DE102018107877B4 - roller bearing - Google Patents

Abstract

Rolling bearing (1), having a bearing outer ring (2), a bearing inner ring (3), a large number of rolling bodies (4) arranged between the two bearing rings (2, 3), and at least one seal (5) and a cover unit (6), which covers the end face of the roller bearing (1) on which the seal (5) is arranged, the cover unit (6) having a plurality of cover disks (8, 9, 10) and the cover disks (8, 9, 10) each not having a closed annular shape form, characterized in that the cover unit (6) has three axially staggered cover plates (8, 9, 10).

Description

field of invention

The invention relates to a roller bearing, in particular a ball bearing, according to the features forming the preamble of patent claim 1, which can be used particularly advantageously in a steering system for a tricycle with two front wheels.

Background of the Invention

In general, it is undesirable, particularly in the case of exposed roller bearings, for moisture or liquid to enter the interior of the roller bearing. Therefore, as a rule, such roller bearings are sealed against the ingress of liquids by means of seals. However, one seal is often not enough, so an additional cover is attached in front of the seal. For example, in the U.S. 2007/0242909 A1 discloses a roller bearing that has a seal and a cover that is intended to prevent the ingress of liquid into the roller bearing.

From the U.S. 2,706,123A a roller bearing is also known which has a bearing outer ring, a bearing inner ring and a large number of rolling bodies arranged between the two bearing rings, and which is designed with two seals and two cover units which cover the axial end faces of the roller bearing on which the seals are arranged, wherein the cover unit has two cover discs and the cover discs do not form a closed ring shape.

In the pamphlets DE 20 2005 009 334 U1 as well as in the DE 20 2006 018 436 U1 exemplary motorized tricycles each having two front wheels are disclosed.

object of the invention

The object of the present invention is to provide an improved and further developed roller bearing that reduces the penetration of liquid into the interior of the roller bearing and at the same time enables liquids that have penetrated to be optimally drained off.

Description of the invention

To achieve the object of the invention, the rolling bearing specified in claim 1 is proposed. Optional advantageous refinements of the invention result entirely or partially from the dependent claims.

The roller bearing according to the invention, in particular a ball bearing, has a bearing outer ring, a bearing inner ring, a large number of rolling bodies arranged between the two bearing rings, and at least one seal and a cover unit which covers the end face of the roller bearing on which the seal is arranged. The cover unit is located upstream of the seal and has a number of cover disks, each of which does not form a closed annular shape. This means that the cover disks each represent a ring segment and, according to the invention, consist of three axially staggered cover disks. The cover disks are arranged axially one behind the other, starting from the axis of rotation of the roller bearing, at a distance from one another. This means that the cover panes of the cover unit do not touch each other. The roller bearing according to the invention is preferably used as a bearing for pivoting movements and not for endless rotations.

The cover disks preferably each have the shape of a circular arc, the sum of the angles of the cover disks being more than 360°. In a preferred embodiment, the cover disks each have the shape of a circular arc, which extends between 190° and 260°, in particular between 200° and 240°, preferably around 220°. The cover panes of the cover unit all have the same angle, for example. This means that the cover discs are identical in terms of circular arc shape. Alternatively, at least one cover disk has an angle greater than 180°, while the other cover disks have an angle of less than 180°, with the cover disks overlapping by an angle of at least 20° in the circumferential direction. Furthermore, the cover disks are preferably arranged so that they overlap axially, radially and in the circumferential direction.

The two axially inner cover disks preferably have the same angular orientation. This means that the two axially inner cover disks are aligned identically on the roller bearing. When the roller bearing is installed in a surrounding construction, the two axially inner cover disks preferably cover the lower half of the roller bearing. Below is to be understood in relation to the weight force direction.

Furthermore, the axially outermost cover disk is preferably arranged rotated by 180° with respect to the inner cover disks, with the cover disks overlapping in the circumferential direction. This means that the outermost cover disk is arranged diametrically opposite the two axially inner cover disks. In the installed state of the rolling bearing in an environmental con construction, the axially outer cover disc covers the upper half of the rolling bearing. The term top is also to be understood in the geodetic sense.

