DE102015222655A1 - Bearing arrangement for an axial needle roller bearing - Google Patents

Abstract

The invention relates to a bearing arrangement in a bearing housing with a bearing bore and / or a bearing arrangement on a shaft (12), each for an axial needle bearing (1), comprising at least one running disk (2, 4) with a radially oriented and pointing in the axial direction Running surface (7), a radial outboard (3) and / or a radial inboard (5), and at least three radial exhibitions (8) in the outboard (3) or in the inboard (5). In order to achieve a simple and cost-effective adaptation of an axial needle bearing to, inter alia, different shaft diameters, it is provided that the inner diameter of the bearing bore and the diameter of a radially outwardly facing exhibitions on the outboard limiting circle and / or the outer diameter of the shaft (12). and the diameter of one of the radially inwardly directed exhibitions (8) on the inboard (5) limited circle are coordinated such that the running disc (4) only by the radially outward exhibitions on the outboard in the bearing bore and / or through the radially inwardly directed exhibitions (8) on the inboard (5) on the shaft (12) is supported.

Description

Field of the invention

The invention relates to a bearing arrangement in a bearing housing with a bearing bore and / or a bearing arrangement on a shaft, each for an axial needle bearing, comprising at least one running disk with a radially oriented and pointing in the axial direction tread, a radial outboard and / or a radial inboard , as well as at least three radial exhibitions in the outboard or inboard.

Background of the invention

An axial needle bearing for such a bearing assembly is in the WO 2006/034785 A2 described. In the case of a first flanged wheel, an inner, perpendicularly extending wall region extends from an outer main extension region in the form of a ring. In the case of a second flange, a main extension region in the form of a ring is delimited by a wall region oriented substantially perpendicularly to it. In this encapsulated embodiment of the axial needle bearing bearing rollers between the two mutually substantially parallel wall portions are arranged. The bearing function is generated by turning the two flanges.

According to a preferred embodiment of this needle roller bearing, the flanged wheel is, as mentioned, formed by a substantially annular main extension region and an adjoining wall region formed substantially perpendicular thereto. On the wall area three anti-rotation locks are formed, which may be, for example, semi-conical, semi-cylindrical and / or hemispherical. In this embodiment of the flange, the three anti-rotation on the wall area are arranged asymmetrically, so that they do not enclose equal angles to each other. These angles can be, for example, 110 °, 120 ° and 130 °. A component to be assigned to the flanged wheel against rotation would be guided on the outside diameter of the wall area. The corresponding to the anti-rotation, not shown there recesses in the corresponding component would include the identical angle 110 °, 120 °, 130 °. As a result, two functions are fulfilled by the flanged wheel: In addition to the illustrated anti-rotation function, a safeguard against incorrect or twisted assembly is provided. The flange of the flanged wheel to be assigned corresponding component can be assigned only in a predetermined manner. This predetermined manner results from the angles enclosed by the anti-rotation locks and corresponding recesses.

In this axial needle bearing, a guide is provided by a bearing bore in a bearing housing whose inner diameter corresponds to the outer diameter of the wall region formed perpendicular to the main extension region. Accordingly, recesses for the anti-rotation devices must be formed in the inner surface of the bearing bore in the bearing housing. When the needle bearing is guided by a shaft, the outside diameter of the shaft section receiving the needle bearing corresponds to the inside diameter of the wall region formed perpendicular to the main extension region. In addition, radial recesses must be formed in the surface of the shaft, which serve to accommodate the said anti-rotation. Accordingly, the outer diameter and / or the inner diameter of the axial needle bearing must be adapted to the outer diameter of the shaft guiding the axial needle bearing and / or to the inner diameter of the bearing bore in the bearing housing, so that different tools for producing axial needle bearings with different interior and / or outside diameters are required.

Object of the invention

Against this background, the present invention seeks to provide a simple and cost-effective design for adapting an axial needle bearing to different diameters of bearing bores and / or shaft diameters to.

This object is achieved by a bearing arrangement having the features of the independent claims 1, 4, 6 and 8, while advantageous embodiments and developments of the invention result from the features of the dependent claims.

