WO2016173840A1 - Steering gear having an elastically mounted pinion - Google Patents

Abstract

The invention relates to a rack-and-pinion steering gear for a motor vehicle, having a steering pinion (9) which is connected to a steering shaft, is in engagement with a rack (5) which is mounted in a housing (10) such that it can be displaced along a longitudinal axis, and which steering pinion (9) is mounted in the housing (10) by means of a steering pinion bearing, wherein the steering pinion bearing has an anti-friction bearing (19) at that end (18) of the steering pinion (9) which is remote from the steering shaft, and having a pressure piece (13) which holds the rack (5) in play-free engagement with the steering pinion (9), wherein the anti-friction bearing (19) is surrounded at least partially on the circumferential side by an elastic element (22), and wherein the elastic element (22), in interaction with an adjusting ring (23) which is supported in the housing (10), makes pivoting of the steering pinion (9) relative to the rack (5) possible.

Description

 Steering gear with elastically mounted pinion

The present invention relates to a rack and pinion steering gear having the features of the preamble of claim 1.

Generic rack and pinion steering gear have a linearly movably guided in a gear housing rack and a rotatably mounted steering pinion, which is in engagement with the rack. The steering torque exerted by a driver on a steering wheel is transmitted via a steering shaft to an input shaft of a steering gear. The input shaft of the steering gear includes a pinion that meshes with the rack. A rotation of the input shaft and the pinion is converted via the meshing with the rack in a linear movement of the rack. On the rack tie rods are articulated, with the help of the steered wheels are adjusted by a steering angle. The rotation of the steering wheel is so in one

Implemented steering movement of the steered wheels.

For a good driving feel, it is important that the driver's steering movement is converted into a steering movement of the vehicle as free of play and with little friction as possible.

In order to reduce the games in contact between pinion and rack, which is to be understood in the context of the invention as a low-play engagement, the rack is usually pressed by a spring-loaded pressure piece against the pinion. The rack must be movably mounted for this purpose in the pressure piece direction. This necessarily requires a flying mounting of the rack in the steering box. The position of the rack does not always correspond to the zero position required for low-friction operation. Thus, in operation, there is a tilt of the rack to the pinion and the pressure piece, resulting in an increase in the frictional force and a deterioration of the driving feel. Since the maximum permissible friction represents an essential requirement in the specifications of a steering gear, the preload can not be chosen arbitrarily large. It can therefore occur operating cases in which it comes to acoustic problems such as rattling even at maximum preload.

The published patent application DE 10 2011 018 568 AI discloses a pinion, which is divided into two mutually rotatably mounted pinion parts, especially half pinion parts, which are biased in the tooth spaces of the rack by means of a spring force respectively with opposite tooth flanks of the toothing of the rack. As a result, the teeth play of Lenkritzel rack engagement is directly at the point of origin, namely between the tooth flanks themselves, eliminated. A pressure piece is not provided. The associated with the two-piece pinion high complexity of the pinion shaft and a larger space requirement, however, have a negative impact on the construction of the rack and pinion steering gear and its manufacturing costs.

It is therefore an object of the present invention to provide a rack and pinion steering gear, which has a possible backlash-free engagement between pinion shaft and rack and improves the driving feel by low friction, with a tilting of the pressure piece should be avoided.

This object is achieved by a rack and pinion steering gear with the features of claim 1.

Thereafter, rack and pinion steering gear for a motor vehicle is provided with a steering shaft connected to a steering pinion, which is in engagement with a displaceably mounted in a housing along a longitudinal axis rack and in the housing by means of a

Steering pinion bearing is mounted, wherein the steering pinion bearing at the end of the steering pinion distal end of the steering pinion has a roller bearing, and with a pressure member which holds the rack in playarmem engagement with the steering pinion, wherein the roller bearing is surrounded by an elastic element at least partially on the circumference and the elastic element in interaction allows pivoting of the steering pinion relative to the rack with a support ring supported in the housing.

By selectively pivoting the steering pinion can be set or delivered to the rack that the front and back of a pinion tooth at least partially engage or contact with the tooth flanks of the teeth of the rack and form a backlash-free engagement between pinion shaft and rack, thereby the driving experience is significantly improved.

It is advantageous if between the rolling bearing and the elastic element, a contact sleeve for supporting the elastic element is arranged on the outer ring of the rolling bearing. Preferably, the rolling bearing is a needle bearing.

