DE102013222840A1 - Safety component for axial and anti-rotation of a rolling bearing ring - Google Patents

Abstract

The invention relates to a device for positional positioning of a bearing ring (3) of a rolling bearing (2) within a housing (5) by means of a securing component (10), which includes a compensation element (12), wherein the material of the housing (5) on the one hand and the Material of the compensation element (12) on the other hand have different coefficients of expansion. For axial securing and for preventing rotation of the bearing ring (3) a rotationally symmetrical, the bearing ring (3) adjacent safety component (10) is provided, which is positively or non-positively connected to a board (9a) of the bearing ring (3) and its associated compensation element (12). in the installed state indirectly or directly on an inner wall (4) of the housing (5) is supported.

Description

The invention relates to a device for positional positioning of a bearing ring of a rolling bearing within a housing by means of a securing component, which includes a compensation element, wherein the material of the housing on the one hand and the material of the compensation element on the other hand have different coefficients of expansion.

In devices whose individual components consist of materials with different coefficients of thermal expansion, arises at varying operating temperatures, a different relative length and / or change in diameter of the components. This phenomenon is not permissible, in particular, for precise bearings, such as in transmissions of vehicles. These transmissions preferably have a housing made of die-cast aluminum as well as gear shafts and roller bearings made of steel. Due to a significantly higher thermal expansion of the aluminum housing compared to the components made of steel, for example, the press-fitting changes from the bearing seat of the rolling bearing in the housing. To solve this technical problem, some proposals have become known.

The DE 42 00 917 A1 describes a bearing of a transmission shaft for a motor vehicle. The transmission shaft made of steel is mounted in a gear housing made of light metal, which has a higher coefficient of thermal expansion than the transmission shaft. The different thermal expansions are compensated by a clamped between a bearing and a shaft shoulder of the gear shaft device. The device includes a filled with a plastic expansion mass metal pot. Volume changes resulting from temperature changes result in an axial expansion of the radially enclosed between the pot and gear shaft and axially supported on one side compensation element.

To compensate for different thermal expansion coefficients is still from the US 5,028,152 A a tapered roller bearing known whose outer ring is supported on the transmission housing via a thermal expansion compensating ring. In order to compensate for thermal variations, the balance ring is made of a material having a higher temperature coefficient than the rolling bearing outer ring. The thermal expansion compensating ring causes a thrust of the bearing ring improving axial preload.

The invention has for its object to provide a device that compensates with simple means a thermally induced dimensional change of components made of different materials and ensures effective torsional and axial securing of bearing rings of a rolling bearing in a housing.

This object is achieved by the features of claim 1. Thereafter, a device is provided in which for axial securing and anti-rotation of the bearing ring, a rotationally symmetrical, the bearing ring is provided adjacent securing component which is positively or non-positively connected to a board or a leg of the bearing ring and its associated compensation element in the installed state directly or indirectly at one Inner wall of the housing is supported. By the device according to the invention and the lateral arrangement of the roller bearing is advantageously an enlarged, the effectiveness of the compensation element optimizing space, with the undesirable effects due to the thermal expansion are advantageously fully compensated.

The laterally positioned to the bearing ring or the rolling bearing backup component with integrated compensation element improves the effect of reacting to temperature change with a change in volume compensation element. With this structure according to the invention, a bearing ring made of steel can be rotationally secured in a housing made of a light metal, in particular made of aluminum or magnesium and axially positionally positioned. The inventively proposed device allows structurally simple measures an effective compensation of temperature-induced dimensional changes due to different thermal expansion coefficients between a bearing ring made of steel and a housing made of light metal.

According to an advantageous embodiment of the invention, the securing component is formed from a sleeve having a U-shaped or L-shaped cross-section. In the installed state of the securing component, the compensation element fixed in the sleeve is supported on an inner wall of the housing.

Alternatively, a designed as an annular body fuse element can be used, in whose lateral surface at least three blind hole-like recesses for receiving compensation elements are introduced.

To illustrate an effective anti-rotation of preferably designed as a roller or needle sleeve bearing ring engages both the ring body and the sleeve via at least one axially aligned approach or a retaining lug form fit in partially or circumferentially introduced recesses of the board of the bearing ring. To avoid a collision between the axial projection and the rolling elements or the Wälzkörperkäfig exceeds a board thickness of the bearing ring an engagement length of the axial projection or the retaining lug. The recesses formed in the board of the bearing ring, for example, by punching, can be advantageously used as an additional identification feature or for positional orientation during assembly of the rolling bearing.

