STEERING GEAR FOR A STEER-BY-WIRE STEERING DEVICE OF A MOTOR VEHICLE

Abstract

A steering gear system (20) for a steer-by-wire steering device of a motor vehicle. The steering gear system having a housing (22), a spindle (24) and a rotatably mounted spindle nut (5), which is located within the housing (22), and a spindle drive (23) for the axial displacement of the spindle (24) relative to the spindle nut (25). The steering gear system further having a spindle nut (25) which, by way of at least one energy store (40), is supported at least indirectly relative to the housing (22) in the rotational direction about a longitudinal axis (a) of the spindle nut (25), so that the spindle nut (25) can be kept in a zero position or in a range around the zero position and/or turned back to the zero position.

Claims

1-7. (canceled)

8. A steering gear system (20, 100) for a steer-by-wire steering device of a motor vehicle, the steering gear system comprising: a housing (22, 109), a spindle (24, 103), a rotatable axially fixed spindle nut (25, 102) being located inside the housing (22, 109), a spindle drive (23, 104) for axially displacing the spindle (24, 103) relative to the spindle nut (25, 102), the spindle nut (25) being supported, at least indirectly relative to the housing (22), by at least an energy store (40) in a rotational direction about a longitudinal axis (a) of the spindle nut (25) such that the spindle nut (25) is at least one of : maintainable in a zero position or within a range around the zero position, and rotatable back to the zero position.

9. The steering gear system according to claim 8, wherein the energy store (40) is in the form of a spring.

10. The steering gear system according to claim 8, wherein the energy store (40) is arranged coaxially around at least one of the spindle (24) and the spindle nut (25).

11. The steering gear system according to claim 8, wherein a first end of the energy store (40) is coupled, at least indirectly, to the spindle nut (25) and is attached to a belt pulley (27), coupled with at least one of interlock, by friction force and in a material merged manner to the spindle nut, and a second end of the energy store (40) is fixed, at least indirectly, to either the housing (22) or the spindle (24).

12. The steering gear system according to claim 8, wherein a restoring torque of the energy store (40) is smaller than a torque of a drive.

13. The steering gear system according to claim 8, wherein in a case of a self-locking spindle drive (23), a restoring torque of the energy store (40) is larger than an overall torque that brings about the self-locking.

14. The steering gear system according to claim 9, wherein the spring is one of a spiral spring, a torsion spring, a leg spring or a volute spring.

15. The steering gear system according to claim 8, wherein the energy store (40) is arranged coaxially around and surrounding the at least one of the spindle and the spindle nut.

16. The steering gear system according to claim 12, wherein the drive is one of an electric motor or an electric motor with a transmission in a form of a belt drive.

17. A steer-by-wire steering device for a rear axle steering system of a motor vehicle, the steering system comprising a steering gear system (23) comprising: a housing (22, 109), a spindle (24, 103), a rotatable axially fixed spindle nut (25, 102) being located inside the housing (22, 109), a spindle drive (23, 104) for axially displacing the spindle (24, 103) relative to the spindle nut (25, 102), the spindle nut (25) being supported, at least indirectly relative to the housing (22), by at least an energy store (40) in a rotational direction about a longitudinal axis (a) of the spindle nut (25) such that the spindle nut (25) is at least one of : maintainable in a zero position or within a range around the zero position, and rotatable back to the zero position.

18. A steering gear system (20, 100) fora steer-by-wire steering device of a motor vehicle, the steering gear system comprising: a spindle drive (23, 104) arranged within a housing (22, 109), the spindle drive having a spindle (24, 103) and a spindle nut (25, 102), the spindle defining a longitudinal axis, the spindle nut (25, 102) being axially fixed relative to the housing, the spindle nut (25, 102) engaging the spindle (24) and being rotatable about the longitudinal axis such that rotation of the spindle nut axially displaces the spindle (24, 103) relative to the spindle nut; the spindle nut (25) being at least indirectly rotatably supported, relative to the housing, at least by an energy store such that the spindle nut is at least one of: either maintainable in a zero position or within a range around the zero position, and rotatable back to the zero position.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] Example embodiments of the invention are shown in the drawing and will be described in greater detail below, so that from the description and/or the drawing further features and/or advantages may emerge. The drawing shows:

[0017] FIG. 1: A schematic view of a motor vehicle with a steer-by-wire steering device for the front axle and a steer-by-wire device for the rear axle,

[0018] FIG. 2: A steer-by-wire steering device for a motor vehicle, and

[0019] FIG. 3: A perspective partial view of a steering gear system according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0020] FIG. 1 shows schematically a vehicle 1 with a steerable front axle 21 and a steerable rear axle 31. To steer the wheels 2 on the front axle 21 a central steer-by-wire steering device 4, i.e. one that acts simultaneously on both wheels, also known an a central actuator, is provided, which by way of a steering linkage 41 can adjust or change the wheel steering angle δ.sub.V of the front wheels 2. That angle δ.sub.V is indicated as an example on the right-hand wheel 2 in FIG. 1. Likewise, by way of a steering linkage 51 of the rear axle 31 a central steer-by-wire steering device 5 can adjust or change the wheel steering angle δ.sub.H of the rear wheels 3. In the embodiment illustrated the front axle steering 4 and the rear axle steering 5 are electrically connected or coupled to one another via a control unit SG. A yaw rate R.sub.G measured at the center of gravity S.sub.G is determined by a suitable sensor (rotational rate sensor) at the center of gravity of the vehicle 1 and detected and evaluated by an electronic stability control ESC. In addition, from further sensors (not shown) at least the speed and acceleration of the vehicle and a steering angle input from the driver and the wheel steering angles of the wheels 2, 3 are sent to the control unit SG. The vehicle follows a trajectory T which in FIG. 1 is represented schematically at the front of the vehicle in its travel direction and in this case corresponds to a curve to the left. As a function of the parameters, the control unit calculates a steering angle for keeping to the trajectory and controls the steering devices 4, 5 appropriately. This is done exclusively by means of electrical signals (“by-wire”).