The invention is therefore based on a bearing arrangement in a bearing housing with a bearing bore and / or a bearing arrangement on a shaft, each for an axial needle bearing, comprising at least one running disk with a radially oriented and axially facing tread, a radial outboard and / or a radial inboard, and at least three radial exhibitions in the outboard or inboard.

According to a first embodiment of the invention it is provided that the inner diameter of the bearing bore and the diameter of a radially outwardly facing exhibitions on the outboard limiting circle and / or the outer diameter of the shaft and the diameter of the radially inwardly directed exhibitions on the inboard limited circle are coordinated so that the running disk is supported only by the radially outward facing exhibitions on the outboard in the bearing bore and / or by the radially inward facing exhibitions on the inboard on the shaft.

In this way, an axial needle bearing with very largely unchanged components for different applications with different outer diameters of the shaft and / or different inner diameter of a bearing receiving bore can be used.

In this case, according to one embodiment, it is provided that for adaptation to different inner diameters of the bearing bore and / or for adaptation to different outer diameters of the shaft, the radial expositions on the inboard and / or the outboard have different radial dimensions without the radial dimensions of the running disk with the outboard and / or with the inboard and the dimensions of the bearing needles and this leading needle cage are changed.

It is therefore sufficient to provide a simple pressing tool with which different radial dimensions of the radial exhibitions can be produced without cutting. This is made possible by the recognition that usually only small radial forces occur on axial needle bearings, which can be controlled solely by the local, radial exhibitions.

According to a particular embodiment it can be provided that the inboard has a radially inwardly projecting extension, in which at least one axial exhibition for engagement in a complementary recess or engagement in a complementary exhibition in a radial surface in the bearing bore of the bearing housing and / or in a shaft shoulder is formed on the shaft in order to achieve an anti-rotation and / or installation orientation.

A second embodiment of the invention is also based on a bearing assembly in a bearing housing with a bearing bore and / or bearing assembly on a shaft, each for an axial needle bearing, comprising at least one running disk with a radially oriented and axially facing tread, a radial outboard and / or a radial inboard and at least three radial outboard or inboard displays.

To achieve the object, it is additionally provided in this bearing arrangement that the inner diameter of the bearing bore and the diameter of the at least two exhibitions of at least three radial exhibitions on the outboard limiting circle and / or the outer diameter of the shaft and the diameter of the at least two of the at least three radial Exposure limiting circle are coordinated so that the rotor disk is supported by the radial exhibitions on the outboard in the bearing bore and / or by the radial exhibitions on the inboard on the shaft that a radial exhibition of at least three over the circumference of the outboard and / or of the inboard radial expositions have a greater radial extent than the other radial exposures, and that in the bearing bore and / or in the outer circumference of the shaft a radial recess for snug receiving the radially larger exhibition with the grö is arranged older radial extent in order to achieve an anti-twist and installation orientation.

With this second embodiment, the already mentioned simple adaptation of the axial needle bearing to different diameters of bearing bore and / or shaft diameter can be combined with a simple anti-rotation and installation orientation. In this case as well, different inner diameters of the bearing bore and / or different outer diameters of the shaft corresponding radial dimensions of the radial outboard and / or inboard can be formed or formed without the radial dimensions of the running disk with the outboard and / or with the inboard and the dimensions of the bearing needles and their leading needle cage to change.

A third embodiment of the invention is also based on a bearing assembly in a bearing housing with a bearing bore and / or bearing assembly on a shaft, each for an axial needle bearing, comprising at least one running disk with a radially oriented and axially facing tread, a radial outboard and / or a radial inboard and at least three radial outboard or inboard displays.

