STEERING SYSTEM WITH AN ACTUATING DEVICE, AND USE OF THE STEERING SYSTEM WITH ACTUATING DEVICE

Information

  • Patent Application
  • 20190092378
  • Publication Number
    20190092378
  • Date Filed
    April 27, 2017
    7 years ago
  • Date Published
    March 28, 2019
    5 years ago
Abstract
A steering system with an actuating device (1), in particular a rear axle steering system, having a spindle drive (3) with a spindle (5) and a spindle nut (4) which is fitted into the housing (2) of the steering system in a positionally fixed but rotatable manner and is driven by an electric motor (9). The electric motor (9) is a vernier motor that drives the spindle drive (3) and is integrated in the spindle drive (3). The actuating device (1) is used for a rear axle steering system of a motor vehicle.
Description
FIELD OF THE INVENTION

The invention relates to a steering system with an actuating device, which comprises a spindle with a spindle thread and a spindle nut with a nut thread that engages with the spindle thread. The invention also relates to the use of the actuating device.


BACKGROUND OF THE INVENTION

Steering systems with actuating devices having a threaded spindle for axial displacement are known in a variety of designs. In a first version according to JP 2002079947 A2 for steering the wheels on a front axle, a so-termed vernier motor is used, which by virtue of a special structure and the control of numerous coils produces a high torque while occupying little fitting space. This spiral drive is arranged at the end of a steering gear system, whereby the steering has a large axial extension and therefore takes up a lot of space.


The structure and advantages of a vernier electric motor are described in DE 60204965 T2 with various applications in mind.


SUMMARY OF THE INVENTION

Starting from the above prior art, the invention pursues the aim of further improving a steering system having an actuating device.


The invention embodies the characteristics specified in the independent claim. Advantageous design features emerge from the subordinate claims.


According to a first aspect of the invention, it is provided that the steering system, in particular a rear axle steering system, is made with an actuating device that comprises a spindle drive having a spindle, and a spindle nut which is in a fixed position but mounted to rotate in the housing of the steering system. The invention is characterized by an electric motor in the form of a vernier motor, coupled as the drive input to the spindle drive.


By means of the electric rotary drive the spindle nut is displaced in rotation and co-operates with the outer thread of the spindle in such manner that, finally, the spindle is displaced axially—and according to the rotational direction the spindle is moved axially in one direction or the other.


The electric motor (E-motor) is preferably in the form of a brushless vernier electric motor. Such E-motors are highly efficient electric motors which, compared with conventional electric motors, have better volume efficiency. While occupying little volume, a vernier motor can produce a higher torque than a conventional E-motor with a correspondingly larger volume. In other words an E-motor can be made smaller and at the same time have higher power. To put it differently, for the same size as a conventional E-motor a comparatively much higher power can be obtained. Thus, for the actuating device and the steering system, especially a rear axle steering system, a very compact steering system can be produced so that the fitting space required for the steering system, in particular a rear axle steering system, can be significantly reduced.


The vernier motor is not only smaller than a comparable electric motor. It is also lighter and has greater power efficiency than a comparable conventional E-motor with sufficient torque to drive the spindle drive of a steering system, particularly in a rear axle steering system with a spindle that can move axially relative to a housing. Namely, due to the design the weight of the magnets can be reduced. Consequently smaller amounts of rare earth metals have to be used to make the magnets, and this substantially reduces the cost of a vernier motor compared with a comparable E-motor with the same power.


In a first embodiment the vernier motor is arranged with its longitudinal axis parallel to the longitudinal axis of the spindle and spindle nut. In this case the spindle nut can be driven by the vernier motor by way of a gear system, preferably by means of a traction drive with drive elements or by means of a gear drive, in particular a planetary gearset. Of particular advantage is the smaller fitting space required by the vernier motor and thus by the actuating device and steering system as a whole when the E-motor is arranged axis-parallel to the housing of the actuating device.


