DE102009023041A1 - Sensor arrangement for sealing arrangement for sealing of rolling area of antifriction bearing, particularly wheel bearing, has cold-transformed mounting element for attachment of sensor at fixed roller bearing ring - Google Patents

Abstract

The sensor arrangement (1) has a cold-transformed mounting element (10) for attachment of a sensor (7) at a fixed roller bearing ring (15), and another cold-transformed mounting element (4) for attachment of encoder (6) in a turning roller bearing ring (14). The detection direction of the sensor for detection of movement of the encoders is provided in radial direction of rotation axle of an antifriction bearing. The mounting elements form a space sealing (5,11).

Description

Field of the invention

The The invention relates to a sensor arrangement with a first, cold-formed Mounting part for attaching a sensor to a fixed Rolling bearing rings and with a second, cold-formed Mounting part for mounting an encoder on a rotating Rolling bearing ring, wherein a detection direction of the sensor for detecting the movement of the encoder in the radial direction to the axis of rotation the rolling bearing is provided. Furthermore, the concerns Invention a sealing arrangement with such a sensor arrangement, and a rolling bearing, in particular wheel bearing, with such Seal assembly.

State of the art

Background of the invention

Out DE 103 38 956 A1 a sensor arrangement for wheel bearings is known which is outside the rolling space, that is not arranged between the two load-bearing roller bearing rings. Furthermore, this sensor arrangement is combined with the sealing arrangement to the effect that the encoder, although in a conventional manner radially opposite the sensor, but protected by a covering sheet metal part, is arranged in the sealed space.

These Type of sensor arrangement allows easy arrangement, for example a subsequent attachment of the sensor, since the detection directions extends radially in the direction of the axis of rotation. It is for example possible to attach the sensor to the wheel carrier that the optimal positioning of the sensor by a simple Screwing be ensured on the wheel carrier can.

Problematic it is that the number of components is quite high and also the Material consumption is not irrelevant. Due to the axial arrangement the encoder further outside and in the axial direction extend protection of the encoder is more material expenditure because of additional mudguards required.

Furthermore Several manufacturing steps are necessary to the wheel carrier form such or this for an attachment of the Provide sensors that also at the same time optimal positioning of the sensor with respect to the encoder. This distance is important for error-free detection and for the functionality of security systems, for example in antilock braking systems for motor vehicles, of high priority.

task

Summary of the invention

The The object of the invention is therefore an inexpensive sensor arrangement for a seal arrangement of a roller bearing, which allows easy positioning of the sensor and at the same time easy to produce with little material.

The Task is characterized by a sensor unit of the type mentioned solved that the first fastening part and the second Mounting part form a gap seal.

Of the Invention is based on the finding that during installation of the sensor in the wheel carrier provided for receiving the sensor Elements take over no further functions within a seal arrangement can.

According to the invention provided a sensor by means of a first, cold-formed fastening part to attach to a fixed bearing ring. On In this way it is possible for the first attachment part due to a simple formability in a very advantageous manner also be provided for sealing by means of narrow sealing gaps can. Thus, the first fastening part takes on two functions, namely on the one hand to carry the sensor or at least on the other hand to pre-seal the seal assembly contribute.

advantageously, becomes the second, cold formed fastener for attachment the encoder used on the rotating bearing ring and takes over, similar like the first fastening part, another sealing function in interaction with the first, cold-formed attachment part. This way will enables a very high material efficiency, but also an easy arrangeability of the sensor, which in its Assembled or replaced to advantage. Especially advantageous is that one of the rolling stock is not related Holder of the sensor, such as a wheel, in no Must be involved in the attachment of the sensor. This not only saves manufacturing steps, but enables because of the independence of the storage environment also a very diverse use of the sensor arrangement according to the invention.

In an advantageous embodiment, the sensor is provided for the axial arrangement between the stationary rolling bearing ring and the gap seal. In this way, the sensor can assume certain sealing function in the sense of a gap seal. Alternatively or optionally there can be made long at the sealing gap in the axial and / or radial direction and optionally pass from a radially directed gap segment in an axially directed gap segment or vice versa. This substantially increases the sealing effect.

at An advantageous embodiment is an opening the gap seal directed axially to the sensor. That's it possible the sealing gap coming from Wälzraum ago axially between encoder and sensor to arrange and the opening the gap seal directly or indirectly to the rolling room directed away from the side of the sensor. Already the length such a gap improves the tightness of the seal assembly. Furthermore, the encoder can be arranged in this gap in such a way that it further reduces the sealing gap thickness.

at an advantageous embodiment, the first fastening part covers the encoder at least partially radially. This can be the first Fastener even take a third function, thus a further advantageous component reduction possible is.

at an advantageous embodiment, the runs Detection direction of the sensor in the radial direction to the axis of rotation of the rolling bearing. This way it is possible the encoder and the sensor in favor of the signal strength of the sensor in the radial direction approach each other. there if the detection can take place through the first fastening part, which, for example, as a thin nichtmagnetisierbares Sheet metal part is executed.

at an advantageous embodiment are encoder and sensor outside a clearance of the rolling bearing rings arranged. Encoder and sensor like the inner ring of the rolling bearing, in particular wheel bearing include but from the outer ring at least for the most part not or not at all. This makes it possible the full axial width of the encoder for signal transmission to use.

advantageously, a sealing lip abuts a cylindrical part of the second fastening part. This is the second attachment part with conventional Seal rings combined and can take over the function of a slinger. To For example, the second attachment part may be two or more cylindrical ones Sections and one or more annular sections exhibit.

advantageously, has a seal assembly for sealing a Wälzraumes a rolling bearing, in particular wheel bearing, an inventive Sensor arrangement, wherein the sealing arrangement simultaneously to Limiting the Wälzraumes provided in the axial direction is.

