DE102021131705A1 - thrust bearing - Google Patents

Abstract

Axial bearing, comprising two bearing disks, between which several rolling elements (4) guided in a cage (5) are arranged, which roll on the bearing disks, the two bearing disks being flat axial disks (2, 3) which are connected by means of at least one on the inner circumference or on the The retaining ring (6a) arranged on the outer circumference of the axial discs (2, 3) serves as a retaining element for the lubricant in the axial bearing (1), with a further retaining element (6b) on the opposite circumference, which serves to retain the lubricant on this bearing side , is provided.

Description

The invention relates to an axial bearing, comprising two bearing disks, between which several rolling elements guided in a cage are arranged, which roll on the bearing disks.

Such axial bearings are used in a wide variety of application areas wherever two components are to be supported in an axially rotatable manner relative to one another. The thrust bearing usually includes two bearing disks, between which several rolling elements are arranged, which are held and guided in pockets of a cage. The rolling elements roll off on the corresponding running surfaces of the bearing washers. In most cases, the bearing washers are designed as angle washers, such as in DE 10 2020 106 615 A1 shown. The angled disks are L-shaped in cross section and designed such that one angled disk has a cylindrical leg flange on the outer circumference and the other angled disk has the cylindrical leg flange on the inner circumference. In order to be able to preassemble the bearing as a secured structural unit, corresponding latching sections are provided on the circumferential legs, which snap into corresponding latching geometries of the cage or engage behind them. The axial bearing also has at least one, optionally also two, sealing elements that seal the gap between the adjacent angle washers, resulting in a closed bearing cartridge that is filled with a lubricant.

The design of the known axial bearing is very complex. So are in the known axial bearings DE 10 2020 106 615 A1 to produce two different bearing discs in the form of angle discs, which are also to be processed accordingly to form the corresponding locking elements. In addition, the cage must also be designed accordingly in order to form the corresponding latching sections on it, which are engaged by the latching elements of the angle washers, and the size must also be adjusted so that stable latching can take place. The sealing element or elements is/are also to be formed accordingly on the angle disk or disks.

The invention is based on the problem of specifying an axial bearing that is improved in comparison.

To solve this problem, in an axial bearing of the type mentioned at the beginning, the invention provides that the two bearing washers are flat axial washers, which are connected to one another by means of at least one retaining ring arranged on the inner circumference or on the outer circumference of the axial washers, which serves as a retaining element for the lubricant in the axial bearing. a further retaining element, which serves to retain the lubricant on this bearing side, being provided on the opposite circumference.

The invention proposes an extremely simply designed axial bearing. In addition to the rolling elements guided in the cage, the axial bearing has two very simply designed, flat, i.e. level, axial washers. To fix the bearing discs or to secure the bearing itself, only a simple retaining ring is used, which can also be referred to as a bandage and which is arranged either on the inner circumference or on the outer circumference of the bearing discs and connects them to one another. This means that no specific latching elements formed on the bearing disks and corresponding latching geometries on the cage have to be formed for the disk connection, as is usual in the prior art, but the disk connection takes place via a very simply designed retaining ring. This in turn has the advantage that the cage can be designed very simply and can ultimately be produced, for example, as a simple sheet metal component from a very thin sheet metal, since it no longer has a latching or snapping function, as was previously the case. The retaining ring, which is preferably also made of a thin metal sheet, is a component that is easy to produce and that primarily has the axial retaining function. In addition to fixing the disk, this retaining ring also has the function of retaining lubricant such as oil or grease in the bearing, i.e. it is held longer in the rolling area and an improved supply of lubricant and longer-term lubrication is possible. Above all, fat as a pasty lubricant is retained as best as possible. Lubrication is further improved by the fact that a further retaining element is provided on the other side of the bearing, which at least partially closes the bearing on this side, so that there is also a retention. The lubricant is consequently retained inside and outside in this closed bearing unit, with at least one retaining element being the retaining ring, which has this additional function.

