DE102005026094A1 - Mounting system for wheel bearings comprises locking ring holding bearing ring in position with cross-section shaped like question mark, upper section of locking ring acting as spring and fitting into annular groove in housing on vehicle - Google Patents

Abstract

The mounting system for wheel bearings comprises a locking ring (7) which holds the bearing ring in position. The locking ring has a cross-section shaped like a question mark. The upper section (11) of this acts as a spring and fits into an annular groove (13) in a housing (5) mounted on the vehicle. The lower section (9) of the ring fits over the edge of the bearing ring.

Description

Territory of invention

The The invention relates to a mounting arrangement of a bearing ring in a housing, wherein the bearing ring by means of a retaining ring in the housing at least held in an axial direction, while the retaining ring at least outside the bearing ring sits and spring elements of the retaining ring in an annular groove of the housing engage, and wherein the bearing ring on at least one of the Circlip angled shoulder of the retaining ring axially supported is.

background the invention

Such a fastening arrangement is in DE 197 13 333 C2 described. With the mounting arrangement, the outer ring of a wheel bearing is axially secured in a housing by means of a retaining ring. The retaining ring made of sheet metal has a mostly hollow cylindrical body, with which the retaining ring sits radially on the outside of the bearing ring. From the main body spring elements go off. The spring elements are spread radially obliquely outward from the retaining ring and engage in an annular groove of the housing. The annular groove is formed in a bore of the housing and radially inwardly open.

From the main body the locking ring is radially in the direction of the axis of rotation a mostly disc-shaped Shoulder off. The shoulder is angled from the base and engages behind the Bearing ring on one end face so that the outer ring in an axial direction is supported on the shoulder of the retaining ring.

The Spring elements are in the mounting arrangement of the prior art from the main body punched and radially inclined spread outwards. It created as punched in the body, the circlip weaknesses. The Fastening arrangements of the prior art are therefore often not rigid enough, so that the bearing ring, albeit within a limited amount axially in the housing emigrated.

Of the Circlip is first firmly pressed onto the bearing ring. When inserting the bearing ring in the casing it hits you at an angle Outside facing side of the spring elements on an edge on the edge of the bearing seat. Each of the spring elements springs by the contact with the edge so far elastically in the direction of the punched out or springs into the respective the punched a, until the bearing ring with the retaining ring in the case introduced can be. When the bearing ring is in its final position, spring the spring elements elastically on and in the annular groove.

In Fastening arrangements of the prior art are in the design the dimensions of the annular groove all Tolerances that influence the position of the spring elements (nominal position) can have to the annular groove, so considered, that the spring elements within the limits of permissible deviations from the Target position can always spring freely in the annular groove. The Spring elements therefore usually engage with relatively large axial play into the ring groove and support not in the groove. The bearing ring can under load and after prolonged Move axially inside this housing within this game.

axial Walking the bearing ring is detrimental to the life of the bearings, is usually of disturbing pops accompanies and adversely affects the accuracy of measurement signals arranged on the bearing measuring sensor.

Summary the invention

The The object of the invention is therefore to a mounting arrangement create, with the aforementioned disadvantages are avoided.

The The object is achieved with the features of claim 1, characterized in that the spring elements hook-shaped from a main body the locking ring from radially outward and at least partially back in the axial direction are angled. Deviating from the prior art are the spring elements not from the main body punched out and out issued, but in the production of an axial extension of the basic body radially outward transferred. The circlip thus points to the shoulder opposite side of the retaining ring at least one, but preferably more, bead-like reinforcements on the spring elements or close to the spring elements. The circlip is very stiff, because the main body not weakened by punching is. The resistance of the mounting assembly against axial deformation is increased with the bead-like training.

Each of the spring elements is reinforced like a sickle. Alternatively, as is provided with an embodiment of the invention of the invention, the spring elements are formed at least from a collar. The collar is everted so that it projects at least partially axially back in the direction of the shoulder on the body. The one in scope Direction circumferential collar has circumferentially at least two slots. The slots separate the spring elements at least from the collar, so that the spring elements are circumferentially separated from each other at least on the collar by means of the slots, and so that the collar is designed radially at least partially compliant. The collar preferably has at least three to six of the slots and thus three to six of the spring elements.

Of the Circlip is preferably made of sheet metal. The main body is preferably hollow cylindrical but also designed differently. The shoulder is from the main body radially inward at right angles or with any other angles to the main body angled and is at least partially axially on the bearing ring at. The sheet is from an extension of the basic body radially outward folded so that the circlip at the bending point the bead-like Section has. The spring elements are depending on the design of the Circlip integrated into the section or sit down first from there into the ring groove away. It is thus conceivable that the bead-like Section as a collar not slotted and the mounting arrangement thus extremely stiff is. Alternatively, the slots extend through the section to the body or axially to the base body.

