DE4224695A1 - Rolling bearing with two concentric track rings - has elastic support rings on cylinder faces of track rings and enclosed by metal bands. - Google Patents

Abstract

The track rings (1,2) have on facing cylindrical surfaces tracks for the rolling bodies (4) which are set in a cage (5). On the cylinder faces of the ring remote from the rolling bodies (4) there are elastic support rings (6,7) which are enclosed by sheet metal bands (11, 12) which engage with side radial flanges (13, 14) over the support rings (6,7). The support rings and sheet metal bands each have an open slit at a circumferential point. The slit of one ring is offset from the slit of the associated support ring and the slit of a support ring is offset from the slit of the associated sheet metal band on the circumference by at least approx. 180 deg. The track rings, support rings and metal bands can be made by bending round flat profiled bands. USE/ADVANTAGE - Low cost mfr. of ball or roller bearings in which effective bearing seal is provided without additional parts.

Description

The invention relates to a roller bearing with two concentrically in one another other arranged races, namely one inner and one Outer ring, the raceways facing each other have on which rolling elements roll, which are housed in a cage are brought, the races and the cage each at one order have an open slot.

Rolling bearings of this type are known. The races and the Cage often by round bending from a flat profile band poses. This has the advantage that rolling from a single profile strip bearings with different diameters can be manufactured. Because the races have an open slot, it's over it possible to manufacture so-called full-ball bearings, the is called ball bearings where the balls are close together and touch each other. This is possible because of filling in the Balls of the outer ring can be bent open at the slot and then the balls can be filled in at this point.

In addition to the advantages mentioned, these bearings also have certain advantages Disadvantages that limit their application possibilities. So are they z. B. very sensitive to tolerance. That means that the receiving boh tion for the outer ring or the shaft seat for the inner ring with very  tight tolerances must be carried out. This is required to to avoid that the bearing rings during installation in an impermissible manner be deformed, which would be possible due to the existing slot. Such deformations could lead to undesirable narrowing of the running play result in an increase in rolling friction and therefore undesirable Could cause the bearing to heat up.

Another disadvantage is that acting on the bearing Vibrations or shocks are transmitted almost undamped, that means that the bearing transmits structure-borne noise to a high degree, which in leads to unwanted noise in many cases.

In order to avoid these disadvantages, for example, one has already done so beat in circumferential grooves of the outer surface of the outer ring of a ball bearing self-contained rings made of a synthetic resin to arrange. On the one hand, this measure brings an improvement the situation mentioned, but at the same time has the disadvantage that for a different diameter for each bearing size synthetic resin rings must be made, and that on the other hand the danger be stands that these synthetic resin rings when inserting the outer ring in a Housing bore damaged or even completely sheared off (U.S. Patent 4,695,587).

The invention has for its object the disadvantages mentioned to eliminate by simple constructive measures and thereby To create rolling bearings, which with low manufacturing costs and thus manufactured very inexpensively for different dimensions can be an effective at the same time without additional parts Bearing seals can be created.

The invention solves this problem in that on the rolling elements facing away from the cylindrical surfaces of the races elastic support rings  are classified, which in turn are covered by sheet metal bandages with radial flanges overlap the support rings, the Support rings and the sheet metal bandages each at a circumferential point have an open slot.

This creates a construction that enables each the same raw material rolling bearings with different diameters knives to create the same disadvantages described above Avoid the support rings upstream of the races, which additionally by the sheet metal bandages against mechanical damage are protected especially during installation. The invention Rolling bearings thus represent a ready-to-install unit, on the one hand is simple and therefore inexpensive to manufacture and the other avoids the disadvantages of the previously known bearings.

So act z. B. Tolerance deviations in the mounting hole for the outer ring or the shaft seat for the inner ring only in very abge weaker form in the sense of narrowing or enlarging the game the camp out because the intermediate support rings such Compensate for dimensional deviations due to their elastic deformability. On the contrary, it can even be combined with the advantage of being may give the rolling bearing a specific preload by interprets the location hole and / or the shaft seat so that the ela static support rings with a certain preload on the barrel act on rings.