In addition to the good supply of lubricant, this bearing design according to the invention has a number of other advantages. Since flat axial washers are used, but not angle washers that are guided around the cage, the weight of the washer and the resulting overall weight of the axial bearing are also significantly reduced. The cage also contributes to this, which, as described, can be made from a thin metal strip and no longer requires any specifically shaped latching geometries or the like, and can therefore also be manufactured with significantly less material, which is also beneficial weight-reducing effect. As described, the retaining ring can also be made from a thin metal band, so it is also a very light component.

According to an expedient further development, it is provided that the two axial disks are of identical design. The two axial washers are therefore identical parts. This means that no separate, different bearing washers in the form of angle washers or the like have to be produced and kept available, but instead two flat axial washers that are very easy to produce and have an identical cross section and can therefore be installed as identical parts on both sides of the cage. The bearing has a significantly simpler design, particularly with regard to the use of identical axial washers, which are designed as identical parts and can be used universally. This leads to advantages in terms of assembly, since no specific tools are required for different bearing washer shapes. This saves tools, changeover time for any machines and at the same time doubles the number of pieces, and the production costs can also be reduced.

Overall, this results in a very simply designed, weight-reduced axial bearing that is also easy to produce, with the saving in material in particular, but also the simplified production, having positive effects on the CO ₂ balance of the entire bearing production itself.

As described, a further retaining element is used in addition to the retaining ring used to fix the pane and retain the lubricant. According to the invention, this further retaining element can be a further retaining ring, i.e. a retaining ring is provided on both sides, i.e. on the inside and on the outside, with one or both of them serving to fix the pane. Both retaining rings encapsulate the bearing radially so that the lubricant, in particular grease, contained therein is retained as best as possible and cannot escape. Alternatively, it is conceivable that the further retaining element is a sealing ring arranged on one of the axial disks or a cap, ie a component that is different in type from the retaining ring, but which also sufficiently encapsulates the bearing.

As mentioned, the retaining ring has the axial retaining function or connection function. For this purpose, according to the invention, the retaining ring can encompass the edges of the two axial disks. This means that the retaining ring runs around the circumference on the one hand and on the other hand engages around or behind the edges of both axial disks. If two retaining rings are used, both grip the axial discs at the edges.

For a corresponding gripping around or behind, a development of the invention can have a fold on the edge of each axial disk on the inner circumference and/or on the outer circumference, into which the angled edge of the retaining ring and/or further retaining ring engages. This fold can be formed without any problems in the production of the respective flat axial disk, which is stamped as a stamped component from sheet metal, by means of a corresponding deformation during the stamping process. Even with the rabbet, the two axial washers are identical components, which means that each bearing washer can be mounted on one or the other bearing side. The design of the flange also leads to a slight reduction in the weight of the individual bearing washers, which again has a positive effect on the overall weight.

According to an expedient development, the depth of the folds is dimensioned in such a way that the respective edge of the retaining ring and/or the further retaining ring engaging therein does not protrude axially beyond the surface of the respective axial disk. This means that the fold depth is adapted to the material strip thickness of the respective retaining ring, so that it can be ensured that the edges of the respective retaining ring engaging in the folds do not protrude axially beyond the respective axial disk surface, and therefore the bearing width is not increased as a result. The two outer surfaces of the axial washers alone are therefore decisive for the bearing width.

The retaining ring and/or the further retaining ring itself preferably has a W-shaped cross section and two peripheral grooves, in which the edge of an axial disk engages, one edge being clamped in the groove and the other edge being movably accommodated in the groove . On the one hand, this achieves a firm connection of the retaining ring or rings to one, clamp-fixed axial disk, while on the other hand the other axial disk is indeed secured axially, but is twisted relative to the clamp-fixed axial disk. The design of the retaining ring or rings with this cross-section is easily possible during production, since, as described, the retaining ring is preferably made from a thin metal sheet or metal strip that can be easily formed into the corresponding cross-sectional geometry. This cross-sectional W-shaped configuration increases the rigidity of the retaining ring.

In a further development of the invention, the retaining ring and/or the further retaining ring can have a W-shaped cross section, with the retaining ring and/or the further retaining ring projecting radially between the two axial disks with its middle section. That is, the diameter of the W-shape is chosen so that the central retaining ring section engages radially in the bearing interior, ie extends between the two axial discs. This is conducive to a very compact, radial structure.

