Patent Application
20200406956
The present disclosure relates to a steering system shaft bearing assembly and to a steering system for a motor vehicle, in particular an automobile, with a steering system shaft bearing assembly. In addition, the present disclosure relates to a method for producing a steering system of this type.
Steering systems for motor vehicles are known from the prior art. Since steering systems as a rule comprise a plurality of shafts, steering system shaft bearing assemblies are also known, via which the various shafts are mounted within the steering system.
The shafts can be a steering system input shaft which is operatively connected to a steering wheel, a steering system output shaft, by means of which a track rod of the steering system can be actuated, for example, with utilization of a power steering drive, and/or a shaft of a gear unit of the steering system. Here, the abovementioned shafts are usually mounted in housings. In the field of steering systems overall, the aim is always for them to be constructed as simply as possible and produced as inexpensively as possible.
Against this background, it is the object of the present present disclosure to specify an improved steering system and an improved steering system shaft bearing assembly.
The object is achieved by way of a steering system shaft bearing assembly of the type mentioned at the outset, which comprises a shaft which is mounted in a housing made from plastic via an anti-friction bearing such that it can be rotated about a shaft axis, the anti-friction bearing being fastened to the housing by means of a fastening ring which has an external thread and cooperates with a housing-side internal thread. Here, the external thread of the fastening ring engages into the housing-side internal thread. In this context, the term “shaft” is additionally to be understood broadly. Instead of a shaft, an axle can also be mounted in the housing. Here, the anti-friction bearing is preferably configured as a locating bearing. It is irrelevant for the present present disclosure how the anti-friction bearing is connected to the shaft. By way of example, the anti-friction bearing, or more precisely its inner ring, can be seated on a shaft shoulder and can bear axially against a shaft-side bearing face. On that side of the inner ring which is opposed with respect to the shaft side bearing face, said inner ring can be held on the shaft via a securing ring. Here, in particular, what is known as a tapered ring can be used as a securing ring, by way of which tapered ring the inner ring is held under stress on the shaft-side bearing face. By virtue of the fact that the housing is made from plastic, it can be produced simply and inexpensively. In addition, it is of light weight. This applies, in particular, in comparison with known housings made from metal. This therefore also results in a steering system shaft bearing assembly which can be produced simply and inexpensively.
As a result of the housing-side internal thread and the fastening ring, known devices for fastening the anti-friction bearing can be dispensed with. This applies, in particular, to devices of the type which make machining of the housing necessary, for example a securing ring which is arranged in an associated groove, in particular a tapered ring. The housing preferably has no undercuts in the axial direction apart from the internal thread. In addition, it can advantageously be produced without a metal cutting step. As a consequence, it can be produced particularly simply.
The fastening ring preferably has an axial thickness of from 5 mm to 30 mm, in particular of from 5 mm to 20 mm. In one exemplary embodiment, the fastening ring is 10 mm thick.
The fastening ring is preferably produced from metal, in particular from an aluminum material, or from plastic.
The plastic can be fiber reinforced plastic. A plastic of this type has particularly satisfactory mechanical properties, in particular a particularly high strength and rigidity. For the case where what are known as short fibers are used to reinforce the plastic, the housing can additionally be produced by means of polymer engineering production methods. Production methods of this type are particularly efficient, in particular in the case of large quantities.
In accordance with one embodiment, an outer ring of the anti-friction bearing is mounted on a housing shoulder of the housing radially with regard to the shaft axis, and/or bears against a housing-side stop face axially with regard to the shaft axis. The outer ring is therefore held simply and reliably on the housing.
Here, the internal thread can be arranged adjacently with respect to the housing shoulder along the shaft axis, the internal thread adjoining the housing shoulder, in particular. The stop face and the internal thread are therefore provided on opposite sides of the housing shoulder. Here, an internal diameter of the internal thread is preferably at least identical to, and preferably greater than, a diameter of the housing shoulder. It therefore becomes possible to push the anti-friction bearing through the internal thread onto the housing shoulder. This thus results overall in a particularly compact construction of the steering system shaft bearing assembly.
On an axial side which is opposed with respect to the housing-side stop face, the outer ring advantageously bears against a stop face on the fastening ring side. The outer ring of the anti-friction bearing is therefore held axially on both sides; “axially” is always to be understood in relation to the shaft axis. The outer ring is therefore positioned reliably and precisely, which results overall in reliable mounting of the shaft.
The anti-friction bearing is preferably mounted substantially without play on the housing. Undesired noise which can be produced in the case of mounting with play is therefore avoided reliably. This additionally results in precise and durable mounting. The anti-friction bearing, in particular its outer ring, can also be held under prestress on the housing. This ensures, for example, that the outer ring is held precisely even under the influence of temperature-induced longitudinal expansions and vibrations. Here, the prestress can be set in an infinitely variable manner via the external thread which is provided on the fastening ring, in conjunction with the housing-side internal thread.