According to a preferred embodiment of the invention, the securing component comprises a compensation element, which is enclosed by two cup-shaped, interlocking sleeves. By this protected, encapsulated arrangement of the compensation element, the life or the service life of the compensation element can be significantly improved. A stable mounting position or securing of the rolling bearing can be achieved by at least three circumferentially distributed securing components. The structure of the securing component provides that in a positionally fixed guide sleeve which is also to be designated as an expansion element compensation element is introduced, in which further engages a temperature-induced strains or changes in length of the compensation element following sliding socket sleeve. The securing component can be integrated, for example, in an annular body in which the securing component is inserted into a recess of the annular body designed as an annular groove. Alternatively, it makes sense to bring the securing components with the encapsulated compensation elements in blind hole-like recesses of the annular body.

To achieve a compact and component-optimized arrangement, a bearing ring is further provided according to the invention, on the board on one side a right-angled leg is formed. The one leg to the lateral surface of the bearing ring forming leg is preferably provided for receiving securing components with integrated compensation elements.

As a measure to achieve an exact installation position of the running as a roller sleeve or needle sleeve bearing ring this is supported opposite of the fuse element to a step forming a leg of the housing. Furthermore, the invention includes a predetermined for the compensation element increment on the inner wall of the housing. The offset to the bearing seat radially outward increment has an annular groove whose width corresponds to a width of the compensation element. The form-fitting fitted in the annular groove compensation element supports the axial securing of the bearing ring.

For the compensation element as a material in particular a plastic, for example an elastomer, is provided, whose coefficient of expansion exceeds the corresponding coefficient of expansion of aluminum or magnesium, the material of the housing and the bearing ring material.

The device according to the invention is preferably used for designed as a roller or needle roller bearing bearings to effectively position a durable as a roller or needle sleeve outer ring made of steel in a housing made of aluminum or a light metal.

Preferred embodiments of the invention are explained in more detail below with reference to the accompanying drawings. In order to be able to illustrate the mode of operation according to the invention, the figures show simplified schematic representations. However, the invention is not limited to these variants. The description is limited to the components essential to the invention. Identical or similar components are identified by the same reference numerals. It shows:

1 a section of a roller bearing, which includes an axial and rotation of the rolling bearing according to the invention;

2 the rolling bearing according to 1 with a modified axial lock;

3 a single part drawing of a fuse component, which includes a compensation element for axial and anti-rotation;

4 a single part drawing of a compensation element;

5 a single part drawing of a ring body, which is intended to receive a compensation element;

6 a rolling bearing with separate securing component and integrated compensation element;

7 a rolling bearing, wherein the compensation element is associated with a leg of the Lagerringbordes; and

8th a side view of the rolling bearing according to 7 ,

The 1 shows a section of a rolling bearing 1 acting as rolling bearings 2 a roller or needle bearing that includes a bearing ring 3 on an inner wall 4 a housing 5 guided and at the same time on a shoulder 6 of the housing 5 is axially supported. rolling elements 7 of the rolling bearing 2 are in a rolling bearing cage 8th used, the side of Borden 9a . 9b of the bearing ring 3 is guided. For axial securing and rotation of the bearing ring made of a metallic material 3 in the case 5 made of light metal is a rotationally symmetrical safety component 10 intended. The side of the bearing ring 3 associated fuse component 10 includes a L-shaped designed, preferably made of sheet steel sleeve 11 , the housing side for receiving at least three symmetrically circumferentially distributed arranged compensation elements 12 is determined. The security component 10 is compared to the bearing ring 3 radially offset at a stepped portion of the inner wall 4 supported. The compensation element 12 has a coefficient of expansion, different from the material of the housing 5 clearly different, so that at a temperature rise, the compensation element 12 more enlarged than the housing 5 , Connected to this is the compensation element 12 non-positively on the inner wall 4 of the housing 5 supported, which at the same time an effective axial securing of the rolling bearing 2 established. To prevent rotation of the rolling bearing 2 includes the sleeve 11 of the security component 10 one in 3 clearly shown axially projecting approach 13 , the form-fitting in a recess 14 from the board 9a of the bearing ring 3 intervenes. The board 9a can circumferential or partially introduced recesses 14 exhibit.

In the 2 is the rolling bearing 1 shown with a deviant to the 1 arranged compensation element 12 , The following description therefore relates exclusively to distinguishing features of 2 opposite the 1 , In the 2 is different from the 1 the compensation element 12 positively in one step increment 15 forming annular groove 16 fitted. This measure improves the axial securing of the rolling bearing 2 ,

The 3 shows in a single part drawing to illustrate other features of the fuse component 10 , this in 1 is shown in the installed state. The executed in the initial state with a rectangular cross-section compensation element 12 is in a recording 18 used, the at the L-shaped sleeve 11 is fixed. A horizontal leg of the sleeve 11 is about the recording 18 extended to form an axially projecting approach 13 , to prevent rotation in the recess 14 from the board 9a of the bearing ring 3 intervenes. Another security component 20 show the 4 , which is a fully enclosed, encapsulated compensation element 17 includes. The structure includes a cup-shaped guide sleeve 19 with a blind hole-like, U-shaped cross-sectional profile into which a corresponding, also blind hole-like socket sleeve 21 is guided. Preferably, three equally circumferentially distributed fuse components 10 . 20 used for torsional and axial securing a rolling bearing.

