ROLLING ELEMENT BEARING, MORE PARTICULARLY SLEW RING

Abstract

A rolling element bearing having inner and outer bearing rings with rolling elements therebetween, and an angle-of-rotation limiting device that limits the relative rotation between the inner and outer bearing rings within an angle-of-rotation range from 0° to greater than 360° and includes a first stop element arranged on the inner bearing ring and a second stop element arranged on the outer bearing ring. The first stop element is formed by a plurality of individual radial base bores arranged in peripheral succession in a row on the outer lateral surface of the inner bearing ring and by a slotted-hole-type radial base groove arranged between first and last radial base bores, and one or two separate angle limiters protruding radially beyond the radial base bores or groove can be inserted into the radial base bores or the radial base groove depending on the size of the angle of rotation to be limited.

Claims

1. A rolling element bearing, comprising: an inner bearing ring; an outer bearing ring; a plurality of rolling elements, which roll between the bearing rings on inner and outer raceways; an angle-of-rotation limiting device which limits a relative rotation between the inner bearing ring and the outer bearing ring within an angle-of-rotation range from 0° to greater than 360°, the angle-of-rotation limiting device including: a first stop element arranged on the inner bearing ring; a second stop element arranged on the outer bearing; the first stop element is arranged on the inner bearing ring and is formed by a plurality of individual radial base bores arranged in peripheral succession in a row on a outer lateral surface of the inner bearing ring and by at least one slotted-hole-type radial base groove arranged between a first one of the radial base bores and a last one of the radial base bores; one or two separate angle limiters protrude radially beyond the radial base bores or the radial base groove and are insertable into the radial base bores or the radial base groove depending on a size of the angle of rotation to be limited; and the second stop element is arranged on the outer bearing ring and comprises a pivoting finger, which is fastened to an inner lateral surface of the outer bearing ring, extends to the radial base bores or the radial base groove in the inner bearing ring, and is in stop connection with the angle limiters inserted into the radial base bores or into the radial base groove.

2. The rolling element bearing according to claim 1, wherein the rolling element bearing is an angular contact roller bearing with two rows of the rolling elements arranged in an O arrangement relative to one another, and the stop elements of the angle-of-rotation limiting device are each arranged axially centrally between the inner and outer raceways, respectively, of the bearing rings.

3. The rolling element bearing according to claim 2, wherein the angle limiters that are insertable into the radial base bores or the radial base groove in the inner bearing ring are formed by one or two bearing balls corresponding to a diameter or a width of the radial base bores or the radial base groove.

4. The rolling element bearing according to claim 3, wherein the pivoting finger fastened to the inner lateral surface of the outer bearing ring and extending to the radial base bores or the radial base groove is formed by a threaded pin screwed into a continuous threaded bore in the outer bearing ring.

5. The rolling element bearing according to claim 4, wherein the radial base bores arranged in peripheral succession in the row on the inner bearing ring enable limitation of the angle of rotation in a range of up to 320° and the radial base groove arranged between the first radial base bore and the last radial base bore is provided for limitation of the angle of rotation in a range of up to 400°.

6. The rolling element bearing according to claim 5, wherein for limiting the angle of rotation in a range of up to 340°, two of the angle limiters are inserted in two correspondingly spaced apart ones of the radial base bores or in one said radial base bore and in the radial base groove, and the pivoting finger is movable between one side of a first one of the angle limiters and an other side of a second one of the angle limiters.

7. The rolling element bearing according to claim 5, wherein for limiting the angle of rotation in a range of between 350° and 400°, only a single one of the angle limiters is inserted in one of the radial base bores or in the radial base groove, and the pivoting finger is movable between one end and an other end of the single one of the angle limiters, and the angle limiter inserted into the radial base groove is displaceable by the pivoting finger from one end of the radial base groove to an other end thereof.

8. A rolling element bearing, comprising: an inner bearing ring; an outer bearing ring; a plurality of rolling elements which roll between the inner and outer bearing rings on inner and outer raceways; an angle-of-rotation limiting device which limits a relative rotation between the inner bearing ring and the outer bearing ring within an angle-of-rotation range from 0° to greater than 360°, the angle-of-rotation limiting device including: a first stop element arranged on the inner bearing ring; a second stop element arranged on the outer bearing; the first stop element is arranged on the inner bearing ring and is formed by a plurality of individual radial base bores arranged in peripheral succession in a row on an outer lateral surface of the inner bearing ring and by at least one slotted-hole-shaped radial base groove arranged between a first one of the radial base bores and a last one of the radial base bores; at least one separate angle limiter protrudes radially beyond the radial base bores or the radial base groove and is insertable into the radial base bores or the radial base groove depending on a size of the angle of rotation to be limited; and the second stop element is arranged on the outer bearing ring and comprises a finger that extends to the radial base bores or the radial base groove in the inner bearing ring and is in stop connection with the at least one angle limiter inserted into the radial base bores or into the radial base groove.

