KR101961640B1 - A Seal For Rolling Bearing - Google Patents

Abstract

A bearing for a rolling bearing according to the present invention comprises an inner ring formed with an inner ring raceway extending in the circumferential direction and recessed in an outer raceway surface, an outer ring formed with an outer race raceway extending in the circumferential direction and recessed in the inner raceway surface, And a cage provided between the inner ring raceway and the outer ring raceway so as to maintain a circumferential gap between the inner ring and the outer ring raceway in the axial direction between the inner ring and the outer ring of the rolling bearing. A first sealing portion provided on at least one side of the opening portion opened to both sides and coupled to the outer ring, and a second sealing portion coupled to the inner ring; And a second sealing part rotating together with the inner ring between the first sealing part and the second sealing part to generate a flow to thereby prevent foreign matter from entering between the first sealing part and the second sealing part, And a seal for the rolling bearing.

Description

A Seal For Rolling Bearing

More particularly, the present invention relates to a seal for rolling bearings, and more particularly, to a seal for a rolling bearing, which is capable of preventing foreign matter from flowing into the opening through the opening by the dynamic sealing portion, when foreign matter is introduced into the opening between the first sealing portion and the second sealing portion, To a seal for a rolling bearing to be cut off.

1, a wheel bearing 10 provided with a conventional bearing seal 100 includes a hub 20, an outer ring 40, a rolling body 50, and an inner ring 30 do.

The hub 20 is coupled to a wheel (not shown). The hub (20) is provided with a flange (22) formed integrally with the wheel.

The outer ring 40 is formed to surround the outer circumferential surface of the hub 20 and the outer circumferential surface of the hub 20 and the inner circumferential surface of the outer ring 40 are spaced apart from each other.

A plurality of the rolling elements 50 are provided between the outer circumferential surface of the spaced hub 20 and the inner circumferential surface of the outer ring 40 to rotatably connect the hub 20 and the outer ring 40.

The inner ring 30 surrounds the outer circumferential surface of the hub at one end of the hub 20.

The bearing seal 100 provided in the bearing 10 is provided at both ends of a space in which the rolling member 50 is interposed. The bearing seal (100) prevents leakage of grease and penetration of foreign matter.

2, the bearing seal 100 includes a first sealing portion 120, a second sealing portion 110, and a sealing member 130.

The first sealing part 120 includes a first annular part 124 and a first support part 122. The first sealing part 120 is made of a metal.

The first annular portion 124 is formed in an annular shape.

The first support portion 122 is axially outwardly bent and extended at a radially outer end of the first annular portion 124. The first support portion 122 is formed in a cylindrical shape. The first support portion 122 is mounted on the inner surface of the outer ring 40 at the opening.

The second sealing portion 110 includes a second annular portion 114, a second inner support portion 112, and a second outer support portion 116.

The second annular portion 114 is formed in an annular shape. The second annular portion 114 is provided to face axially outwardly away from the first annular portion 124.

The second inner support 112 extends axially inwardly at a radially inner end of the second annular portion 112. The second inner supporting portion 112 is provided in contact with the outer diameter surface of the inner ring 30 at the opening.

The second outer support 116 extends axially inwardly at the radially outer end of the second annular portion 114. The second outer support 116 is spaced radially outwardly from the second inner support 112. The second pivotal support portion 116 is radially inwardly spaced from the second support portion 122.

The sealing member 130 is coupled to the first sealing part 120. The sealing member 130 is provided in the inner space 140 formed between the first sealing part 120 and the second sealing part 110. The sealing member 130 is provided to surround the radially inner side and the axial outer side of the first sealing portion 120.

The sealing member 130 is provided with a plurality of seal lugs spaced apart therefrom. The seal lip comprises a first lip 132, a second lip 134, and a third lip 136.

The first lip 132 is formed to be pressed on the radially outer surface of the second inner support portion 112. The second lip 134 is formed to be pressed onto the axial inner side surface of the second annular portion 114. The third lip 136 is formed to be pressed on the outer surface of the second outer support portion 116 between the second outer support portion 116 and the first support portion 122.

