PLANETARY ROLLER SCREW

Abstract

The disclosure relates to a planetary roller screw having: a nut arranged on a threaded spindle and divided crosswise to a spindle axis into two nut parts; planetary rollers arranged between the threaded spindle and the nut distributed over the circumference, the planetary rollers intermeshing with the nut parts and with the threaded spindled; a rotatingly driven planetary roller carrier arranged on the threaded spindle, in pockets of which, arranged distributed over the circumference, the planetary rollers are mounted, held at a distance in the circumferential direction, so as to be rotatable about the planetary roller axis; and a housing in which the planetary roller carrier is rotatably mounted. A pre-loading device is provided in order to adjust an axial pre-load between the housing and the planetary rollers.

Claims

1. A planetary roller screw, comprising: a nut arranged on a threaded spindle, the nut including two nut parts, planetary rollers arranged between the threaded spindle and the nut, the planetary rollers distributed around the circumference of the threaded spindle such that the planetary rollers intermesh with the two nut parts and with the threaded spindle, a rotatingly driven planetary roller carrier arranged around the threaded spindle, the planetary roller carrier having pockets arranged around the circumference of the planetary roller carrier, the pockets configured to mountably receive the planetary rollers, a housing configured to rotatably receive the planetary roller carrier, and a pre-loading device configured to adjust an axial pre-load between the housing and the planetary rollers.

2. The planetary roller screw according to claim 1, wherein each of the planetary rollers have a center groove profile configured to intermesh with a thread profile of the threaded spindle, and each of the planetary rollers have outer groove profiles arranged on each side of the center groove profile, and one of the outer groove profiles intermeshes with one of the two nut parts, and another one of the outer groove profiles intermeshes with a remaining one of the two nut part.

3. The planetary roller screw of claim 1, wherein the planetary roller carrier further comprises: two carrier flanges arranged to be axially spaced apart from one another, and a drive gear arranged around the nut and coaxial to the threaded spindle, the drive gear non-rotatably connected to the two carrier flanges, and the two carrier flanges are arranged to be axially displaceable relative to each other and include the pockets configured for receiving the planetary rollers.

4. The planetary roller screw of claim 3, wherein the planetary roller carrier is supported via inner support bearings and outer support bearings, and one of the outer support bearings is arranged between one of the two nut parts and the housing, and another one of the outer support bearings is arranged between a remaining one of the two nut parts and the housing, and one of the inner support bearings is arranged between the one of the two nut parts and one of the two carrier flanges, and another one of the inner support bearings is arranged between the remaining one of the two nut parts and the other carrier flange.

5. The planetary roller screw of claim 4, wherein the inner support bearings are axial roller bearings, and the outer support bearings are angular contact bearing.

6. The planetary roller screw of claim 3, wherein the carrier flanges are each configured with a conically shaped support surface.

7. The planetary roller screw of claim 5, wherein the pre-loading device has a screw part screwed to the housing, and an end face of the screw part facing the angular contact bearing is configured as a housing-side bearing seat of one of the outer support bearings.

8. The planetary roller screw according claim 7, wherein the screw part is configured as a threaded ring arranged coaxially with the threaded spindle and screwed into a threaded hole of the housing.

9. An actuator of a rear-axle steering system of a motor vehicle, the actuator having: the planetary roller screw of claim 1, a longitudinally displaceable push rod configured with steering heads, the push rod engaging through housing openings of the housing, and the threaded spindle fixed to the push rod.

10. A method of adjusting a pre-load of a planetary roller screw according to claim 1, the method comprising: inserting the planetary roller screw into the housing, and the pre-loading device until the axial pre-load is set between the housing and the planetary rollers.

11. A planetary roller screw configured to be received by a housing, the planetary roller screw comprising: a nut arranged on a threaded spindle, the nut including a first nut part and a second nut part, planetary rollers arranged radially between the threaded spindle and the nut, the planetary rollers intermeshing with the first and second nut parts and with the threaded spindle, a rotatingly driven planetary roller carrier arranged around the threaded spindle, the planetary roller carrier having circumferentially arranged pockets configured to mountably receive the planetary rollers, and a pre-loading device configured to adjust an axial pre-load between the planetary rollers and the housing.

