IT202300008049A1 - SPHERICAL ROLLER BEARING WITH A FIRST SEAL COMPRISING AT LEAST THREE SEALING LIPS - Google Patents

Description

Description accompanying a patent application for industrial invention entitled: SPHERICAL ROLLER BEARING WITH A FIRST SEAL COMPRISING AT LEAST THREE SEALING LIPS

DESCRIPTION

The invention relates to a spherical roller bearing with a first seal.

US 2003/0063824 Al describes a spherical roller bearing with a seal on one axial side, which comprises several sealing lips. The seal seals a space between an inner ring and an outer ring of the spherical roller bearing. Some of the sealing lips rest against a tapered surface of an inner ring of the bearing.

Utility model CN 203477089 U discloses a ball bearing with a seal on one axial side, which comprises three sealing lips. The sealing lips have a curvature in an axial section.

Utility model CN 207111726 U describes a ball bearing with a seal with three sealing lips on each axial side.

The problem of the invention is in particular to provide a spherical roller bearing with a seal which effectively seals against heavy contamination and which has a cost-effective design. The problem is solved according to the invention by the features of claim 1, by the features of claim 2 and by the features of claim 3, while advantageous embodiments and further embodiments of the invention may be taken from the dependent claims.

The invention proceeds from a spherical roller bearing with a first seal, which is located at a first axial end of the spherical roller bearing and seals a space between an inner ring and an outer ring of the spherical roller bearing and which comprises at least three sealing lips.

It is proposed that the at least three sealing lips rest against a surface of the spherical roller bearing, which is essentially in the form of a cylindrical sleeve, and each of the at least three sealing lips is bent in an axial direction of the spherical roller bearing away from a center of mass of the spherical roller bearing and in a radial direction of the spherical roller bearing away from the center of mass relative to a state where only gravity acts on the first seal. Thus, a spherical roller bearing with a seal, which effectively seals against heavy contamination and which has a cost-effective design, can be surprisingly provided. In particular, effectively sealing against heavy contamination can be achieved when the inner ring or the outer ring performs movements during self-alignment of the bearing. In particular, surprisingly, an enhanced bearing service life can be achieved.

In particular, the surface is part of the inner ring.

Furthermore, a spherical roller bearing is suggested, in particular as described above, with a first seal, which is located at a first axial end of the spherical roller bearing and seals a space between an inner ring and an outer ring of the spherical roller bearing and which comprises at least three sealing lips, wherein the at least three sealing lips rest against a surface of the spherical roller bearing, which is essentially in the form of a cylindrical liner, and each of the at least three sealing lips is bent in an axial direction of the spherical roller bearing away from a center of mass of the spherical roller bearing and in a radial direction of the spherical roller bearing toward the center of mass relative to a state where only gravity acts on the first seal. Thus surprisingly, a spherical roller bearing can be provided with a seal, which effectively seals against heavy contamination and which has a cost-effective design. In particular, surprisingly effective sealing against heavy contamination can be achieved when the inner ring or outer ring moves during self-alignment of the bearing. In particular, surprisingly improved bearing service life can be achieved.

In particular, the surface is part of the outer ring.

Furthermore, a spherical roller bearing is suggested, in particular as described above, with a first seal, which is located at a first axial end of the spherical roller bearing and seals a space between an inner ring and an outer ring of the spherical roller bearing and which comprises at least three sealing lips, wherein an elastomeric element of the first seal comprises only such sealing lips, which seal against a surface portion of the spherical roller bearing, which is located inward in an axial direction of the spherical roller bearing relative to the respective sealing lip, and each of the at least three sealing lips is bent in an axial direction of the spherical roller bearing away from a center of mass of the spherical roller bearing and in a radial direction of the spherical roller bearing away from the center of mass relative to a state where only gravity acts on the first seal. Thus surprisingly it can be provided with a spherical roller bearing with a seal, which effectively seals against heavy contamination and which has a cost-effective design. In particular, surprisingly effective sealing against heavy contamination can be achieved when the inner ring or the outer ring performs movements during self-alignment of the bearing. In particular, surprisingly improved bearing service life can be achieved.

Advantageously, the first seal comprises at least one metal sheet, through which a locking fastening of the first seal is achieved at the outer ring or the inner ring. Thus, a simple assembly can be achieved.

Advantageously, the first seal consists of a one-piece elastomeric element. The term "one-piece" is to be understood in particular in the sense that it is produced in a single injection molding process. Through this, simple manufacturability of the seal can be achieved.

Advantageously at least one of the sealing lips consists of alkyl acrylate copolymer or hydrogenated nitrile butadiene rubber. Thus, compliance with the hygiene regulations for food contact of the seal can be achieved.

In particular, at least one of the sealing lips may consist of nitrile butadiene rubber.

