DE102005009721B3 - bearing arrangement - Google Patents

Abstract

The invention relates to a bearing arrangement (1), consisting of two bearings (2, 3) which can be set against each other in Lagerachsrichtung (A), wherein the bearings (2, 3) in a sleeve-shaped body (4) are arranged in the Bore (5) of a housing (6) or on a shaft part (7) is axially fixed. To create a precise, yet cost-effective solution, the invention provides that the sleeve-shaped body (4, 4 ', 4' ') consists of at least one sheet metal part of substantially constant thickness (d), which is reshaped so that there is at least one axial stop (8, 9, 10) for at least one of the bearings (2, 3) forms.

Description

The The invention relates to a bearing arrangement consisting of two bearings, in the Lagerachsrichtung be set against each other, the Bearings arranged in a sleeve-shaped body which are in the bore of a housing or on a shaft part is fixed axially.

From the EP 0 752 537 B1 is a rolling bearing assembly known in which sleeve-shaped elements are used for storage. It can be provided that a tubular sleeve is provided in an axial end region with a raceway for rolling elements. The sleeve-shaped body thus serves simultaneously as a bearing ring and as a spacer to position a second bearing relative to the first at a defined distance.

A solution of the generic type is from the DE 41 35 565 A1 known. Two angular contact ball bearings, which are employed against each other, are mounted here in a sleeve-shaped carrier element, which in turn can be inserted into a housing bore. In order to keep the two bearings at a distance, a further sleeve is arranged between the outer rings.

Bearing arrangements in which sleeve-shaped bodies are used for positioning and fixing, are also from the US 5,667,313 A , from the US 3,501,210 , from the DE 199 13 200 A1 , from the DE 69 25 932 U , from the DE 22 63 503 A , from the FR 992 298 , from the FR 1 072 042 , from the FR 1 195 781 , from the AT 173 916 , from the US 4,541,742 , from the US 1,696,972 and from the US 1,420,497 known.

Especially in applications in the automotive industry, where very large quantities are required, it is necessary configure the bearing arrangements used in such a way that as simple as possible and therefore cost-effective can be produced. Furthermore, must the bearing arrangements used have a good running behavior, what a precise Production requires. A particularly relevant in this regard Application is the pinion bearing unit of a car or truck Hinterachsgetriebes. In this application, the shaft of the pinion must be both radial and be stored axially accurate, the storage record high axial forces got to. In most cases, such bearings consist of two by means of a Shaft nut against each other employed tapered roller bearing in O or in X arrangement. Occasionally, two strained angular contact ball bearings used in this application.

in this connection becomes common a sleeve-like, used solid part, which in its axial end portions grooves for receiving the two bearing outer rings having. The sleeve-shaped part has a radially extending flange in an end region, so that the completely pre-assembled unit consisting of pinion complete with pinion shaft, bearings and sleeve, in the bore of a receiving housing inserted and fixed in the flange area with screws in the housing becomes. The two inner rings of the bearings lie on the to be stored Pinion shaft and are spaced by a sleeve. The preload is adjusted by a shaft nut on that an axial end of the pinion shaft is screwed.

It there is a need, in particular the aforementioned bearings even cheaper to produce than before, while still ensuring that the pinion shaft to be stored precise and stable in your desired Position is held.

Of the Invention is therefore the object of a bearing assembly of the type mentioned in such a way that they are very simple and therefore inexpensive can be produced and the part to be stored even under high load conditions precise holds in position.

The solution this object by the invention results from the independent patent claims 1, 3, 7, 9 and 11. In the subclaims are preferred embodiments of the invention.

In Advantageously, it is achieved that by a simple Sheet metal forming process a bearing bearing element is formed, not just a simple assembly, for example in a housing bore, allows but at the same time for a precise one Spacing of the bearings in the axial direction ensures.

A consuming machining of a carrier sleeve deleted; the sleeve-shaped body, for example, by Deep drawing can be made easily, quickly and inexpensively.

With particular advantage is provided that the said storage units, due to the preload force generated during assembly, completely pre-assembled become ready to install and easily mountable when mounting a gearbox or Hinterachsgetriebes be used. The gearbox assembly can thereby considerably simplified and thus made more cost-effective. Especially it is not necessary in the gearbox assembly any activities for selectively generating a biasing force.

at all mentioned solutions, where the sleeve-shaped body made two sheet metal parts, it can be provided that the permanent connection between the parts of the sleeve-shaped body and if appropriate, a welded connection to the sheet-metal ring, in particular laser welding connection, is. Alternatively, the permanent compound may also be a solder joint, in particular a braze joint, be. Preferred in the proposed invention as a bearing tapered roller bearings Insert, which are particularly preferably positioned in O arrangement.