The conventional roller bearing seal 100 is provided such that the third lip 136 is pressed against the outer surface of the second outer support portion 116 between the first support portion 122 and the second outer support portion 116, There is a problem that the life of the bearing seal 100 is reduced due to friction.

Korean Patent Publication No. 10-2013-0053640 (Feb.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-described problems, and it is an object of the present invention to provide a dynamic sealing part in a second sealing part to discharge a foreign matter introduced into an opening part between a first sealing part and a second sealing part, It is an object of the present invention to provide a bearing seal.

A bearing for a rolling bearing according to the present invention comprises an inner ring formed with an inner ring raceway extending in the circumferential direction and recessed in an outer raceway surface, an outer ring formed with an outer race raceway extending in the circumferential direction and recessed in the inner raceway surface, And a cage provided between the inner ring raceway and the outer ring raceway so as to maintain a circumferential gap between the inner ring and the outer ring raceway in the axial direction between the inner ring and the outer ring of the rolling bearing. A first sealing portion provided on at least one side of the opening portion opened to both sides and coupled to the outer ring, and a second sealing portion coupled to the inner ring; And a second sealing part rotating together with the inner ring between the first sealing part and the second sealing part to generate a flow to thereby prevent foreign matter from entering between the first sealing part and the second sealing part, The seal for a rolling bearing is provided in a sealing part.

The first sealing portion may include a first supporting member formed of a first annular portion having an annular shape and a first supporting portion extending axially outward at a radially outer end of the first annular portion and being in contact with an inner diameter surface of the outer ring at an opening portion, And a sealing member coupled to the first support member and having at least one seal lip at an end thereof in contact with a second support member forming a second seal portion;

The second sealing portion includes an annular second annular portion axially outwardly spaced apart from the first annular portion and a second annular portion extending axially inward at a radially inner end of the second annular portion and abutting against an outer diameter surface of the inner ring at the opening portion And a second outer support extending axially inwardly at a radially outer end of the second annular portion and radially inwardly spaced from the first support portion;

Wherein the dynamic sealing portion is provided in the second outer support portion and is positioned between the second outer support portion and the first support portion in the radial direction; An inner side wall portion axially inwardly spaced from the second annular portion and extending radially outwardly from the bottom portion, and an inner side wall portion extending axially outward from the inner side wall portion; And a plurality of partition members extending and circumferentially spaced apart from each other.

In the above, the partition member is provided in the form of a projection extending radially outward from the bottom portion, and the radially inner end is coupled to the bottom portion.

In the above, a part of the axially outer end of the partition member is separated from the bottom part, and the separating part is formed at a part of the axially outer end.

In the above, the partition member is formed such that its circumferential thickness increases in a radially outward direction.

In this case, the partition wall member is formed in such a manner that the thickness of the partition wall member in the circumferential direction increases as it goes outward in the radial direction, and the thickness of the separating member is thinner than the unseparated portion.

Wherein the partition member is formed such that the thickness of the partition member decreases in the circumferential direction as the partition member moves away from the inner wall portion in the axial direction.

The seal for a rolling bearing according to the present invention is provided with a dynamic sealing portion in the second sealing portion so that the foreign matter introduced into the opening between the first sealing portion and the second sealing portion is discharged to the outside,

1 is a cross-sectional view schematically showing a wheel bearing equipped with a conventional bearing seal,
Fig. 2 is an enlarged sectional view of the rolling bearing chamber of the portion "A" in Fig. 1,
FIG. 3 is an enlarged cross-sectional view of a part of a rolling bearing having a roller bearing seal according to the present invention,
4 is a perspective view showing a part of a second sealing portion of a seal for rolling bearings according to the present invention,
5 is an enlarged perspective view of a dynamic sealing portion of a seal for a rolling bearing according to the present invention,
6 is a plan view showing a dynamic sealing portion of a seal for a rolling bearing according to the present invention,
7 is a plan view showing movement of a dynamic sealing portion of a seal for a rolling bearing according to the present invention.