In a preferred further embodiment the vernier motor is arranged coaxially with the spindle. In contrast to the previously mentioned axis-parallel arrangement, a coaxial structure can provide a still more compact form of the actuating device and steering system. It is true that this principle is already known from conventional hollow-shaft motors in steering systems. However, here too the special vernier motor enables a very substantial reduction of the fitting space. Preferably the vernier motor has a stator rotationally fixed relative to the housing, with a rotor, mounted to rotate inside the stator, coupled to the spindle nut. In this type of E-motor, magnets are arranged outside the stator, but compared with conventional E-motors these are much smaller so that the fitting space occupied by the motor as a whole is reduced. For that reason the outer diameter of the actuating device is also reduced. In this embodiment there is direct coupling to the spindle nut.


In a further preferred embodiment the spindle nut is driven by the rotor indirectly by means of an interposed gearset. In other words, the coupling between the rotor and the spindle nut is formed by gearing. The gearing, for example in the form of a gear drive, has sufficient working space within the rotor thanks to the structure of the vernier motor. By virtue of the gear ratio made possible by the gear drive, a broader range of applications can be covered in the case of actuating devices having a compact electric linear drive.


According to another aspect of the invention, it is provided that the steering system and its actuating device are used as the actuator of a rear axle steering system or in a rear axle steering system of a motor vehicle. Due to the lower energy demand of the vernier electric motor resulting from its already mentioned higher power density, less energy is drawn from the on-board electrical system of the motor vehicle for adjusting the rear wheels than when an actuating device with a conventional electric motor is used. The smaller energy uptake during such an adjustment also results in less operating noise when using the actuator. Furthermore, the weight reduction has economical consequences for vehicles with rear axle steering.


The above-mentioned drive system with a vernier motor is also suitable for other applications, for example in window-raisers in vehicle doors or similar positioning drives. Here too, a compact, more energy-efficient drive that produces a higher torque is needed.





BRIEF DESCRIPTION OF THE DRAWING

An example embodiment of the invention is illustrated in a sole drawing and will be described in greater detail below so that further features and/or advantages can emerge from the description and/or the sole drawing. The sole FIGURE shows an actuating device having a compact electric motor drive.





DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The sole FIGURE shows a longitudinal section of the structure of a simple electric actuator 1 (also referred to as an actuating device), i.e. one that acts on only one wheel, for a rear axle steering system of a motor vehicle. The actuator 1 has a multi-component housing 2 in which is arranged a spindle drive 3 comprising a spindle nut 4 and a spindle 5 that engages with the spindle nut 4 and can be displaced axially. The spindle 5 has a spindle thread or outer thread 5a and the nut has a nut thread or inner thread 4a, which are in the form of a movement thread, preferably a trapezoid thread. The spindle nut 4, which is supported rotatably in the housing 2 by two roller bearings 6 and 7, is driven via a belt drive 8 by an electric motor 9. The housing 2 comprises three housing components, namely a central housing component 2a in which the spindle nut 4 is fitted, a component 2b on the vehicle side via which the actuator 1 is articulated to the vehicle, and a component 2c on the wheel side at the end of which a slide bearing 10 is arranged. The spindle 5 has an end side 5b which is connected in a rotationally and laterally fixed manner to a screw-on shaft 11. The screw-on shaft 11 has a slide bearing section (not indexed) that passes through the slide bearing 10. At the end 11a of the screw-on shaft 11 that projects out of the housing 2c, a joint 12 is attached via a pivot bolt 12a, which joint can be connected by way of a steering rod (not shown) such as a track rod, or even connected directly, to a steerable rear wheel of the motor vehicle, which wheel is mounted by means of a wheel carrier on the body of the vehicle in a rotatable and steerable manner. The outer part 11a of the screw-on shaft 11 that projects out of the housing 2c is sealed by a flexible seal in the form of a bellows 13, which encloses on one side the housing 2c and on the other side the pivot bolt 12a. The slide bearing 10 and the slide bearing section of the screw-on shaft 11 that can move in the slide bearing 10 are provided with anti-rotation means (not shown here). The drawing shows how small the fitting space required is thanks to the electric motor. Thanks to that, the actuating device or actuator has a slim overall shape.