All Embodiments of the invention are characterized in that the required Sheet metal parts are produced in a very simple and therefore cost-effective manner can. Furthermore, the assembly process is very easy to perform, so that the proposed bearing arrangement, especially for mass production suitable. The most preferred application of the proposed Bearing arrangement is the storage of the pinion shaft of a Hinterachsgetriebes of a vehicle.

In the drawing are embodiments of Invention shown. Show it:

1 in radial section, the pinion shaft of a car including its storage and the housing receiving this,

2 to 8th further alternative embodiments of the bearing assembly according to 1 ,

In 1 is a bearing arrangement 1 to see, with the one wave part 7 in the form of the pinion shaft of a car rear axle relative to a housing 6 is stored. For storage of the shaft part 7 become two camps 2 and 3 used, which are designed as tapered roller bearings in O arrangement. The two camps 2 . 3 are on the shaft part 7 arranged at an axial distance from each other; they are on the wave part 7 through a shoulder 25 of the shaft part 7 near the pinion, through a spacer sleeve 26 and by a shaft nut 27 set and biased.

The recording of the two camps 2 . 3 in the hole 5 of the housing 6 takes place through a sleeve-shaped body 4 , This is formed in two parts in the present case. A first, radially outer part 11 is designed as a hollow cylinder and has in its (right) axial end a radially outwardly extending flange 13 on. The flange 13 can by means of screws 28 on the housing 6 be fixed. A radially inner second part 12 of the sleeve-shaped body 4 has a total of three hollow cylindrical sections 14 . 15 and 16 on. The two hollow cylindrical sections 14 and 15 form the axial ends of the second part 12 of the sleeve-shaped body 4 , Between these two sections 14 . 15 is a radially inwardly staggered hollow cylindrical section 16 intended. Through this are axial stops 8th and 9 defined, at which the outer rings of the two bearings 2 . 3 can be applied and so defined to be kept at axial distance. The two parts 11 . 12 of the sleeve-shaped body 4 are in the two axial end portions of the radially inner part 12 welded together. The here forming welds are denoted by the reference numerals 29 and 30 characterized.

Both the first sheet metal part 11 as well as the second sheet metal part 12 of the sleeve-shaped body 4 consist of sheet metal of constant thickness d.

The solution according to 2 is characterized by the fact that the first sheet metal part 11 of the sleeve-shaped body 4 is formed analog. Here, however, the sheet metal part 11 in his one (left) axial end an attack 31 on, the outer ring of the bearing 2 encompasses axially. The second sheet metal part 12 of the sleeve-shaped body 4 points here in its (right) axial end region - as in the solution according to 1 - A hollow cylindrical section 17 on, forming an axial stop 9 in a radially inwardly staggered hollow cylindrical section 18 passes. this section 18 defined at its axial end 19 an axial stop 10 for the outer ring of the bearing 2 , In the area between the two camps 2 . 3 The two sheet metal parts run 11 and 12 at a small radial distance x.

The solution according to 3 is characterized in that the first sheet metal part 11 of the sleeve-shaped body 4 has only a small axial extent, which does not have the axial extent of the outer ring of the bearing 3 extends. The radially inner surface of the first sheet metal part 11 forms the radial contact surface for the outer ring of the bearing 3 , Both bearings 2 . 3 be through the second sheet metal part 12 of the sleeve-shaped body 4 held at an axial distance, wherein the arranged in one (right) axial end hollow cylindrical portion 15 of the second sheet metal part 12 is formed so that it is the hollow cylindrical portion of the first sheet metal part 11 engages radially from the outside. Both sheet metal parts 11 . 12 are by welding (see weld 32 ) permanently connected with each other.

4 shows a solution that according to 2 is very similar. Here, however, provided that the two sheet metal parts 11 and 12 of the sleeve-shaped body 4 in the area between the two camps 2 . 3 lie together.

In the embodiment according to 5 is provided that the sleeve-shaped body 4 through two formed sheet metal parts 11 . 12 is formed, one of which is the outer ring of one of the bearings 2 . 3 radially comprises. The two sheet metal parts 11 . 12 are doing by means of the weld 33 interconnected at a location that is axially between the two camps 2 . 3 lies.