In a preferred embodiment, the adjusting ring and the elastic element have bores which, in interaction with at least one connecting element, facilitate the pivoting of the pinion. The connecting element connects the adjusting ring and the elastic element and is supported on the contact sleeve. As a connecting element, a screw is preferably used. In another embodiment, the adjusting ring is an eccentric ring and between the adjusting ring and the elastic element, a further contact sleeve is provided. By turning the eccentric ring can be made the pivoting of the pinion and thus the position relative to the

Rack are set.

Advantageously, the steering pinion bearing on the steering shaft side close to a rolling bearing, which is supported in the steering housing by means of a second elastic element.

It is preferred if the second elastic element is an elastic sleeve, which is coaxial both on its inside and on its outside of a further sleeve

Support is surrounded.

Preferably, the elastic element is a plastic sleeve.

The steering pinion bearing according to the invention is designed so that the steering pinion is mounted orthogonally and / or parallel to the longitudinal axis of the rack pivot.

Preferred embodiments of the invention are explained below with reference to the drawings. Similar or equivalent components are in the figures with

the same reference numerals. Show it:

Fig. 1: a schematic representation of a rack and pinion steering,

 Fig. 2 is a perspective view of a housing of a double pinion steering gear,

 Fig. 3: a representation of an engagement between the steering pinion and the rack,

 Fig. 4: an exploded view of a steering pinion bearing according to the invention,

 Fig. 5: an exploded view of a two-sided steering pinion bearing, as well

 Fig. 6: a spatial representation of a rack and pinion steering with servo assistance in

 Shape of a belt drive.

1 shows a rack and pinion steering system 1 of a motor vehicle is shown schematically. A steering shaft 2 is used to transmit the executed by a driver of the motor vehicle on the steering wheel 3 steering movements on a rack steering gear 4. The rack steering gear 4, the rotational movement of the steering shaft 2 in a movement of a rack 5, whereby the articulated on a tie rod 6 wheel 7 of the vehicle performs a steering angle. As Ball joint configured connection between the rack 5 and the tie rods 6 is surrounded by a respective bellows 8 and protected against contamination. The rotational movement of the steering shaft 2 is via a steering pinion 9 that with the rack 5 in a first

Gear area meshes, converted into a translational movement of the rack 5.

The rack and pinion steering can work in a conventional manner with a servo assistance. The novel bearing of the steering pinion will be described in more detail below.

Figure 2 shows a steering housing 10 with terminals 11 for attachment of the steering housing 10 to a body. Inside the elongated and substantially hollow cylindrical steering housing 10, the rack 5 is slidably mounted in the longitudinal direction. The steering housing 10 has on the side facing away from the pinion 9 side a receiving bore 12 into which a pressure piece 13 is integrated. Furthermore, a servo drive 14 is provided which a

Assistance torque via a second pinion at a gear stage 15 in the rack 5 initiates.

The components arranged in the housing 10 of FIG. 2 are partially illustrated in FIG. Spaced to a first gear portion 16 in which the steering pinion 9 meshes with the rack 5, a second gear portion 17 is provided, in which the second pinion in the gear stage 15 of the servo drive 14 is engaged with the rack 5.

The pressure piece 13 is on the first toothing region 16 of the rack 5

Arranged on the opposite side and urges the rack 5 into engagement with the steering pinion 9. The steering pinion has at its end remote from the shaft shaft to a storage according to the invention, which is shown in Figure 4.

Figure 4 shows the engagement of steering pinion 9 and rack 5 of Figure 3 in an enlarged view. The steering pinion 9 is rotatably mounted at its end remote from the steering shaft 18 via a needle bearing 19 in the steering housing 10, not shown. The needle bearing 19 has an outer ring 20, which is coaxially surrounded by a first sleeve 21, a resilient second sleeve 22 and a collar 23 in a sandwich-like structure from the inside to the outside. The first sleeve 21 is circumferentially in abutment with the outer ring 20. The elastic second sleeve 22 and the adjusting ring 23 have bores 22 ', 23', which serve in conjunction with at least one screw for Deachsierung the first sleeve 21 relative to the adjusting ring 23 , The adjusting ring 23 is supported on the circumference in the steering housing 10, so that over the Deachsierung a bias or tilting of the steering pinion 9 are set relative to the rack 5 can. The elastic sleeve is preferably a plastic sleeve. At the steering shaft near end of the pinion, the steering pinion bearing on a ball bearing 24.

