DE19903848B4 - insert bearings - Google Patents

Abstract

insert bearings (1, 18, 20) with an extended Inner (2) and / or outer ring (3) and arranged therebetween, rolling on associated raceways (4, 5) Rolling elements (6) and means for fixing at least one of the bearing rings (2, 3) on a connecting structure, characterized in that the Inner (2) and / or outer ring (3) in the axial direction outside the Runways (4, 5) with a radially outward and / or a radially to inside open recess (7) is provided, so that one with the inner (2) and / or the outer ring (3) connected second ring part (9) is formed, this second ring part (9) by frontal slots (10) divided into resilient segments (11) is, each one arranged to be movable in the axial direction Record locking element, with its end face to a Face (14) the radial recess (7) rests, so that the resilient segments (11) in its radial position by a different axial position the locking element changeable are.

Description

field of use the invention

The The invention relates to a radial bearing with an extended inner and / or outer ring and interposed, rolling on their respective tracks Rolling elements as well Means for fixing at least one of the bearing rings on a connecting structure.

background the invention

One Such insert bearing is from the textbook M.Albert / H.Köttritsch "Rolling bearing - theory and Praxis ", Springer-Verlag Vienna New York, 1987 previously known. The radial bearing shown on page 24 is designed as a deep groove ball bearing, which extended one Inner ring has attached with an eccentric ring on a shaft is. Such radial bearings are preferably used for simple storage. You can find them z. B. in agricultural machinery, conveyors, construction machinery and other apparatus. They are almost exclusively used as a permanent camp. They are therefore mainly suitable for storing short waves for Installation sites where only low thermal expansions are to be expected.

adversely it is that the Fixation on a connecting construction, here a wave, an additional one Eccentric ring is to manufacture.

Summary the invention

task The invention is therefore to develop a radial bearing, the a connection construction without an additional Component is fixable.

According to the invention this Problem according to the characterizing part of claim 1, characterized in that the inner and / or the outer ring in the axial direction outside the raceways with a radially outward and / or a radially to is provided inside open recess, so that one with the inside and / or the outer ring connected second ring part is formed, this second ring part is subdivided into resilient segments by frontal slots, each one in the axial direction movably arranged locking element absorb, with its end face on a face of the Radial recess abuts, so that the resilient segments in its radial position by a different axial position the locking element changeable are.

By this embodiment of the invention the bearing rings is ensured that the radial bearing without additional Eccentric ring fixed to a connecting structure in the form of a Wave for the Inner ring or in the form of a housing for the outer ring can be fixed. The second ring part or the resilient segments of the second ring part act in a simple and elegant way as a clamping element, ensuring a proper tight fit of the clamping bearing allowed.

advantageous Embodiments of the clamping bearing are described in the subclaims. It is apparent from claim 2, that the locking element designed as a grub screw with a front tip is. Through this frontal tip are when clamping the Clamping bearing positively affects the effective leverage, so that a higher locking force can be achieved and / or a radially lower construction of the Bearing ring possible is.

Further advantageous features of the invention are defined in claims 3 and 4 can be seen. Thus, it is provided according to claim 3 that the second Ring part of the inner ring at least in a part of its receiving bore with a hardened Ring cutting is provided. Accordingly, according to claim 4 the lateral surface of the second ring part of the outer ring at least partially also provided a hardened ring cutting be. These hardened Ring cutting now ensures that the Holding force of the inner ring on the shaft or the holding force of the outer ring in the case is increased again.

A Another advantageous embodiment of the clamping bearing is required 5 described. Thereafter, it should be used as a cross roller bearing with a two partial rings are formed composite outer rings, which are interconnected by a holding element. Crossed roller bearings are used in a known manner, especially when high Load capacities and high rigidity of storage can be realized have to.

To another additional Feature according to claim 6, the radial bearing should be designed as a four-point bearing. Four point contact bearings are in particular for high speeds suitable.

Finally is for further additional features according to claims 7 and 8 provided that the Spannlager full complement or formed with a cage and that it through a split or by a sliding seal on both sides is sealed.

The Invention will be explained in more detail in the following embodiments.

Short description the drawings

It demonstrate:

1 a longitudinal section through a radial bearing according to the line II in 2 .

2 a side view of a tensioning bearing,

3 and 4 an axial half-section through different embodiments of a clamping bearing.

Full Description of the drawings

In the 1 and 2 is a preferred embodiment of a with 1 designated clamping bearing according to the present invention. This radial bearing 1 consists of an inner ring 2 and an outer ring 3 , between those on associated careers 4 and 5 Rolling elements in the form of bearing balls 6 roll. The raceways 4 and 5 are designed as a flat prism runway, so that by a point contact between bearing ball 6 and careers 4 and 5 a particularly low friction of the clamping bearing 1 is realized. The bearing rings 2 and 3 are matched in their radial extent to one another so that the bearing balls 6 are sealed to the outside by a gap seal.

