deep groove ball bearing.

[0021] FIG. 3 shows an upper region of a longitudinal section through an angular contact ball bearing.

[0022] FIG. 4 shows in detail view an upper region of a longitudinal section through a rolling-element bearing assembly of an automobile wheel.

DETAILED DESCRIPTION

[0023] FIG. 1 shows the upper region of a longitudinal section through a deep-groove ball bearing as is usable for supporting a motorbike front wheel, a motorbike rear wheel, or a motorbike rocker. The deep groove ball bearing comprises an outer raceway element 1 that is annular in the exemplary embodiment shown here, and is formed, for example, from a through- or case-hardened rolling-element-bearing- or case-hardening-steel. In other embodiments the external raceway element 1 can of course also be configured as an integral component of a housing and/or from other suitable materials. Furthermore the deep groove ball bearing comprises an inner raceway element 2, for which the above description for the outer raceway element 1 correspondingly applies, so that, for example, the inner raceway element 2 can also be an integral component of a shaft. A set of spherical rolling elements 4 is disposed between the raceway elements 1 and 2 while elements are provided for rolling on the rolled-on raceway surfaces of the inner and outer raceway elements 2 and 1, so that via the rolling elements 4 the raceway elements 1 and 2 are pivotable or rotatable against each other in the manner of a rolling-element bearing. Here the balls 4 are formed from the same material as the inner and/or outer raceway element 2 and 1, but they can also be formed from other suitable materials, for example, a ceramic. Here the rolling elements 4 are disposed and optionally held in a cage 5 that prevents a mutual contacting of the rolling elements 4. The cage 5 is formed from a suitable material, for example, a metal alloy or plastic.

[0024] The space between the outer and inner raceway elements 1 and 2, which space contains the rolling elements 4, is sealed here from outside in by seals 6 integrated in the rolling-element bearing, wherein the seals 6, configured in a disc-type manner, are retained in the outer raceway element 1, for example, by being snapped into a corresponding groove, and inwardly contactingly abut on the inner raceway element 2 by a seal lip in the manner of a contacting seal. The space remaining near the rolling elements 4 and the cage 5 between the outer and inner raceway element 1 and 2 as well as between the seals 6 is filled by the lubricant reservoir 7 by a proportion of greater than 80%. In other embodiments, also depending on the respective seal design, fillings of greater than 90% up to 95%, 97%, or even close to 100%, are possible.

[0025] Here the lubricant reservoir 7 is configured in a window-cage manner, wherein two side rings are connected to a plurality of bridge elements; each bridge element extends between two adjacent balls 4. Here the lubricant reservoir 7 is configured one-piece and of uniform material and is then produced, for example, by injection into the completely assembled deep groove ball bearing, which comprises the raceway elements 1 and 2, the balls 4, and the cage 5, but still before inserting the seals 6. The lubricant reservoir 7 thus encloses the cage 5 and the balls 4 as well as the corresponding surfaces of the raceway element 1 and 2. In other embodiments the lubricant reservoir 7 can of course also be differently produced, for example, prefabricated outside of the bearing. In principle a merely prong-type-cage design of the lubricant reservoir can also be used. Furthermore the side ring or the side rings can also be configured singly or multiply slotted and/or the bridge elements may not extend between all adjacent rolling-element pairings, so that the lubricant reservoir can also be multi-piece or multi-part.

[0026] Here the lubricant reservoir 7 is formed from a polymer matrix which can be impregnated with a lubricating oil. In one embodiment the cage 5 can also be omitted so that its space as well as function is filled by the lubricant reservoir 7.

[0027] FIG. 2 shows an upper region of a longitudinal section through a further deep groove ball bearing that is usable according to the disclosure for supporting a motorbike front wheel, a motorbike rear wheel, or a motorbike rocker. Here the deep groove ball bearing of FIG. 2 differs from that of FIG. 1 only in that instead of the contact seals being integrated in the bearing, sealing washers 6 forming seal gaps are now used. Otherwise the above description correspondingly applies to the deep groove ball bearing described of FIG. 1, wherein comparable components having the same reference numbers are supplemented by an apostrophe.

[0028] In other embodiments the bearings of FIGS. 1 and 2, for example in paired use, can also be configured with only one seal 6 or 6. In turn in another not-shown embodiment, bearings corresponding to FIGS. 1 and 2 can also be used entirely without seals 6 and 6, which can be useful, for example, if the sealing as such is realized not by seals integrated in the bearing, but rather outside the actual bearing, for example, on conversion parts of the bearing.