In an advantageous embodiment, the axially outermost cover disk is attached to the bearing outer ring and extends partially over the end face of the bearing inner ring, the cover disk having a circumferential groove convex toward the bearing inner ring at the free end. Furthermore, the middle cover disk is preferably fastened to the bearing inner ring and has an outward bend at its free end. Furthermore, the axially innermost cover disk is preferably attached to the bearing outer ring. This means that the cover disks, which are arranged axially one behind the other, are fastened alternately to the bearing inner ring and the bearing outer ring.

character list

• 1 eine beispielhafte Ausführungsform eines erfindungsgemäßen Wälzlagers in Explosionsdarstellung,
• 2 das erfindungsgemäße Wälzlager aus 1 in Schnittansicht,
• 3 das erfindungsgemäße Wälzlager aus 1 in Draufsicht,
• 4 das erfindungsgemäße Wälzlager aus 1 in Seitenansicht,
• 5 ein Ausschnitt der oberen Hälfte des Wälzlagers aus 2,
• 6 ein Ausschnitt der unteren Hälfte des Wälzlagers aus 2,
• 7 das erfindungsgemäße Wälzlager aus 1 mit eingezeichnetem Flüssigkeitsverlauf in Seitenansicht,
• 8 die Schnittansicht A-A gemäß 7,
• 9 ein schematisch dargestelltes Dreirad mit zwei Vorderrädern im geneigten Zustand,
• 10 das erfindungsgemäße Wälzlager aus 1 in Seitenansicht mit Neigung gemäß 9,
• 11 das erfindungsgemäße Wälzlager aus 1 in Seitenansicht in Geradstellung,
• 12 das in die andere Richtung geneigte schematisch dargestellte Dreirad mit zwei Vorderrädern gemäß 9,
• 13 das erfindungsgemäße Wälzlager aus 1 in Seitenansicht mit Neigung gemäß 12.

Further details, features, combinations of features and effects based on the invention result from the following description of a preferred exemplary embodiment of the invention and from the drawings. These show in:

• 1 an exemplary embodiment of a roller bearing according to the invention in an exploded view,
• 2 the rolling bearing according to the invention 1 in sectional view,
• 3 the rolling bearing according to the invention 1 in top view,
• 4 the rolling bearing according to the invention 1 in side view,
• 5 a section of the upper half of the roller bearing 2 ,
• 6 a section of the lower half of the roller bearing 2 ,
• 7 the rolling bearing according to the invention 1 with drawn liquid course in side view,
• 8th the sectional view AA according to 7 ,
• 9 a schematically represented tricycle with two front wheels in the tilted state,
• 10 the rolling bearing according to the invention 1 in side view with inclination according to 9 ,
• 11 the rolling bearing according to the invention 1 in side view in straight position,
• 12 the tricycle shown schematically with two front wheels inclined in the other direction according to FIG 9 ,
• 13 the rolling bearing according to the invention 1 in side view with inclination according to 12 .

Detailed description of the drawings

In all figures, parts that are the same or have the same effect are provided with the same reference numbers.

In the 1 until 4 an exemplary embodiment of a roller bearing 1 according to the invention is shown in different views. The roller bearing 1 , which is designed here as a deep groove ball bearing, has a bearing outer ring 2 , a bearing inner ring 3 , a multiplicity of rolling elements 4 arranged between the two bearing rings 2 , 3 , a seal 5 and a cover unit 6 . The rolling bodies 4 are designed here as balls and are held and guided by a bearing cage 7 .

The cover unit 6 is arranged in front of the seal 5 . That is, the seal 5 is arranged axially between the row of rolling elements 4 and the cover unit 6 . The seal 5 is a contact seal.

The cover unit 6 has three cover plates 8, 9, 10 which are spaced apart axially one behind the other. The cover plates 8, 9, 10 each have a circular arc shape. This means that these do not represent a closed ring shape, but each have an opening 11 on the circumference.

The two axially inner cover disks 8, 9 have the same angular orientation and each have a circular arc shape of 220°. This means that both cover discs 8, 9 have the same circular arc shape, in which the opening 11 is aligned in the same direction. The two axially inner cover disks 8, 9 cover the lower half of the roller bearing 1 in this embodiment. The orientation below and above is to be understood in terms of weight.

The axially outermost cover plate 10, on the other hand, is arranged diametrically opposite the two inner cover plates 8, 9. This means that the axially outermost cover disk 10 covers the upper half of the rolling bearing 1 . The axially outermost cover plate 10 also has a circular arc shape of 220°, so that the axially outermost cover plate 10 overlaps the two inner cover plates 8, 9 in the circumferential direction.