The Sheet metal is at least far enough transferred that the spring elements in the Ring groove of the housing are spread apart and at least engage in the annular groove. Lie to it the spring elements preferably at least partially on an annular surface of the Ring groove which, to the rotational axis of symmetry and preferably with a 90 ° smaller Angle is inclined to the hollow cylindrical body.

A Further embodiment of the invention provides that the two flanks the annular groove are each formed by an annular surface, the one to 90 ° smaller Include angle between them. The Spring elements are at high acting on the bearing ring axial Loads on both flanks and are optimally stiff in the annular groove supported.

The Shoulder is preferably axially resilient in the mounting arrangement biased against the bearing ring. This is the shoulder in the initial state prior to mounting the mounting assembly to the hollow cylindrical trained body inclined at an acute angle. The main body and the shoulder close before ready mounted mounting arrangement to the acute angle the side of the shoulder between himself, at the in the ready assembled Mounting arrangement abuts the end face of the bearing ring. Of the Bearing ring is so axially elastic by means of the shoulder against the Preloaded axial stop. Alternatively or at the same time is the locking ring by means of the spring elements in the annular groove supported elastically biased. In this case, the energy of the elastically springed spring elements on the shoulder and from the shoulder to the on the axial stop supporting Transfer bearing ring. The bearing ring is due to the bias in the mounting arrangement preferably in any position within permissible tolerance limits of the nominal position deviates, axially free of play by means of the retaining ring elastically biased held in the mounting arrangement.

description the drawings

The Invention will be explained in more detail with reference to an embodiment.

1 shows a fastening arrangement 1 in a longitudinal section along the rotational symmetry axis 2a of the bearing ring 2 a wheel bearing 3 , The wheel bearing 3 is a double row sealed bearing. The bearing ring 2 , an outer ring of the wheel bearing, sits in a hole 4 a vehicle-side fixed housing 5 , Into the hole 4 protrudes radially an axial stop 6 in the form of a shoulder. The bearing ring 2 is in an axial direction on the axial stop 6 supported. In the other opposite axial direction is the bearing ring 2 by means of a retaining ring 7 held axially.

2 shows a view of the retaining ring 7 from the front. 3 shows the circlip 7 in an overall view. 4 shows a detail of the circlip 7 from the in 2 marked with X direction. 5 puts out the detail Z 1 enlarged and not to scale.

The circlip 7 is made of sheet metal and has a basic body 8th on. From the main body 8th is the shoulder 9 angled radially inwards. The shoulder 9 is with the angle α to the hollow cylindrical shaped body 8th inclined ( 5 ). The angle α is <90 °, but can also be> = 90 °.

The main body 8th sits down on one's shoulder 9 wegweisenden axial side in a sickle-like collar or section 10 continued. At the section 10 is the circlip 7 , in particular from 4 can be seen so everted that this with the spring elements 11 at least partially axially over the body 8th protrudes. The circumferentially circumferential collar 10 has six slots on the circumference 12 on. The slots 12 separate six spring elements 11 at least on the collar 10 to catch side of each other. As in particular from 3 and 4 it can be seen, put the slots 12 between the spring elements 11 in the collar 10 and axially in the body 8th continued.

The spring elements 11 are hook-like on the outside of the body 8th so bent back and in installed condition in an annular groove 13 of the housing 5 in from the circlip 7 spread apart with an angle φ. Here are the spring elements 11 bent inside with the radius R. Φ is <45 °, but can also be> = 45 °.

The circlip 7 with sheet metal spring steel is used during assembly of the mounting assembly 1 first on the bearing ring 2 put on, pushed or pressed or alternatively in the annular gap 17 between the bearing ring 2 and the housing 5 introduced. The spring elements meet 11 on the edge 18 the bore 4 and spring radially. The spring elements 11 can maximally only spring in so far, until they are radially on the body 8th issue. The inner diameter D _I is therefore greater than the sum of twice the largest sheet thickness S of the spring elements 11 and the outer diameter D _a of the outer diameter D _{A of} the bearing ring 2 seated body 8th : D I > (2S + D a ).

The ring groove 13 has two mutually facing flanks in the form of the annular surfaces 14 and 15 on. The ring surface 14 points in the direction of the axial stop 6 and is the rotational symmetry axis 2a too inclined. The ring surface 14 and the main body 9 enclose an angle δ between them. δ is <90 °, but can also be> = 90 °. At the ring surface 14 are the spring elements 11 with axial preload on. The ring surface 14 and the rotational symmetry axis 2a is the ring surface 15 facing. The ring surfaces 14 and 15 go in the groove bottom 16 the ring groove 13 into each other. The groove bottom 16 is rounded with the radius R The ring surfaces 14 and 15 are inclined to each other with the angle β, which is smaller than 90 ° - but can also be> = 90 °.

The shoulder 9 is resilient against the bearing ring 2 biased and can yield at least as far elastically axially until the acute angle in the initial state angle α is at least 90 ° or greater than 90 °. The shoulder 9 clamps the bearing ring 2 axially against the axial stop 6 in front. This is the shoulder 9 axially in opposite axial direction over the spring elements 11 on the ring surface 14 supported.