9. The rolling element bearing according to claim 8, wherein the rolling element bearing is an angular contact roller bearing with two rows of the rolling elements arranged in an O arrangement relative to one another, and the first and second stop elements of the angle-of-rotation limiting device are each arranged axially centrally between the inner and outer raceways, respectively, of the inner and outer bearing rings.

10. The rolling element bearing according to claim 9, wherein the at least one angle limiter that is insertable into the radial base bores or the radial base groove in the inner bearing ring is formed by one or two bearing balls corresponding to a diameter or a width of the radial base bores or the radial base groove.

11. The rolling element bearing according to claim 10, wherein the finger is fastened to an inner lateral surface of the outer bearing ring and extends to the radial base bores or the radial base groove and is formed by a threaded pin screwed into a continuous threaded bore in the outer bearing ring.

12. The rolling element bearing according to claim 11, wherein the radial base bores arranged in peripheral succession in the row on the inner bearing ring enable limitation of the angle of rotation in a range of up to 320° and the radial base groove arranged between the first radial base bore and the last radial base bore is provided for limitation of the angle of rotation in a range of up to 400°.

13. The rolling element bearing according to claim 12, wherein for limiting the angle of rotation in a range of up to 340°, two of the angle limiters are inserted in two correspondingly spaced apart ones of the radial base bores or in one said radial base bore and in the radial base groove, and the finger is movable between one side of a first one of the angle limiters and an other side of a second one of the angle limiters.

14. The rolling element bearing according to claim 13, wherein for limiting the angle of rotation in a range of between 350° and 400°, only a single one of the angle limiters is inserted in one of the radial base bores or in the radial base groove], and the finger is movable between one end and an other end of the single one of the angle limiters, and the angle limiter inserted into the radial base groove is displaceable by the finger from one end of the radial base groove to an other end thereof.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] A preferred embodiment of the rolling element bearing designed according to the disclosure is explained in more detail below with reference to the accompanying drawings. In the figures:

[0018] FIG. 1 shows a side view of a rolling element bearing according to the disclosure;

[0019] FIG. 2 shows the cross-section A-A through the rolling element bearing according to FIG. 1;

[0020] FIG. 3 shows a side view of the inner ring of the rolling element bearing according to the disclosure according to FIG. 1;

[0021] FIG. 4 shows the cross-section C-C through the inner ring of the rolling element bearing according to the disclosure according to FIG. 3;

[0022] FIG. 5 shows the partial section B-B through the rolling element bearing according to FIG. 1;

[0023] FIG. 6 shows a perspective view of the inner ring of the rolling element bearing according to the disclosure according to FIG. 1; and

[0024] FIG. 7 shows a schematic cross-sectional view of the rolling element bearing according to FIG. 1 in an initial position, a middle position and an end position of the outer bearing ring when the angle of rotation is adjusted by 400°.

DETAILED DESCRIPTION OF THE DRAWINGS

[0025] FIGS. 1 and 2 clearly show a rolling element bearing 1 suitable for use as a slew ring in a ceiling pendant, which is designed as an angular contact roller bearing and consists of an inner bearing ring 2, an outer bearing ring 3 and a plurality of rolling elements 4, which are designed as needle rollers arranged in two rows in an O arrangement relative to one another and roll between the bearing rings 2, 3 on inner and outer raceways 5, 6 and 7, 8. FIG. 2 also shows that an angle-of-rotation limiting device 9 is arranged within the rolling element bearing 1, which limits the relative rotation of the inner bearing ring 2 with respect to the outer bearing ring 3 within an angle-of-rotation range from 0° to greater than 360°. This angle-of-rotation limiting device 9 comprises a first stop element 10 arranged on the inner bearing ring 2 and a second stop element 11 indicated in FIG. 1 and arranged on the outer bearing ring 3, wherein both stop elements 10, 11 are each arranged axially centrally between the inner and outer raceways 5, 6 and 7, 8, respectively, of the bearing rings 2, 3.

