DE19717980A1 - Ball bearing with outer ring comprising two parts - Google Patents

Abstract

The inner casing diameter is at least as large as the outer diameter of a shaft (14) having a channel for the balls (5). The ball bearing has a dividing plane of the outer running ring crossways to the rotary axis. At least one of the running ring parts (1,2) is connected with the roller bearing cage and is provided with the location. The internal distance between the locations (12) is smaller than the ball diameter. One running ring part has a ledge which is circular ring-shaped and is radially outside the ball channel part (2a). This ledge forms the location.

Description

Field of the Invention

The present invention relates to a deep groove ball bearing with two parts executed outer race. Such deep groove ball bearings are, for example used where there is a one-piece assembly of a deep groove ball bearing executed outer race is not possible. A typical installation situation lies before, if the outer race fitted with a spherical ring on a shaft is listed, which is provided with a ball groove into which the balls snap. As a result of being pushed onto the shaft, the balls soften radially outwards and press the two race parts apart. As soon as the balls are placed over the ball groove and lie against it, can the two race parts in their intended position to each other to take.

Background of the Invention

EP-A 0 486 343, for example, describes a deep groove ball bearing with a two-part outer race known. The spherical ring consists of a ball bearing cage, the balls from their Cage pockets are pushed out when the balls are outside of their Kugelril len are arranged on the shaft. Only when the spherical ring over the inner Ball groove of the shaft is arranged, snap the balls into their cage pockets  back. The disadvantage of this known deep groove ball bearing is that to lead to the shaft of the spherical ring against the force of a spring which the presses the two race parts against each other, out of their cage pockets because of. This can make it difficult to perform on the shaft be what can be avoided, for example, in robot-controlled assemblies should.

Summary of the invention

The object of the present invention is therefore to provide a deep groove ball bearing according to the Specify features of the preamble of claim 1 with which a multiple mounting on a shaft with a ball groove is possible.

According to the invention, this object is achieved in that the roller bearing cage and the outer race have systems between which the balls on an inner envelope diameter are kept which is at least as large as the outer diameter of a shaft having a ball groove for the balls is trained. The systems assigned to the outer race can be on one of the race parts, but also be provided on both race parts.

The advantage of this deep groove ball bearing according to the invention is that it fits on the outside diameter of the shaft without first removing the balls must be moved out of their cage pockets against the force of a spring. As soon as the balls have reached their intended position above the ball groove, can engage the balls, the two outer race parts their Assume the intended position.

In the case of a ball bearing which is arranged with a division transverse to the axis of rotation Level of the outer race is provided, at least one of the two races parts captively connected to the cage and provided with one of the attachments, where the clear distance between the systems is smaller than the ball through knife is. With such a ball bearing, it is possible that one of the two  Race parts are already attached to the shaft or in a housing bore, the other race part together with the spherical ring a captive re unity. This captive unit - with the balls on one Envelope diameter are kept at least as large as the outside diameter of the shaft - can be easily pushed onto the shaft the and in its installation position together with the already pre-assembled The race part forms the complete ball bearing. Of course here are Ab Conceivable changes in which both race parts together with the ball wreath form a captive unit, possibly both race parts le are each provided with a system.

The system assigned to the race part can be advantageously by an annular shoulder located radially outside a ball groove be educated. The balls are therefore on the one hand on two on top of each other standing surfaces of the annular shoulder and on the other hand on the System assigned to the cage.

If the cage, for example, both outer race parts with a projection behind captive, then the geometry of these outer race parts and of the cage dimensioned such that in the stop of the projections with the associated the clearance between the two systems is smaller than the ball diameter. If the ball bearing is its intended Has reached position and the balls should rest on the ball groove of the shaft, it is sufficient, for example, to press the two race parts together. Under The pressure is applied to the balls radially inwards on the systems moved past towards the ball groove of the shaft, being an elastic Deformation of the cage an appropriate expansion between the systems enables; the system provided on the cage can shell, for example be shaped.

Provided that the cage made of brow rings and the brow rings connecting each other Is formed bridges, the pockets for the balls limit, is a front ring  with the facility for the balls. This facility can in particular be formed in a simple manner on the pocket walls of the pocket. More appropriate the two systems are diagonally opposite each other.

Brief description of the drawings

The invention is illustrated below using three of a total of four figures illustrated embodiments explained in more detail. Show it:

Fig. 1 a longitudinal section through an inventive ball bearings;

FIG. 2 shows the ball bearing from FIG. 1 in the final assembled state;

Fig. 3 is a longitudinal section through a further inventive spherical
bearings in an installation phase as in Fig. 1 and

Fig. 4 in longitudinal section a further ball bearing according to the invention.

Detailed description of the drawings

The deep groove ball bearing shown in Fig. 1 comprises an outer race 3 formed from two races 1 , 2 with ball groove parts 1 a, 2 a and a roller ring 4 , the balls 5 and a ball cage 6 . The ball cage 6 consists of end rings 7 , 8 and webs 9 connecting these end rings 7 , 8 . The webs 9 and the end rings 7 , 8 delimit pockets 10 in which the balls 5 are arranged. On a pocket wall 11 and on the diagonally opposite race part 3 , systems 12 , 13 are provided against which the balls 5 rest. The ball diameter is larger than the clear width between the systems 12 , 13 . The system 12 assigned to the ball cage 6 is formed by a beveled or slightly bowl-shaped curved surface of the pocket wall 11 and the system 13 is formed by a slope or slightly bowl-shaped curved surface formed on the race part 3 , which is arranged radially outside the ball groove. In the arrangement shown here, the inner enveloping circle diameter - ie the diameter on which the balls 5 lie - is somewhat larger than the outer diameter of a shaft 14 on which the deep groove ball bearing is arranged.

