DE102012203851A1 - Cage for toroidal bearing used as slewing bearing, has transverse webs that are projected away from side ring, and pockets that are formed in side ring for receiving rolling elements - Google Patents

Abstract

The toroidal bearing cage (1) has a side ring (3) and transverse webs (4) that are rotated around a rotational axis (2). The transverse webs are projected away from the side ring. Pockets (6) for receiving rolling elements (17) are formed in the side ring. The side rings (3,5) and transverse web are made of non-metallic material, and provided with a metallic coating portion (10). The side rings and transverse webs are made of plastic, polyamide, fiber, reinforced plastic and glass-fiber reinforced and carbon fiber reinforced plastics.

Description

Field of the invention

The invention relates to a Toroidallagerkäfig, comprising at least one circumferential axis about a rotation side ring and a plurality of transverse webs, wherein the transverse webs protrude from the side ring and form with the side ring pockets for receiving rolling elements. The invention further relates to a toroidal bearing, comprising a plurality of barrel-shaped rolling elements, which roll around a bearing axis between a first track and a second track.

Background of the invention

Toroidal bearings are single-row radial roller bearings with barrel-shaped rolling elements, which roll on corresponding concave raceways. Compared with barrel roller bearings, toroidal bearings have no ribs or shoulders axially adjacent to the raceways for guiding the rolling elements. Rather, the rolling elements are guided in Toroidallagern only by frictional forces. A Toroidallager is eg from the EP 0 175 858 A1 known.

Toroidal bearings have a certain radial clearance of the barrel-shaped rolling elements between the raceways. This radial clearance creates a relatively large axial play, so that a toroidal bearing can tolerate an axial displacement between the raceways having outer ring and inner ring. A toroidal bearing can thus basically be used as a floating bearing in certain applications. Due to the concave raceways and the barrel-shaped rolling elements, a Toroidallager can also compensate for small misalignments of the shaft to be stored.

From the brochure "CARB toroidal roller bearings - a revolutionary concept" (Publication 5102 E; January 2004; SKF) It is known to equip toroidal bearings with a cage for guiding and spacing the rolling elements, reference being made to the known cages on p. 42 of this brochure. As a result, injection molded plastic cages, steel and brass sheet cages, and brass machined cages may be used for toroidal bearings. The choice of which cage to use in each case depends on the anticipated operating conditions associated with the application. Typically, lower cost plastic cages are used in lower load applications (temperature, shock, vibration, etc.), while metal cages can be used for higher load applications.

Object of the invention

The present invention has for its object to provide a generic Toroidalagerkäfig that can be used in applications with high loads, but still can be easily and inexpensively manufactured, has a low weight and has a long service life. The object is furthermore to show a toroidal bearing which can be used in applications with high loads with a long service life, is simple and inexpensive to produce and can be operated in an energy-efficient manner.

Description of the invention

This object is achieved by a Toroidalagerkäfig according to the independent claim. Accordingly, a generic Toroidallagerkäfig is characterized in that the Toroidallagerkäfig has a body made of a non-metallic material body and a metallic coating of the body.

The at least one side ring is preferably formed integrally with the transverse webs, i. they are not subsequently interconnected formerly separate components. The transverse webs can extend substantially in the axial direction from the side ring, thus extend substantially parallel with respect to the axis of rotation of the side ring. Regardless of this, the transverse webs may have a course in the axial direction (for example, arcuate) adapted to a barrel-shaped rolling element, this course preferably then extending symmetrically in the axial direction.

The body can represent the final form of the Toroidallagerkäfigs except for the coating. This means that in principle already the body could be used as Toroidallagerkäfig. Of course, it is also possible to attach further components (seals or separate roll holders) to the body.

The Toroidallagerkäfig invention has the advantage that this largely, namely the complete body, consists of an easy-to-use and inexpensive non-metallic material. In particular, a lighter material than metal can be used for the body, so that the weight can be reduced and thus the movable mass is reduced. A toroidal bearing with a Toroidallagerkäfig invention can therefore be operated very energy efficient.

The metallic coating in turn makes it possible to use the Toroidallagerkäfig invention in applications with high loads. Thus, the metallic coating protects the body, among other things from strength losses due to high temperatures or the action of lubricant. Furthermore, the abrasion resistance is significantly increased by improving the sliding properties of the toroidal bearing cage over contacting bearing components. By the better sliding properties also a reduction of the running noise is possible.

Embodiments of the present invention are defined in the subclaims.

A particularly simple and inexpensive to produce Toroidallagerkäfig with low weight is achieved by the body is made of plastic. As plastic, polyamides, e.g. PA66 or PA46, on. In order to further increase the stability of the Toroidallagerkäfigs, it can be provided that the body made of fiber-reinforced plastic, in particular glass fiber reinforced and / or carbon fiber reinforced plastic exists. It would also be conceivable to use materials other than plastic, e.g. Ceramics.

Good wear resistance to abrasion can be achieved by including the coating nickel and / or chromium.

According to one embodiment, it is provided that the coating has a layer thickness of 10 microns to 200 microns. Thus, it was found that lower layer thicknesses do not provide sufficient protection of the body against abrasion, the influence of temperature, etc. Larger layer thicknesses than the proposed maximum value are to be avoided due to a too complex application and high material usage.

It is possible that the coating completely encloses the body. The protection of the body from external influences such as temperature, lubricant etc. is thereby maximized. However, if the main objective is to improve the abrasion resistance of the body, according to an alternative embodiment it can be provided that a first group of surfaces of the body, in particular functional surfaces of the toroidal bearing cage, has the coating and a second group of surfaces of the body is free of the coating , The coating is thus not applied to those surfaces that are (are) exposed to any contact with other components, so that a material-saving production is possible.

