DE102004003654A1 - Roller bearing for e.g. inline-skater, has needle thrust bearings with needles that include rotation axes, which are inclined at angle and run in bearing axis such that thrust bearings are tensioned against each other over bearing surfaces - Google Patents

Abstract

The bearing has a carrier bolt (5) provided with two axial-helical needle thrust bearings (6, 7), which are separated from each other and set in an axial direction. Needles (6.5, 7.5) of the respective bearings (6, 7) have rotation axes (6.1, 7.1), which are inclined at an angle and run in a bearing axis such that the bearings (6, 7) are tensioned against each other over bearing surfaces (5.1.1, 5.2.1, 9..1).

Description

field of use the invention

The Invention relates to the mounting of a roller for a sports device, such as roller skates, Inline skater or skateboard, with the caster on one Carrying over two axially spaced from each other rolling bearings is held rotatably.

background the invention

Such a roller bearing is previously known from German Utility Model 92 02 373.8. In 3 This document is a longitudinal section through a roller of a skate main body shown in which the roller is held on a support pin via two axially spaced ball bearings. However, this storage has the disadvantage that it is not sealed on the one hand and on the other hand can not be disassembled. This has the consequence that dirt and moisture penetrate into the camp and this can not be maintained. This in turn means that always the complete storage must be replaced.

From the DE 197 10 865 A1 Another storage for a roller of a sports equipment has become known, which also uses ball bearings. These are arranged in the axial direction of spaced apart on a support bolt on and have inner rings, whose tracks have a shoulder and pass on the side facing away from the shoulder side on the groove bottom in a cylindrical track, wherein between two bearing rings a seal is seconded.

at However, both bearings of the roller is disadvantageous in that they a relatively low load capacity and have a relatively high weight. Also, the bearing rings the ball bearing only very expensive to produce. It is also disadvantageous that the preload and thus the bearing friction is not adjustable is.

Summary the invention

outgoing from the disadvantages of the known prior art is the invention Therefore, the object of the invention to provide a roller bearing, in particular an unproblematic adjustment of the bearing preload allows.

According to the invention this Task according to the characterizing part of claim 1 in conjunction solved with the preamble in that the rolling bearings are formed as two oppositely directed axial helical needle bearings, whose bearing needles have axes of rotation which are inclined at an angle α extend to a bearing axis, wherein the axial-needle roller bearings on conical contact surfaces are braced against each other.

Of the decisive advantage of the bearing assembly according to the invention over the past used ball bearings is the simple adjustment of the bearing preload and thus also influencing the friction of the bearing. this happens in a simple manner by bracing the employees against each other Axial angular contact needle roller bearings, by the conical contact surfaces for the Axial angular needle bearings on each other can be moved to or from each other. It's also an advantage that the bearing assembly due to their structure according to the invention can be decomposed in a simple manner. This simple disassembly allows It also gives a layman certain maintenance, such as relubricating, and then make that into its components dismantled bearings just as easily reassemble. Another advantage the storage according to the invention the roller over the axial angular needle bearings is the recording of both radial and axial forces.

Further advantageous embodiments of the invention are described in the subclaims 2-9.

So is provided according to claim 2, that the axial helical needle bearings having two spaced apart pulleys by a non-cutting shaping process are made. such Running discs can be produced in any size ratio and are therefore in a simple way adaptable to the given installation space. Also allow the pulleys use different materials. So is it is conceivable that for the connecting constructions materials with a specifically lighter Weight, such as aluminum, can be used.

To another additional Feature according to claim 3, the pulleys are to be subjected to a hardening process. Thereby on the one hand, the carrying capacity the roller increases and on the other hand, as already mentioned, the use of different materials allows.

The exact parallel guidance The bearing needles to each other is carried out according to claim 4 by a cage a plastic.

In the claims 5, 6, 7, 8 and 9 is the connection structure for the axial helical needle bearings described.

After that should according to claim 5 of the axial helical needle bearings aufnehmende Tragbolzen be formed in two parts, wherein on a first base part with an oblique to the bearing axis extending contact surface a second thread part with a likewise oblique can be screwed to the bearing axis extending contact surface. By a controlled tightening of the threaded part can now be easier Way the desired Bearing preload can be adjusted.

As Claim 6, the support pin is concentric of a Bush with one also obliquely to the bearing axis running Anlagefläche- enclosed, wherein between the contact surfaces of the supporting bolt and the Bush the axial angular needle bearings are arranged. It can, as described in claims 7 and 8, the socket be formed in two parts and have a stepped outer surface.

Finally, should according to a last feature of the invention according to claim 9, the roller between two axially spaced from each other support rails by means of a fastening bolt passing through the support bolt be held.

The Invention will be explained in more detail in the following embodiment.

Short description the drawings

It demonstrate:

1 a side view of a one-lane in-line skater,

2 a section along the line II-II in 1 and

3 an enlarged view of an axial helical needle bearing used in the invention.

Full Description of the drawings

In 1 is an inline skater shown on the shoe 1 two spaced support rails 2 . 3 are attached. Between these mounting rails 2 . 3 are four spaced rollers 4 on each a supporting bolt 5 rotatably mounted.