[0021] FIG. 2 shows a steer-by-wire device in the form of a central actuator 100 according to the prior art, which can be used as a steer-by-wire device 4, 5 in the vehicle 1 according to FIG. 1. The central actuator 100 comprises a housing 109 fixed to the vehicle, in which a spindle 103 is mounted by means of slide bearings 111, 113. The spindle 103 has an external thread which engages with the internal thread 105 of the spindle nut 102, forming a movement thread of a spindle drive 104. On the spindle nut 102 is arranged a belt pulley 106 of a traction drive 114. The spindle nut 102 is supported relative to the housing 109 by a pair of fixed oblique ball-bearings 107, 108, so that the spindle nut 102 is mounted positionally fixed relative to the housing 109. The traction drive 114, which besides the belt pulley 106 comprises a drive wheel in the form of a belt pulley 116, is driven by an electric motor 115 arranged with its axis parallel to the spindle 103. The spindle 103 of the central actuator 100 is at each of its ends connected to pivot bushings 117, 118 arranged outside the housing 109, which bushings for their part are connected to track rods (not shown here) for the respective rear wheels 5. Thus, the central actuator 100 works when the spindle 103 moves axially, by acting simultaneously on the rear wheels to change the wheel steering angle by rotating about the vertical axis of the wheels.

[0022] FIG. 3 shows a perspective representation of a partially sectioned steering gear system 20, which can be used in a steer-by-wire steering device 4, 5 according to FIG. 1. FIG. 3 also shows a spindle drive 23 comprising a spindle 24 and a spindle nut 25 which are engaged with one another. The spindle nut 25 surrounds a belt pulley 27 and is driven in rotation by traction means 26 in the form of a belt. The spindle nut 25 is mounted relative to the housing 22 by a roller bearing 28. By rotating the spindle nut 25, the spindle 24, which is secured against rotation, is moved axially relative to the spindle nut 25 and the housing 22. The movement thread is in the form of a self-locking trapezium thread so that without drive power no displacement of the spindle drive 23 takes place. The housing 22 is preferably a light-metal pressure diecasting made of a magnesium or aluminum alloy. Coaxially with the longitudinal axis a of the spindle 24, an annular cover 29 is arranged which fixes the roller bearing 28 axially with its outer ring relative to the housing 22, so that the spindle nut 25 is mounted positionally fixed but rotatable relative to the housing 22. On the side facing away from the belt pulley 27, the spindle nut 25 is encompassed by an energy store in the form of a spring 40. In the zero position illustrated here, the spring 40 surrounds the spindle nut 25 coaxially. In other words, in the zero position the spring 40 is arranged concentrically around the longitudinal axis a and coaxially around the spindle nut 25. A first end 41 of the spring 40 remote from the belt pulley 27 is at its end fixed by friction force onto the spindle nut 25. A second end 42 of the spring 40 arranged in the direction of the belt pulley 27 is attached to the inside of the housing 22. If now, by means of the drive the spindle nut 25 is rotated in one direction or the other, the co-rotation of the spring 40 produces a torsion torque in the spring 40 since the end 41 of the spring 40 is attached to the spindle nut 25. In the event of a fault, for example tearing of the drive belt 26 or failure of the power supply or of the electric drive mechanism, the torsion torque built up in the spring 40 acts as a restoring torque on the spindle nut 25. Restoration continues until the spindle nut 25 has turned back to the zero position, as shown in FIG. 3. This moves the spindle 24 back, so that the wheel steering angle is adjusted back to zero degrees. It is thereby ensured that even if the drive fails, safer continued driving with a wheel steering angle of zero degrees is made possible.

INDEXES

[0023] 1 Vehicle [0024] 2 Wheel [0025] 3 Wheel [0026] 4 Steer-by-wire steering device [0027] 5 Steer-by-wire steering device [0028] 21 Front axle [0029] 31 Rear axle [0030] 41 Track rod [0031] 51 Track rod [0032] S.sub.G Center of gravity of the vehicle [0033] R.sub.G Yaw torque [0034] ESC Electronic stability control [0035] SG Control unit [0036] T Trajectory [0037] δ.sub.V Front wheel steering angle [0038] δ.sub.H Rear wheel steering angle [0039] 20 Steering gear [0040] 22 Housing [0041] 22a Axial stop [0042] 23 Spindle drive [0043] 24 Spindle [0044] 25 Spindle nut [0045] 26 Traction means [0046] 27 Belt pulley [0047] 28 Roller bearing [0048] 29 Cover [0049] 40 Energy store [0050] 41 First end [0051] 42 Second end [0052] a Longitudinal axis [0053] 100 Central actuator, steering gear system [0054] 101 Belt [0055] 102 Spindle nut [0056] 103 Spindle [0057] 104 Spindle drive [0058] 105 Internal thread [0059] 106 Belt pulley [0060] 107 Oblique ball-bearing [0061] 108 Oblique ball-bearing [0062] 109 Housing [0063] 111 Slide bearing [0064] 113 Slide bearing [0065] 114 Traction drive [0066] 115 Electric motor [0067] 116 Drive wheel [0068] 117 Pivot bushing [0069] 118 Pivot bushing