DE102012208790A1 - Roller body guide cage for guiding balls in axial ball bearing, has annular disk body provided with sliding piece structure that forms sliding contact surface, where body is axially supported at ball race by sliding contact surface - Google Patents

Abstract

The cage (3) has ball guide windows (F) sequentially designed in an annular disk body (C) in a circumferential direction. The disk body is provided with a sliding piece structure (6), which forms a sliding contact surface (6a). The annular disk body is axially supported at one of ball races (1, 2) by the sliding contact surface. The cage is formed from a sheet material. The sliding piece structure is made of a plastic material. The sliding piece structure is formed by insert elements, which are axially located at the disk body.

Description

Field of the invention

The invention relates to a Wälzkörperführungskäfig for a thrust bearing, said Wälzkörperführungskäfig comprises an annular disc body having therein in the circumferential direction sequentially formed Wälzkörperführungsfenstern.

Background of the invention

Out DE 10 2007 044 701 A1 a thrust bearing is known, which comprises a rolling body guide cage provided for guiding balls, which is formed from a sheet material and has a plurality of circumferentially following ball guide window. This Wälzkörperführungskäfig is provided both along its inner peripheral region, as well as along its outer peripheral region with an annular web, each annular land forms a guide surface which radially guides the ball received in the respective ball guide window and thereby axially positioned the cage on the balls.

Object of the invention

The invention has for its object to provide a Wälzkörperführungskäfig for a thrust bearing, in particular Axialkugel- or Axialnadellager, which is inexpensive to produce and is characterized by an advantageous mechanical performance.

Description of the invention

The above-mentioned object is achieved by a Wälzkörperführungskäfig for a thrust bearing with a ring disk body and a plurality of circumferentially formed in the annular disk body Wälzkörperführungsfenstern, the annular disk body is provided with a Gleitstückstruktur, as such forms a sliding contact surface over which the annular disk body at least one of Race rings is axially sustainable.

This advantageously makes it possible to guide the annular disk body to a minimum axial level determined by the geometry of the slider structure most effectively and reliably, and also to damp the run of the rolling element guide cage. Advantageously, as a result, the wear of the Wälzkörperführungskäfigs, and the rolling elements is reduced and increases the life of a fitted with such a cage thrust bearing.

The invention is particularly directed to Wälzkörperführungskäfige in the form of Axialkugelkäfigen with a in axial section "U-shaped" cage cross-section. In addition to the axial support of Wälzkörperführungskäfigen with axial ball bearings, the inventive concept is particularly suitable for use with Axialnadellagerkäfigen.

The concept according to the invention ensures that in operation the webs are at a required axial level, e.g. the equatorial plane of the rolling elements, in particular balls remain. According to the Wälzkörperführungskäfig is fitted with sliders, which are preferably used instead of some selected rolling elements in the corresponding pockets and from a certain axial migration, the further approximation of the Wälzkörperführungskäfigs to the running surface of the rolling elements, i. to prevent the raceways of the corresponding ring disc body by the sliders on the tread or -bahn self-seating and thus lock the further movement possibility of the cage. The sliders are then slidably supported on the corresponding running disk, thereby preventing further movement of the cage and, in particular, preventing the cage from being expanded or overrun by the balls. In the case of an axial ball bearing of Wälzkörperführungskäfig preferably has a "U-shaped" cross-section.

In the implementation of the invention in an axial ball bearing cage sliders are installed between the balls (ideally, 3 pieces are offset by approximately 120 ° to each other). The sliders are preferably made of polyamide, but may be made of a different plastic, copper or similar sliding bearing materials, in particular sintered or Porösmaterialien.

The measured in the axial direction of the bearing thickness of the respective slider is preferably slightly smaller than the distance between the cage and the rotor so that in normal operation no bias and unnecessary friction. The sliders may be clipped into pockets of the cage, or molded, or glued.

The sliders prevent the axial movement of the cage in principle primarily in one direction, but it is also possible to form the sliders so that the movement in the opposite direction is also limited. This can e.g. by suitable design of the sliders, or e.g. Inserting a further Gleitstückkopfes done in a corresponding recess of another slider.

The sliders can also be mounted in the bridge areas, so you do not reduce the ball number and thus the bearing load ratings.