A further advantage here can be that this section of the retaining ring and/or the further retaining ring which projects radially inwards can also serve to guide the cage. This means that the cage is guided and centered at the same time on this section. For this purpose, the section can preferably have a guide surface guiding the cage. This means that the or each W-shaped retaining ring has a planar guide surface on its central web, seen in cross section, on which the cage is guided or centered. The retaining ring or retaining rings therefore not only has the actual retaining function for fixing the axial disks, but also a guiding and centering function with respect to the cage.

As described, the retaining ring and/or the further retaining ring and the cage are preferably formed from sheet metal. The thrust washers are also stamped from sheet metal. However, the or the further retaining ring and the cage are expediently made of a thinner sheet metal than the two thrust washers. Ultimately, the retaining ring(s) and the cage only have holding or guiding tasks; they are not subjected to corresponding axial loads via the rolling elements, as is the case with the axial washers. For this reason, they can be made from a significantly thinner sheet metal or metal strip than the two thrust washers.

• 1 eine perspektivische Teilansicht eines erfindungsgemäßen Axiallagers, und
• 2 eine vergrößerte Schnittansicht des Axiallagers aus 1.

The invention is explained below using exemplary embodiments with reference to the drawings. The drawings are schematic representations and show:

• 1 a perspective partial view of a thrust bearing according to the invention, and
• 2 shows an enlarged sectional view of the thrust bearing 1 .

1 shows an axial bearing 1 according to the invention, comprising two bearing washers, which are flat axial washers 2, 3 with an identical cross section, which are produced by stamping from a sheet metal or metal strip selected in terms of its thickness according to the requirements and which, if necessary, are used to adjust their mechanical properties are heat treated and polished. A plurality of rolling elements 4 are accommodated between the two axial disks 2, 3, which are held and guided in a cage 5 which has a corresponding number of pockets. The rolling elements 4 are needles or rollers. The cage itself is made from a metal sheet or metal band that is significantly thinner than the metal sheet or metal band from which the thrust washers 2 are made.

The combination of the two axial disks 2, 3 and the rolling elements 4 together with the cage 5 is held together axially by an inner retaining ring 6a serving as a retaining element for lubricant and, as a further retaining element, an outer further retaining ring 6b. The retaining rings 6a, 6b are shaped like mirror images of each other. The retaining ring 6 is arranged on the inner circumference of the arrangement, the other retaining ring 6b on the outer circumference, both consequently encapsulate the bearing interior, so that a lubricant located in the bearing interior, such as primarily grease, is retained permanently and cannot escape. In addition, the retaining rings 6a, 6b also fix the two axial disks 2, 3 axially, which of course also fixes the rolling elements 4 together with the cage 5, so that a secure structural unit results. The retaining rings 6a, 6b are also made from sheet metal or metal strip, which is also significantly thinner than the sheet metal or metal strip from which the axial disks 2, 3 are made. However, it can also be thinner than the sheet metal or metal strip from which the cage 5 is made.

2 shows the axial bearing 1 in an enlarged view 1 with the two thrust washers 2, 3, each having running surfaces 7, 8 on which the rolling elements 4 run. The cage 5 is also shown, on which the corresponding pockets 9 are formed and which is stabilized or reinforced at the edge by corresponding bends 10 .

Also shown are the retaining rings 6a, 6b and their corresponding arrangement relative to the thrust washers 2, 3. Each retaining ring 6a, 6b is W-shaped in cross-section, which can be done by simple sheet metal forming. Each retaining ring 6a, 6b has two edge grooves 11, 12 into which the inner and outer edge of the respective axial disk 2, 3 engages radially. Each axial disk 2, 3 has a corresponding fold 13, 14 on its inner and outer circumference, in which fold the respective groove limb 15, 16 of the retaining rings 6a, 6b, which delimits the groove 11, 12 on the outside, engages, so that the respective, in Diameter reduced inner and outer edge portion 17, 18 of each thrust washer 2, 3 is engaged axially, through which the axial connection or fixation takes place.

The depth of the two inner and outer folds 13, 14 of both axial disks 2, 3 is designed in such a way that the two edge legs 15, 16 do not protrude axially beyond the respective outer disk surface of the axial disk 2, 3, i.e. that the outer disc surfaces ultimately define the maximum bearing width.