Hereinafter, the seal 200 for a rolling bearing will be described in detail with reference to the accompanying drawings.

FIG. 3 is an enlarged cross-sectional view of a part of a rolling bearing having a roller bearing seal according to the present invention, FIG. 4 is a perspective view showing a part of a second sealing part of a rolling bearing seal according to the present invention, FIG. 6 is a plan view showing a dynamic sealing portion of a seal for a rolling bearing according to the present invention, and FIG. 7 is a plan view showing a seal for a rolling bearing according to the present invention, FIG. 5 is a plan view showing the movement of the dynamic sealing portion of FIG.

3, the transverse direction is referred to as "axial direction", the direction from the first annular portion 221-1 toward the second annular portion 211-5 is referred to as "axially outer", and the opposite direction is referred to as " Direction inner side ". The direction in which the longitudinal direction is set to the "radial direction" and the direction from the inner ring IR to the outer ring OR is defined as "radially outward" and the opposite direction is defined as "radially inward".

The rolling bearing equipped with the rolling bearing seal 200 according to the present invention comprises an inner ring IR, an outer ring OR, a rolling member, and a cage.

The inner ring IR is formed in a ring shape. On the outer surface of the inner ring IR, an inner ring raceway extending in the circumferential direction is formed inward in the radial direction.

The outer ring OR is formed in a ring shape. The outer ring OR is concentric with the inner ring IR. An inner ring surface of the outer ring OR is formed with an outer ring raceway extending radially outwardly in the circumferential direction.

The rolling elements are provided in plural. The rolling elements are spaced apart in the circumferential direction between the inner ring raceway and the outer ring raceway.

The cage is provided between the inner ring raceway and the outer ring raceway. The cage is provided to maintain the circumferential spacing of the rolling elements.

3, the seal 200 for a rolling bearing according to the present invention is provided in an opening which is open on both sides in the axial direction between the inner ring IR and the outer ring OR. The rolling bearing seal 200 comprises a first sealing part 220 and a second sealing part 210.

The first sealing part 220 is formed in an annular shape. The first sealing part 220 is provided in contact with the inner diameter surface of the outer ring OR. The first sealing part 220 includes a first supporting member 221 and a sealing member 223.

The first support member 221 is formed in an annular shape. The first support member 221 is made of a metal material. The first support member 221 includes a first annular portion 221-1 and a first support portion 221-3.

The first annular portion 221-1 is formed in an annular shape.

The first support portion 221-3 extends axially outward at the radially outer end of the first annular portion 221-1. The first support portion 221-3 is formed into a cylindrical shape which is opened in the axial direction. The outer diameter surface of the first support portion 221-3 is provided in contact with the inner diameter surface of the outer ring OR in the opening portion.

The sealing member 223 is provided between the first supporting member 221 and the second supporting member 211. The sealing member 223 is coupled to the first annular portion 221-1. The sealing member 223 is provided so as to surround an axially inner part, a radially inner side, and an axially outer side part of the first annular part 221-1. The sealing member 223 is provided with a plurality of seal lips. The seal lip is provided so that its end portion is in contact with the second support member 211 constituting the second sealing portion 210.

The seal lip is composed of a first seal lip 223-1 and a second seal lip 223-3.

The first seal lip 223-1 is provided in a plurality of such that the two branched end portions are in contact with the second inner support portion 211-1 of the second support member 211. [

The second seal lip 223-3 is provided in a plurality of such that the two branched end portions are in contact with the second annular portion 211-5 of the second support member 211. [

The second sealing portion 210 is formed in an annular shape. The second sealing part 210 is provided in contact with the outer diameter surface of the inner ring IR. The second sealing part 210 includes a second supporting member 211 and a dynamic sealing part 230.