The axially outermost cover disk 10 is fastened to the bearing outer ring 2 and extends in the radial direction partially over the end face of the bearing inner ring 3 . Due to the convex shape of the groove 13, the liquid impinging on the cover plate 10 is discharged from the roller bearing 1 again, as in FIG 5 represented by arrows.

The cover disk 8 , which is arranged axially directly next to the seal 5 , is fastened to the bearing outer ring 2 . The middle cover plate 9, on the other hand, is arranged on the bearing inner ring 9 and has a bend axially outwards at its free end 14. Due to this arrangement and design of the cover plates 8, 9, the liquid impinging on the cover plate 9 cannot penetrate into the interior of the bearing, but is discharged from the roller bearing 1 again, as in FIG 6 represented by arrows.

After the upper half of the rolling bearing 1 is covered by the outermost cover disk 10 of the cover unit 6 and the middle cover disk 9 is attached to the bearing inner ring 3, so that liquid dripping from the outer cover disk 10 flows along the middle cover disk 9, liquids can penetrate be prevented in the bearing interior of the roller bearing 1 according to the invention. The innermost cover plate 8 serves as security that liquid spraying up cannot penetrate into the interior of the bearing. The course of the liquid is in the 7 shown.

In the 8th is the according 7 drawn sectional view shown. All three cover plates 8, 9, 10 of the cover unit 6 overlap here.

In the 9 is a schematically illustrated steering 15 of a tricycle 16 not shown here with two front wheels 17 in a front view, in which the two front wheels 17 of the motorized tricycle 16 are inclined. Tilting of the front wheels 17 takes place during cornering. The roller bearing 1 according to the invention during the inclined position of the front wheels 17 according to 9 is in the 10 shown. Here it can be seen that the middle cover disk 9 is also inclined by the angle of the inclined front wheels 17 . The two cover plates 8, 10 fastened to the bearing outer ring 2 retain their angular position. Accordingly, the area of the cover discs 8, 9, 10 that overlaps in the circumferential direction must be large enough, depending on the possible inclination of the front wheels 17 of the tricycle 16.

In the 11 the rolling bearing 1 is shown without inclination. In the 12 and 13 shows the inclination in the other direction. Accordingly, the middle cover plate 9 of the cover unit 6 is compared to 10 tilted in the other direction.

Reference List

1

roller bearing

2

bearing outer ring

3

bearing inner ring

4

rolling elements

5

poetry

6

cover unit

7

bearing cage

8th

axially innermost cover disc

9

axial center cover disc

10

axially outermost cover disc

11

opening

12

free end of the axially outermost cover disc

13

groove

14

free end of the middle cover plate

15

steering

16

tricycle

17

front wheel

Claims (8)

Rolling bearing (1), having a bearing outer ring (2), a bearing inner ring (3), a large number of rolling bodies (4) arranged between the two bearing rings (2, 3), and at least one seal (5) and a cover unit (6), which covers the end face of the roller bearing (1) on which the seal (5) is arranged, the cover unit (6) having a plurality of cover disks (8, 9, 10) and the cover disks (8, 9, 10) each not having a closed ring shape form, characterized in that the cover unit (6) has three axially staggered cover discs (8, 9, 10). Rolling bearing (1) according to claim 1 , characterized in that the cover discs (8, 9, 10) each have an arc of a circle, the sum of the angles of the cover discs (8, 9, 10) being more than 360°. Rolling bearing (1) according to claim 2 , characterized in that the two are located axially on the inside the cover discs (8, 9) have the same angular orientation. Rolling bearing (1) according to claim 3 , characterized in that the axially outermost cover plate (10) is rotated by 180 ° to the inner cover plates (8, 9) and the cover plates (8, 9, 10) overlap in the circumferential direction. Rolling bearing (1) according to one of claims 2 until 4 , characterized in that the axially outermost cover disk (10) is fastened to the bearing outer ring (2) and extends partially over the end face of the bearing inner ring (3), the cover disk (10) at the free end (12) having a circumferential surface to the bearing inner ring (3 ) towards convex groove (13). Rolling bearing (1) according to one of claims 2 until 5 , characterized in that the middle cover plate (9) is attached to the bearing inner ring (3) and has a bend outwards at its free end (14). Rolling bearing (1) according to one of claims 2 until 6 , characterized in that the axially innermost cover disc (8) is attached to the bearing outer ring (2). Rolling bearing (1) according to one of the preceding claims, characterized in that it is preferably designed as a ball bearing.

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