At both axial ends of the ball cage 6 , projections 15 are provided, each of which engages behind one of the two race parts 1 , 2 in such a way that the two race parts 1 , 2 are captively connected to the ball cage 6 . The race part 2 is supported on the projection 15 in order to maintain the clamping pressure of the balls 5 between the systems 12 , 13 .

Fig. 2 shows the deep groove ball bearing from Fig. 1 in its final assembled state. The balls 5 lie in a ball groove 16 of the shaft 14 . In order to ensure that the balls reach the ball groove 16 from their position described above, only the two race parts 2 , 3 are moved axially towards one another. The balls 5 , which are supported on both race parts 1 , 2 during this phase, are pushed radially inwards and past the systems 12 , 13 , over towards the ball groove 16 as a result of a wedge action of the two race parts 1 , 2 . The ball cage 6 is designed such that it makes room for the balls 5 under elastic deformation in order to pass through the systems 12 , 13 . FIG. 2 also shows that the end rings 7 , 8 are each provided with lugs 17 on their axial ends facing the pockets 10 , which engage behind the two race parts 1 , 2 . By means of these lugs 17 it is ensured that the two race parts 1 , 2 are held together, which can be useful for further assembly steps. It should be noted that these lugs 17 wear quickly when the shaft 14 rotates. The function of these lugs 17 - holding the race parts 1 , 2 together - is only necessary until the two race parts 1 , 2 are arranged, for example, in a housing bore.

The embodiment of FIG. 3 differs from the embodiment described above only in that the two lugs for holding the race parts 1 , 2 together are omitted.

The ball bearing according to the invention shown in Fig. 4 differs from the embodiment of FIG. 3 in that the left race part is designed as a flat disc 18 , the race part 19 associated with the plant 5 for the balls 5 is formed by an annular shoulder 20 .

The ball bearing according to the invention shown in FIG. 5 - in which only one of the two race parts is shown - has a flat running disk 21 , the other race part, not shown, having a ball groove part. The ball cage 6 is provided with bowl-shaped projections 22 which hold the balls 5 captively in their cage pockets 10 . The flat running disk 21 forms one system and the pocket wall 11 forms the other system 12 for the balls 5 in such a way that the balls 5 are held on an inner enveloping circle diameter which is larger than the shaft diameter. If the other race part, not shown, is added, this other race part presses the balls 5 radially inward so that the balls 5 are moved into the ball groove 16 of the shaft 14 . The mode of operation of the projections 15 provided on the cage 6 corresponds to the mode of operation according to the exemplary embodiments described above.

Reference list

1

Race part

1

a Ball groove part

2nd

Race part

2nd

a Ball groove part

3rd

Outer race

4th

Rolling ring

5

Bullets

6

Ball cage

7

Brow ring

8th

Brow ring

9

Footbridges

10th

bag

11

Pocket wall

12th

investment

13

investment

14

wave

15

head Start

16

Ball groove

17th

nose

18th

Disc

19th

Race part

20th

circular heel

21

flat tread

22

bowl-shaped projection

Claims (8)

1. Ball bearing, the outer race ( 3 ) formed of two race parts ( 1 , 2 , 18 , 19 ) has a balls ( 5 ) receiving roller bearing cage ( 6 ), characterized in that the roller bearing cage ( 6 ) and the outer race ( 3 ) Have systems ( 12 , 13 , 20 , 21 ) between which the balls ( 5 ) are held on an inner circumferential circular knife which is at least as large as the outer diameter of a shaft ( 14 ) having a ball groove ( 16 ) for the balls ( 5 ) ) is trained. 2. Ball bearing according to claim 1, with a transverse to the axis of division of the outer race ( 3 ), at least one of the two race parts ( 1 , 2 , 18 , 19 , 21 ) captive with the rolling bearing cage ( 6 ) and connected to the system ( 13 , 20 ) is provided, and the clear distance between the systems ( 12 , 13 , 20 ) is smaller than the ball diameter. 3. Ball bearing according to claim 1, of which a race part ( 19 ) has a radially outside a ball groove part ( 2 a) located annular shoulder ( 20 ) which forms the system. 4. Ball bearing according to claim 2, the roller bearing cage ( 6 ) of at least one of the two race parts ( 1 , 2 , 19 , 21 ) with at least one projection ( 15 ) engages ver against loosening, wherein in the stop of the projection ( 15 ) with the race part ( 2 , 19 ) the clear distance between the systems ( 12 , 13 , 20 ) is smaller than the ball diameter. 5. Ball bearing according to claim 1, in which the roller bearing cage ( 6 ) forming end rings ( 7 , 8 ) and the end rings ( 7 , 8 ) interconnecting webs ( 9 ) limit pockets ( 10 ) for the balls ( 5 ), one of which Front ring ( 7 ) with the system ( 12 ) for the balls ( 5 ) is provided. 6. Ball bearing according to claim 5, in the pocket walls ( 11 ) of the pockets ( 10 ) which form a system ( 12 ). 7. Ball bearing according to claim 6, wherein the systems ( 12 , 13 , 20 , 21 ) are diagonally opposite. 8. Ball bearing according to claim 1, in which the rolling element cage ( 6 ) forming end rings ( 7 , 8 ) and these end rings ( 7 , 8 ) interconnecting webs ( 9 ) limit pockets ( 10 ) for the balls ( 5 ), with both Front rings ( 7 , 8 ), the race parts ( 1 , 2 , 18 , 19 ) engaging behind projections ( 15 ) are provided.