The slider according to the invention may also be designed as a ring structure, which is arranged as a circumferential ring disc between the cage and the rotor disk.

The inventive solution makes it possible in a reliable manner to prevent direct contact between the metallic cage structure and the pulleys. Preventing this contact reduces fouling of the grease, which increases the fat life and thus the life of the bearing. The inventive concept reliably prevents the rolling elements from rolling over the webs. Overall, the life of the thrust bearing is significantly extended by the inventive concept.

The Wälzkörperführungskäfig invention is preferably made as an axially profiled Wälzkörperführungskäfig of a sheet metal material. The ball guide window can be made by punching. The axial profiling of Wälzkörperführungskäfigs can be achieved by forming techniques, especially drawing technical and Fließpresstechnische deformation. In this case, the ring disk body can be designed so that it receives an inner and an outer ring land. These annular webs can be formed so that they form contact zones on their inner sides facing the balls, which guide the balls used relatively tight radially.

The ball bearing cage according to the invention can be manufactured as a sheet metal part to which the slider structure is attached, or is molded onto the sheet metal cage as part of an insert molding process. By this slider structure can also be realized starting surfaces as such, the balls in the circumferential direction lead under sufficient play. Furthermore, the slider structure according to the invention may be freighted with a lubricant, so that over this plastic part a certain lubricant delivery to the balls or the bearing rings is achieved.

The invention is also directed to a formed under inclusion of the aforementioned cage thrust bearing. Furthermore, the invention also includes a coupling actuating mechanism formed with the inclusion of such a thrust bearing in which an adjusting spindle is axially supported by this thrust bearing. The invention also includes a clutch release bearing formed with the inclusion of the described cage.

The invention is directed in particular to an axial ball bearing with an axial section in terms of its cross-section U-shaped bearing cage, in which are used to avoid the axial Käfigwanderns and the resulting cage deformation in three approximately 120 ° offset pockets of the bearing cage sliders on the Support the lower rotor and thus limit the axial movement of the bearing cage. The sliders are made of polyamide or other low-friction materials and are clipped into the pockets, molded or glued. Alternatively, the sliders can also be attached to the cage webs in order not to reduce the number of bearing balls and thus the load of the axial ball bearing.

Brief description of the drawings

A preferred embodiment of the inventively embodied Wälzkörperführungskäfigs will be explained in more detail with reference to the accompanying drawings. The single FIGURE shows an axial sectional view of an equipped with a Wälzkörperführungskäfig thrust ball bearing according to the invention.

Detailed description of the drawings

In the drawing, an axial ball bearing is shown, as such a first race 1 and a second race 2 and having a Wälzkörperführungskäfig 3 is equipped.

The rolling element guide cage 3 is made of a sheet metal material and forms a plurality of circumferentially following Wälzkörperführungsfenster F. In these Wälzkörperführungsfenstern F are rolling elements 4 added. These rolling elements 4 are formed in the embodiment shown here as balls.

The thrust bearing shown here is characterized in that the rolling element guide cage 3 with a slider structure 6 is provided, as such, a sliding contact surface 6a forms over which the Wälzkörperführungskäfig 3 on at least one of the races 1 . 2 - here the second race 2 - can support axially.

The slider structure 6 is made of a plastic material and to the Wälzkörperführungskäfig 3 infected and anchored to this under a slight interference fit. How recognizable is the slider structure 6 formed here by insert elements which are recognized in a corresponding circumferential distribution axially to the annular disc body C of the Wälzkörperführungskäfigs. The insert elements 6 are this as a cylindrical, stepped in axial section, pin-like plug-in elements formed on the one of the second bearing ring 2 facing Annular face 3a the annular disc body C seated head section 6b have and are plugged into the ring disk body C.

The insert elements 6 act as substitution elements for selected spheres in this embodiment 4 and are in as much as possible peripheral division instead of those balls 4 inserted in the corresponding rolling elements guide window. The concept shown here can in particular by inserting at least three plug-in elements 6 in the rolling element guide cage 3 be implemented.