The (left) camp 2 becomes radially from the hollow cylindrical portion 17 of the second sheet metal part 12 includes. On the other hand, the first sheet metal part 11 in his on the flange 13 adjacent area a hollow cylindrical section 21 on, the outer ring of the bearing 3 enclosed radially from the outside. The first sheet metal part 11 settles (to the left) with a radially outwardly offset further hollow cylindrical section 20 fort, whose end with the hollow cylindrical section 17 of the second sheet metal part 12 is welded.

The application of the invention concept on the bordering and fixing of the bearing inner rings is out 6 out. Here is the sleeve-shaped body 4 '' formed as part of that on the shaft part 7 is postponed. In its one (left) axial end is the body 4 '' beaded, creating an axial stop 10 for the inner ring of the bearing 2 is defined. Between the two inner rings of the bearings 2 . 3 is a spacer sleeve 26 arranged. The whole arrangement, consisting of body 4 '' , the two bearing inner rings and the spacer sleeve 26 , is made by a welded sheet metal ring 22 connected to a unit, wherein prior to the hard-welding of the sheet metal ring 22 on the sleeve-shaped body 4 '' a biasing force F is applied, so that a total of one ready to install unit forms.

The same applies to the embodiment according to 7 , The definition of the two inner rings of the bearings 2 . 3 on the shaft part 7 takes place in a similar manner as in the solution according to 6 , However, for receiving and defined spacing of the two bearing outer rings is a sleeve-shaped body 4 ' used by a central radially inwardly offset hollow cylindrical section again the axial stops 8th and 9 defined for the bearing outer rings. In the present case is a metal ring 34 in one (right) axial end of the sleeve-shaped body 4 ' welded to a flange for fixing the bearing assembly to the housing 6 to build.

The one with the sleeve-shaped body 4 '' welded sheet metal ring 22 forms both at the solution according to 6 as well as in accordance with 7 an axial stop 23 for the inner ring of the bearing 3 ,

A last alternative embodiment goes out 8th out. There is for the outer rings of the two camps 2 . 3 provided a solution, as in the 6 and 7 is intended for the inner rings. The sleeve-shaped body 4 has an attack in its one (left) axial end 35 on, which has an axial stop 10 for the outer ring of the bearing 2 forms. The two outer rings of the bearings 2 . 3 be through a spacer sleeve 24 kept at the desired distance. In order to obtain a prestressed unit here as well, after application of a pretensioning force F in the bearing axis direction A, a sheet metal ring is produced 22 on the sleeve-shaped body 4 welded. It also results in a ready to install unit, which is merely inserted into the housing bore and then by means of screws 28 on the housing 6 must be fixed.

1

bearing arrangement

2

camp

3

camp

4

sleeve-shaped body

4 '

sleeve-shaped body

4 ''

sleeve-shaped body

5

drilling

6

casing

7

shaft part

8th

axial attack

9

axial attack

10

axial attack

11

first sheet metal part

12

second sheet metal part

13

flange

14

hollow cylindrical section

15

hollow cylindrical section

16

radial staggered hollow cylindrical section

17

hollow cylindrical section

18

radial staggered hollow cylindrical section

19

axial The End

20

hollow cylindrical section

21

hollow cylindrical section

22

sheet metal ring

23

axial attack

24

spacer

25

shoulder

26

spacer

27

shaft nut

28

screw

29

Weld

30

Weld

31

encroachment

32

Weld

33

Weld

34

sheet metal ring

35

encroachment

A

Lagerachsrichtung

d

thickness of the sheet

x

radial distance

F

preload force

Claims (17)

