DE102005027897A1 - Roller bearing e.g. for bearing, has outer ring with set of outer rings having covered rollers and rollers bent to rotation axis of roller bearing - Google Patents

Abstract

The roller bearing (1) has an outer ring (2) with a set of outer rings having covered rollers (4). The rollers are bent to the rotation axis (1a) of the roller bearing. The outer bearing is a plate being a one part piece with the outer bearing being angularly arranged.

Description

Territory of invention

The The invention relates to a roller bearing with an outer ring and at least a row from the outer ring enclosed rollers, wherein the rotational symmetry axes of the rollers are inclined to the axis of rotation of the roller bearing and wherein the outer ring a non-cutting formed by forming sheet metal part.

background the invention

The The invention relates to roller bearings of the taper roller bearing type or of the type of tapered roller bearings with cylindrical rollers. The outer and inner rings of such Bearings are mainly produced by machining. The manufacturing times, manufacturing costs and material consumption are correspondingly high. The bearings have a relatively high weight.

Therefore, attempts have been made in the past to produce the bearing rings without cutting from sheet metal. Such bearings are for example in US1,672,012 described. The outer ring and also the inner ring are annular hollow bodies for cylindrical seats either in the housing or on a corresponding shaft. The bearings are light in weight. The proportion of waste in the production of the bearing rings made of sheet metal is relatively low.

The However, bearings are for the use in bearings with high loads due to the low wall thickness and the lack of radial support not or only partially suitable. Due to the complicated hollow contour is the production of the Warehouse laborious. supporting or retaining rims on the bearing rings are only by additionally ins Bearings integrated discs and thus relatively complex feasible.

Summary the invention

The The object of the invention is therefore to provide roller bearings of the type, which is easy and inexpensive let produce.

The The object is the features of claim 1 for a single or multi-row Roller bearing solved.

Of the outer ring has an annular-cup-shaped body without Material doubling up. From the main body enter or alternatively two rims radially inward in the direction of the axis of rotation or radially outward pointing away from the axis of rotation. The or the shelves are one-piece with the main body educated. Alternatively, of the main body has a board inside and another board radially outward. The inboard board can be an axial board for the axial Start of the rolls. Alternatively, on the board or on two radially inwardly facing Borden axially or radially guided a cage. In the cage the rollers are held in the axial direction by a side board and guided. Alternatively, a full roll trained roller bearing is provided. In In this case, the camp has no cage. The roles are in each of the two axial directions through each of the shelves held axially. In particular, the last-mentioned roller bearing is easy and inexpensive produce and for highest designed radial loads.

Of the outer ring has radially inside a cylindrical, spherical or preferably an inner conical inner raceway. The outer ring is in accuracy one formed by drawing or by related processes cold formed Component if necessary plus the dimensional deviations by hardness delay educated.

The Component can be machined at least on the inner race accordingly be postprocessed. Alternatively, the outer ring finished with molding and will no longer be machined reworked. The housing seat is usually produced by machining or machined finished. The geometry of the circular hole housing seat Therefore deviates significantly less from the ideal roundness, as the geometry of the machined and not machined reworked outer ring in the uninstalled state. In this case, the unobstructed outer ring preferably before being pressed into a housing seat a geometry at any point of the inner race, whose Deviation from the ideal roundness is greater than that of the geometry, which the same inner raceway has the same places when the outer ring pressed into the housing seat is.

Of the Nominal diameter of the outer ring Outside is larger than before being pressed in the nominal diameter of the housing seat, so that the outer ring with the so-called overlap in the housing seat must be pressed. The free inner cross section on the inner raceway of the outer ring is therefore too large before being pressed in.

The relatively thin-walled outer ring and thus also the / the diameter of the inner race lace during insertion relative to the relatively rigid housing seat radially. The inner raceway thus has only after pressing the functionally correct inner diameter.

When Material for the preparation are all cold-formable, or use by hardening steels suitable. Because the outer ring in the case radially supported is, the outer ring can with a relatively small wall thickness getting produced. The material consumption is reduced. The surface of the Ringes has a closed structure with no notches from cutting Editing on.