A Such seal assembly is in a rolling bearing, in particular Wheel bearing, with a fixed rolling bearing ring and a rotating rolling bearing ring usable.

Further advantageous embodiments and preferred developments of the invention are to be taken from the description of the figures and / or the dependent claims.

in the The invention is based on the illustrated in the figures Embodiment described and explained in detail.

It demonstrate:

1 a sensor arrangement in a arranged on a wheel bearing seal assembly, and

2 the wheel bearing of the seal assembly 1 in longitudinal section to its own axis of rotation.

embodiment

Description of the figures

1 shows a sensor arrangement 1 in a arranged on a wheel bearing seal assembly.

The sensor 7 is on a fixing part 10 put on, glued, pressed or otherwise attached to it. So that the sensor 7 fits into a largely hollow cylindrical wheel carrier, is the fastening part 10 bearing ring side with a cylindrical attachment part 8th fitted. This goes into an annular part 9 over which in the axial direction of the outer ring 15 leads away and to the arrangement of the sensor 7 axially next to the outer ring 15 is provided.

Advantageously, the tail 11 and other parts of the fastener 10 formed in such a way that in combination with the fastening part 4 , in particular with its tail 5 , a gap seal 5 . 11 arises.

It is possible, for example, the openings of this gap seal radially inward or axially to the outer ring 15 directed towards. In the present embodiment, the opening is on the sensor 7 or indirectly on the outer ring 15 directed, with the tail 11 advantageously the sealing gap, in which also the encoder 6 is arranged, deflects from its axial orientation in a radial orientation, to then continue axially, opposite to the original direction, continue. In combination with this encompasses the wearing part 2 in the tail 5 passing the tail 11 of the fastening part 10 the fastening part 4 axially and largely also radially.

With the cylindrical part 3 is the fixing part 4 rolling chamber side running similar to conventional, in longitudinal section L-shaped, slinger, however, extends axially away from the radial part of the conventional sling ring from the wheel bearing, thus the encoder 6 carrying, cylindrical part 2 to build.

Thus, it is possible the sensor arrangement 1 with conventional sealing rings, the carrier rings similar to the carrier ring 12 have, and a radial sealing lip 13 wear, combine.

2 shows the wheel bearing of the seal assembly 1 in longitudinal section to the rotation axis 20 ,

In this embodiment, the sensor arrangement 1 arranged on the vehicle side. It can also be an alternative between wheel flange and mounting flange of the outer ring 15 to be ordered.

In summary The invention relates to a sensor arrangement with a first, cold-formed Mounting part for attaching a sensor to a fixed Rolling bearing rings and with a second, cold-formed Mounting part for mounting an encoder on a rotating rolling bearing rings, the encoder being partially or entirely radially encompassed by the sensor becomes. Furthermore, the invention relates to a sealing arrangement with such a sensor arrangement, as well as a roller bearing, in particular wheel bearing with such a seal arrangement. It should an inexpensive sensor assembly for a seal assembly a rolling bearing can be specified, which allows easy positioning allows the sensor and at the same time with little material easy to make. For this purpose forms the first fastening part and the second attachment part a gap seal, which advantageously radially and or can take axially aligned forms.

1

sensor arrangement

2

supporting part

3

cylindrical part

4

second attachment portion

5

tail

6

encoder

7

sensor

8th

attachment portion

9

annular part

10

first attachment portion

11

tail

12

support ring

13

radial sealing lip

14

inner ring

15

outer ring

20

axis of rotation of the wheel bearing

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 10338956 A1 [0002]

Claims (9)

Sensor arrangement ( 1 ) with a first, cold-formed fastening part ( 10 ) for mounting a sensor ( 7 ) on a stationary rolling bearing ring ( 15 ) and with a second, cold-formed fastening part ( 4 ) for mounting an encoder ( 6 ) on a rotating rolling bearing ring ( 14 ), wherein a detection direction of the sensor ( 7 ) for detecting the movement of the encoder ( 6 ) in the radial direction to the axis of rotation ( 20 ) of the rolling bearing, characterized in that the first fastening part ( 10 ) and the second fastening part ( 4 ) a gap seal ( 5 . 11 ) form. Sensor arrangement ( 1 ) according to claim 1, wherein the sensor ( 7 ) to the axial arrangement between the stationary rolling bearing ring ( 15 ) and an opening of the gap seal ( 5 . 11 ) is provided. Sensor arrangement ( 1 ) according to claim 2, wherein the opening of the gap seal ( 5 . 11 ) axially on the sensor ( 7 ). Sensor arrangement ( 1 ) according to claim 3, wherein the first fastening part ( 10 ) the encoder ( 6 ) at least partially radially covers. Sensor arrangement ( 1 ) according to one of the preceding claims, wherein the detection direction of the sensor ( 7 ) radially in the direction of the axis of rotation ( 20 ) of the rolling bearing runs. Sensor arrangement ( 1 ) according to any one of the preceding claims, wherein the encoder ( 6 ) and the sensor ( 7 ) outside a space of the rolling bearing rings ( 14 . 15 ) are arranged. Sensor arrangement ( 1 ) according to one of the preceding claims, wherein a sealing lip ( 13 ) on a cylindrical part ( 3 ) of the second fastening part ( 4 ) is present. Sealing arrangement for sealing a rolling space of a rolling bearing, in particular wheel bearing, wherein the sealing arrangement is provided for limiting the rolling space in the axial direction and a sensor arrangement ( 1 ) according to one of claims 1 to 7. Rolling bearings, in particular wheel bearings, with a stationary rolling bearing ring ( 15 ), with a rotating rolling bearing ring ( 14 ) and a sealing arrangement according to claim 8.