RACK-AND-PINION STEERING SYSTEM FOR A MOTOR VEHICLE HAVING A WORM GEAR SET

Abstract

A rack and pinion steering system for a motor vehicle may include a pinion shaft that is connected to a steering shaft and has a steering pinion that is engaged with a rack mounted in a steering gear housing such that the rack can be displaced along a longitudinal axis for pivoting steerable wheels. The steering shaft, the pinion shaft with the steering pinion, and the step-down gear mechanism may be received in the steering gear housing. The rack and pinion steering system may further include an electric motor that drives the pinion shaft via a step-down gear mechanism. The step-down gear mechanism may be arranged at an end of the pinion shaft that is remote from the steering shaft.

Claims

1.-10. (canceled)

11. A rack and pinion steering system for a motor vehicle comprising: a pinion shaft that is connected to a steering shaft and includes a steering pinion engaged with a rack mounted in a steering gear housing such that the rack is displaceable along a longitudinal axis for pivoting steerable wheels; and an electric motor that drives the pinion shaft via a step-down gear mechanism, wherein the steering shaft, the pinion shaft with the steering pinion, and the step-down gear mechanism are received in the steering gear housing, wherein the step-down gear mechanism is disposed at a first end of the pinion shaft that is remote from the steering shaft.

12. The rack and pinion steering system of claim 11 wherein the step-down gear mechanism is disposed on the pinion shaft below the steering pinion.

13. The rack and pinion steering system of claim 11 wherein the electric motor is disposed on an underside of a steering gear.

14. The rack and pinion steering system of claim 11 wherein a second end of the pinion shaft that is proximate to the steering shaft is connected to a torsion bar that connects the pinion shaft to an input shaft, the torsion bar being part of a torque sensor that determines steering torque applied at a steering wheel and is required for actuating the electric motor, wherein the step-down gear mechanism and the electric motor are disposed on an opposite side of the rack with respect to the torque sensor.

15. The rack and pinion steering system of claim 11 wherein the pinion shaft is mounted rotatably in a bearing in the steering gear housing between the steering pinion and the first end of the pinion shaft.

16. The rack and pinion steering system of claim 11 wherein the step-down gear mechanism is a worm gear mechanism, wherein a worm gear of the worm gear mechanism surrounds the pinion shaft concentrically and is connected fixedly to the pinion shaft so as to rotate with the pinion shaft.

17. The rack and pinion steering system of claim 16 wherein the electric motor is an electric servomotor that drives a worm shaft of the worm gear mechanism.

18. The rack and pinion steering system of claim 16 wherein the pinion shaft is mounted rotatably in a bearing in the steering gear housing between the steering pinion and the worm gear.

19. The rack and pinion steering system of claim 18 wherein the pinion shaft has a tapered portion between the steering pinion and the bearing, with a diameter of the tapered portion being smaller than that of the steering pinion and a bearing seat of the bearing.

20. The rack and pinion steering system of claim 19 wherein the tapered portion adjoins the steering pinion directly on the pinion shaft.

Description

[0011] One preferred embodiment of the invention will be described in greater detail in the following text using the drawings. Identical or identically acting components are denoted by the same designations in the figures, in which:

[0012] FIG. 1 shows a diagrammatic illustration of a rack and pinion steering system,

[0013] FIG. 2 shows a three-dimensional view of the steering gear from FIG. 1,

[0014] FIG. 3 shows a detailed illustration of the arrangement of the worm gear mechanism of the steering assistance means with a rack and a steering pinion,

[0015] FIG. 4 shows an illustration of the engagement between the steering pinion and the rack with a worm gear mechanism, and

[0016] FIG. 5 shows a longitudinal section of the rack and pinion steering system.