To achieve the object, in this third embodiment of the bearing assembly is additionally provided that all of the at least three distributed over the circumference of the inboard and / or the circumference of the outboard radial exhibitions have a greater radial extent than the inner diameter of the bearing bore or the outer diameter of the shaft , and in that in the inner surface of the bearing bore and / or in the outer circumference of the shaft complementary recesses are arranged for receiving the radial exhibitions, wherein the radial extent of the radial exhibitions on inboard and / or outboard is greater than the radial depth of the complementary recesses in the inner surface of the bearing bore and / or in the outer periphery of the shaft, so that a radial gap between the inner surface of the bearing bore and the outer surface of the outboard and / or between the outer surface of the shaft and the inner surface of the inboard is present.

In addition, it can be provided that at least one radial exhibition of the arranged over the circumference of the inboard and / or outboard exhibitions offset relative to the other radial exhibitions offset, as well as at least one of the complementary recesses in the inner surface of the bearing bore and / or in the outer periphery of Shaft, or that at least one of the circumference of the inboard and / or the outboard arranged radial exhibitions in the radial direction and / or in the circumferential direction is greater than the other radial exhibitions on the circumference of the inboard and / or the outboard formed, as well as at least one the complementary recesses in the inner surface of the bearing bore and / or in the outer periphery of the shaft to achieve a mounting orientation.

The above object is further solved by the use of the above-defined thrust bearing in a bearing housing of a motor vehicle transmission, in particular an automatic motor vehicle transmission.

Brief description of the drawings

The inventively constructed bearing assembly is explained in more detail below in several preferred embodiments with reference to the accompanying drawings. Showing:

1 an axial sectional view through a mounted on a shaft thrust needle bearing according to the invention along the line BB in 2 .

2 a cross section through the shaft and an axial plan view of an in 1 left illustrated first rotor of the axial needle bearing,

3 an enlarged sectional view of the area Z in 1 .

4 an axial plan view of a running disk with a radial outboard, in which other embodiments are shown, and

5 an axial sectional view of a rotor of an axial needle bearing with a radial outboard, a radial inboard and a radial extension of the inboard.

Detailed description of the drawings

1 shows an axial needle bearing 1 that a first running disk 2 with a radial outboard 3 and a second running disk 4 with a radial inboard 5 having. The two pulleys 2 . 4 are coaxial with each other on a shaft 12 arranged. The outboard 3 has at its free axial end a small radially inwardly projecting flanging 3a on. A similar, but projecting radially outward flanging 5a is on the inboard 5 educated. These beads 3a . 5a serve to the axial needle bearing 1 in total and in a Nadelkä 10 guided storage needles 11 before mounting on a shaft 12 together.

In 2 are uniform at the radially inner surface of the inboard 5 the second running disk 4 distributed trained radial exhibitions 8th to recognize that on the outer surface of the shaft 12 abut, so that between the outer surface of the shaft 12 and the inner surface of the axial inboard 5 an annular gap 19 remains free. This means that the outer diameter D _{WA of} the shaft 12 and the diameter of one in the radial exhibitions 8th radially limiting circle are identical, whereby the axial needle bearing 1 only by means of radial exhibitions 8th at the inboard 5 the second running disk 4 is guided radially perfect.

To adapt this axial needle roller bearing 1 on waves 12 With smaller or larger diameter D _WA , it is sufficient to the radial height of the radial exhibitions 8th at the inboard 5 the second running disk 4 change accordingly. This manufacturing technology can be carried out easily by means of appropriate pressing tools, so that the axial needle roller bearing according to the invention 1 for different diameters D _{WA of} the shaft 12 lets set up. For this purpose, by means of the mentioned pressing tool on the outer circumference of the inboard 5 the second running disk 4 a notch 9 Pressed, which for the formation of the radial exhibition 8th leads radially inward (see 3 ).

Out 1 is also apparent that the second running disk 4 with its axial bearing side 6 at a wave heel 13 the wave 12 axially abuts, while axially opposite a running in the axial direction tread 7 the axial guidance over the bearing needles 11 and the first running disk 2 transmits to a bearing housing, not shown, in the bearing bore, the first running disk 2 is attached.

While the embodiment according to the 1 to 3 has no anti-rotation and no installation orientation possibility shows 4 various possibilities of anti-rotation and / or installation orientation.