Indexes




  • 1 Actuator


  • 2 Housing


  • 2
    a Central housing component


  • 2
    b Housing component on the vehicle side


  • 2
    c Housing component on the wheel side


  • 3 Spindle drive


  • 4 Spindle nut


  • 4
    a Nut thread


  • 5 Spindle


  • 5
    a Spindle thread


  • 5
    b Spindle end


  • 6 Roller bearing


  • 7 Roller bearing


  • 8 Belt drive


  • 9 Electric motor


  • 11 Slide bearing


  • 11 Screw-on shaft


  • 11
    a Outer part


  • 11
    b Inner part


  • 12 Joint


  • 12
    a Pivot bolt


  • 13 Bellows


Claims
  • 1-6. (canceled)
  • 7. A steering system with an actuating device (1) comprising: a spindle drive (3) with a spindle (5) and a spindle nut (4) fitted into a housing (2) of the steering system in a positionally fixed but rotatable manner,the steering system having an electric motor (9), andthe electric motor (9) being a vernier motor and being coupled to the spindle drive (3) as a drive input.
  • 8. The steering system according to claim 7, wherein the vernier motor (9) defines a longitudinal axis and is arranged such that the longitudinal axis of the vernier motor is parallel to a longitudinal axis of the spindle (5) and the spindle nut (4), and the spindle nut (4) is drivable by the vernier motor (9) by way of either a traction drive with a drive belt (8) or a planetary gearset.
  • 9. The steering system according to claim 7, wherein the vernier motor (9) is arranged coaxially with the spindle (5).
  • 10. The steering system according to claim 9, wherein the vernier motor (9) has a stator rotationally fixed relative to the housing (2), and a rotor, fitted to rotate inside the stator, is coupled to the spindle nut (4).
  • 11. The steering system according to claim 10, wherein the rotor is coupled to the spindle nut (4) by a gear system.
  • 12. A rear axle steering system with an actuating device (1) comprising: a spindle drive (3) with a spindle (5) and a spindle nut (4) fitted into a housing (2) of the steering system in a positionally fixed but rotatable manner,the steering system having an electric motor (9), andthe electric motor (9) being a vernier motor and being coupled to the spindle drive (3) as a drive input.
  • 13. A rear axle steering system of a vehicle in combination with an actuating device (1), the actuating device comprising: a spindle drive having a spindle and a spindle nut, the spindle nut being supported by bearings within a housing such that the spindle nut is rotatable about a longitudinal axis and axially fixed relative to the housing;a vernier motor being drivingly coupled to the spindle so that rotation of the vernier motor rotationally drives the spindle nut about the longitudinal axis;the spindle nut having a threading that mates with threading of the spindle such that rotation of the spindle nut drives the spindle axially along the longitudinal axis of the spindle nut relative to the housing;a first end of the spindle being connected to a shaft such that the spindle and the shaft are rotationally and laterally fixed relative to each other, the shaft being supported by a slide bearing such that the shaft is only movable along the longitudinal axis relative to the slide bearing, and the slide bearing is supported by the housing such that the shaft is movable along the longitudinal axis relative to the housing; andthe shaft being connectable to a wheel of the vehicle, and an axial side of the housing opposite the shaft is articulated to the vehicle.
Priority Claims (2)
Number Date Country Kind
10 2016 209 160.3 May 2016 DE national
10 2017 205 666.5 Apr 2017 DE national
Parent Case Info

This application is a National Stage completion of PCT/EP2017/060006 filed Apr. 27, 2017, which claims priority from German patent application serial no. 10 2017 205 666.5 filed Apr. 4, 2017 and German patent application serial no. 10 2016 209 160.3 filed May 25, 2016.

PCT Information
Filing Document Filing Date Country Kind
PCT/EP2017/060006 4/27/2017 WO 00