Bearing arrangement ( 1 ), consisting of two camps ( 2 . 3 ), which in the bearing axis direction (A) can be set against each other, wherein the bearings ( 2 . 3 ) in a sleeve-shaped body ( 4 ) are arranged in the bore ( 5 ) of a housing ( 6 ) or on a shaft part ( 7 ) is axially fixed, characterized in that the sleeve-shaped body ( 4 . 4 ' . 4 '' ) of at least one sheet metal part ( 12 ) of substantially constant thickness (d), which is reshaped so that it has at least one axial abutment ( 8th . 9 . 10 ) for at least one of the bearings ( 2 . 3 ) forms, as well as from a second sheet metal part ( 11 ) of substantially constant thickness (d), the two sheet metal parts ( 11 . 12 ) are permanently connected to each other, wherein the one part ( 11 ) of the sleeve-shaped body ( 4 ) has a hollow cylindrical shape, at the end of a radially extending flange ( 13 ) and that the other part ( 12 ) in its axial end portions hollow cylindrical sections ( 14 . 15 ) for receiving one ring each of the bearings ( 2 . 3 ) and between the hollow cylindrical sections ( 14 . 15 ) a radially offset portion ( 16 ) having a hollow cylindrical shape, wherein the transition between the hollow cylindrical sections ( 14 . 15 ) in the axial end portions and the intermediate hollow cylindrical portion ( 16 ) each have an axial stop ( 8th . 9 ) for each one of the bearings ( 2 . 3 ). Bearing assembly according to claim 1, characterized in that the one part ( 11 ) of the sleeve-shaped body ( 4 ) and the other part ( 12 ) in at least one of the axial ends of the other part ( 12 ) are permanently connected to each other. Bearing arrangement ( 1 ), consisting of two camps ( 2 . 3 ), which in the bearing axis direction (A) can be set against each other, wherein the bearings ( 2 . 3 ) in a sleeve-shaped body ( 4 ) are arranged in the bore ( 5 ) of a housing ( 6 ) or on a shaft part ( 7 ) is axially fixed, characterized in that the sleeve-shaped body ( 4 . 4 ' . 4 '' ) of at least one sheet metal part ( 12 ) of substantially constant thickness (d), which is reshaped so that it has at least one axial abutment ( 8th . 9 . 10 ) for at least one of the bearings ( 2 . 3 ) forms, as well as from a second sheet metal part ( 11 ) of substantially constant thickness (d), the two sheet metal parts ( 11 . 12 ) are permanently connected to each other, wherein the one part ( 11 ) of the sleeve-shaped body ( 4 ) has a hollow cylindrical shape, at the end of a radially extending flange ( 13 ) and that the other part ( 12 ) in its one axial end portion a hollow cylindrical portion ( 17 ) for receiving a ring of one of the bearings ( 2 . 3 ), which forms to form an axial stop ( 9 ) for this camp ( 2 . 3 ) in a radially offset portion ( 18 ) passes, which has a substantially hollow cylindrical shape and at its axial end ( 19 ) an axial stop ( 10 ) for the other camp ( 2 . 3 ). Bearing arrangement according to claim 3, characterized in that the one part ( 11 ) and the other part ( 12 ) of the sleeve-shaped body ( 4 ) over the substantial axial extension of the other part ( 12 ) are formed concentrically adjacent to each other. Bearing arrangement according to claim 3, characterized in that the one part ( 11 ) and the other part ( 12 ) of the sleeve-shaped body ( 4 ) over part of the axial extent of the other part ( 12 ) are arranged concentrically with one another at a radial distance (x). Bearing arrangement according to one of claims 3 to 5, characterized in that the one part ( 11 ) and the other part ( 12 ) of the sleeve-shaped body ( 4 ) in the axial end of the other part ( 12 ) in the region of the hollow cylindrical section ( 17 ) of the other part ( 12 ) are permanently connected to each other. Bearing arrangement ( 1 ) consisting of two warehouses ( 2 . 3 ), which in the bearing axis direction (A) can be set against each other, wherein the bearings ( 2 . 3 ) in a sleeve-shaped body ( 4 ) are arranged in the bore ( 5 ) of a housing ( 6 ) or on a shaft part ( 7 ) is axially fixed, characterized in that the sleeve-shaped body ( 4 . 4 ' . 4 '' ) of at least one sheet metal part ( 12 ) of substantially constant thickness (d), since it is reshaped to have at least one axial abutment ( 8th . 9 . 10 ) for at least one of the bearings ( 2 . 3 ) forms, as well as from a second sheet metal part ( 11 ) of substantially constant thickness (d), the two sheet metal parts ( 11 . 12 ) are permanently connected to each other, wherein the one part ( 11 ) of the sleeve-shaped body ( 4 ) two hollow cylindrical sections ( 20 . 21 ), which have different radial widths, wherein at the end of a hollow cylindrical portion ( 21 ) a radially extending flange ( 13 ) and that the other part ( 12 ) in its one axial end portion a hollow cylindrical portion ( 17 ) for receiving a ring of one of the bearings ( 2 . 