DE102021127505A1 - Seal for a bearing and bearing assembly with the seal - Google Patents

Abstract

The present invention relates to a disc-shaped seal (01) for sealing a space (06) between a radially outer machine element (02) and a radially inner machine element (03), which are arranged around a common axis of rotation. In its radial extent, the seal (01) has a meandering profile cross-section, which is formed by radially running webs (11) and axially running contact surfaces (12) connecting them. The contact surfaces (12) are arranged alternately on opposite radial sides of the seal (01). Spaces (13) lying parallel to one another are formed between the webs (11). A first space (13) is open on its radially outer side and a second space (13) adjacent to the first space (13) is open on its radially inner side. The invention also relates to a bearing arrangement with such a seal (01).

Description

field of invention

The present invention relates to a disc-shaped seal for a bearing, in particular for roller bearings. The invention also relates to a bearing arrangement with such a seal.

Background of the Invention

Seals have an important function in rolling bearings, especially ball bearings, to protect them from environmental influences.

In the DE 10 2011 077 729 A1 a roller bearing seal with an elastomer-based pre-seal is described. The sealing arrangement used there is in particular a cartridge seal with a carrier ring with at least one sealing lip and a cover ring. The sealing lip forms a constantly rubbing sealing contact on the cover ring. Furthermore, the elastic part arranged on a radially oriented support ring part has an axial projection which at least partially covers a radial end piece of the cover ring. The overhang partly takes over the sealing function.

The DE 10 2010 015 200 A1 describes a cassette seal with a sealing disk and a flinger disk, both of which are L-shaped. The sealing disk has at least one elastic sealing lip that is in contact with the centrifugal disk. Furthermore, the axial profile leg of the centrifugal disk, which is fixedly arranged on a bearing ring, is fastened with an additional stabilizing ring.

Seals for roller bearings are known which have a number of chambers formed by sealing lips. The chambers serve to keep away contamination caused by external influences. The impurities can be formed by water and/or dust, for example, and would lead to wear and premature aging of the bearing if it came into contact with the rolling element and the raceway.

Known seals with sealing lips show increased wear of the sealing lips, which are in sealing contact with the bearing components, due to friction. This impairs the sealing function, which can lead to contamination of the rolling elements and the raceway. Noises can also occur.

object of the invention

Based on the prior art, the object of the present invention is to provide a seal which enables improved sealing against contamination of a bearing and reduces signs of wear. A further object of the invention is to provide a bearing assembly with this seal.

Description of the invention

According to the invention, the object is achieved by a seal according to appended claim 1 and by a bearing arrangement according to appended claim 5.

The seal according to the invention serves to seal off a space from a medium. The space is spanned between a radially outer machine element and a radially inner machine element. The two machine elements can be rotated about a common axis of rotation, with a rolling body being located between the machine elements. The machine elements are preferably formed by an inner ring and an outer ring of a roller bearing.

The seal is disk-shaped and has a meandering profile cross-section, the main direction of extension of the profile cross-section being radial, ie the extension of the radial sealing parts is greater than the extension of the axially running sealing parts of the seal. The radial sealing parts or webs of the seal are parallel to one another. Spaces are formed between the radially running webs or sealing parts of the seal. The at least two intermediate spaces run essentially parallel to one another and extend predominantly in the radial direction. A first space is open to its radially outer side and a second space adjacent to the first space is open to its radially inner side. The axially running component of the seal forms a contact surface, which is formed alternately on radially opposite radial sides of the seal and which connects the webs, so that the meandering structure of the seal is created. The contact surfaces can be placed tightly against the two machine elements.

If, in an advantageous embodiment, the seal has more than two intermediate spaces and thus more than three radially extending webs and more than two axially extending contact surfaces, it should be noted that the alignment of the intermediate spaces to the machine elements and thus also the position of the contact surfaces alternate.

Advantageously, the meandering shape of the seal with the gaps formed provides spaces for collecting possible contaminants that are caused by external environmental influences, but also by internal influences (for example abrasion). Thus, contamination of the interior of a bearing can be prevented and wear can be reduced.

It has been found that the structure of the seal according to the invention enables simple and reliable installation. Seals with internal sealing lips can be damaged when installed in a warehouse. The seal according to the invention does not have any internal sealing lips, so that the seal cannot be damaged when it is installed in a bearing and the seal is generally more robust.