Furthermore, it is suggested that a first of the at least three sealing lips, which is closer to the first axial end than a second of the at least three sealing lips, is longer than the second sealing lip. Through this, good compensation of self-aligning movements of spherical roller bearing parts through the first and second sealing lips can be achieved.

Advantageously, the second sealing lip is closer to the first axial end than a third sealing lip of the at least three sealing lips and longer than the third sealing lip. Through this, good compensation of self-aligning movements of spherical roller bearing parts via the second and third sealing lips can be achieved.

Advantageously, the first seal is fixed to an inner side of the outer ring. Therefore, no adjustment of a fixing to a housing is necessary.

Furthermore, it is suggested that the spherical roller bearing includes a second seal, which is located at a second axial end of the spherical roller bearing and which is identical in construction to the first seal. Through this, further cost savings can be achieved.

Further advantages can be seen in the following description of the drawings. Examples of embodiments of the invention are shown in the drawings. The drawings, the description and the claims contain numerous features in combination. The skilled person will appropriately consider the features also individually and combine them to form further useful combinations.

Figure 1 shows an axial half-section through a spherical roller bearing according to the invention, and

Figure 2 shows a part of a section through a further spherical roller bearing according to the invention.

Figure 1 shows a half-section of a spherical roller bearing, which comprises an inner ring 14, an outer ring 16, a first row of rolling elements 44 and a second row of rolling elements 46. During a drive of the spherical roller bearing, the inner ring 14 and the outer ring 16 can rotate relative to each other and the rolling elements 44, 46 move relative to the inner ring and the outer ring. A first seal 10 of the spherical roller bearing is located at the first axial end 12 of the spherical roller bearing and seals a space 11 between the inner ring and the outer ring. The seal 10 comprises three sealing lips 18, 20, 22 which rest against a surface 24 of the inner ring 14. The surface 24 has the shape of a cylindrical sleeve and can be used as a seal. thus be machined easily and very cost-efficiently. Each of the individual sealing lips 18, 20, 22 is bent in an axial direction 26 of the spherical roller bearing away from a center of mass 28 of the spherical roller bearing and in a radial direction 30 of the spherical roller bearing away from the center of mass of the spherical roller bearing relative to a state in which only gravity acts on the first seal. Each of the sealing lips is bent along its full longitudinal extent relative to the state.

The sealing lips 18, 20, 22 are the only sealing lips of an elastomeric element 31 of the first seal 10. The sealing lip 18 seals against a surface part 32. In this way the surface part 32 is located inward in a radial direction 38 of the spherical roller bearing relative to the sealing lip 18. The sealing lip 20 seals against a surface part 34. As far as the surface part 34 is located inward in a radial direction 38 of the spherical roller bearing relative to the sealing lip 20. The sealing lip 22 seals against a surface part 36. In this way the surface part 36 is located inward in a radial direction 38 of the spherical roller bearing relative to the sealing lip 22. All surface parts 32, 34, 36 are part of the surface 24.

The first seal 10 consists of the elastomeric element 31 and a metal sheet 37. The elastomeric element 31 is one piece. It was produced in a single injection molding process. In particular, the elastomeric element 31 may consist of alkyl acrylate copolymer or hydrogenated nitrile butadiene rubber or nitrile butadiene rubber. Furthermore, the elastomeric element 31 is attached to the metal sheet 37 of the seal 10 by vulcanization. The metal sheet is attached at an inner side of the outer ring 16 in a locking manner. For this purpose, a radial outer circumference of the metal sheet is snapped into a groove 48 on the radially inner side of the outer ring 16. The radial outer circumference of the metal sheet has a shape of a circle. An annular-shaped area 50 of the elastomeric element 31 rests against the outer ring 16 and thereby seals an intermediate space between the metal sheet and the outer ring.

The sealing lip 18 is closer to the first axial end 12 than the sealing lip 20 and is longer than the sealing lip 20. The sealing lip 20 is closer to the first axial end 12 than the sealing lip 22 and is longer than the sealing lip 22. If at some point in the self-aligning spherical roller bearing the inner ring performs a movement, which resembles in the view of figure 1 a clockwise rotation about an axis, which intersects the center of mass 28 and is perpendicular to the axial direction 26, the sealing lips 18, 20, 22 can adjust to the new position of the inner ring in an optimal way, since the surface part 32 moves a longer distance from its original place than the surface part 36.

At a second axial end 42 of the spherical roller bearing, the spherical roller bearing includes a second seal 40, which is identical in construction to the first seal 10. It seals a further space between the inner ring and the outer ring.

Spherical roller bearing provides excellent sealing performance under highly contaminated application conditions, such as muddy environments, with exceptional misalignment capability. In addition, spherical roller bearings have misalignment capability that enhances bearing fatigue life compared to other bearing solutions.