It is advisable to take care when assembling the bearing that the slot of a race against the slot of the associated one Support ring and the slot of a support ring opposite the slot the associated sheet metal drum is offset on the circumference, expediently by at least approximately 180 °. This ensures that the rings form a stable installation unit.  

The support rings can advantageously be made of a polymeric material exist, for example a thermoplastic or Rubber.

The support rings can also have radial rims at their axial ends sen, which lie on the end faces of the races. This execution offers the further advantage that the radially opposite each other radial rims of the support rings on the inner and outer ring at least Limit a narrow sealing gap at one axial end of the rolling bearing. So you can without additional effort and especially without additional parts simultaneously create a bearing seal.

The sealing gap can, for example, by cylindrical surfaces of the two radial rims radially opposite one another. He can but also by at least approximately radially directed surfaces of the be limited to both radially opposite radial rims, which has the advantage that the sealing gap compared to the previously be execution can be extended without the outer Bearing dimensions must be enlarged.

The bearing design according to the invention makes it possible to have very different Realize rolling bearing types. So z. B. the two races in have facing grooves on their facing cylinder surfaces, in which balls roll off. You can also have V-shaped grooves sen, the boundary surfaces at an angle of 90 ° to each other and run at an angle of 45 ° to the bearing axis, in which Roll cylindrical rollers, the axes of successive cylin the rollers are at an angle of 90 ° to each other. Such so-called crossed roller bearings are much more resilient than ball warehouse.

Finally, the two races can be on each other  facing cylinder surfaces formed as cylindrical raceways be on the cylindrical rolling elements, such as cylindrical rollers or Unroll the bearing needles. The cylindrical track can at least of one race at both axial ends radial rims for the start of the rolling element end faces or the cage in order to avoid that the rolling element ring migrates axially out of the rolling bearing.

Furthermore, the basic construction according to the invention offers the possibility ability to combine storage combinations into one unit. So is it z. B. possible that two rolling bearings, consisting of the running and support wrestle directly next to each other from a common sheet metal ban dage are included. But it can also be the directly adjacent raceways of two roller bearings from a common support ring and a common metal bandage are included.

The two roller bearings can in these cases, for. B. as a four-point ball be trained camp. Such a combination of bearings is becoming more common avoided wisely because it is statically overdetermined. In the present Such a combination is a trap because of the balancing we The elastic support rings may be used.

On the other hand, the two roller bearings of such a bearing combination also be designed as oppositely directed angular contact ball bearings.

Based on the manufacturing process already described above the roller bearing according to the invention are manufactured so that the barrel rings, the cage, the support rings and the sheet metal bandages through round bend can be formed from flat profile tape. That offers the additional Lichen advantage that both the inner and the outer race from the same initial profile strip can be rolled, but only the roll direction must be changed.  

The same applies to the inner and outer support ring, as well as for the inner and outer sheet bandage. So you need to use this procedure only one initial profile band for the formation of the Races, support rings, sheet metal bandages and a cage. Outgoing Rolling bearings can be completely different from these raw materials Licher diameter can be produced.

If it is considered appropriate or desirable in individual cases, can the individual rings, namely the races, the support rings and the sheet metal bandages after bending at the slots also z. B. by Welding to be connected to endless rings.

In the drawings, embodiments of the invention are in each case Partial longitudinal section shown. Show it:

Fig. 1 is a four-point ball bearing,

2 shows a cylindrical roller bearing ,

Fig. 3 is a cross roller bearing,

Fig. 4 is a double-row four-point ball bearing,

Fig. 5 is a double row angular contact ball bearings,

Fig. 6 is a needle bearing,

Fig. 7 is a double-row four-point contact ball bearing with respect to FIG. 4, a modified embodiment,

Fig. 8 is a two-row four-point ball bearing with a modified seal compared to Fig. 7 and

Fig. 9 shows a double row angular contact ball bearing with a modified version compared to Fig. 5.