In addition, the width of the groove 12 is dimensioned such that the edge section 18 is accommodated in the groove 12 in a clamping manner. This means that ultimately each retaining ring 6a, 6b is fastened to the axial disk 2 in a clamping manner. In contrast, the width of the groove 11 is greater than the width of the edge section 17 of the axial disk 2, so that it is accommodated with play in the groove 11, both axially and radially, therefore relative to the retaining ring 6a, 6b and thus to the axial disk 3 is rotatable. For this purpose, the retaining ring 6a is pulled radially inwards in the area of the groove 11 and the retaining ring 6b is pulled radially outwards so that sufficient radial play can be created after, as explained, the two axial disks 2, 3 are identical and therefore the edge sections 17, 18 have the same width but also the same diameter. This means that the wider groove 11 has a slightly smaller groove diameter at the groove base than the clamp-fixing groove 12.

Furthermore, each retaining ring 6a, 6b is shaped in such a way that the central portion 19 of the retaining ring 6 extends radially between the thrust washers 2,3. It is embodied as a straight web with a quasi-planar cross-section, which has a planar guide surface 20 against which the cage 5 can run with its bend 10 or on which it is guided and centered.

Reference List

1

thrust bearing

2

thrust washer

3

thrust washer

4

rolling elements

5

Cage

6a

retaining ring

6b

retaining ring

7

tread

8th

tread

9

Bag

10

bend

11

groove

12

groove

13

fold

14

fold

15

nutshell

16

nutshell

17

edge section

18

edge section

19

Section

20

guide surface

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 102020106615 A1 [0002, 0003]

Claims (10)

Axial bearing, comprising two bearing disks, between which several rolling elements (4) guided in a cage (5) are arranged, which roll on the bearing disks, characterized in that the two bearing disks are flat axial disks (2, 3) which are held together by at least one am The retaining ring (6a) arranged on the inner circumference or on the outer circumference of the axial discs (2, 3) serves as a retaining element for the lubricant in the axial bearing (1), with a further retaining element (6b) on the opposite circumference, which is used to retain the lubricant this bearing side is used, is provided. thrust bearing after claim 1 , characterized in that the two axial discs (2, 3) are identical. thrust bearing after claim 1 or 2 , characterized in that the further retaining element is a further retaining ring (6b), or that the further retaining element is a sealing ring arranged on one of the axial discs (2, 3) or a cap. Axial bearing according to one of the preceding claims, characterized in that the retaining ring (6a) surrounds the two axial discs (2, 3) at the edge, or that the retaining ring (6a) and the further retaining ring (6b) each of the two axial discs (2, 3). bordered. thrust bearing after claim 4 , characterized in that each axial disc (2, 3) has a fold (13, 14) at the edge on the inner circumference and/or on the outer circumference, into which the angled edge of the retaining ring (6a) and/or the further retaining ring (6b) engages. thrust bearing after claim 5 , characterized in that the depth of the folds (13, 14) is dimensioned such that the respective edge of the retaining ring (6a) and/or the further retaining ring (6b) engaging therein does not protrude axially beyond the surface of the respective axial disk. Axial bearing according to one of the preceding claims, characterized in that the retaining ring (6a) and/or the further retaining ring (6b) has a W-shaped cross section and has two peripheral grooves (11, 12) into which the edge (17, 18) of an axial washer (2, 3), one edge (18) being clamped in the groove (12) and the other edge (17) being movably received in the groove (11). Axial bearing according to one of the preceding claims, characterized in that the retaining ring (6a) and/or the further retaining ring (6b) has a W-shaped cross section and its middle section (19) projects radially between the two axial discs (2, 3). . thrust bearing after claim 8 , characterized in that the section (19) is used for the radial guidance of the cage (5), the section (19) preferably having a guide surface (20) guiding the cage. Axial bearing according to one of the preceding claims, characterized in that the retaining ring (6a) and/or the further retaining ring (6b), the cage (5) and the axial discs (2, 3) are made of sheet metal, the retaining ring (6) and/or the further retaining ring (6b) and the cage (5) are made from a thinner sheet metal than the two axial washers (2, 3).

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