In the 5 and 6 is a ring body 22 shown in a lateral surface 23 a designed as an annular groove recess 24 which, as in 6 shown, for receiving the securing component 20 is determined. Alternatively to a circumferential recess, the annular body 22 include a plurality of circumferentially distributed, blind hole-like recesses, each for receiving an encapsulated compensation element 17 are determined. To prevent rotation, the ring body 22 an axially projecting approach 25 on, as in 6 shown in the recess 14 from the board 9a of the bearing ring 3 locked.

The 7 and 8th show a rolling bearing 26 , whose bearing ring 27 Borders on both sides 28a . 28b having. On board 28a closes in one piece a right-angled leg 29 at. As the 8th clarifies, is the circumferential leg 29 on the outside for receiving three mutually offset securing components 20 determined, wherein for axial securing of the legs 29 a crank at the end 30 forms.

LIST OF REFERENCE NUMBERS

1

roller bearing

2

roller bearing

3

bearing ring

4

inner wall

5

casing

6

shoulder

7

rolling elements

8th

Rolling Element

9a

shelf

9b

shelf

10

securing component

11

shell

12

compensation element

13

approach

14

recess

15

increment

16

ring groove

17

compensation element

18

admission

19

guide sleeve

20

securing component

21

socket sleeve

22

ring body

23

lateral surface

24

recess

25

approach

26

roller bearing

27

bearing ring

28a

shelf

28b

shelf

29

leg

30

cranking

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

• DE 4200917 A1 [0003]
• US Pat. No. 5,028,152 A [0004]

Claims (10)

Device for positional positioning of a bearing ring ( 3 . 27 ) from a rolling bearing ( 2 . 26 ) within a housing ( 5 ) by means of a securing component ( 10 . 20 ), which is a compensation element ( 12 . 17 ), wherein the material of the housing ( 5 ) on the one hand and the material of the compensation element ( 12 . 17 ) on the other hand have different coefficients of expansion, characterized in that for the axial securing and for preventing rotation of the bearing ring ( 3 . 27 ) a rotationally symmetrical, the bearing ring ( 3 . 27 ) secondary safety component ( 10 . 20 ) is provided, the form-fitting or non-positively with a board ( 9a ) or a thigh ( 29 ) of the bearing ring ( 3 . 27 ) and its associated compensation element ( 12 . 17 ) in the installed state directly or indirectly on an inner wall ( 4 ) of the housing ( 5 ) is supported. Apparatus according to claim 1, characterized in that a sleeve ( 11 ) having a U-shaped or L-shaped cross-section safety component ( 10 ) provided with an externally inserted compensation element ( 12 ) cooperates. Device according to claim 1, characterized in that the securing element ( 20 ) as a ring body ( 22 ) is designed, in the lateral surface ( 23 ) a recess ( 24 ) for receiving compensation elements ( 17 ) is introduced. Device according to one of the preceding claims, characterized in that the annular body ( 22 ) and the sleeve ( 11 ) via at least one axially aligned approach ( 13 . 25 ) positively in partially or circumferentially introduced recesses ( 14 ) from the board ( 9a ) of the bearing ring ( 3 ) intervene. Device according to one of the preceding claims, characterized in that the securing component ( 20 ) a compensation element ( 17 ), of two pot-shaped intermeshing sleeves, a positionally fixed guide sleeve ( 19 ) and a displaceable socket sleeve ( 21 ) is enclosed. Device according to one of the preceding claims, characterized in that the compensation elements ( 17 ) directly or indirectly in connection with the security component ( 20 ) an axially projecting, with the board ( 28a ) of the bearing ring ( 27 ), right-angled legs ( 29 ) assigned. Device according to one of the preceding claims, characterized in that the bearing ring ( 3 ) opposite the fuse element ( 10 ) on a shoulder ( 6 ) of the housing ( 5 ) is supported. Device according to one of the preceding claims, characterized in that the compensation element ( 12 ) of the security component ( 10 ) in one increment ( 15 ) on the inner wall ( 4 ) of the housing ( 5 ) intervenes. Device according to one of the preceding claims, characterized in that a plastic material for the compensation element ( 12 . 17 ) is provided. Device according to one of the preceding claims, characterized in that as rolling bearings ( 2 . 26 ) A needle bearing or roller bearing is provided.

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