In an alternative embodiment the metal sheet is larger. In this case an axial outer side of the elastomeric element 31 with the exception of the sealing lip 18 is burned into the metal sheet.

Figure 2 shows an alternative embodiment. Essentially identical components, features and functions are essentially numbered with the same reference numerals. However, the letter "a" has been added to the reference numerals of the embodiments in Figure 2 to distinguish them. The following description is essentially limited to the differences from the embodiment in Figure 1, so reference may be made to the description of the embodiment in Figure 1 with respect to components, features and functions which remain the same.

Figure 2 shows a portion of a section through an alternative embodiment of a spherical roller bearing according to the invention. A first seal 10a, which is located at a first axial end 12a of the spherical roller bearing, seals a space 11a between an inner ring 14a and an outer ring 16a of the spherical roller bearing. The seal 10a comprises three sealing lips 18a, 20a, 22a, which abut against a surface 24a of the spherical roller bearing, which is in the form of a cylindrical sleeve. Each of the three sealing lips is bent in an axial direction 26a of the spherical roller bearing away from a center of mass (not shown) of the spherical roller bearing and in a radial direction 30a of the spherical roller bearing toward the center of mass relative to a state in which only gravity acts on the first seal.

Claims (10)

1. Spherical roller bearing with a first seal (10), which is located at a first axial end (12) of the spherical roller bearing and seals a space (11) between an inner ring (14) and an outer ring (16) of the spherical roller bearing and which comprises at least three sealing lips (18, 20, 22), characterized by the fact that the at least three sealing lips rest against a surface (24) of the spherical roller bearing, which is essentially in the shape of a cylindrical sleeve, and each of the at least three sealing lips is bent in an axial direction (26) of the spherical roller bearing away from a center of mass (28) of the spherical roller bearing and in a radial direction (30) of the spherical roller bearing away from the center of mass relative to a state where only gravity acts on the first seal. 2. Spherical roller bearing, in particular according to claim 1, with a first seal (10a), which is located at a first axial end (12a) of the spherical roller bearing and seals a space (11a) between an inner ring (14a) and an outer ring (16a) of the spherical roller bearing and which comprises at least three sealing lips (18a, 20a, 22a), characterized by the fact that the at least three sealing lips rest against a surface (24a) of the spherical roller bearing, which is essentially in the form of a cylindrical sleeve, and each of the at least three sealing lips is bent in an axial direction (26a) of the spherical roller bearing away from a center of mass of the spherical roller bearing and in a radial direction (30a) of the spherical roller bearing toward the center of mass relative to a state where only gravity acts on the first seal. 3. Spherical roller bearing, in particular according to claim 1 or claim 2, with a first seal (10), which is located at a first axial end (12) of the spherical roller bearing and seals a space (11) between an inner ring (14) and an outer ring (16) of the spherical roller bearing and which comprises at least three sealing lips (18, 20, 22), characterized by the fact that an elastomeric element (31) of the first seal comprises only such sealing lips (18, 20, 22), which seal against a surface portion (32, 34, 36) of the spherical roller bearing, which is located inwardly in a radial direction (38) of the spherical roller bearing relative to the respective sealing lip, and each of the at least three sealing lips is bent in an axial direction (26) of the spherical roller bearing away from a center of mass (28) of the spherical roller bearing and in a radial direction (30) of the spherical roller bearing away from the center of mass relative to a state where only gravity acts on the first seal. 4. Spherical roller bearing according to at least one of claims 1 to 3, characterized by the fact that the first seal comprises at least one metal sheet (37), through which a locking fastening of the first seal is created in correspondence with the outer ring (16) or the inner ring (14). 5. Spherical roller bearing according to at least one of claims 1 to 4, characterized by the fact that The first seal consists of a one-piece elastomeric element (31) and a metal sheet (37). 6. Spherical roller bearing according to at least one of claims 1 to 5, characterized by the fact that at least one of the sealing lips (18, 20, 22) consists of an alkyl acrylate copolymer or a hydrogenated nitrile butadiene rubber or a nitrile butadiene rubber. 7. Spherical roller bearing according to at least one of claims 1 to 6, characterized by the fact that a first of the at least three sealing lips (18, 20, 22), which is closer to the first axial end (12) than a second of the at least three sealing lips, is longer than the second sealing lip (20). 8. Spherical roller bearing according to at least claim 7, characterised in that the second sealing lip (20) is closer to the first axial end (12) than a third sealing lip (22) of the at least three sealing lips and longer than the third sealing lip. 9. Spherical roller bearing according to at least one of claims 1 to 8, characterized by the fact that The first seal is fixed at an inner side of the outer ring (16). 10. Spherical roller bearing according to at least one of claims 1 to 9, characterized by the fact that The spherical roller bearing includes a second seal (40), which is located at a second axial end (42) of the spherical roller bearing and which is identical in construction to the first seal (10).