A Embodiment of the invention provides that the board of the rotation axis of the roller bearing away to the outside from the outer ring going on. The board is an axial stop of the outer ring, with which the outer ring when pressing in the outer ring strikes and / or is an aid to which an injection tool is attached the assembly of the outer ring supported. At the same time or alternatively, such a board is an element a position assurance against rotation about the axis of rotation of the roller bearing and / or against axial migration of the outer ring in / out of the housing seat. If the board is an element of an anti-rotation, this acts to Example with screws or pins and the like together. It is also conceivable that the board has one or more axial projections, which engage positively in corresponding axial recesses in the housing and so a twisting of the outer ring prevent in the circumferential direction.

A Another embodiment of the invention provides a one-piece with the outer ring trained position securing element before, which is the outer ring radially outside having. The position securing element is characterized by at least one radial Deepening formed in the material of the outer ring, the too at least one radial increase from the material of the outer ring is adjacent. The depressions arise, for example, by plastic repress of material from the surface. The repressed Material forms a projection protruding radially out of the surface in the neighborhood of the depression. An example of a variety such adjacent projections and depressions are splines or knurled profiles. These position securing elements mate when the outer ring in the housing seat sits, with positive and / or non-positive locking the material of the housing seat and secure the seat axially and / or circumferentially.

The Roller bearing is either a unit of the outer ring and the rolling elements and optionally with a cage or has an inner ring and an outer ring and at least one row radially between the inner and the outer ring arranged rollers on. The inner ring has an outer raceway whose in any longitudinal sections along the axis of rotation of the roller bearing contemplated contour lines run inclined to the axis of rotation. Such lines are for Example convex or, for example, rectilinear to form a Truncated cone. The convex contour of the raceway is characterized by convex bulging the inner ring Contour lines described.

description the drawings

The invention is described below with the in 1 to 3 illustrated embodiments described in more detail. 1 shows a roller bearing 1 with an outer ring 2 and with at least one row 3 from the outer ring 2 comprehensive roles 4 , The rotational symmetry axes 4a the roles 4 are to the rotation axis 1a of the roller bearing 1 inclined. The roles 4 are in a cage 9 held by the in the longitudinal section through the roller bearing 1 to 1 only the margins 10 are visible.

The outer ring 2 is a non-cutting produced by forming sheet metal part and the body 5 cup-shaped. The cup-shaped outer ring 2 Bottom is one-piece with one of the outer ring 2 radially inward to the axis of rotation 1a angled board 6 educated. In addition, the outer ring 2 another one-piece with the outer ring 2 trained board 7 on, from the edge of the large opening of the cup-shaped main body 5 pointing radially outward pointing.

The outer ring 2 has an inner raceway 8th on, their inner contour lines 12 , in the longitudinal section through the roller bearing after 1 and in all other arbitrary longitudinal sections along the axis of rotation 1a of the roller bearing 1 considered, to the axis of rotation 1a inclined, leaving the inner race 8th is formed innenkonisch - or in the direction of the axis of rotation 1a convex spherical bulging can be. The outer contour 31 of the outer ring is with an outer conical lateral surface 11 provided, the surface parallel to the inner raceway 8th around the axis of rotation 1a runs. Accordingly, the mutually parallel contour lines 12 and 13 in any longitudinal sections by the same angle to the axis of rotation 1a inclined. The housing, not shown, is for receiving the roller bearing 1 Accordingly, an internally conical housing seat for the outer ring 2 exhibit.

The roles 4 are cylindrically shaped so that the inner raceway 8th plane parallel to the outer raceway 14 of the inner ring 17 around the outer raceway 14 runs. In the one axial direction closes the side edge 10 of the cage 9 axially to the board 6 at. Axial on both sides of the outer raceway 14 stand the side boards 15 and 16 radially from the inner ring 17 out.

2 shows a roller bearing 18 with an outer ring 19 and at least one row of the outer ring 19 comprehensive roles 20 , The rotational symmetry axes 20a the roles 20 are to the rotation axis 18a of the roller bearing 18 inclined. The roles 20 are in a cage 21 held by the in the longitudinal section through the roller bearing 18 to 2 only the margins 22 are visible.

The outer ring 19 is a non-cutting produced by forming sheet metal part. and has two radially inward to the axis of rotation 18a angled shelves 23 and 24 on. The preform 19a an outer ring 19 is in the 3 and 4 shown. At the preform 19a at first only shows the board 23 radially inward and the board 24 is initially in the initial form 24a in front. When installing the roller bearing 18 then becomes the board 24 folded radially inwards. The shelves 23 and 24 take on the fully assembled roller bearing 18 to 2 the roles 20 axially between them.