12. The planetary roller screw of claim 11, wherein the pre-loading device is a threaded ring configured to be screwed into a threaded hole of the housing.

13. The planetary roller screw of claim 12, wherein the threaded ring is arranged coaxially with the threaded spindle.

14. The planetary roller screw of claim 11, wherein the threaded ring has a conically shaped end face configured to move axially toward the planetary rollers to adjust the axial pre-load.

15. The planetary roller screw of claim 14, wherein the planetary roller carrier further comprises two carrier flanges arranged to be axially spaced apart from one another, and at least one of the two carrier flanges includes a conically shaped support surface.

16. The planetary roller screw of claim 15, further comprising an angular contact bearing arranged between the conically shaped end face and the conically shaped support surface.

17. The planetary roller screw of claim 11, wherein the first nut part includes a first sleeve-shaped projection and the second nut part includes a second sleeve-shaped projection, and the first sleeve-shaped projection axially overlaps with the second sleeve-shaped projection.

18. The planetary roller screw of claim 17, wherein when the axial pre-load is adjusted the first nut part moves closer to the second nut part.

19. The planetary roller screw of claim 17, wherein the first sleeve-shaped projection is: i) arranged coaxially to the second sleeve-shaped projection, and ii) disposed at least partially within the second sleeve-shaped projection.

20. The planetary roller screw of claim 17, wherein the first sleeve-shaped projection forms a radial gap with the second sleeve-shaped projection.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] The disclosure is explained in more detail below with reference to an exemplary embodiment shown in five figures. In the figures:

[0027] FIG. 1 shows a planetary roller screw in a longitudinal section,

[0028] FIG. 2 shows an enlarged section of FIG. 1,

[0029] FIG. 3 shows a variant of a nut of the planetary roller screw,

[0030] FIG. 4 shows an actuator of a rear-axle steering system of a motor vehicle, and

[0031] FIG. 5 shows a section of the actuator of FIG. 4.

DETAILED DESCRIPTION

[0032] The planetary roller screw shown in FIGS. 1 and 2 is provided with a nut 2 arranged on a threaded spindle 1. The nut 2 is divided into two nut parts 3 arranged to be axially one behind the other. Planetary rollers 4 are distributed over the circumference of the threaded spindle 1 between the threaded spindle 1 and the nut 2. The planetary rollers 4 intermesh with their outer groove profiles 5 with the two nut parts 3 and with their center groove profile 6 with a thread profile 7 of the threaded spindle 1, which is helically wound around the spindle axis. The center groove profile 6 is larger in diameter than the adjacent outer groove profiles 5. The threaded spindle 1 is part of a push rod 24. Both axial ends of the threaded spindle are fixedly connected—in a releasable or non-releasable manner—to push rod parts.

[0033] The planetary roller screw also has a planetary roller carrier 8, in the pockets 9 of which, arranged distributed over the circumference, the planetary rollers 4 are rotatably mounted about their planetary roller axis. FIG. 2 clearly shows bearing journals 10 which are formed at the axial ends of the planetary rollers 4, which engage in the pockets 9 of the planetary roller carrier 8.

[0034] The planetary roller carrier 8 has two carrier flanges 11 arranged axially spaced apart from one another and a drive gear 12, which is arranged to be coaxial to the threaded spindle 1, engages around the nut 2 and is connected in a non-rotatable manner to the two carrier flanges 11. The two carrier flanges 11 are arranged to be axially movable relative to one another. Both carrier flanges 11 are non-rotatable but axially displaceable by means of a sliding fit with the drive gear 12. The two carrier flanges 11 are provided with the pockets 9 for receiving the planetary rollers 4.

[0035] The planetary roller screw has a housing 13 in which the planetary roller carrier 8 is rotatably mounted by means of outer support bearings 14. Both nut parts 3 are rotatably mounted on their sides facing the respective carrier flange 11 by means of inner support bearings 15. The inner support bearings 15 are formed by axial roller bearings 16. The outer support bearings 14 are formed by angular contact bearings 17.

