BALL SCREW DRIVE

Abstract

A ball screw drive includes two screw drive parts (3, 4), namely a lead screw (3) and a nut (4). The ball screw drive also includes a deflection element (6) for the individual deflection of balls (5) is inserted into a recess (7), formed by one of the screw drive parts (3, 4), such that a gap (16) is formed between the base (15) of the recess (7) and the deflection element (6), and such that lateral contact surfaces (17) of the deflection element (6) which are located next to the recess (7) rest on the screw drive part (3, 4).

Claims

1-8. (canceled)

9. A ball screw comprising: two spindle drive parts, the two spindle drive parts being a threaded spindle and a spindle nut; a deflection piece for a single deflection of balls, the deflection piece inserted into a depression formed by a first of the two spindle drive parts in such a way that a gap area is formed between a base of the depression and the deflection piece and the deflection piece lies on the first of the two spindle drive parts by lateral contact faces near to the depression.

10. The ball screw as claimed in claim 9, wherein the deflection piece has two deflection lugs projecting beyond the depression and extending in a tangential direction of the two spindle drive parts.

11. The ball screw as claimed in claim 9, wherein the deflection piece has a top face which is formed complementarily to a thread of a second of the two spindle drive parts.

12. The ball screw as claimed in claim 11, wherein a gap is formed between the top face of the deflection piece and the thread of the second of the two spindle drive parts, a width of the gap, as measured in a radial direction of the two spindle drive parts, being smaller than a penetration depth of the deflection piece in the depression.

13. The ball screw as claimed in claim 9, wherein a stop face of the deflection piece, which is aligned orthogonally to the lateral contact faces of the deflection piece, is formed as an axial stop face provided for cooperation with the second of the two spindle drive parts.

14. The ball screw as claimed in claim 13, wherein the stop face is provided for cooperation with a seal held on the second of the two spindle drive parts.

15. The ball screw as claimed in claim 9, wherein the deflection piece includes a groove-shaped recess formed between one of the lateral contact faces and a central portion of the deflection piece, the central portion of the deflection piece engaging in the depression.

16. The ball screw as claimed in claim 9, wherein the deflection piece is inserted into the threaded spindle.

17. A method of constructing a ball screw comprising: providing two spindle drive parts, the two spindle drive parts being a threaded spindle and a spindle nut, a first of the two spindle drive parts including lateral contact faces and a depression recessed away from the lateral contact faces; inserting a deflection piece for deflecting balls into the depression in such a way that a gap area is formed between a base of the depression and the deflection piece and the deflection piece contacts the lateral contact faces.

18. The method as recited in claim 17 further comprising providing the deflection piece with a groove structure for receiving the balls.

19. The method as recited in claim 18 further comprising providing a helically winding track in a second of the two spindle drive parts.

20. The method as recited in claim 19 wherein the groove structure is formed complementarily to the helically winding track.

21. The method as recited in claim 17 further comprising providing a stop face on the deflection piece configured for axially contacting a second of the two spindle drive parts.

22. The method as recited in claim 17 further comprising forming the deflection piece from plastics material.

23. A ball screw comprising: two spindle drive parts, the two spindle drive parts being a threaded spindle and a spindle nut, a first of the two spindle drive parts including lateral contact faces and a depression recessed away from the lateral contact faces; balls radially between the threaded spindle and the spindle nut; and a deflection piece for deflecting the balls into the depression in such a way that a gap area is formed between a base of the depression and the deflection piece and the deflection piece contacts the lateral contact faces.

24. The ball screw as recited in claim 23 wherein a second of the two spindle drive parts includes a helically winding track for receiving the balls.

25. The ball screw as recited in claim 24 wherein the deflection piece includes a groove structure alignable with respect to the helically winding track such that the balls are transferable from the helically winding track to the groove structure of the deflection piece.

26. The ball screw as recited in claim 24 wherein the helically winding track is interrupted by the deflection piece such that the balls are diverted via the deflection piece from the track helically winding track and introduced back into the helically winding track one winding further.

Description

BRIEF SUMMARY OF THE DRAWINGS

[0014] A plurality of exemplary embodiments of the present disclosure are explained in more detail below with reference to a drawing, which shows:

[0015] FIG. 1 a ball screw as part of a clutch release system,

[0016] FIGS. 2 and 3 details of the arrangement according to FIG. 1,

[0017] FIG. 4 an alternative configuration of a ball screw,

[0018] FIG. 5 a detail of the arrangement according to FIG. 4,

[0019] FIG. 6 a further configuration of a ball screw in a clutch release system,

[0020] FIG. 7 a detail of the arrangement according to FIG. 6.

DETAILED DESCRIPTION

[0021] Unless stated otherwise, the following explanations relate to all exemplary embodiments. Mutually corresponding parts or parts which act the same in principle are denoted by the same reference signs in all figures.

[0022] A clutch release device 1, which is illustrated in several variants in FIGS. 1, 4 and 6, is configured as a central release unit and can be used in a hybrid module of a motor vehicle. The clutch release device 1 operates using a ball screw 2, which comprises two spindle drive parts 3, 4, namely a threaded spindle 3 and a spindle nut 4. Balls, as rolling bodies 5, roll between the spindle drive parts 3, 4. The ball screw 2 is configured as a screw drive with single deflection, wherein, for the deflection of the balls 5, a deflection piece 6 is provided which is inserted into a depression 7 in the outer circumference of the threaded spindle 3. The threaded spindle 3 is rotatably mounted with the aid of a rolling bearing 8, which is constructed as a two-row ball bearing. The spindle nut 4 is displaceable on the threaded spindle 3 in a torsion-resistant manner. The spindle nut 4 in turn forms a component of a clutch release bearing 9, which, in a manner known in principle, is constructed as an angular ball bearing. The rotatable outer ring, denoted by 10, of the clutch release bearing 9 is provided for actuation of a plate spring of a friction clutch.