While the Toroidallagerkäfig invention in principle can already be used in its construction as a so-called comb cage, is provided according to an embodiment that the Toroidallager has a second connecting the transverse webs side ring. Preferably, this is also integrally connected to the transverse webs, so that the entire body is made in one piece. The pockets are now limited in the axial direction by the side rings and in the circumferential direction by two adjacent transverse webs.

The object is further achieved by a toroidal bearing, comprising a plurality of barrel-shaped rolling elements which roll around a bearing axis between a first track and a second track, in that the toroidal bearing comprises a toroidal bearing cage according to the invention.

The toroidal bearing according to the invention is particularly suitable in applications with high speeds and / or high loads. The toroidal bearing can also be used as a so-called slewing bearing (bearing pitch circle greater than 2000 mm).

Brief description of the drawings

Embodiments of the present invention are explained below with reference to the accompanying figures. Show

1 a schematic representation of a Toroidallagerkäfigs invention and

2 a schematic representation of a Toroidallagers invention.

Detailed description of the drawings

Identical or functionally identical elements are identified by the same reference numerals.

1 shows a Toroidallagerkäfig invention 1 according to an embodiment of the invention. Shown is a half of an axial section (sectional view comprising the axis of rotation 2 ).

The toroidal bearing cage 1 includes a first side ring 3 that is about the axis of rotation 2 revolves, namely is arranged concentrically to this. From this side ring 3 stand a variety of transverse bars 4 off, the one-piece with the side ring 3 are formed. The crossbars 4 are also integral with a second side ring 5 connected and form pockets 6 for receiving (barrel-shaped), not shown rolling elements on. The crossbars 4 Although extend with respect to the axis of rotation 2 essentially in the axial direction, but have an arcuate course in the axial direction in order to ensure a good start of the barrel-shaped rolling elements. The arched Course is formed by a radially inwardly directed arc section. The crossbars 4 are with respect to a radial plane 7 mirror-symmetrical shape. At an axially central position of the transverse webs 4 are roll holders 8th provided to prevent falling out of the rolling elements during assembly.

The body (first side ring, transverse webs, second side ring) is made entirely of a non-metallic material, namely plastic. On its complete surface 9 this one is with a metallic coating 10 Mistake.

This in 2 illustrated toroidal bearings 11 includes an outer ring 12 with a career 13 as well as an inner ring 14 with a career 15 , The two careers 13 . 15 are facing each other and form an annular gap, namely the Wälzkörperraum 16 in which the barrel-shaped rolling elements 17 on the careers 13 . 15 around a bearing axis 18 roll off. The bearing axis 18 corresponds to the axis of rotation 2 of the toroidal bearing cage 1 , The rolling elements 17 are through the toroidal bearing cage 1 , eg according to 1 , spaced from each other and are guided by this.

LIST OF REFERENCE NUMBERS

1

 Toroidallagerkäfig

2

 axis of rotation

3

 side ring

4

 crosspiece

5

 side ring

6

 bag

7

 radial plane

8th

 roll holder

9

 Surface of the body

10

 coating

11

 Toroidallager

12

 outer ring

13

 career

14

 inner ring

15

 career

16

 anti-friction

17

 rolling elements

18

 bearing axle

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

• EP 0175858 A1 [0002]

Cited non-patent literature

• "CARB toroidal roller bearings - a revolutionary concept" (Publication 5102 E; January 2004; SKF) [0004]

Claims (10)

Toroidal bearing cage ( 1 ) comprising at least one about a rotation axis ( 2 ) circumferential side ring ( 3 ) and a plurality of transverse webs ( 4 ), wherein the transverse webs ( 4 ) from the side ring ( 3 ) and with the side ring ( 3 ) Bags ( 6 ) for receiving rolling elements ( 17 ), characterized in that the toroidal bearing cage ( 1 ) a body made of a non-metallic material ( 3 . 4 . 5 ) as well as a metallic coating ( 10 ) of the body ( 3 . 4 . 5 ) having. Toroidal bearing cage ( 1 ) according to claim 1, characterized in that the body ( 3 . 4 . 5 ) consists of plastic. Toroidal bearing cage ( 1 ) according to claim 2, characterized in that the body ( 3 . 4 . 5 ) consists of polyamide. Toroidal bearing cage ( 1 ) according to claim 2 or 3, characterized in that the body ( 3 . 4 . 5 ) consists of fiber-reinforced plastic, in particular glass fiber reinforced and / or carbon fiber reinforced plastic. Toroidal bearing cage ( 1 ) according to one of the preceding claims, characterized in that the coating ( 10 ) Comprises nickel and / or chromium. Toroidal bearing cage ( 1 ) according to one of the preceding claims, characterized in that the coating ( 10 ) has a layer thickness of 10 microns to 200 microns. Toroidal bearing cage ( 1 ) according to one of claims 1 to 6, characterized in that the coating ( 10 ) the body ( 3 . 4 . 5 ) completely encloses. Toroidal bearing cage ( 1 ) according to one of claims 1 to 6, characterized in that a first group of surfaces of the body ( 3 . 4 . 5 ), in particular functional surfaces of the toroidal bearing cage ( 1 ), the coating ( 10 ) and a second group of surfaces of the body ( 3 . 4 . 5 ) is free from the coating. Toroidal bearing cage ( 1 ) according to one of the preceding claims, characterized by a second the transverse webs ( 4 ) connecting side ring ( 5 ). Toroidal bearing ( 11 ) comprising a plurality of barrel-shaped rolling elements ( 17 ) between a first career ( 13 ) and a second career ( 15 ) about a bearing axis ( 18 ), characterized by a toroidal bearing cage ( 1 ) according to one of the preceding claims.

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