In 4 is therefore a second embodiment of a running disk 14 with a radial tread 14a and a radially outboard formed outboard 15 shown. The outboard 15 has four radial outward radial exhibitions 16 on, respectively in correspondingly assigned complementary depressions 17 a bearing bore 18 intervene, since the inner diameter D of the bearing bore _LI1 18 smaller than the diameter of the radial exhibits 16 encompassing circle 18 , As a result, a rotation of the running disk 14 to the bearing bore 18 given in the bearing housing, with the centering of the rotor disk 14 opposite the bearing bore 18 through a recording of the radial exhibitions 16 in the complementary wells 17 given is. Here too, an annular gap remains 19 between the bearing bore 18 and the outer circumference of the outboard 15 free.

In order to additionally achieve a mounting orientation, a radial exhibition can be shown with a dotted line 16a be designed to be radially larger and in a correspondingly sized, radially deeper and associated complementary recess 17a in the bearing bore 18a intervention.

This installation orientation can also be achieved by a radial enlarged in the circumferential direction, shown with dotted line 16b reach in a circumferentially correspondingly larger complementary depression 17b in the bearing bore 18 intervenes.

If the diameter D _{LI2 of} the bearing _{bore is} the dashed circle 18a corresponds, one results to the 1 to 3 Analogous centering of the running disk 14 with the outboard 15 through the radial exhibitions 16 , which then on the inner surface of the bearing bore 18a issue. An installation orientation of the running disk 14 opposite the bearing bore 18a can be achieved by a radially larger radial exhibition 16a reach into a correspondingly dimensioned, radially deeper, complementary depression 17a intervenes.

In the 4 illustrated running disk 14 according to the second embodiment with the outboard 15 can be set in the same way as the second running disk 4 according to the first embodiment with the inboard 5 by means of suitable tools with radial exhibitions 16 provided different radial extent to adapt to different inner diameter of the bearing bore 18 or 18a without changing the dimensions of the pulleys, the bearing needles and the needle cage.

If an anti-rotation and / or a mounting orientation with respect to a shaft and / or against a bearing bore in the manner described above are not possible, can be in 5 illustrated running disk 20 according to a third embodiment with a radially oriented and axially effective tread 21 , a radial outboard 22 and a radial inboard 24 with a radially inwardly projecting extension 25 provided, as it is in the lower half of 5 is shown, an axial exhibition 25a or, as in the upper half of the 5 to see an axial recess 25b may have, which cooperates with a complementary recess or exhibition on a radial surface of a shaft and / or a bearing bore. In this third embodiment are radial exhibitions 23 on the axial outboard 22 arranged, which are directed outward and cooperate with a bearing bore in a bearing housing. For stiffening the radial extension 25 this has a circumferential, pointing in the axial direction bend 26 on.

All the features mentioned in the preceding description of the figures, in the claims and in the introduction to the description can be used both individually and in any combination with one another. The invention is thus not limited to the described and claimed feature combinations, but all feature combinations are to be regarded as disclosed.

LIST OF REFERENCE NUMBERS

1

 Axial needle roller bearings

2

 First running disk according to a first embodiment

3

 outboard

3a

Beading on the outboard 3

4

 Second running disk according to a first embodiment

5

 inboard

5a

Beading at the inboard 5

6

Plant side of the second running disk 4

7

Tread of the second running disk 4

8th

 Radial, inward-looking exhibitions

9

 score

10

 needle cage

11

 bearing needle

12

 wave

13

 shaft shoulder

14

 Running disk according to a second embodiment

14a

Running surface of the running disk 14

15

 outboard

16

 Radial, outward-facing exhibitions

16a

 Radial larger exhibition

16b

 Larger exhibition in the circumferential direction

17

 Complementary wells

17a

 Radially deeper depression

17b

 In the circumferential direction larger recess

18

 bearing bore

18a

 Larger bearing bore; Circle around the outward facing exhibitions

19

 gap

20

 Running disk according to a third embodiment

21

Running surface of the running disk 20

22

 outboard

23

Radial, outward-facing exhibitions on the outboard 22

24

 inboard

25

Radial extension of the inboard 24

25a

Axial exhibition at the extension 25

25b

Axial depression on the extension 25

26

Angulation on the extension 25

D _WA

 Outer diameter of the shaft

D _LI

 Inner diameter of the bearing bore (general)