In one variant, the shaft extends through the fastening ring. Here, the preferred construction of the steering system shaft bearing assembly is as follows, as viewed from a housing interior to a housing exterior: housing-side stop face, housing shoulder, internal thread with fastening ring. The fastening ring can therefore lie in the region of a housing wall. The steering system shaft bearing assembly according to the present disclosure can therefore also be used at bearing points, at which the shaft projects out of the housing. In addition, the bearing point is thus readily accessible via the fastening ring, which entails comparatively simple maintenance.
The fastening ring can comprise at least one tool engagement contour which is configured to interact with a tool, by means of which the fastening ring can be screwed. The fastening ring can therefore be screwed into the housing and out of the housing with the aid of the tool. Simple mounting and dismantling of the fastening ring are therefore ensured.
The housing is preferably a sensor housing or a gear housing of a steering system for a motor vehicle, in particular for an automobile. In this context, a sensor housing is a housing, in the interior of which a sensor is arranged. The sensor is preferably a rotary angle sensor or a torque sensor. A gear housing is to be understood here to mean a housing, in which a gear mechanism is arranged. This gear mechanism is preferably a worm gear, with the result that the gear housing can also be called a worm gear housing.
Here, the housing can be an injection molded housing, and the internal thread can be produced during the injection molding. The injection molding method is an efficient production method, in particular for large quantities. The housing can therefore be produced simply and inexpensively. In addition, a housing of this type is of particularly light weight in comparison with known housings made from metal.
During the injection molding, the internal thread is produced by virtue of the fact that a core is used which is equipped with an external thread and is overmolded with liquid plastic. After the solidification of the plastic, the core can be screwed out of the housing.
The object is additionally achieved by way of a steering system of the type mentioned at the outset, with a steering system shaft bearing assembly according to the present disclosure. Since the steering system shaft bearing assembly can be produced simply and inexpensively, this also applies to the steering system overall. The same applies to the weight. The steering system is therefore comparatively light.
a) Furthermore, the object is achieved by way of a method of the type mentioned at the outset for producing a steering system,
b) in order to form a housing, a core which has an external thread being surrounded by way of flowable plastic, the core being overmolded with flowable plastic in an injection molding method, in particular,
c) the core being subsequently screwed out of the housing using the external thread, and leaving an internal thread in the housing, and
d) an anti-friction bearing being inserted into the housing.
In particular, the core is overmolded only on its shell, that is to say is overmolded only radially. In this way, the core can also be removed from the housing again easily.
Although, strictly speaking, the internal thread here represents an undercut with regard to the axial direction, said undercut requires neither remachining of the housing nor destruction of the core. As a result, the method becomes particularly inexpensive.
Here, in order to fasten the anti-friction bearing, a fastening ring which has an external thread can be screwed into the internal thread.
The present disclosure will be described in the following text on the basis of various exemplary embodiments which are shown in the appended drawings, in which:
In addition, a shaft 16, which is a steering system output shaft in the present case, is mounted in the housing 12 by means of a steering system shaft bearing assembly 18. Here, the shaft 16 can be rotated about a shaft axis 20.
For this purpose, the shaft 16 is mounted in the housing 12 via an anti-friction bearing 22, the anti-friction bearing 22 being fastened to the housing 12 by means of a fastening ring 24 which has an external thread 26. For this purpose, the external thread 26 cooperates with a housing-side internal thread 28 (see
As viewed along the shaft axis 20, the internal thread 28 is therefore arranged adjacently with respect to the housing shoulder 34. In the embodiment which is shown, furthermore, it adjoins an end of the housing shoulder 34, which end is opposed with respect to the housing-side stop face 30. Overall, the anti-friction bearing 22 is mounted on the housing 12 substantially without play. As can be seen, moreover, on the basis of the exemplary embodiment which is shown, the shaft 16 extends through the fastening ring 24 and protrudes out of the housing 12.
Both the first shaft 16a and the second shaft 16b are mounted in the housing 12 by means of a steering system shaft bearing assembly 18 according to the present disclosure. Since the steering system shaft bearing assemblies 18 according to
This takes place as follows: first of all, a core 40 which has an external thread 38 (see
It goes without saying that the tool together with the tool engagement contour 36 can also be used to screw the fastening ring 24 out of the housing 12.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2018 104 608.1 | Feb 2018 | DE | national |
This application is a national stage of International Application No. PCT/EP19/052699, filed Feb. 5, 2019, the disclosure of which is incorporated herein by reference in its entirety, and which claimed priority to German Patent Application No. 102018104608.1, filed Feb. 28, 2018, the disclosure of which is incorporated herein by reference in its entirety.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2019/052699 | 2/5/2019 | WO | 00 |