Furthermore, the seal according to the invention has the advantage that due to the wide contact surfaces, compared to sealing lips, better sealing against environmental influences is made possible, with the gaps also supporting the tightness.

One of the two axially outer webs, preferably the web which is furthest away from the space to be sealed, is angled in one embodiment. In particular, the radially outer section of the axially outer web is angled so that the angled section can come to rest against the outer machine element in a sealing manner. Alternatively, the radially inner section of the axially outer web can be angled, so that the angled section can be placed against the inner machine element in a sealing manner.

Preferably, the angled section of the axially outer web is tapered and formed as a sealing lip.

The seal is preferably made of an elastomer. Most preferably, the seal is made from an ethylene propylene diene rubber, which is more resistant to wear due to friction than other elastomers. The seal is preferably made in one piece.

In one embodiment, the seal has four radially extending webs with four contact surfaces and three gaps. Other embodiments with multiple webs and correspondingly multiple contact surfaces and spaces are conceivable and not excluded.

For a tight seal seat, the seal has a reinforcement on its axially inner web. When the seal is installed in a bearing, the axially inner web is located closest to the space to be sealed. The reinforcement can be a thickening with the material of the seal or an additional reinforcement made of an elastomer or metal.

At least one radially extending web of the seal is preferably angled, with the angle being less than 90°. This structure makes the seal more flexible. Embossing the side surfaces of the webs is also conceivable in order to ensure flexibility or rigidity of the seal, depending on the embodiment.

The bearing arrangement according to the invention comprises a disk-shaped seal according to the seal described above, which in particular has a meandering profile cross-section. Furthermore, the bearing arrangement comprises a machine element lying radially on the outside and a machine element lying radially on the inside, which are arranged coaxially around a common axis of rotation. Rolling bodies are arranged between the two machine elements and move on a track formed on the machine elements during operation. The seal lies coaxially between the two machine elements and serves to seal a space between the two machine elements so that it is protected from environmental influences.

The machine element lying on the outside is preferably an outer bearing ring and the machine element lying on the inside is preferably an inner bearing ring.

At least one first contact surface of the seal is in sealing contact with the outer machine element and at least one second contact surface of the seal is in sealing contact with the inner machine element.

Preferably, the bearing assembly includes a flinger which supports the seal and protects the bearing assembly. The flinger preferably has an L-shaped cross-section with a radially oriented leg and an axially oriented leg. The centrifugal disc is arranged with its axially aligned leg at least partially between one of the two machine elements and the seal. In particular between a contact surface of the seal and a machine element. The radially oriented leg of the flinger preferably lies against the axially outer web of the seal, which is furthest away from the space to be sealed.

The centrifugal disk is preferably fastened to the machine element in a rotationally fixed manner. The seal is preferably arranged in a rotationally fixed manner on one of the two machine elements and rests against the other machine element.

In one embodiment, the gaps in the seal, each of which is closed by a machine element on its open side, can be filled with a medium such as oil or a gas.

At least one machine element preferably has a groove in which a radial section of a web of the seal can come to rest, so that the seal is prevented from slipping relative to the machine element. The outer machine element preferably has a groove on its radially inner surface, which runs along the inner circumference. The seal rests in the groove with a radially outer section of the web. In this case, the web is preferably that web which is axially closest to the space to be sealed. Alternatively, the inner machine element can have a groove on its radially outer surface, which runs along the outer circumference. The seal rests in the groove with a radially inner section of the web. In this case, the web is preferably that web which is axially closest to the space to be sealed.

An advantage of the bearing arrangement according to the invention is that it is protected from external environmental influences and as a result shows fewer signs of wear and aging.

character list

• 1 eine Schnittansicht einer erfindungsgemäßen Lageranordnung;
• 2 eine perspektivische Ansicht einer erfindungsgemäßen scheibenförmigen Dichtung.

Further details, advantages and developments of the invention result from the following description of a preferred embodiment of the invention, with reference to the drawing. show:

• 1 a sectional view of a bearing arrangement according to the invention;
• 2 a perspective view of a disc-shaped seal according to the invention.

Detailed description of the drawings

1 shows a sectional view of a bearing arrangement according to the invention with a disc-shaped seal 01 according to the invention. The bearing arrangement also comprises an outer bearing ring 02 and an inner bearing ring 03 located coaxially thereto, as well as rolling elements 04, which are arranged between the two bearing rings 02, 03, so that the two bearing rings 02, 03 are in relation to one another are rotatable.