It is conceivable that the spring elements 11 in the ring groove 13 elastic against the housing 5 are biased. The elastic bias is transferred in the case over the shoulder 9 on the bearing ring 2 and presses it axially against the axial stop 6 ,

1

mounting assembly

2

bearing ring

2a

Rotational symmetry axis

3

Wheel bearings

4

drilling

5

casing

6

axial stop

7

circlip

8th

body

9

shoulder

10

Section / collar

11

spring element

12

slot

13

ring groove

14

ring surface

15

ring surface

16

groove base

17

annular gap

18

edge

Claims (11)

Mounting arrangement ( 1 ) of a bearing ring ( 2 ) in a housing ( 5 ), whereby the bearing ring ( 2 ) by means of a retaining ring ( 7 ) in the housing ( 5 ) is held at least in an axial direction, and thereby the retaining ring ( 7 ) at least outside on the bearing ring ( 2 ) and spring elements ( 11 ) of the retaining ring ( 7 ) in an annular groove ( 13 ) of the housing ( 5 ), and wherein the bearing ring ( 2 ) on at least one of the retaining ring ( 7 ) angled shoulder ( 9 ) of the retaining ring ( 7 ) is axially supported, characterized in that the spring elements ( 11 ) hook-shaped from a base body ( 8th ) of the retaining ring ( 7 ) are formed from radially outward and at least partially angled back in the axial direction. Fastening arrangement according to claim 1, characterized in that the spring elements ( 11 ) from at least one collar ( 10 ) are formed, that the collar ( 10 ) is everted so that the collar ( 10 ) at least partially axially over the body ( 8th ) and that the circumferentially circumferential collar ( 10 ) peripherally at least two slots ( 12 ), wherein the slots ( 12 ) the spring elements ( 11 ) at least on the collar ( 10 ) are circumferentially separated from each other. Fastening arrangement according to claim 1, characterized in that the retaining ring ( 7 ) made of sheet metal is that the shoulder ( 9 ) axially on the bearing ring ( 2 ) is applied, that the retaining ring ( 7 ) from the shoulder ( 9 ) away with in the hollow cylindrical body ( 8th ) axially continues, that the hollow cylindrical body ( 8th ) axially in at least one bead-like bent portion ( 10 ) of the retaining ring ( 7 ) passes that sheet to the section ( 10 ) radially outward and in the direction of the annular groove ( 13 ) is bent and that the retaining ring ( 7 ) at least from the section ( 10 ) in the elastic spring elements ( 11 ), wherein the elastic spring elements ( 11 ) from the bearing ring ( 2 ) away out into the annular groove ( 13 ) are spread apart. Fastening arrangement according to claim 3, characterized in that the section ( 10 ) at least two circumferentially adjacent to each other and partially axially in the body ( 8th ) continuing slots ( 12 ), wherein the slots ( 12 ) the spring elements ( 11 ) are circumferentially separated from each other. Fastening arrangement according to claim 1 or 3, characterized in that the spring elements ( 11 ) in the annular groove ( 13 ) elastically against the housing ( 5 ) are biased. Fastening arrangement according to claim 1, characterized in that the spring elements ( 11 ) at least partially on a first annular surface ( 14 ) of the annular groove ( 13 ), wherein the first annular surface ( 14 ) of the rotational symmetry axis ( 2a ) of the bearing ring ( 2 ) is too inclined. Fastening arrangement according to claim 6, characterized in that the first annular surface ( 14 ) at an acute angle to the hollow cylindrical body ( 8th ) is inclined. Fastening arrangement according to claim 6, characterized in that a second annular surface ( 15 ) of the annular groove ( 13 ) and the first ring surface ( 14 ) are inclined at an acute angle to each other. Fastening arrangement according to claim 9, characterized in that the shoulder ( 9 ) is disc-shaped, and that the shoulder ( 9 ) in the mounting arrangement ( 1 ) axially resilient against the bearing ring ( 2 ) is biased. Fastening arrangement according to claim 1, characterized in that the bearing ring ( 2 ) axially on a to the housing ( 5 ) fixed axial stop ( 6 ) that the bearing ring ( 2 ) by means of the shoulder ( 9 ) in an axial direction elastically against the axial stop ( 6 ) and that the shoulder ( 9 ) by means of the spring elements ( 11 ) at least opposite to the axial direction axially in the annular groove ( 13 ) is supported. Fastening arrangement according to claim 1, characterized in that the bearing ring ( 2 ) axially on a to the housing ( 5 ) fixed axial stop ( 6 ) rests that the shoulder ( 9 ) axially on the bearing ring ( 2 ) and that the bearing ring ( 2 ) by means of in the annular groove ( 13 ) supported spring elements ( 11 ) over the shoulder ( 9 ) axially elastic against the axial stop ( 6 ) is biased.