[0026] FIGS. 3, 4 and 6 further show that the first stop element 10 of the angle-of-rotation limiting device 9 arranged on the inner bearing ring 2 is formed by a plurality of individual radial base bores 13 arranged in peripheral succession in a row on the outer lateral surface 12 of the inner bearing ring 2 and by a slotted-hole-type radial base groove 14 arranged between a first radial base bore 13a and a last radial base bore 13b, wherein one or two separate angle limiters 15 protruding radially beyond the radial base bores 13 or the radial base groove 14 can be inserted into the radial base bores 13 or the radial base groove 14 depending on the size of the angle of rotation to be limited. The angle limiters 15 are clearly formed by one or two bearing balls whose diameter corresponds to the diameter of the radial base bores 13 or the width of the radial base groove 14, respectively.

[0027] The second stop element 11 of the angle-of-rotation limiting device 9, which is arranged on the outer bearing ring 3, is formed on the opposite side by a pivoting finger 17, which is visible in the sectional view in FIG. 5, fastened to the inner lateral surface 16 of the outer bearing ring 3, which is formed by a threaded pin screwed into a continuous threaded bore 18 in the outer bearing ring 3. This pivoting finger 17 clearly extends to the radial base bores 13 or the radial base groove 14 in the inner bearing ring 2 and is in stop connection with the angle limiters 15 inserted in the radial base bores 13 or the radial base groove 14.

[0028] FIGS. 6 and 7 also show that the radial base bores 13 arranged in peripheral succession in a row on the inner bearing ring 2 enable limitation of the angle of rotation in a range of up to 320° and that the radial base groove 14 arranged between the first radial base bore 13a and the last radial base bore 13b is provided for limitation of the angle of rotation in a range of up to 400°. For limiting the angle of rotation in a range of up to 340°, two angle limiters 15 are inserted in two correspondingly spaced apart radial base bores 13 or in a radial base bore 13 and in the radial base groove 14 so that the pivoting finger 17 is movable between the one side of the one angle limiter 15 and the other side of the other angle limiter 15. For limiting the angle of rotation in a range between 350° and 400°, on the other hand, only a single angle limiter 15 is inserted in one of the radial base bores 13 or in the radial base groove 14, such that the pivoting finger 17 is movable between one side and the other of the one angle limiter 15.

[0029] Finally, the schematic cross-sectional illustrations of the rolling element bearing 1 in FIG. 7 show by way of example the movement of the pivoting finger 17 of the angle-of-rotation limiting device 9 or of the outer bearing ring 2, respectively, when the angle of rotation is adjusted by 400°. The left illustration shows the initial position of the rolling element bearing 1, in which a single bearing ball is inserted as an angle limiter 15 in the radial base groove 14 in the stationary inner bearing ring 2 in such a manner that it rests against the left end of the radial base groove 14 and the pivoting finger 17, which is designed as a threaded pin, on the outer bearing ring 2 is in contact with the right side of the angle limiter 15 in an 11 o'clock position.

[0030] After a clockwise rotation of the outer bearing ring 3 by approx. 200°, the pivoting finger 17 on the outer bearing ring 3 is in a middle position corresponding to the middle illustration of FIG. 7, which approximately corresponds to a 6 o'clock position.

[0031] With further rotation of the outer bearing ring 3, the pivoting finger 17 then strikes the left side of the angle limiter 15 in the radial base groove 14 at an angle of rotation of about 350° and displaces it within the radial base groove 14 by a further 50° from its left end to its right end to the end position shown in the right illustration of FIG. 7, in which the rotational movement of the outer bearing ring 3 relative to the inner bearing ring is stopped at a total angle of rotation of 400° or in a 1 o'clock position, respectively.

LIST OF REFERENCE SYMBOLS

[0032] 1 Rolling element bearing

[0033] 2 Inner bearing ring

[0034] 3 Outer bearing ring

[0035] 4 Rolling elements

[0036] 5 Inner raceway on 2

[0037] 6 Inner raceway on 2

[0038] 7 Outer raceway on 3

[0039] 8 Outer raceway on 3

[0040] 9 Angle-of-rotation limiting device

[0041] 10 First stop element

[0042] 11 Second stop element

[0043] 12 Outer lateral surface of 2

[0044] 13 Radial base bores

[0045] 13a First radial base bore

[0046] 13b Last radial base bore

[0047] 14 Radial base groove

[0048] 15 Angle limiter

[0049] 16 Inner lateral surface of 3

[0050] 17 Pivoting finger