On the outer ring 19 is an interior career 25 formed, the inner contour lines 12 , in the longitudinal section through the roller bearing after 2 and in all other arbitrary longitudinal sections along the axis of rotation 18a of the roller bearing 18 considered, to the axis of rotation 18a inclined, leaving the inner race 25 innenkonisch is formed. The outer contour 32 of the outer ring 19 is with an outer conical lateral surface 26 provided, the surface parallel to the inner raceway 25 around the axis of rotation 18a runs. Accordingly, the mutually parallel contour lines 12 and 13 in any longitudinal sections by the same angle to the axis of rotation 18a inclined. The housing, not shown, is for receiving the roller bearing 18 Accordingly, an internally conical housing seat for the outer ring 19 exhibit.

The roles 20 are cylindrical rollers. In the one axial direction closes the side edge 10 of the cage 9 axially the board 6 at. The inner ring 27 is without a board. The margins 22 of the cage 21 run radially between the ribs 23 and 24 , Here are the margins 22 the inner ring 27 radially closer than the outer ring 19 ,

The outer ring 19 has radially outwardly at least one piece with the outer ring 19 trained position securing element 28 for immovable securing of the outer ring 19 in a housing seat. The position assurance element 28 is in this case by radial depressions 29 in the material of the outer ring 19 educated. Between every two of the wells 29 is therefore a radial increase 30 educated. The position assurance element 28 In a housing seat, there is a partly positive and non-positive interaction with the housing, which may also result in mutual, in part plastic deformation of the interacting materials ("fixed claws") The positional securing thus acts in circumferential directions as well as in axial directions.

The 3 to 5 show an alternative embodiment of the outer ring 19 , In this case, the outer ring 19 three distributed on the circumference position securing elements 33 on, the axially out of the board 23 are shaped. The number of position assurance elements 33 is exemplary and can be chosen any other way. In the production of the position assurance elements 33 was largely axial material from the board 23 displaced, so the stock protection 33 axially to a recess 34 in the board 23 is adjacent (detail - 5 ). The position securing elements 28 go in a housing seat with corresponding recesses on, for example, an axial shoulder of the housing a positive connection. The positive connection prevents the circumferential wandering of the outer ring 19 in the case.

1

roller bearing

1a

axis of rotation

2

outer ring

3

line

4

role

4a

Rotational symmetry axis

5

body

6

shelf

7

shelf

8th

Inner raceway

9

Cage

10

margin

11

lateral surfaces

12

Inner contour line

13

Outer contour line

14

Outer race

15

side board

16

side board

17

inner ring

18

roller bearing

18a

axis of rotation

19

outer ring

19a

preform of the outer ring

20

roll

20a

Rotational symmetry axes

21

Cage

22

margin

23

shelf

24

shelf

24a

original shape of the board

25

Inner raceway

26

lateral surface

27

inner ring

28

Position securing element

29

deepening

30

increase

31

outer contour

32

outer contour

33

Position securing element

34

deepening

Claims (18)