FIG. 5 shows a further embodiment. In addition to the storage of the steering pinion 9 at the end remote from the shaft shaft 18, as explained in the previous embodiment, the steering pinion 9 is also mounted elastically via the ball bearing 24 at the shaft shaft near end 25. For this purpose, the ball bearing 24 is surrounded by a first bearing against the outer ring of the deep groove ball bearing 24 ring 26 which in turn is surrounded by an elastic second ring 27 and a third ring 28 peripherally. The third ring 28 is supported on its outer side on the steering housing. This structure supports the pivoting movement of the pinion 9, which is adjustable via the bearing at the end remote from the shaft shaft 18. Preferably, the elastic second ring 27 is a plastic sleeve or a plastic ring.

The steering pinion bearing according to the invention can be used in almost all types of rack and pinion steering.

In a preferred embodiment, the second pinion the inventive

Steering pinion storage on.

FIG. 6 shows a preferred application of the steering pinion bearing according to the invention in a rack-and-pinion steering with power assistance, the servo drive acting on the rack via a belt drive.

It is also conceivable, instead of the drilled adjusting ring, to provide an adjusting ring in the form of an eccentric ring which acts on the elastic second sleeve via a third metallic sleeve arranged therebetween. It is not necessary that the elastic second sleeve has holes.

The elastic sleeve and the elastic ring are preferably made of plastic. The other sleeves or rings are advantageously formed of metal or sheet metal.

The steering pinion 9 is mounted on the inventive elastic steering pinion bearing parallel and / or orthogonal to the rack pivot. Due to the defined pivoting of the pinion parallel and / or orthogonal to the rack come respectively front and back of a pinion tooth into engagement or contact with the tooth flanks of the toothing of the rack. As a result, the teeth play of the steering pinion-rack engagement immediately at the point of origin, namely between the tooth flanks themselves, greatly reduced. About the elastic element 22, 27 of the Bearing 19, 24, the preload can be set defined in both directions. If the pinion pivoted exclusively or mainly parallel to the rack, resulting from the tension of pinion and rack no increase in friction. In any case, the rack can be stored statically, which has a positive influence on the steering feel and the acoustics.

As far as applicable, all the individual features of the invention can be combined with one another without departing from the scope of the invention.

Claims

claims

Rack and pinion steering gear for a motor vehicle, with

 - One connected to a steering shaft steering pinion (9), which with one in a housing

(10) along a longitudinal axis displaceably mounted rack (5) is engaged and in the housing (10) supported by a steering pinion bearing, wherein the steering pinion bearing at the end remote from the steering shaft (18) of the steering pinion (9) has a roller bearing (19) and with

 - A pressure piece (13), which the rack (5) in low-play engagement with the

 Steering pinion (9) stops,

 characterized in that the rolling bearing (19) by an elastic element (22) is at least partially circumferentially surrounded, wherein the elastic element (22) in cooperation with a housing (10) supported adjusting ring (23) a

 Pivoting the steering pinion (9) orthogonal and / or parallel to the longitudinal axis of the rack (5) allows.

Rack and pinion steering gear according to claim 1, characterized in that between the rolling bearing (19) and the elastic element (22) a bearing sleeve (21) is arranged.

Rack and pinion steering gear according to claim 1 or 2, characterized in that the rolling bearing (19) is a needle bearing.

Rack and pinion steering gear according to one of the preceding claims, characterized

characterized in that the adjusting ring (23) and the elastic element (22) bores (22 ', 23'), which achieve in conjunction with at least one connecting element, the pivoting of the pinion.

Rack and pinion steering gear according to one of the preceding claims 1 to 3, characterized in that the adjusting ring (23) is an eccentric ring and between the adjusting ring (23) and the elastic element (22) is provided a further contact sleeve.

Rack and pinion steering gear according to one of the preceding claims, characterized

characterized in that the steering pinion bearing on the steering shaft near side (25) has a rolling bearing (24) which is supported in the steering housing (10) by means of a second elastic element (27). Zahnstangenlenkgetnebe according to any one of the preceding claims, characterized in that the second elastic element (27) is an elastic sleeve which is surrounded both on its inside and on its outer side coaxially by a further sleeve (26, 28).

Rack and pinion steering gear according to one of the preceding claims, characterized in that the elastic element (22, 27) is a plastic sleeve.