[0023] The rolling bodies 5 of the ball screw 2 roll along a track 12 of the threaded spindle 3 and a track 11 of the spindle nut 4. The track 12 is interrupted by the deflection piece 6, wherein the balls 5, with the aid of the deflection piece 6, are diverted from the track 11 of the spindle nut 4 and introduced back into it one winding further. When passing through the deflection piece 6, the balls 5 are not only deflected in the axial direction of the ball screw 2 but, to a correspondingly small extent, are also directed radially inward, i.e. in the direction of the rotational axis of the threaded spindle 3. The deflection piece 6 is a single-piece plastics part which is produced in an injection molding method.

[0024] A radially outwardly open deflection channel 13 can be seen within the deflection piece 6, which deflection channel is formed in a central portion, denoted by 14, of the deflection piece 6. The central portion 14 is that portion of the deflection piece 6 which engages in the depression 7. However, the central portion 14 does not lie on the base, denoted by 15, of the depression 7. Instead, a gap area 16 is formed between the underside of the central portion 14 and the base 15, the width of which gap, as measured in the radial direction of the ball screw 2, is denoted by Sp. T denotes the penetration depth of the deflection piece 6 in the depression 7, as measured in the same direction. The penetration depth T is a multiple of the gap width Sp.

[0025] The deflection piece 6 projects laterally beyond the depression 7 in such a way that lateral contact faces 17 are formed, which lie on the threaded spindle 3. The positioning of the deflection piece 6 in the radial direction is precisely defined by the contact of the contact faces 17 and the threaded spindle 3. This precise positioning ensures in particular that the balls 5 do not have to pass through a step in the transition between the track 12 and the deflection channel 13. 18 denotes groove-shaped recesses which are formed at the transitions between the central portion 14 and the lateral contact faces 17. The groove-shaped recesses 18 can only be seen in the detailed view according to FIG. 2, but are also present in the other embodiments.

[0026] The same applies for a deflection lug 19, which can be seen in FIG. 3 and plays a role in the transfer of the balls 5 from the track 12 into the deflection channel 13. The deflection lugs 19, which are present twice on each deflection piece 6, project far beyond the depression 7 in the tangential direction of the track 12 and ensure a gentle transfer of the balls 5 from the track 12 into the deflection channel 13 with low acceleration forces.

[0027] A groove structure 20 can be seen on the upper side, facing the spindle nut 4, of the deflection piece 6, which groove structure is part of a top face, denoted by 21, of the deflection piece 6. The groove structure 20 adjacent to the deflection channel 13 is formed complementarily to the helically winding track 11 of the spindle nut 4. A gap exists between the top face 21 and the spindle nut 4, so that the deflection piece 6 can move relative to the spindle nut 4 with practically no friction effects. The width of said gap, as measured in the radial direction of the spindle drive parts 3, 4, is substantially smaller than the penetration depth T.

[0028] During the intended operation of the ball screw 2, lubricant, in particular grease, is located between the threaded spindle 3 and the spindle nut 4, wherein sealing between the spindle drive parts 3, 4 is realized by seals 22, 23. The seals 22, 23 each have a metal core 24, which is connected to an elastomer element 25. Two sealing lips 26, 27 are formed by the elastomer element 25.

[0029] In the constructions according to FIG. 1 and FIG. 4, the ball screw 2 is configured in such a way that the deflection piece 6 can strike the seal 23, which is located on that end face of the spindle nut 4 which is remote from the outer ring 10 of the clutch release bearing 9. In this case, a stop face 28 of the deflection piece 6 contacts the sealing lip 26, i.e. a portion of the elastomer element 25.

[0030] Analogously, in the construction according to FIG. 6, an axial stop of the ball screw 2 is provided in the form of a contact between the axial stop face 28 of the deflection piece 6 and the seal 22. Protection against over-rotation is already provided during the assembly of the ball screw 2 by the axial stop function of the deflection piece 6 in conjunction with the spindle nut 4, wherein balls 5 are in particular prevented from falling out.

LIST OF REFERENCE SIGNS

[0031] 1 Clutch release device

[0032] 2 Ball screw

[0033] 3 Threaded spindle

[0034] 4 Spindle nut

[0035] 5 Rolling body, ball

[0036] 6 Deflection piece

[0037] 7 Depression

[0038] 8 Rolling bearing

[0039] 9 Clutch release bearing

[0040] 10 Outer ring

[0041] 11 Track of the spindle nut

[0042] 12 Track of the threaded spindle

[0043] 13 Deflection channel

[0044] 14 Central portion

[0045] 15 Base

[0046] 16 Gap area

[0047] 17 Contact face

[0048] 18 Groove-shaped recess

[0049] 19 Deflection lug

[0050] 20 Groove structure

[0051] 21 Top face

[0052] 22 Seal

[0053] 23 Seal

[0054] 24 Metal core

[0055] 25 Elastomer element

[0056] 26 Sealing lip

[0057] 27 Sealing lip

[0058] 28 Stop face

[0059] Sp Gap width

[0060] T Penetration depth