[0029] FIG. 3 shows an upper region of a longitudinal section through an angular contact ball bearing, that is usable according to the disclosure in particular in interaction with a further angular contact ball bearing in face-to-face- or back-to-back arrangement for supporting an automobile wheel. In principle the description above for the bearings of FIGS. 1 and 2 correspondingly applies, so that comparable components having the same reference numbers are supplemented by two apostrophes. In contrast to FIGS. 1 and 2, the angular contact ball bearing of FIG. 3 is configured without seals, so that the percentage values indicated above for space-filling by the lubricant reservoir 7 in the angular contact ball bearing of FIG. 3 apply for the space containing the rolling elements 5, which arises such that, so to speak, in the sense of a wrapping of the two raceway elements 1 and 2 a line is imagined, in particular a straight line, connecting the respective end sides of the raceway elements 1 and 2. With such a design, the sealing is then usually effected without seals in or on the further components surrounding or adjacent to the angular contact ball bearing, which components function as a seal carrier and as countersurface. In other embodiments the angular contact ball bearing of FIG. 3 as described for FIGS. 1 and 2 can of course also be equipped with seals, integrated in the bearing, shown there on both sides, or as also described above, only on one side.

[0030] In other embodiments, instead of the depicted deep-groove- and angular-contact-ball bearings, of course other ball bearings, for example, three- or four-point contact ball bearings, but also roller bearings, in particular tapered and cylindrical roller bearings, can be used, and/or also multi-row rolling-element bearings.

[0031] FIG. 4 shows in detail view an upper region of a longitudinal section through a rolling-element bearing assembly of a non-driven automobile wheel. Here the wheel bearing assembly comprises an outer part 10 that is provided for fixedly connecting to the vehicle body and that forms, as an outer raceway element, the two outer rolled-on raceways for the left and right rows of balls 41 and 42 of the double row angular contact ball bearing. Here a first inner part 21 of the wheel bearing assembly forms, as a raceway element, the inner rolled-on raceway for the left row of balls 41. Furthermore, the first inner part 21 is provides a flange on which a wheel rim is provided for screwing thereon. The wheel bearing assembly comprises a second inner part 22 that forms, as a raceway element, the inner rolled-on raceway for the right-hand row of balls 42. Here the first and the second inner parts 21 and 22 are fixedly connected to each other according to one of the known solutions in a not-shown manner. Here the left and the right rows of balls 41 and 42 are each disposed in a known manner in a separate cage 51 and 52.

[0032] Sealing washers 61 and 62 are fastened in the non-rotating outer part, which are each configured to form an annular seal gap with the rotatable inner parts 21 and 22. Lubricant reservoirs 71 and 72 are disposed directly adjacent to the sealing washers 61 and 62, or as seen from outside, directly behind the sealing washers 61 and 62. Here a separate lubricant reservoir 71 and 72 is provided for each of the two rows of balls 41 and 42, wherein each of the lubricant reservoirs 71 and 72 is configured prong-type, enclosing the respective row of balls 41 or 42. In particular, the previous explanations with respect to the lubricant reservoirs 7, 7, and 7 of FIGS. 1 to 3 correspondingly apply for the lubricant reservoirs 71 and 72. As already described above, the above-described advantages result with this solution compared to comparable solutions without lubricant reservoir but including contactingly abutting seals.

[0033] Of course, in other embodiments the lubricant reservoir is advantageously also usable in wheel bearing assemblies including contactingly abutting seals. Independent of the seal type, the lubricant reservoirs are of course also advantageously usable in wheel bearing assemblies configured as double row tapered roller bearing assemblies, wherein in particular in the truck segment double row tapered roller bearing units having increasing size are used as wheel bearings.

[0034] Representative, non-limiting examples of the present invention were described above in detail with reference to the attached drawings. This detailed description is merely intended to teach a person of skill in the art further details for practicing preferred aspects of the present teachings and is not intended to limit the scope of the invention. Furthermore, each of the additional features and teachings disclosed above may be utilized separately or in conjunction with other features and teachings to provide improved rolling-element bearing units for motor vehicle wheels or motorbike rocker arms.

[0035] Moreover, combinations of features and steps disclosed in the above detailed description may not be necessary to practice the invention in the broadest sense, and are instead taught merely to particularly describe representative examples of the invention. Furthermore, various features of the above-described representative examples, as well as the various independent and dependent claims below, may be combined in ways that are not specifically and explicitly enumerated in order to provide additional useful embodiments of the present teachings.

[0036] All features disclosed in the description and/or the claims are intended to be disclosed separately and independently from each other for the purpose of original written disclosure, as well as for the purpose of restricting the claimed subject matter, independent of the compositions of the features in the embodiments and/or the claims. In addition, all value ranges or indications of groups of entities are intended to disclose every possible intermediate value or intermediate entity for the purpose of original written disclosure, as well as for the purpose of restricting the claimed subject matter.