D _LI1

First inner diameter of the bearing bore according to 4

D _LI2

Second inner diameter of the bearing bore according to 4

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2006/034785 A2 [0002]

Claims (8)

Bearing arrangement in a bearing housing with a bearing bore ( 18 . 18a ) and / or bearing arrangement on a shaft ( 12 ), each for an axial needle roller bearing ( 1 ), comprising at least one running disk ( 2 . 4 . 14 . 20 ) with a radially oriented and axially facing tread ( 7 . 14a . 21 ), a radial outboard ( 3 . 15 . 22 ) and / or a radial inboard ( 5 . 24 ), as well as at least three radial exhibitions ( 8th . 16 . 16a . 23 ) in the outboard ( 3 . 15 . 22 ) or inboard ( 5 . 24 ), characterized in that the inner diameter (D _LI ) of the bearing bore ( 18 . 18a ) and the diameter of a radially outward facing exhibition ( 16 . 23 ) on the outboard ( 15 . 22 ) Limiting circuit and / or the outer diameter (D _WA) of the shaft ( 12 ) and the diameter of one of the radially inward facing exhibitions ( 8th ) on the inboard ( 5 ) limited circle are coordinated such that the running disk ( 4 . 14 . 20 ) only through the radially outward facing exhibitions ( 16 . 16a . 23 ) on the outboard ( 18 . 22 ) in the bearing bore ( 18 . 18a ) and / or through the radially inward facing exhibitions ( 8th ) on the inboard ( 5 ) on the shaft ( 12 ) is supported. Bearing arrangement according to claim 1, characterized in that for adaptation to different inner diameters (D _LI ) of the bearing bore ( 18 . 18a ) and / or for adaptation to different outer diameters (D _WA ) of the shaft ( 12 ) the radial exhibitions ( 8th . 16 . 16a ) on the inboard ( 5 ) and / or on the outboard ( 3 ) have different radial dimensions without the radial dimensions of the running disk ( 2 . 4 . 14 ) with the outboard ( 3 . 15 ) and / or with the inboard ( 5 ) as well as the dimensions of the bearing needles ( 11 ) and this leading needle cage ( 10 ) are changed. Bearing arrangement according to claim 1 or 2, characterized in that the inboard ( 24 ) an radially inwardly projecting extension ( 25 ), in which at least one axial exhibition ( 25a . 25b ) for engagement in a complementary recess or for engagement in a complementary exhibition in a radial surface in the bearing bore ( 18 . 18a ) of the bearing housing and / or in a shaft shoulder ( 13 ) on the shaft ( 12 ) is designed to achieve an anti-rotation and / or installation orientation. Bearing arrangement in a bearing housing with a bearing bore ( 18 . 18a ) and / or bearing arrangement on a shaft ( 12 ), each for an axial needle roller bearing ( 1 ), comprising at least one running disk ( 2 . 4 . 14 . 20 ) with a radially oriented and axially facing tread ( 7 . 14a . 21 ), a radial outboard ( 3 . 15 . 22 ) and / or a radial inboard ( 5 . 24 ), as well as at least three radial exhibitions ( 8th . 16 . 16a . 23 ) in the outboard ( 3 . 15 . 22 ) or inboard ( 5 . 24 ), characterized in that the inner diameter (D _LI2 ) of the bearing _bore ( 18a ) and the diameter of the at least two exhibitions ( 16 ) of the at least three radial exhibitions ( 16 . 16a ) on the outboard ( 15 ) limiting circle and / or the outer diameter (D _WA ) of the shaft ( 12 ) and the diameter of the at least two of the at least three radial exhibitions ( 8th ) limiting circle are coordinated so that the running disk ( 4 . 14 ) through the radial exhibitions ( 16 ) on the outboard ( 15 ) in the bearing bore ( 18a ) and / or through the radial exhibitions ( 8th ) on the inboard ( 5 ) on the shaft ( 12 ) that a radial exhibition ( 16a ) of the at least three over the circumference of the outboard ( 15 ) and / or the inboard ( 5 ) distributed radial exhibitions ( 8th . 