The inner ring 2 is opposite the outer ring 3 formed extended in the axial direction. He is axially out of the raceway 5 with an annular recess 7 equipped in the radial direction outwards, ie opposite to the bearing axis 8th is open. In this way, one is with the actual inner ring 2 connected second ring part 9 formed, that, how out 2 visible through frontal slots 10 in resilient segments 11 is subdivided. In the present example, the subdivision is chosen so that in each case two opposite resilient segments 11 arise. In each of these segments 11 is now an axially movable threaded pin 12 arranged with its frontal tip 13 on an end face 14 the recess 7 is applied. The inner ring 2 further shows a smooth receiving bore 15 on to the radial bearing 1 to postpone to a wave, not shown. As 1 further shows, has the second ring part 9 of the inner ring 2 in the left-hand part of its receiving bore 15 a hardened ring cutting edge 16 , Will now one in the set screw 12 mounted inside hexagon 17 this shifted in the axial direction to the right, so comes the top 13 at the frontal area 14 the recess 7 to the plant and causes the resilient segments 11 with her ring cutter 16 in the direction of the bearing axis 8th be moved and so for a secure grip of the clamping bearing 1 on the shaft, not shown by clamping.

This in 3 With 18 designated radial bearing is designed as a four-point bearing, the bearing balls 6 in a cage 19 are housed. In contrast to the radial bearing 1 according to the 1 and 2 is in the present case also the outer ring 3 with a circular recess 7 provided, however, in the direction of the bearing axis 8th is radially open. In this way, in turn, a second ring part 9 formed, firmly with the outer ring 3 is connected and by invisible frontal slots 10 in resilient segments 11 is divided. In the manner already described are now also in these resilient segments 11 of the outer ring 3 screws 12 arranged, for a radial concern of the resilient segments 11 with the likewise existing ring cutting edge 16 provide in a receiving bore, not shown, of a housing.

Finally, in 4 a radial bearing 20 shown, which is designed as a cross roller bearing, whose outer ring 3 of second partial rings 21 and 22 is formed, with the help of a holding element 23 are held together.

1

insert bearings

2

inner ring

3

outer ring

4

career

5

career

6

bearing ball

7

recess

8th

bearing axle

9

second ring part

10

frontal slot

11

springy segment

12

Set screw

13

frontal top

14

face

15

location hole

16

serrated

17

Allen

18

insert bearings

19

Cage

20

insert bearings

21

partial ring

22

partial ring

23

retaining element

Claims (8)

Spherical bearing ( 1 . 18 . 20 ) with an extended interior ( 2 ) and / or outer ring ( 3 ) and interposed, on associated tracks ( 4 . 5 ) rolling rolling elements ( 6 ) and means for fixing at least one of the bearing rings ( 2 . 3 ) on a connecting structure, characterized in that the inner ( 2 ) and / or the outer ring ( 3 ) in the axial direction outside the raceways ( 4 . 5 ) with a radially outwardly and / or radially inwardly open recess (FIG. 7 ), so that one with the inner ( 2 ) and / or the outer ring ( 3 ) connected second ring part ( 9 ) is formed, this second ring part ( 9 ) through end slits ( 10 ) into resilient segments ( 11 ) is subdivided, each receiving a movable in the axial direction arranged locking element, which with its end face on an end face ( 14 ) of the radial recess ( 7 ) is applied, so that the resilient segments ( 11 ) are variable in their radial position by a different axial position of the locking element. Spherical bearing ( 1 . 18 . 20 ) according to claim 1, characterized in that the locking element as a threaded pin ( 12 ) with a frontal tip ( 13 ) is trained. Spherical bearing ( 1 . 18 . 20 ) according to claim 1, characterized in that the second ring part ( 9 ) of the inner ring ( 2 ) at least in a part of its receiving bore ( 15 ) with a hardened annular cutting edge ( 16 ) is provided. Spherical bearing ( 18 . 20 ) according to claim 1, characterized in that the lateral surface of the second ring part ( 9 ) of the outer ring ( 3 ) at least partially with a hardened annular cutting edge ( 16 ) is provided. Spherical bearing ( 20 ) according to claim 1, characterized in that it is designed as a cross roller bearing with one of two partial rings ( 21 . 22 ) assembled outer ring ( 3 ) is formed by a holding element ( 23 ) are interconnected. Spherical bearing ( 18 ) according to claim 1, characterized in that it is designed as a four-point bearing. Spherical bearing ( 1 . 18 . 20 ) according to claim 1, characterized in that it is full-complemented or with a cage ( 19 ) is trained. Spherical bearing ( 1 . 18 . 20 ) according to claim 1, characterized in that it is sealed by a split or by a sliding seal.