DE102005027503A1 - Rolling bearing has three rows of rolling bodies arranged radially one above the other with first row radially adjoining first track, third row radially contacting outer second track and second row radially inbetween - Google Patents

Abstract

The rolling bearing (1) has three rows of rolling bodies (4,6,8) of which the first row (3) is in contact with a first track (10), a second row (5) is mounted between and in contact with the first and third rows and the third row (7) is in contact with the second track (14). The rows are mounted radially one above the other and seen from the rotational axis (15) in the radial direction first the first row radially adjoins the first track, then the second row is radially supported on the first row, the third row is radially supported on the second row and the third row has radially on the outside contacts (16) with the second track.

Description

Territory of invention

The The invention relates to a rolling bearing with three rows of rolling elements, in which is a first row in contact with a first career, in a second row between the first row and a third row Row arranged in contact with the first row and the third row and in which the third row is in contact with a second career is.

background the invention

In roller bearings with dry lubrication is the use of a cage as a spacer between the Rolling elements of a Series rather limited or not possible. cages wear out fast in such applications. It is therefore often on bearings without cage resorted. In single row rolling bearings without cage the dynamics of the rolling elements is disturbed, since the Rolling bodies meeting each other Where they meet, obstruct by opposing movements.

Out US 3,751,125 Axial bearings are known with three interacting rolling elements. The rolling elements of the radially outer and the radially inner row are balls. The construction of such rolling bearings is complicated due to complicated lateral guidance of the three rows. Such a bearing is useful only in applications with very low speeds and low bearing loads.

Summary the invention

The The object of the invention is therefore to provide a rolling bearing for radial loads, in which the rolling elements with lowest frictional contact against each other and preferably with dry lubricated lubricating media, run together.

These The problem is solved with the features of claim 1. By doing Radial bearings are three rows of rolling elements radially engaged with each other. The first one runs radially inward on one Rolling body raceway. The rolling element raceway is on an inner ring or alternatively directly on a bolt, a wave and the like educated. At the first row, the second row is supported as radially middle row. It is always a Wälzköper the second row with two Rolling elements of the first row in contact. On the second row follows radially outward third row, of which in each case a rolling element on two rolling elements of the second middle row supports.

The Rolling elements each Series are not circumferential within a row with each other in contact and can so do not meet and slow each other. The Rolling elements roll instead of each other and on the raceways, so that the Frictional contribution in the bearing optimally essentially on rolling friction limited is.

Everyone Rolling elements of the radially inward row has a rolling contact to the raceway and two rolling contacts each to the second middle row. The two rolling contacts to the middle row are by two Wälzköper the caused in the middle row, which in each case a rolling element of the support the first row. At the same time supports each of the rolling elements of the middle row also to the outside on two rolling elements of the third row, so that each of the rolling elements of the third row at four Contact zones in the rolling contact is. Each rolling element of the radially outside lying row has three contact zones. Two of the rolling contacts are for the contact with the second row and a rolling contact is for the contact provided with an inner race. The inner race includes the Rolling elements radially Outside and is either on an outer ring or directly in a housing or similar educated.

The Radial bearing according to the invention preferably each has one of the three rows. alternative are in the axial direction, ie longitudinal the rotation axis and several of the three rows arranged side by side. The number of juxtaposed first, second and third rows to be equal or unequal to each other.

All Rolling elements of the roller bearing have the same diameter and / or the same to each other Length up or differ from row to row or within each in diameter and / or in length. The rolling elements are Rollers, preferably cylindrical rollers, but also needles or balls in any version. It is also conceivable the use of rollers whose diameter of the axial ends towards the center of the rolling element from or increases. At such Rolls, for example, the lateral surface concave inwards or convex to the outside bulged. The other role in rolling contact then has a corresponding geometry. In the case, for example, if the rollers of the middle row are convex, the rolling elements should be the inner and outer row be concave.

The Rows point to each other either the same odd or the same even number of rolling elements on.

The rolling elements of the bearing are guided in the axial direction either by one or two shelves or hold themselves together. Embodiments of the invention provide that the rolling bearing each having one or preferably two shelves inside or outside. Each of the shelves protrudes radially so far beyond the track, that this at least axially engages behind the row, which bears against the raceway. Alternatively, the board extends even further as far radially in the direction of the bearing center, and to the extent that the rolling elements of one of the rows are completely and at the same time the rolling elements of the middle row partially engaged behind by the board.

A preferred embodiment provides a bearing, which has an inner ring and an outer ring. On the inner ring and on the outer ring are in each case two of the shelves are formed, which take the rolling elements axially between them. In the rolling bearing are at least the radially inner row and the radially outer row thus guided axially on both sides by the board. The middle row is held either by the same shelves or self-supporting rolling elements. The self-supporting rolling elements are the rolling elements that in engagement with the rolling elements of the other rows and to the rolling elements of the other rows axially engage behind. An example for is the combination already mentioned at the beginning of convex and concave rolling elements.

description the drawings

following are further embodiments of the invention of embodiments explained in more detail.