How out 2 recognizable, the roller bearing consists of two oppositely directed axial helical needle bearings 6 . 7 whose axes of rotation 6.1 . 7.1 at an angle α inclined to the bearing axis 8th run. Both axial angular needle bearings 6 . 7 have pulleys 6.2 . 6.3 . 7.2 . 7.3 on, between those on associated undesignated raceways in a cage 6.4 . 7.4 guided storage needles 6.5 . 7.5 roll off. For storage further includes the two-piece bearing bolts 5 that from the first base part 5.1 and the second threaded part 5.2 consists. Both the base part 5.1 as well as the threaded part 5.2 are conical, ie, they have obliquely to the bearing axis 8th running contact surfaces 5.1.1 . 5.2.1. To the bearing assembly further includes the socket 9 , the two sides each with a bearing surface inclined to the bearing surface 9.1 is provided. In between bearing bolts 5 and socket 9 formed free space, which is not specified, are the two axial helical needle bearings 6 . 7 accommodated. In the present embodiment, the socket 9 formed in two parts, ie, it consists of the parts 9.2 and 9.3 passing through the gap 9.4 are separated from each other. Both parts 9.2 . 9.3 the socket 9 have a stepped course of their lateral surface and are of the roller 4 includes.

The bearing preload is now by screwing the threaded part 5.2 on the base part 5.1 set. This is the threaded part 5.2 on the head 5.1.2 of the base part 5.1 too moved, so that the two axial angular needle bearings 6 . 7 over the contact surfaces 5.1.1 . 5.2.1 . 9.1 are braced against each other. Finally belongs to the bearing assembly, the mounting screw 10 which the support bolt 5 interspersed to the right with her head 10.1 and on the left side with its thread 10.2 in the tag rails 2 . 3 is held. The fixing screw 10 At the same time, it serves as a master nut, ensuring that it is above the supporting bolt 5 set game of axial angular contact bearings 6 . 7 can not be changed. The larger the applied bearing preload, the greater the bearing friction. In this way, the smooth running of the rollers 4 be specifically restricted, which may possibly be important for the conditioning of an athlete's fitness.

This in 3 in an enlarged view on the right side arranged axial angular needle bearings 7 indicates that the inclination angle α can also be changed and thus the ratio of radial to axial force absorption is beinflußbar. In the embodiment, the extended axes of rotation intersect 7.1 the bearing needles 7.5 in one on the bearing axis 8th lying intersection 8.1 at a right angle.

1

shoe

2

rail

3

rail

4

caster

5

support bolts

5.1

base

5.1.1

contact surface

5.1.2

head

5.2

threaded part

5.2.1

contact surface

6

Axial angular contact needle roller bearings

6.1

axis of rotation

6.2

sheave

6.3

sheave

6.4

Cage

6.5

bearing needle

7

Axial angular contact needle roller bearings

7.1

axis of rotation

7.2

sheave

7.3

sheave

7.4

Cage

7.5

bearing needle

8th

bearing axle

8.1

intersection

9

Rifle

9.1

contact surface

9.2

part

9.3

part

9.4

gap

10

fixing screw

10.1

head

10.2

thread

α

 tilt angle

Claims (9)

Storage of a roller ( 4 ) for a sports device, such as roller skates, inline skaters or skate boards, in which the roller ( 4 ) on a support bolt ( 5 ) is rotatably supported by two spaced-apart in the axial direction of rolling bearings, characterized in that the rolling bearings as two oppositely directed axial helical needle bearings ( 6 . 7 ) whose bearing needles ( 6.5 . 7.5 ) Rotary axes ( 6.1 . 7.1 ) inclined at an angle α to a bearing axis ( 8th ), wherein the axial helical needle bearings ( 6 . 7 ) via conical contact surfaces ( 5.2.1 . 9.1 . 5.1.1 ) are braced against each other. Bearing according to claim 1, characterized in that the axial helical needle bearings ( 6 . 7 ) two spaced-apart pulleys ( 6.2 . 6.3 . 7.2 . 7.3 ), which are produced by a non-cutting shaping operation. Bearing according to claim 2, characterized in that the running discs ( 6.2 . 6.3 . 7.2 . 7.3 ) are subjected to a hardening process. Bearing according to claim 1, characterized in that the bearing needles ( 6.5 . 7.5 ) of the axial helical needle bearings ( 6 . 7 ) in a cage ( 6.4 . 7.4 ) are made of a plastic. Bearing according to claim 1, characterized in that the supporting bolt ( 5 ) is formed in two parts, wherein on a first base part ( 5.1 ) with an oblique to the bearing axis ( 8th ) extending contact surface ( 5.1.1 ) a second threaded part ( 5.2 ) with a likewise oblique to the bearing axis ( 8th ) extending contact surface ( 5.2.1 ) can be screwed on. Bearing according to claim 1, characterized in that the supporting bolt ( 5 ) concentrically from a bush ( 9 ) with one also obliquely to the bearing axis ( 8th ) extending contact surface ( 9.1 ) is enclosed, wherein between the contact surfaces ( 5.1 ) of the supporting bolt ( 5 ) and the socket ( 9 ) the axial angular needle bearings ( 6 . 7 ) are arranged. Bearing according to claim 7, characterized in that the bushing ( 9 ) is formed in two parts. Bearing according to claim 7, characterized in that the lateral surface of the bushing ( 9 ) has a graduated course. Bearing according to claim 1, characterized in that the roller ( 4 ) between two in the axial direction of spaced mounting rails ( 2 . 3 ) by means of a support bolt ( 5 ) passing through fastening screw ( 10 ) is held.