The second support member 211 is formed in a 'C' shape having a cross section opened inward in the axial direction. The second support member 211 is made of a metal. The second support member 211 includes a second annular portion 211-5, a second inner support portion 211-1, and a second outer support portion 211-3.

The second annular portion 211-5 is formed in an annular shape. The second annular portion 211-5 is axially outwardly spaced from the first annular portion 221-1. The second annular portion 211-5 is provided to face the first annular portion 211-5.

The second inner support portion 211-1 extends axially inwardly at the radially inner end of the second annular portion 211-5. The second inner supporting portion 211-1 is formed into a cylindrical shape which is opened in the axial direction. The inner diameter surface of the second inner supporting portion 211-1 is provided in contact with the outer diameter surface of the inner ring IR at the opening. The second inner supporting portion 211-1 is provided to face the first supporting portion 221-3.

The second outer support portion 211-3 extends axially inwardly at the radially outer end of the second annular portion 211-5. The second outside support portion 211-3 is formed into a cylindrical shape which is opened in the axial direction. The axially inner end of the second outer support portion 211-3 is axially outwardly spaced from the first annular portion 221-1. The second outer support portion 211-3 is radially inwardly spaced from the first support portion 221-3. The second outside support portion 211-3 is provided to face the second inside support portion 211-1 and the first support portion 221-3.

As shown in FIGS. 4 to 7, the dynamic sealing portion 230 is provided on the second support member 211. The dynamic sealing portion 230 is provided on the second outside support portion 211-3. The dynamic sealing portion 230 is provided between the second outer support portion 211-3 and the first support portion 221-3 in the radial direction. The dynamic sealing part 230 is made of a rubber material.

The dynamic sealing portion 230 includes a bottom portion 232, an inner wall portion 231, and a partition wall member 233.

The bottom portion 232 is stacked on the outer surface of the second outer support portion 211-3. An extension 235 may be further provided at the axially outer end of the bottom 232.

The extension 235 extends radially inwardly from the axially outer end of the bottom 232. The extension portion 235 is formed to cover a part of the second annular portion 233-5 in the radial direction.

The inner wall portion 231 is axially spaced inwardly from the second annular portion 211-5. The inner wall portion 231 extends radially outward from the axially inner end of the bottom portion 232. The inner side wall portion 231 is formed in an annular shape along the circumferential direction of the second outer side support portion 211-3. The inner wall part 231 is radially inwardly spaced from the first support part 221-3.

The partition member 233 is formed to extend axially outward from the inner wall portion 231. The partition member 233 is provided in the form of a projection extending radially outward from the bottom portion 232. The radially inner end of the partition member 233 is engaged with the bottom portion 232. The plurality of partition members 233 are spaced from each other along the circumferential direction.

The partition member 233 is formed in such a shape that the thickness in the circumferential direction increases as it goes outward in the radial direction. The partition member 233 is formed in such a shape that the thickness in the circumferential direction decreases as it goes outward in the axial direction. The thickness of the partition member 233 in the circumferential direction is less than 1/3 of the radial height of the partition member 233.

The thickness of the partition wall member 233 in the circumferential direction is increased as it goes outward in the radial direction and the thickness in the circumferential direction is decreased as it goes outward in the axial direction. The foreign matter is guided toward the bottom 232 and prevented from flowing into the gap between the dynamic sealing part 230 and the first supporting part 221-3 so that foreign matter can be prevented from entering the gap between the partition 233 and the partition member 233 ) Is discharged.

A separating portion 233-11 is formed at a portion of the axial outer end of the partition member 233. The separator 233-11 is formed separately from the bottom 232. The separating part 233-11 is formed in an inclined shape in which a gap between the bottom part 232 and the radially inner end part increases axially outward. The height of the separating part 233-11 in the radial direction of the separating part 233-11 decreases toward the axially outer end.

The separator 233-11 moves in the circumferential direction when the bearing is driven, and the propeller effect is generated to prevent the foreign matter from being introduced.