1 shows a side view of a rolling bearing 1 , The rolling bearing 1 has an inner ring 2 , a first series 3 rolling elements 4 , a second series 5 rolling elements 6 , a third row 7 rolling elements 8th and an outer ring 9 on. The rolling elements 4 . 6 . 8th are cylindrical rollers. Each of the rows 3 . 5 . 7 has an even number of rolling elements 4 . 6 . 8th on. The rolling elements 4 . 6 . 8th each of the rows 3 . 5 . 7 are each within the series 3 . 5 or 7 in the circumferential direction about the axis of rotation 15 spaced contactlessly.

The first row 3 is with an outer career 10 on the inner ring 2 radially in contact 11 , Every rolling element 4 the first row 3 touches on the contacts 12 the rolling elements 6 , Each of the rolling elements 6 the second row radially engages partially between two of the rolling elements 4 in the first row 3 and radially partially between two of the rolling elements 8th in the third row 7 one. Every rolling element 6 the second row 5 touches on the contacts 13 the rolling elements 8th , The third row 7 is in contact 16 with an inner career 14 on the outer ring 9 , The rows 3 . 5 . 7 are in the radial direction to the axis of rotation 15 of the rolling bearing 1 arranged one above the other. Every rolling element 8th the third row 7 is radially outward for a contact 16 with the inner raceway 14 intended. The contacts 11 . 12 . 13 . 16 are rolling contacts by line contact.

If the inner ring 2 in the direction of the arrow 17 marked direction and around the axis of rotation 15 the rolling elements roll 4 in opposite direction of rotation on the inner ring 2 from and rotate in the sense of the rotation direction arrow 18 , One rolling element each 6 runs simultaneously on two rolling elements 4 and rotates in the sense of the direction of rotation arrow 19 , The rolling elements 8th run on the rolling elements 6 , rotate in the sense of the direction of rotation arrow 20 and roll on the outer ring 9 from.

If the outer ring 9 in the direction of the arrow 21 marked direction of rotation about the axis of rotation 15 rotates, the rolling elements run 8th on the rolling elements 6 and rotate in the sense of the direction of rotation arrow 20 , Time equal to each rolling element runs 6 on two of the rolling elements 4 and rotates in the sense of the direction of rotation arrow 19 , The rolling elements roll 4 on the inner ring 2 off and rotate in the sense of the direction of rotation arrow 18 ,

The inner ring 2 has two shelves 22 on ( 2 ), which are radial from the axis of rotation 15 directed away over the track 10 stand out. 2 shows a detail of the rolling bearing 1 in a sectional view, taken along the line II-II according to 1 , Each of the shelves 22 engages behind the rolling elements 4 the first row 3 axially completely so that each of the shelves 22 radially over the rolling elements 4 protrudes and thus the rolling elements 6 the second row 5 partially behind.

The outer ring 9 has two shelves 23 on, which is radial to the axis of rotation 15 directed towards the career 11 stand out. Each of the shelves 23 engages behind the rolling elements 8th the third row 7 axially completely so that each of the shelves 23 radially over the rolling elements 8th protrudes and thus the rolling elements 6 the second row 5 partially behind.

In the rolling bearing 1 each lie on board 22 and a board 23 radially opposite each other. The radial distance A between the respective mutually opposite Borden 22 . 23 is smaller than the smallest possible diameter of the rolling elements 6 , So that the rolling bearing 1 at least with the rolling elements 6 can be filled, indicates both the board 22 as well as the board 23 a radial recess 25 respectively. 26 on. If the recesses 25 and 26 facing each other radially are their arcs 27 and 24 described by a common diameter, which is slightly larger than the largest possible diameter of the rolling elements 4 . 6 . 8th is. In this way is an axial passage for filling the rolling bearing 1 , optionally with the rolling elements 4 . 8th , but with the rolling elements 6 created.

3 shows a cut shown detail of a rolling bearing 28 , The rolling bearing 28 has an inner ring 29 , a first series 3 rolling elements 4 , a second series 5 rolling elements 30 , a third row 7 rolling elements 8th and an outer ring 31 on. The rolling elements 4 and 8th are cylindrical rollers.

The first row 3 is with an outer career 10 on the inner ring 29 radially in contact 11 , Every rolling element 4 the first row 3 touches the rolling elements 30 , Each of the rolling elements 30 the second row radially engages partially between two of the rolling elements 4 in the first row 3 and radially partially between two of the rolling elements 8th in the third row 7 one. The third row 7 is in contact 16 with an inner career 14 on the outer ring 31 ,

The inner ring 29 has two shelves 32 on ( 2 ), which are radial from the axis of rotation 15 directed away over the track 10 stand out. Each of the shelves 32 engages behind the rolling elements 4 the first row 3 axially.

The outer ring 31 has no board and may for example be a hole in a housing.