3 ), which forms to form an axial stop ( 9 ) for this camp ( 2 . 3 ) in a radially offset portion ( 18 ) passes, which has a substantially hollow cylindrical shape and at its axial end ( 19 ) an axial stop ( 10 ) for the other camp ( 2 . 3 ). Bearing arrangement according to claim 7, characterized in that the one part ( 11 ) and the other part ( 12 ) of the sleeve-shaped body ( 4 ) in the axial region between the two bearings ( 2 . 3 ) are permanently connected to each other. Bearing arrangement ( 1 ), consisting of two camps ( 2 . 3 ), which in the bearing axis direction (A) can be set against each other, wherein the bearings ( 2 . 3 ) in a sleeve-shaped body ( 4 ) are arranged in the bore ( 5 ) of a housing ( 6 ) or on a shaft part ( 7 ) is axially fixed, characterized in that the sleeve-shaped body ( 4 . 4 ' . 4 '' ) of at least one sheet metal part ( 12 ) of substantially constant thickness (d), which is reshaped so that it has at least one axial abutment ( 8th . 9 . 10 ) for at least one of the bearings ( 2 . 3 ) forms, as well as from a second sheet metal part ( 11 ) of substantially constant thickness (d), the two sheet metal parts ( 11 . 12 ) are permanently connected to each other, wherein the one part ( 11 ) of the sleeve-shaped body ( 4 ) a hollow cylindrical shape for radially receiving a ring of one of the bearings ( 2 . 3 ), whereby at the end of the part ( 11 ) a radially extending flange ( 13 ) and that the other part ( 12 ) in its axial end portions hollow cylindrical sections ( 14 . 15 ), wherein the one hollow cylindrical section ( 14 ) for receiving a ring of one of the bearings ( 2 . 3 ) and the other hollow cylindrical section ( 15 ) for receiving the hollow cylindrical portion of the one part ( 11 ) is formed, wherein between the hollow cylindrical sections ( 14 . 15 ) a radially offset portion ( 16 ) is arranged with a hollow cylindrical shape and wherein the transition between the hollow cylindrical sections ( 14 . 15 ) and the intermediate hollow cylindrical section ( 16 ) each have an axial stop ( 8th . 9 ) for each one of the bearings ( 2 . 3 ). Bearing arrangement according to claim 9, characterized in that the hollow cylindrical portion of the one part ( 11 ) of the sleeve-shaped body ( 4 axially no further than the axial extent of one of the bearings ( 2 . 3 ) expands. Bearing arrangement ( 1 ), consisting of two camps ( 2 . 3 ), which in the bearing axis direction (A) can be set against each other, wherein the bearings ( 2 . 3 ) in a sleeve-shaped body ( 4 ) are arranged in the bore ( 5 ) of a housing ( 6 ) or on a shaft part ( 7 ) is axially fixed, characterized in that the sleeve-shaped body ( 4 . 4 ' . 4 '' ) consists of at least one sheet metal part of substantially constant thickness (d), which is reshaped so that it has at least one axial stop ( 8th . 9 . 10 ) for at least one of the bearings ( 2 . 3 ), wherein the sleeve-shaped body ( 4 ) in the hole ( 5 ) of the housing ( 6 ) is axially fixed, wherein at its one axial end a formed by beading of the sheet axial stop ( 10 ) for one of the bearings ( 2 . 3 ) and wherein at its other axial end a radially extending flange ( 13 ) is formed, and that in the axial region of the flange ( 13 ) a metal ring ( 22 ) on the sleeve-shaped body ( 4 ) is fixed, the one axial stop ( 23 ) for one of the bearings ( 2 . 3 ). Bearing arrangement according to claim 11, characterized in that the sleeve-shaped body ( 4 . 4 '' ) between the axial stop formed by the bead ( 1O ) and the axial stop ( 23 ) forming sheet metal ring ( 22 ) is under a biasing force. Bearing arrangement according to claim 11 or 12, characterized in that inside the sleeve-shaped body ( 4 ) between the camps ( 2 . 3 ) a spacer sleeve ( 24 ) is arranged. Bearing arrangement according to one of claims 1 to 13, characterized in that the permanent connection between the parts ( 11 . 12 ) of the sleeve-shaped body ( 4 ) and possibly the metal ring ( 22 ) is a welded connection, in particular a laser welding connection. Bearing arrangement according to one of claims 1 to 13, characterized in that the permanent connection between the parts ( 11 . 12 ) of the sleeve-shaped body ( 4 ) and possibly the metal ring ( 22 ) is a solder joint, in particular a braze joint. Bearing arrangement according to one of claims 1 to 15, characterized in that the two bearings ( 2 . 3 ) Are tapered roller bearings. Bearing arrangement according to claim 16, characterized in that the two tapered roller bearings ( 2 . 3 ) are positioned in O arrangement.