The thickness of the separating portion 233-11 in the partition member 233 is thinner than the portion not separated. The separating part 233-11 is formed to be thinner than the part that is not separated so that the separating part 233-11 smoothly moves and turbulence is generated between the partitioning member 233 and the partitioning member 233, .

Although the seal for a rolling bearing according to the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the present invention is merely illustrative and that various modifications and equivalent other embodiments are possible for those skilled in the art. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

200: Seals for rolling bearings
210: second sealing portion 211: second supporting member
220: first sealing part 221: first supporting member
223: Sealing member 230: Dynamic sealing part
231: inner wall part 232: bottom part
233: partition wall member 235:

Claims (6)

An inner ring (IR) formed with an inner ring raceway extending in the circumferential direction and recessed in the outer raceway surface, an outer ring (OR) formed with an outer ring raceway extending in the circumferential direction concave on the inner raceway surface, A plurality of rolling elements provided along a circumferential direction of the rolling bearing and a cage provided between the inner ring raceway and the outer ring raceway to maintain a circumferential spacing of the rolling elements, And a second sealing part 210 provided on at least one side of the opening part opened to both sides in the axial direction between the inner ring and the inner ring IR and coupled to the inner ring IR and the first sealing part 220 coupled to the outer ring OR; When the inner ring IR rotates between the first and second sealing portions 220 and 210, the second sealing portion 210 rotates together to generate a flow, so that the first and second sealing portions 220 and 220 The second sealing part 210 is provided with a dynamic sealing part 230 for preventing foreign matter from entering between the two sealing parts 210;
The second sealing portion 210 includes an annular second annular portion 211-5 and a second annular portion 211-5 extending axially inward at a radially inner end of the second annular portion 211-5, A second inner supporting portion 211-1 provided in contact with an outer diameter surface and a second outer supporting portion 211-3 extending axially inward at a radially outer end of the second annular portion 211-5 ;
The dynamic sealing portion 230 is provided on the second outer support portion 211-3 and includes a bottom portion 232 laminated on the outer surface of the second outer support portion 211-3, An inner wall portion 231 axially inwardly spaced from the portion 211-5 and extending radially outwardly from the bottom portion 232 and a radially outwardly extending portion 231 extending axially outward from the inner wall portion 231 and spaced apart from each other in the circumferential direction And a plurality of partition wall members 233 which are formed to be in contact with one another;
The partition wall member 233 is provided in the form of a projection extending radially outward from the bottom portion 232 and has a radially inner end coupled to the bottom portion 232 and a portion of the axially outer end portion extending from the bottom portion 232 And a separating portion (233-11) is formed at a part of the axially outer end portion. 3. The apparatus of claim 1, wherein the first sealing portion (220) extends axially outward at a radially outer end of the annular first annular portion (221-1) and the first annular portion (221-1) A first support member 221 formed of a first support portion 221-3 provided in contact with the inner surface of the outer ring OR and a second support member 221-2 coupled to the first support member 221, And a sealing member (223) having at least one seal lip in contact with the second support member (211) constituting the second support member (211).
The second sealing part 210 includes an annular second annular part 211-5 spaced axially outwardly from the first annular part 221-1 and a second annular part 211-5 spaced apart from the first annular part 221-1 axially outwardly, A second inner supporting portion 211-1 extending axially inward at a radially inner end of the second annular portion 211-5 and being in contact with an outer diameter surface of the inner ring IR at the opening portion, And a second outer support portion 211-3 extending axially inwardly and spaced radially inwardly from the first support portion 221-3;
Wherein the dynamic sealing portion (230) is positioned between the second outer support portion (211-3) and the first support portion (221-3) in the radial direction. delete delete The seal for a rolling bearing according to claim 1, wherein the partition member (233) is formed such that its thickness increases in the circumferential direction toward the radially outward direction. The separator according to claim 1, wherein the partition member (233) is formed to increase its thickness in the circumferential direction as it goes outward in the radial direction, and the thickness of the separator (233-11) Seals for rolling bearings.

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