Two rolling elements each 4 the first row 3 and two rolling elements each 8th the third row 7 engage radially in a rolling element 30 the second row 5 a, because the rolling elements 30 by means of the rotationally symmetric sections 33 the rolling elements 4 and 6 engage behind axially. The rolling elements 30 are about the axial width B of both sections 33 longer than the rolling elements 4 and 6 ,

1

roller bearing

2

inner ring

3

first line

4

rolling elements

5

second line

6

rolling elements

7

third line

8th

rolling elements

9

outer ring

10

career

11

Contact

12

Contact

13

Contact

14

career

15

axis of rotation

16

Contact

17

Direction arrow

18

Rotation direction arrow

19

Rotation direction arrow

20

Rotation direction arrow

21

Direction arrow

22

shelf

23

shelf

24

arc

25

recess

26

recess

27

arc

28

roller bearing

29

inner ring

30

rolling elements

31

outer ring

32

shelf

33

section

Claims (13)

Roller bearing ( 1 . 28 ) with three rows of rolling elements ( 4 . 6 . 8th . 30 ), in which a first row ( 3 ) in contact ( 11 ) with a first career ( 10 ), in which a second row ( 5 ) between the first row ( 3 ) and a third row ( 7 ) in contact ( 12 . 13 ) with the first row ( 3 ) and the third row ( 7 ) and in which the third row ( 7 ) in contact ( 16 ) with a second career ( 14 ), wherein the rows in the radial direction to the axis of rotation ( 15 ) of the rolling bearing ( 1 . 28 ) are arranged one above the other and thereby from the axis of rotation ( 15 ) in the radial direction, the first row ( 3 ) of the first career ( 10 ) connects radially, then the second row ( 5 ) at least radially on the first row ( 3 ), then the third row ( 7 ) on the second row ( 5 ) is at least radially supported while the third row ( 7 ) radially outside contacts ( 16 ) with the second career ( 14 ) is provided. Roller bearing ( 1 . 28 ) according to claim 1, in which the rolling elements ( 4 . 6 . 8th ) Cylindrical rollers are. Roller bearing ( 1 . 28 ) according to claim 1, in which the rolling elements ( 4 . 6 . 8th ) at least one of the rows ( 3 . 5 . 7 ) at least in an axial direction of a board ( 22 . 23 . 32 ) are at least partially underdeveloped, the board ( 22 . 23 . 32 ) radially over one of the raceways ( 10 . 14 ) stands out. Roller bearing ( 1 . 28 ) according to claim 3, in which the rolling bodies ( 4 . 6 ) at least one of the rows ( 3 . 5 . 7 ) axially between two of the shelves ( 22 . 23 . 32 ), each of the shelves ( 22 . 23 . 32 ) radially over in each case via one of the raceways ( 10 . 14 protrudes). Roller bearing ( 1 . 28 ) according to claim 3, in which two of the shelves ( 22 . 23 ) are radially opposite, with the ribs ( 22 . 23 ) are radially opposite so that the greatest radial distance between the Borden ( 22 . 23 ) is smaller than the smallest possible diameter of the smallest rolling element ( 4 . 6 . 8th ) of the second row ( 5 ). Roller bearing ( 1 . 28 ) according to claim 5, in which at least one of the mutually opposite ribs ( 22 . 23 ) partially a radial recess ( 25 . 26 ), wherein the radial distance and the partial recess ( 25 . 26 ) correspond to each other such that an axial passage for a rolling element ( 4 . 6 . 8th ) at least the second row ( 5 ) is formed, and all transverse to the axis of rotation ( 15 ) directed smallest radial dimensions of the passage are greater than the largest diameter of the rolling body ( 4 . 6 . 8th ) of the second row ( 5 ). Roller bearing ( 1 . 28 ) according to claim 6, in which each of the opposing shelves ( 22 . 23 ) one of the recesses ( 25 . 26 ), wherein the radial distance and the recesses ( 25 . 26 ) correspond to each other so that the axial passage is formed. Roller bearing ( 1 . 28 ) according to claim 1, wherein each of the rows ( 3 . 5 . 7 ) an even number of rolling elements ( 4 . 6 . 8th . 30 ) having. Roller bearing ( 1 . 28 ) according to claim 1, in which the rolling elements ( 4 . 6 . 8th . 30 ) each of the rows ( 3 . 5 . 7 ) each within the row ( 3 . 5 . 7 ) in the circumferential direction about the axis of rotation ( 15 ) are spaced contactlessly to each other. Roller bearing ( 1 . 28 ) according to claim 1, wherein the rolling bodies ( 4 . 6 . 8th . 30 ) of the first row ( 3 ) and the third row ( 7 ) radially into the second row ( 5 ) intervene. Roller bearing ( 28 ) according to claim 1, in which the rolling bodies ( 30 ) of the second row ( 5 ) each at least one of the rolling elements ( 4 ) of the first row ( 3 ) and at least one rolling element ( 8th ) of the third row ( 7 ) axially behind on both sides. Roller bearing ( 28 ) according to claim 12, in which in each case two rolling bodies ( 4 ) of the first row ( 3 ) and two rolling elements ( 8th ) of the third row ( 7 ) in a rolling element ( 30 ) of the second row ( 5 ) engage radially. Roller bearing ( 28 ) according to claim 1, in which at least one rolling body ( 30 ) at least one of the rows ( 5 ) is axially longer than at least one further rolling element ( 4 . 8th ) of any of the other rows ( 3 . 7 ).