The ball bearing of Fig. 1 is formed of the outer ring 1 and the inner ring 2, which both have identical ball rolling grooves 3 have, in which the balls 4 roll. The balls 4 are guided in a cage 5 . Elastic support rings 6 and 7 are arranged on the cylindrical surfaces of the outer and inner ring facing away from the ball grooves 3 and have lateral radial rims 8 and 9 , respectively, which bear against the end faces of the outer ring 1 and inner ring 2, respectively. The radial rims 8 and 9 approach each other so far that a sealing gap 10 is delimited by them. Finally, the support rings 6 and 7 of Blechban days 11 and 12 , respectively, which overlap with lateral radial flanges 13 and 14, the support rings 6 and 7 respectively. The sheet metal bandages have an open slot 15 at a circumferential point, as well as (in a manner not shown) the outer ring 1 , the inner ring 2 and the elastic support rings 6 and 7 .

The cylindrical roller bearing shown in FIG. 2 corresponds in its essential structure to the ball bearing according to FIG. 1. It differs from this in that the outer ring 16 and the inner ring 17 have cylindrical raceways 18 and 19 , respectively, and in that they have radial rims 20 at both axial ends or 21 . The cylindrical rollers 23 rolling on the raceways 18 and 19 and guided in a cage 22 run axially against the radial rims 20 and 21 , as a result of which they can also transmit axial forces to a limited extent in addition to absorbing radial forces.

The cross roller bearing shown in Fig. 3 has a basic construction, which speaks ent the two previously described bearing designs. In contrast, however, the outer ring 24 and the inner ring 25 have V-shaped grooves 26 and 27 , the boundary surfaces of which extend at an angle of 90 ° to one another and at an angle of 45 ° to the bearing axis. Cylindrical rollers 28 roll in them, the axes of successive cylindrical rollers being at an angle of 90 ° to one another. This makes this bearing suitable for transmitting large radial and axial forces.

To form the double-row four-point contact ball bearing of FIG. 4 it is assumed that two bearings that the entspre of FIG. 1 chen substantially. These two ball bearings are close together and are covered by a common sheet metal bandage 29 . This measure creates an installation unit that simplifies the handling and assembly of the two ball bearings.

A variant of such a bearing is shown in FIG. 5. The two closely spaced ball bearings are formed from the outer rings 30 and the inner rings 31 , the ball grooves 32 and 33 are designed so that angular contact ball bearings result. The two ball bearings are arranged so that they have opposing lines of action. The two bearings are surrounded by the common support rings 34 and 35 , which in turn are encompassed by the metal bandages 36 and 37, respectively.

The needle bearing shown in Fig. 6 consists of the outer ring 38 , the radial rims 39 at both axial ends and between them the cylindrical raceway 40 , and the smooth cylindrical inner ring 41st The bearing needles 43 guided in the cage 42 roll between these rings. On the outer ring 38 , the support ring 44 and the inner ring 41 of the support ring 45 are arranged, which are encompassed by the metal bandages 46 and 47, respectively. In contrast to the seals that were shown in the previous figures, here to form a sealing gap 48 on the right side from the inner support ring 45 a radially outward flange 49 extends, which with a cylindrical surface of the outer support ring 44 forms the sealing gap 48 limited. On the bearing side shown on the left, the reverse is true in that a flange 50 extends from the outer support ring 44 .

The two-row four-point ball bearing shown in Fig. 7 is very similar in its internal structure to the bearing of Fig. 5, but here the two angular contact ball bearings are replaced by four-point ball bearings according to Fig. 1. With regard to the sheathing and sealing, the bearing according to FIG. 7 corresponds identically to the needle bearing shown in FIG. 6.