16 . 16a ) has a greater radial extent than the other radial expositions ( 8th . 16 ), and that in the bearing bore ( 18a ) and / or in the outer periphery of the shaft ( 12 ) a radial depression ( 17a ) for accurately fitting the radially larger exhibition ( 16a ) is arranged with the larger radial extent, in order to achieve a rotation and installation orientation. Bearing arrangement according to claim 4, characterized in that for adaptation to different inner diameters (D _LI ) of the bearing bore ( 18 . 18a ) and / or for adaptation to different outer diameters (D _WA ) of the shaft ( 12 ) the radial exhibitions ( 8th . 16 ) on the inboard ( 5 ) and / or on the outboard ( 3 ) have different radial dimensions without the radial dimensions of the running disk ( 2 . 4 . 14 ) with the outboard ( 3 . 15 ) and / or with the inboard ( 5 ) as well as the dimensions of the bearing needles ( 11 ) and this leading needle cage ( 10 ) are changed. Bearing arrangement in a bearing housing with a bearing bore ( 18 . 18a ) and / or bearing arrangement on a shaft ( 12 ), each for an axial needle roller bearing ( 1 ), comprising at least one running disk ( 2 . 4 . 14 . 20 ) with a radially oriented and axially facing tread ( 7 . 14a . 21 ), a radial outboard ( 3 . 15 . 22 ) and / or a radial inboard ( 5 . 24 ), as well as at least three radial exhibitions ( 8th . 16 . 16a . 23 ) in the outboard ( 3 . 15 . 22 ) or inboard ( 5 . 24 ), characterized in that all of the at least three over the circumference of the inboard ( 5 ) and / or the circumference of the outboard ( 15 ) distributed radial exhibitions ( 8th . 16 ) has a larger radial extent than the inner diameter (D _LI ) of the bearing bore ( 18 ) or the outer diameter (D _WA ) of the shaft ( 12 ), and in that in the inner surface of the bearing bore ( 18 ) and / or in the outer periphery of the shaft ( 12 ) complementary depressions ( 17 ) for recording the radial exhibitions ( 8th . 16 ) are arranged the radial extent of the radial exhibitions ( 8th . 16 ) on the inboard ( 5 ) and / or on the outboard ( 15 ) is greater than the radial depth of the complementary recesses ( 17 ) in the inner surface of the bearing bore ( 18 ) and / or in the outer periphery of the shaft ( 12 ), so that a radial gap ( 19 ) between the inner surface of the bearing bore ( 18 ) and the outer surface of the outboard ( 15 ) and / or between the outer surface of the shaft ( 12 ) and the inner surface of the inboard ( 5 ) is available. Bearing assembly according to claim 6, characterized in that at least one radial exhibition ( 16a ) of the circumference of the inboard ( 5 ) and / or the outboard ( 15 ) ( 8th . 16 ) in relation to the other radial exhibitions ( 8th . 16 ), as well as at least one of the complementary depressions ( 17 ) in the inner surface of the bearing bore ( 18 ) and / or in the outer periphery of the shaft ( 12 ), or that at least one of the above the circumference of the inboard ( 5 ) and / or the outboard ( 15 ) arranged radial exhibitions ( 8th . 16a . 16b ) in the radial direction and / or in the circumferential direction greater than the other radial exhibitions ( 8th . 16 ) over the circumference of the inboard ( 5 ) and / or the outboard ( 15 ), as well as at least one of the complementary depressions ( 17a . 17b ) in the inner surface of the bearing bore ( 18 ) and / or in the outer periphery of the shaft ( 12 ) to achieve installation orientation. Using the axial needle roller bearing ( 1 ) according to one of claims 1 to 7 in a bearing housing of a motor vehicle transmission, in particular an automatic motor vehicle transmission.

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