[0017] FIG. 1 diagrammatically shows a rack and pinion steering system 1 of a motor vehicle. A steering shaft 2 serves for the transmission of the steering movements which are carried out at the steering wheel 3 by a driver of the motor vehicle to a rack and pinion steering gear 4. The rack and pinion steering gear 4 converts the rotational movement of the steering shaft 2 into a movement of a rack 5, as a result of which the wheel 7 of the vehicle, which wheel 7 is articulated on a track rod 6, carries out a steering lock movement. The rotational movement of the steering shaft 2 is converted into a translational movement of the rack 5 via a steering pinion 8 which meshes with the rack 5 in a toothing region 9. The rack 5 is mounted in an axially movable manner in a steering gear housing 10. A step-down gear mechanism 11 and an electric servomotor 12 are arranged on a side of the rack 5, which side is remote from the steering shaft. The servomotor 12 acts via the step-down gear mechanism 11 on the steering pinion 8 for steering assistance.

[0018] FIG. 2 shows a second view of the position of the step-down gear mechanism 11 and the servomotor 12 below the rack 5.

[0019] FIGS. 3 and 4 show two different views of the engagement of the steering pinion 8 into the toothing region 9 of the rack 5. The steering pinion 8 is arranged on a pinion shaft 13 which has an end 130 which is close to the steering shaft and an end 1300 which is remote from the steering shaft. As shown in FIG. 5, the end 130 which is close to the steering shaft is connected to a torsion bar 115 which connects the pinion shaft 13 to an input shaft 113 which is in turn connected fixedly to the steering wheel 3 so as to rotate with it via the steering shaft 2. The torsion bar 115 brings about a relative rotation between the input shaft 113 and the pinion shaft 13 in a manner which is dependent on the steering wheel torque. The torsion bar 115 is part of a torque sensor 114 which determines the steering torque which is applied at the steering wheel 3 and is required for actuating the electric motor 12. The pinion shaft 13 is mounted rotatably in a bearing 14 in the steering gear housing 10 between the steering pinion 8 and the end 1300 which is remote from the steering shaft. A worm gear 15 of the step-down gear mechanism 11 is provided at that end 1300 of the pinion shaft 13 which is remote from the steering shaft, which worm gear 15 surrounds the pinion shaft 13 concentrically and is connected fixedly to the latter so as to rotate with it. The electric servomotor (not shown here) drives a worm shaft 16 which meshes with the worm gear 15 which is arranged on the pinion shaft 13. Since the worm gear mechanism 11 is arranged at that end 1300 of the pinion shaft 13 which is remote from the steering shaft and is therefore arranged so as to lie below the pinion 8, the servomotor 12 can likewise be attached on the underside of the steering gear and, to be precise, closer to the roadway 70, in comparison with the rack 5, which is particularly space-saving.

[0020] The pinion shaft 13 has a tapered portion 17 between the steering pinion 8 and the bearing 14 or between the steering pinion 8 and the worm gear 16, the diameter of which tapered portion 17 is smaller than that of the steering pinion 8 and a bearing seat 140 of the bearing 14. The tapered portion 17 preferably adjoins the steering pinion 8 directly. During the assembly, the input shaft 2 is pushed with the torsion bar 115 and the steering pinion 8 into a housing opening of the steering gear housing 10, which housing opening is provided for this purpose, to be precise to such an extent that the region of the tapered portion 17 of the pinion shaft 13 is situated at the level of the rack 5 which is to be inserted. In a second step, the rack 5 is pushed into the housing opening which is provided correspondingly for this purpose. The rack 5 can be pushed past the tapered portion 17 of the pinion shaft 13 as far as into an end position. The pinion shaft 13 is subsequently pressed downward further into the steering gear housing 10, in the direction of the roadway 70, as far as an end position, with the result that the toothing region 9 of the rack 5 comes into engagement with the toothing system 8 of the steering pinion. The rack and pinion mechanism can thus be assembled in the steering gear housing in a particularly simple manner.

[0021] The steering gear housing is preferably configured in one piece with the drive gear housing, in which the step-down gear mechanism 12 is received, and is produced from aluminum or magnesium or plastic. The single-piece design has the advantage that the sealing point of the drive gear housing to the steering gear housing is dispensed with. In addition, a single-piece housing can be produced very cost-efficiently and provides a considerable weight saving.