The bearing shown in FIG. 8, with the exception of the seal, is completely identical to that of FIG. 7. The seal differs from that of FIG. 7 in that radial flanges 51 and 52 extend from the outer support ring 44 on both bearing ends. while starting from the inner support ring 45 radial flanges 53 and 54 and which are arranged so that radially extending sealing gaps 55 and 56 result between them. The drawing clearly shows that it is possible in this way to achieve sealing gaps of greater length without having to enlarge the outer bearing dimensions.

The bearing finally shown in FIG. 9 differs from that of FIG. 5 essentially in that both the outer ring 57 and the inner ring 58 are made in one piece, that is to say are rolled out of flat strips which contain the raceways for both rows of balls.

Reference list

1 outer ring
2 inner ring
3 runner grooves
4 balls
5 cages
6 elastic support ring (outside)
7 elastic support ring (inside)
8 lateral radial rims (outside)
9 lateral radial rims (inside)
10 sealing gap
11 sheet metal drum (outside)
12 sheet metal drum (inside)
13 radial flange (outside)
14 radial flange (inside)
15 open slot
16 outer ring
17 inner ring
18 cylindrical raceway (outside)
19 cylindrical raceway (inside)
20 radial rims (outside)
21 radial rims (inside)
22 cage
23 cylindrical rollers
24 outer ring
25 inner ring
26 V-shaped grooves (outside)
27 V-shaped grooves (inside)
28 cylindrical rollers
29 sheet metal drum
30 outer ring
31 inner ring
32 ball grooves (outside)
33 ball grooves (inside)
34 support ring (outside)
35 support ring (inside)
36 sheet metal bandage (outside)
37 sheet metal drum (inside)
38 outer ring
39 radial rim
40 cylindrical race
41 inner ring
42 cage
43 bearing navel
44 support ring (outside)
45 support ring (inside)
46 sheet metal drum (outside)
47 sheet metal drum (inside)
48 sealing gap
49 flange
50 flange
51 radial flange (of 44 )
52 radial flange (of 44 )
53 radial flange (of 45 )
54 radial flange (of 45 )
55 sealing gap
56 sealing gap
57 outer ring
58 inner ring

Claims (17)