The in the sheet metal body of Wälzkörperführungskäfig 3 trained ball guide window F are made by punching. The Wälzkörperführungskäfig has an inner and an outer ring land R1, R2. The respective annular web R1, R2 forms a contact surface G1, G2 which radially guides the balls K. Over these contact surfaces G1, G2 results in an axial support of the Wälzkörperführungskäfig 3 on the balls 4 , In the event that this support effect is insufficient, an excessive approach of the Wälzkörperführungskäfigs to the second race 2 through the slider structure 6 prevented.

The slider structure 6 may be formed of a plastic material that is loaded with a lubricant or segregates a lubricant during operation of the bearing. The thrust bearing shown here is still with a ring bushing 7 provided on the first bearing ring 1 is secured and which the outside of the second bearing ring 2 embraces. This thrust bearing is particularly suitable for use in a clutch actuation mechanism. It is possible to provide this bearing with sealing devices and equipped as a permanently lubricated bearing with a lubricant filling. In the slider structures receiving spaces can be formed, which act as lubricant reservoirs. Furthermore, lubricant guide channels can be formed on the respective slider structure, through which an advantageous lubricant film in the region of the concave running surfaces 1a . 2a the bearing rings 1 . 2 is reached.

In the embodiment shown here, if necessary, on the second bearing ring 2 starting face 6a the slider structure 6 designed as a flat surface, which in the untwisted state not in the concave groove 2a of the second bearing ring 2 dips. Even with advanced contact surface wear is due to the slider structure 6 the rolling element guide cage 3 still held at an axial level, in which a rollover of the webs of Wälzkörperführungskäfig 3 reliably prevented for a relatively long time.

The slider structure shown here 6 serves for the axial support of the rolling body guide cage 3 opposite the second race 2 , It is possible this slider structure 6 to make that a support of the Wälzkörperführungsringes relative to the first bearing ring 1 is reached. For this example, the slider structure 6 be formed as a two-piece plug-in pin arrangement, the first part of the bottom in the Wälzkörperführungsring 3 is inserted and the second part is inserted from the opposite side in the first part.

LIST OF REFERENCE NUMBERS

1

 race

2

 race

3

 Wälzkörperführungskäfig

3a

Annular face

4

 rolling elements

F

Wälzkörperführungsfenster

6

 slider structure

6a

sliding contact

6b

header

7

 ring socket

C

Washer body

G1

 contact area

G2

 contact area

R1

 ring land

R2

 ring land

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• DE 102007044701 A1 [0002]

Claims (10)

Rolling body guide cage for an axial ball bearing having a washer (C) and a plurality of ball guide windows (F) formed in the annular washer body in the circumferential direction, said washer having a slider structure (Fig. 6 ), which as such is a sliding contact surface ( 6a ), over which the annular disc body (C) on at least one of the races ( 1 . 2 ) is axially supported. Wälzkörperführungskäfig according to claim 1, characterized in that the rolling body guide cage is made of a sheet metal material. Wälzkörperführungskäfig according to claim 1 or 2, characterized in that the Gleitstückstruktur ( 6 ) is made of a plastic material. Wälzkörperführungskäfig according to at least one of claims 1 to 3, characterized in that the Gleitstückstruktur ( 6 ) is anchored to the annular disc body (C). Wälzkörperführungskäfig according to at least one of claims 1 to 4, characterized in that the Gleitstückstruktur ( 6 ) is formed by insert elements, which are attached axially to the annular disc body (C). Wälzkörperführungskäfig according to at least one of claims 1 to 5, characterized in that the insert elements ( 6 ) are designed as plug-in elements which have a head portion (R) seated on the annular disc body (C) ( 6b ) and are attached to the annular disc body (C) are infected. Wälzkörperführungskäfig according to at least one of claims 1 to 6, characterized in that the plug-in elements are inserted as substitution elements for balls in selected ball guide window. Wälzkörperführungskäfig according to claim 7, characterized in that at the annular disc body (C) at least three plug-in elements are infected with a pitch of about 120 °. Rolling element guide cage according to at least one of claims 1 to 5, characterized in that the slider structure ( 6 ) is molded onto the annular disc body (C). Wälzkörperführungskäfig according to at least one of claims 1 to 9, characterized in that the annular disc body (C) has an inner and an outer annular ridge (R1, R2) and that the respective annular web (R1, R2) one the rolling elements ( 4 ) forms radially leading contact surface (G1, G2).

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