The bearing arrangement has two axially opposite seals 01, which seal a space 06 between the two bearing rings 02, 03, in particular against environmental influences. The bearing arrangement also includes two opposing centrifugal discs 07. The centrifugal discs 07 are L-shaped, with a radially aligned leg 08 resting axially on the outside of a seal 01 and supporting it, and with an axially aligned leg 09 between the inner bearing ring 03 and each a seal 01 is arranged. The axially aligned leg 09 is attached to the inner bearing ring 03 in a rotationally fixed manner.

The seal 01 has a meandering profile cross section. The seal 01 mainly extends in the radial direction. The meandering structure is formed by radially aligned webs 11 and axially aligned contact surfaces 12, with the seal 01 preferably being formed in one piece. Spaces 13 are formed between the radially running webs 11 . The embodiment of the bearing arrangement shown has four webs 11, four contact surfaces 12 and three spaces 13 on each seal 01. Three webs 11 extend radially in a straight line and a further web 11 is angled in its radial extent, the angle being less than 90°.

The axially outer web 11 of the seal 01 has an angled sealing lip 14 on its axially outer circumference, which comes to rest against the outer bearing ring 02 in a sealing manner. The axially inner web 11 of the seal 01 has a reinforcement 16 on its axially outer circumference, e.g. B. in the form of a metallic reinforcement. The reinforcement 16 lies in a circumferential groove 17 of the outer bearing ring 02, so that the seal 01 is prevented from slipping. To accommodate and guide the rolling elements 04, the bearing arrangement also includes a rolling element cage 18.

2 shows the disc-shaped seal 01 according to the invention in a non-installed state. Seal 01 is the same as in 1 described seal 01.

Reference List

01

poetry

02

outer bearing ring

03

inner bearing ring

04

rolling elements

05

-

06

Space

07

centrifugal disc

08

radial leg of the centrifugal disc 07

09

axial leg of the centrifugal disc 07

10

-

11

web

12

contact surface

13

space

14

sealing lip

15

-

16

reinforcement

17

groove

18

rolling element cage

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 102011077729 A1 [0003]
• DE 102010015200 A1 [0004]

Claims (10)

Disc-shaped seal (01) for sealing a space (06) between a radially outer machine element (02) and a radially inner machine element (03), which are arranged around a common axis of rotation, the seal (01) having a radius and an axis orthogonal thereto characterized in that the seal (01) has a meandering profile cross-section in its radial extension, which is formed by radially extending webs (11) and axially extending contact surfaces (12) connecting them, the contact surfaces (12) alternating on opposite radial sides of the seal (01), and parallel spaces (13) are formed between the webs (11), a first space (13) being open on its radially outer side and one adjacent to the first space (13). second intermediate space (13) is open on its radially inner side. Gasket (01) after claim 1 , characterized in that a section of the axially outer web (11) is angled in order to come to rest on one of the two machine elements (02; 03) in a sealing manner. Gasket (01) after claim 2 , characterized in that the section of the axially outer web (11), which is angled, forms a sealing lip (14). Gasket (01) according to one of Claims 1 until 3 , characterized in that the seal (01) consists of an elastomer, in particular an ethylene-propylene-diene rubber. Bearing arrangement with a meandering seal (01) according to claims 1 until 4 , further comprising a radially outer machine element (02) and a radially inner machine element (03), which are arranged around a common axis of rotation and between which rolling elements (04) are arranged, the seal (01) for sealing a space (06) between the machine elements (02, 03) is used. bearing arrangement claim 5 , characterized in that the seal (01) comes into sealing contact with at least one first contact surface (12) on the outer machine element (02) and with at least one second contact surface (12) on the inner machine element (03). Bearing arrangement according to one of Claims 5 or 6 , characterized in that the bearing arrangement comprises a slinger (07) with L-shaped cross-section for supporting the seal (01). bearing arrangement claim 7 , characterized in that an axially aligned leg (09) of the centrifugal disc (07) lies at least partially between the seal (01) and one of the two machine elements (02; 03) and that a radially aligned leg (08) of the centrifugal disc (07) rests axially on the outside against a web (11) of the seal (01). Bearing arrangement according to one of Claims 5 until 8th , characterized in that it has two mutually parallel seals (01). Bearing arrangement according to one of Claims 5 until 9 , characterized in that a radial section of a web (11) lies in a groove (17) which is formed on a machine element (02; 03).

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