[0036] The carrier flanges 11 are each provided with a conically shaped support surface 18 for the cylindrical rolling elements of the angular contact bearing 17 on their end faces facing away from one another. The carrier flanges are designed to be flat at their facing end faces to support the axial roller bearings 16.

[0037] Furthermore, a pre-loading device 19 is provided in order to adjust an axial pre-load between the housing 13 and the planetary rollers 4. The pre-loading device has a screw part 20 which is screwed into the housing 13, the end face of which facing the angular contact bearing 17 is designed as a housing-side bearing seat 21 of one of the outer support bearings. The screw part 20 is designed as a threaded ring 22 arranged coaxially with the threaded spindle 1, which is screwed into a threaded hole 23 of the housing 13.

[0038] In order to remove the bearing play from the described bearing arrangement, the threaded ring 22 is axially advanced in the direction of the adjacent angular contact bearing 17 by a screwing movement. Under this axial advancing movement, the carrier flange 11 shown on the left in FIG. 1 is pressed to the right and removes the axial bearing play from the axial roller bearing 16. Consequently, under the engagement of the two nut parts 3 with the planetary rollers 4, the nut part 3 shown on the right in FIG. 1 is moved to the right in the direction of the axial roller bearing 16 as well as the angular contact bearing 17 until finally the axial bearing play is also removed from these bearings. The force flow described here runs from left to right, seen from the threaded ring 22 via the angular contact bearing 17, the carrier flange 11, the axial roller bearing 16, the nut part 3, the planetary rollers 4, and from there via the other nut part 3 via the other axial roller bearing 16, the other carrier flange 11, the other angular contact bearing 17 finally into the housing 13.

[0039] FIG. 3 shows a variant of the nut 2 with sleeve-shaped projections 31, 32, which are provided on facing end faces of the two nut parts 3 and which interlock and axially overlap one another. These extensions are arranged coaxially with the nut 2, but have different diameters that are matched to one another for fitting; the nut parts are perfectly radially aligned with one another in this way. Consequently, there is only a small radial play between the extensions 31, 32.

[0040] FIGS. 4 and 5 show an actuator of a rear-axle steering system of a motor vehicle, with the planetary roller screw described above. The housing 13 has housing openings 25 on the left and right, through which the push rod 24 is passed on both sides. In FIG. 4, the push rod is concealed outside the housing 13 by bellows. At its ends, the push rod 24 is provided with steering heads 26 to which wheel control arms, which are not shown further, are connected.

[0041] During operation of the actuator, the planetary roller screw adjusted so as to be free of play ensures a reverse movement of the push rod 24 when the direction of rotation of the planetary roller carrier is reversed, without any axial play being reduced during this reverse movement. Under the force of the pre-load, all bearing components involved are adjusted to such an extent that the planetary rollers 4 are pressed into contact with the nut parts 3.

[0042] The actuator has an electric motor 27 and a belt drive 28. A toothed belt 29 wraps around a motor pinion 30 of the electric motor 27 and the drive gear 12, which is not shown here.

LIST OF REFERENCE SYMBOLS

[0043] 1 Threaded spindle [0044] 2 Nut [0045] 3 Nut parts [0046] 4 Planetary roller [0047] 5 Outer groove profiles [0048] 6 Center groove profile [0049] 7 Thread profile [0050] 8 Planetary roller carrier [0051] 9 Pocket [0052] 10 Bearing journal [0053] 11 Carrier flange [0054] 12 Drive gear [0055] 13 Housing [0056] 14 Outer support bearing [0057] 15 Inner support bearing [0058] 16 Axial roller bearing [0059] 17 Angular contact bearing [0060] 18 Raceway [0061] 19 Pre-loading device [0062] 20 Screw part [0063] 21 Housing-side bearing seat [0064] 22 Threaded ring [0065] 23 Threaded hole [0066] 24 Push rod [0067] 25 Housing opening [0068] 26 Steering head [0069] 27 Electric motor [0070] 28 Belt drive [0071] 29 Toothed belt [0072] 30 Motor pinion [0073] 31 Sleeve-like extension [0074] 32 Sleeve-like extension