Roller bearings ( 1 . 18 ) with an outer ring ( 2 . 19 ) and at least one row of the outer ring ( 2 . 19 ) comprehensive roles ( 4 . 20 ), whereby the rotational symmetry axes ( 4a . 20a ) of the roles ( 4 . 20 ) to the rotation axis ( 1a . 18a ) of the roller bearing ( 1 . 18 ) and wherein the outer ring ( 2 . 19 ) is a non-cutting formed by forming sheet metal part, characterized in that the outer ring ( 2 . 19 ) in one piece with one of the outer ring ( 2 . 19 ) angled outgoing board ( 6 . 7 . 23 . 24 ) is trained. Roller bearing according to claim 1, characterized in that the outer ring ( 2 . 19 ) radially inward an inner raceway ( 8th . 25 ) whose contour lines ( 12 ), in arbitrary longitudinal sections along the axis of rotation ( 1a . 18a ) of the roller bearing ( 1 . 18 ), to the axis of rotation ( 1a . 18a ) inclined. Roller bearing according to claim 1, characterized in that the board ( 6 . 23 . 24 ) radially inward to the axis of rotation ( 1a . 18a ) of the roller bearing ( 1 . 18 ), where the rollers ( 4 . 20 ) is at least partially axially engaged behind the board ( 6 . 7 . 23 . 24 ) are. Roller bearing according to claim 1 with a cage ( 9 ), where the roles ( 4 ) in the cage ( 9 ) in the axial direction by at least one side edge ( 10 ) of the cage ( 9 ) in the cage ( 9 ), characterized in that the board ( 6 ) radially inward to the axis of rotation ( 1a ) of the roller bearing ( 1 ), at least part of the board ( 6 ) in the axial direction to the side edge ( 10 ). Roller bearing according to claim 1 with a cage ( 21 ), where the roles ( 20 ) in the cage ( 21 ) in the axial direction through at least one side edge ( 22 ) of the cage ( 21 ) in the cage ( 21 ), characterized in that the board ( 23 . 24 ) radially inward to the axis of rotation ( 18a ) of the roller bearing ( 18 ), wherein the side edge ( 22 ) radially between the board ( 23 . 24 ) and the axis of rotation ( 18a ) rotates. Roller bearing according to claim 7 with an inner ring ( 27 ), where the series ( 3 ) radially between the inner ring ( 27 ) and the outer ring ( 19 ), characterized in that the side edge ( 22 ) the inner ring ( 27 ) is radially closer than the outer ring ( 19 ). Roller bearing according to claim 1, characterized in that the board ( 7 ) from the axis of rotation ( 1a ) of the roller bearing ( 1 ) away to the outside of the outer ring ( 2 ) goes off. Roller bearing according to claim 1, characterized in that a first board ( 6 ) radially inward to the axis of rotation ( 1a ) of the roller bearing ( 1 . 18 ) and that a second board ( 7 ) from the axis of rotation ( 1a ) away from the outer ring ( 2 ) is gone. Roller bearing according to claim 1, characterized in that the outer ring ( 19 ) two in the direction of the axis of rotation ( 18a ) leaving the shelves ( 23 . 24 ) having. Roller bearing according to claim 1 with an inner ring ( 17 . 27 ), wherein the row is radially between the inner ring ( 17 . 20 ) and the outer ring ( 2 . 19 ), characterized in that the inner ring ( 17 . 20 ) an outer career ( 14 ) whose contour lines ( 13 ), in arbitrary longitudinal sections along the axis of rotation ( 1a . 18a ) of the roller bearing ( 1 . 18 ), to the axis of rotation ( 1a . 18a ) inclined. Roller bearing according to claim 1 with an inner ring ( 17 ), where the series ( 3 ) radially between the outer ring ( 2 ) and an outer career ( 14 ) of the inner ring ( 17 ), characterized in that the board ( 6 ) radially inward to the axis of rotation of the ( 1a ) Roller bearing ( 1 ), that the inner ring ( 17 ) at least with a side board ( 15 . 16 ), whereby the side board ( 15 . 16 ) of the external career ( 14 ) axially and radially outwardly from the inner ring ( 17 protruding). Roller bearing according to claim 1 with an inner ring ( 27 ), where the series ( 3 ) radially between the outer ring ( 2 ) and an outer career ( 14 ) of the inner ring ( 27 ), characterized in that the outer ring ( 2 ) two in the direction of the axis of rotation ( 18a ) leaving the shelves ( 23 . 24 ) and that the inner ring ( 27 ) is cordless. Roller bearing according to claim 1, characterized in that the rollers ( 4 . 20 ) Cylindrical rollers are. Roller bearing according to claim 1, characterized in that the outer contour ( 31 . 32 ) of the outer ring ( 2 . 19 ) is at least partially outwardly conical. Roller bearing according to claim 1, characterized in that the outer ring ( 2 . 19 ) radially inward an inner conical inner raceway ( 8th . 25 ) and outside at least partially an outer conical outer contour ( 31 . 32 ), wherein the inner raceway ( 8th . 25 ) and the outer contour ( 31 . 32 ) have the same cone angle to each other in size. Roller bearing according to claim 1, characterized in that the outer ring ( 19 ) at least one integral with the outer ring ( 19 ) formed position securing element ( 28 . 33 ) for securing the outer ring ( 19 ) in a housing seat. Roller bearing according to claim 16, characterized in that the outer ring ( 19 ) the position assurance element ( 28 . 33 ) radially outward, wherein the position assurance element ( 28 ) by at least one radial recess ( 29 ) in the material of the outer ring ( 19 ) formed to at least one of the material of the outer ring ( 19 ) formed radial increase ( 30 ) is adjacent. Roller bearing according to claim 16, characterized in that the board ( 23 ) radially inward to the axis of rotation ( 18a ) of the roller bearing ( 18 ) and that the position assurance element ( 33 ) at least axially out of the board ( 23 protruding).