1. Rolling bearings with two concentrically arranged races, namely one inner ring ( 2 , 17 , 25 , 31 , 41 ) and one outer ring ( 1 , 16 , 24 , 30 , 38 ), which have raceways on mutually facing cylinder surfaces, on which rolling elements ( 4 , 23 , 43 ) roll, which are housed in a cage ( 5 , 22 , 42 ) and where the races ( 1 , 2 , 16 , 17 , 24 , 25 , 30 , 31 , 38 , 41 ) and the cage ( 5 , 22 , 42 ) each have an open slot ( 15 ) at a circumferential point, characterized in that on the cylinder bodies ( 4 , 23 , 43 ) facing away from the rolling elements ( 1 , 2 , 16 , 17 , 24 , 25 , 30 , 31 , 38 , 41 ) elastic support rings ( 6 , 7 , 34 , 35 , 44 , 45 ) are arranged, which in turn are surrounded by sheet metal bandages ( 11 , 12 , 36 , 37 , 46 , 47 ) , with lateral radial flanges (13, 14) the support rings (6, 7, 34, 35, 44, 45) overlap, wherein the support rings (6, 7, 34, 35, 44, 45) and the Bl Ech bandages ( 11 , 12 , 36 , 37 , 46 , 47 ) each have an open slot ( 15 ) at a starting point. 2. Rolling bearing according to claim 1, characterized in that the slot ( 15 ) of a race ( 1 , 2 , 16 , 17 , 24 , 25 , 30 , 31 , 38 , 41 ) relative to the slot ( 15 ) of the associated support ring ( 6 , 7 , 34 , 35 , 44 , 45 ) and the slot ( 15 ) of a support ring ( 6 , 7 , 34 , 35 , 44 , 45 ) opposite the slot ( 15 ) of the associated sheet metal bandage ( 11 , 12 , 36 , 37 , 46 , 47 ) is offset on the circumference by at least approximately 180 °. 3. Rolling bearing according to claim 1, characterized in that the support rings ( 6 , 7 , 34 , 35 , 44 , 45 ) consist of a polymeric material. 4. Rolling bearing according to claim 1 or 3, characterized in that the support rings ( 6 , 7 , 34 , 35 , 44 , 45 ) have at their axial ends radial rims ( 13 , 14 ) which on the end faces of the races ( 1 , 2nd , 16 , 17 , 24 , 25 , 30 , 31 , 38 , 41 ). 5. Rolling bearing according to claim 4, characterized in that the radially opposite radial rims ( 13 , 14 ) of the support rings ( 6 , 7 , 34 , 35 , 44 , 45 ) on the inner ( 2 , 17 , 25 , 31 , 41 ) and the outer ring ( 1 , 16 , 24 , 30 , 38 ) delimit a narrow sealing gap ( 10 , 48 ) at least at one axial end of the rolling bearing. 6. Rolling bearing according to claim 5, characterized in that the sealing gap ( 10 ) by cylindrical surfaces of the two radially opposite radial rims ( 8 , 9 , 49 , 50 ) is limited. 7. Rolling bearing according to claim 5, characterized in that the sealing gap ( 48 ) by at least approximately radially directed surfaces of the two radially opposite radial rims ( 51 , 52 , 53 , 54 ) is limited. 8. Rolling bearing according to claim 1, characterized in that the two races ( 1 , 2 ) in their mutually facing cylindrical surfaces have grooves ( 3 ) in which balls ( 4 ) roll. 9. Rolling bearing according to claim 1, characterized in that the two races ( 24 , 25 ) in their mutually facing cylindrical surfaces have V-shaped grooves ( 26 , 27 ), the boundary surfaces at an angle of 90 ° to each other and at an angle of 45 ° to the bearing axis in which cylindrical rollers ( 28 ) roll, the axes of successive cylindrical rollers ( 28 ) being at an angle of 90 ° to one another. 10. Rolling bearing according to claim 1, characterized in that the two races ( 16 , 17 ; 38 , 41 ) on their mutually facing cylinder surfaces as cylindrical raceways ( 18 , 19 , 41 )) are formed, on which cylindrical rolling elements, such as cylindrical rollers ( 23 ) or roll out bearing pins ( 43 ). 11. Rolling bearing according to claim 10, characterized in that the cylin drische raceway ( 18 , 19 , 40 ) at least one race ( 16 , 17 , 38 ) at both axial ends radial rims ( 20 , 21 , 39 ) for the start of the rolling element end faces ( 23 ) or the cage ( 42 ). 12. Rolling bearing according to claim 8, characterized in that two rolling bearings, each consisting of the races and support rings directly adjacent to each other by a common sheet metal bandage ( 29 ) are included. 13. Rolling bearing according to claim 8, characterized in that the immediately adjacent races ( 30 , 31 ) of two rolling bearings by a common support ring ( 34 , 35 ) and a common Blechban dage ( 36 , 37 ) are included. 14. Rolling bearing according to claim 12 or 13, characterized in that the two roller bearings are designed as four-point ball bearings. 15. Rolling bearing according to claim 12 or 13, characterized in that the two rolling bearings as opposed angular contact ball bearings are trained. 16. A method for producing a rolling bearing according to one of the preceding claims, characterized in that the races ( 1 , 2 , 16 , 17 , 24 , 25 , 30 , 31 , 38 , 41 ), the cage ( 5 , 22 , 42 ), the support rings ( 6 , 7 , 34 , 35 , 44 , 45 ) and the sheet metal bandages ( 11 , 12 , 36 , 37 , 46 , 47 ) are made by bending from a flat profile strip. 17. The method according to claim 16, characterized in that in each case Inner and outer ring, inner and outer support ring, as well as inner and outer sheet bandage rolled out of the same initial profile strip become.