DE102015210017A1 - camp - Google Patents

Abstract

The present invention discloses a bearing comprising outer ring, inner ring, a plurality of rolling elements located between inner ring and outer ring, and a sealing structure located at both axial ends of the bearing, the sealing structure comprising a first ring piece fixed to the inner ring, a second ring piece fixed to the outer ring, and a second ring piece arranged on the second ring piece seal, wherein between the first ring piece and the second ring piece, a gap is formed, wherein the seal on the second Axialausläufer in the gap protruding a plurality of first projections, wherein the plurality of first projections are axially spaced apart, whereby between the second Axial foothills and first Axialausläufer a labyrinth seal is formed; wherein the seal on the second radial runner projects into the gap projecting a plurality of second projections, wherein the plurality of second projections are distributed radially spaced, whereby between the second radial runner and first radial runner a labyrinth seal is formed, thus a labyrinth seal structure is further arranged in the gap, so that a better sealing effect can be realized.

Description

Technical area

The present invention relates to the technical field of bearings, in particular relates to a bearing having a sealing structure.

State of the art

As in 1 and 2 illustrated, conventional bearings include an outer ring 1 , an inner ring 2 , between the outer and inner ring recorded several rolling elements 3 and one on both axial sides of the bearing 1 acting as a seal sealing mechanism 4 , The sealing mechanism 4 includes a on the outer surface of the inner ring 2 attached pickup piece 41 , one on the inner surface of the outer ring 2 fixed support 42 and one with the support 42 Connected seal 43 , The recording piece 41 includes an axially along the outer surface of the inner ring 2 attached first axial runners 411 , a radially outside of the first Axialausläufers 411 located and the first Axialausläufer 411 at a distance arranged second Axialausläufer 412 as well as the first axial tail 411 and second axial tail 412 connecting radial foothills 413 , First axial tail 411 second axial tail 412 and radial foothills 413 are about a receiving cavity open in the direction of the bearing interior 44 arranged around. The seal 43 extends partially to the receiving cavity 44 Specifically, it includes one in the direction of the first axial tail 411 extending first sealing lip 431 as well as in the direction of the second Axialausläufers 412 extending second sealing lip 432 , thereby touching first sealing lip 431 and first axial tail 411 mutually, whereby a contact seal is formed, and exists between the second sealing lip 432 and second axial tail 412 a radial clearance, whereby a gap seal is formed. In addition, the seal includes 43 furthermore an axially extending third sealing lip 433 , wherein the third sealing lip 433 outside the receiving cavity 44 is arranged, specifically, it is located radially outside of the second Axialausläufers 412 and forms with the second axial tail 412 a gap seal.

During the use process, dirty water, dirt or contamination particles can be easily removed from the outside by the clearance between the third sealing lip 433 and second axial tail 412 in the receiving cavity 44 and can not be easily removed during the movement process of the bearing; At the same time, lubricating oil from inside the bearing can also easily enter the receiving cavity 44 penetrate and so easily lead to premature failure of the seal 43 to lead. Therefore, a bearing with a novel sealing structure must be provided to solve the problems described above.

Subject of the invention

The problem solution of the present invention is to provide a bearing with excellent sealing effect.

To solve the problems described above, the present invention uses the following technical concept: A bearing, the outer ring, inner ring, located between the inner ring and outer ring multiple rolling bodies and located at the two axial ends of the bearing sealing structure, wherein the sealing structure a on Inner ring fixed first ring piece, a second ring piece attached to the outer ring and arranged on the second ring piece seal, wherein the first ring piece comprises an axially extending first Axialausläufer and a radially extending from a bearing side of the first Axialausläufers first radial tail, wherein the second annular piece comprises an axially extending second Axialausläufer and a radially extending from one of the bearing interior side of the second Axialausläufers second Radialausläufer, the second Axialausläufer is rad ial outside the first Axialausläufers, the second Radialausläufer is axially within the first Radialausläufers, wherein between the first ring piece and the second ring piece, a gap is formed, the seal forms on the second Axialausläufer in the gap protruding a plurality of first projections, the plurality of first projections are axially distributed at a distance, whereby a labyrinth seal is formed between the second Axialausläufer and the first Axialausläufer; the seal forms on the second Radialausläufer in the gap projecting a plurality of second projections, the plurality of second projections are distributed radially at a distance, whereby a labyrinth seal is formed between the second Radialausläufer and the first Radialausläufer.

To further improve the invention, the seal forms with the end piece of the first axial runner a first tapered opening connecting the bearing interior with the gap; and the seal forms, with the end portion of the first radial runner, a second tapered opening connecting the gap with the exterior space.

In order to further improve the invention, the seal is a first sealing lip extending on the end piece of the second axial extension in the direction of the bearing interior, is a first curved one on the end piece of the first axial extension Attached portion and is formed between the first sealing lip and the first curved portion, the first tapered opening.

To further improve the invention, the seal is a second sealing lip extending on the second radial extension in the direction of the outer space, this second sealing lip being located radially outside the end piece of the first radial runner, the second between the second sealing lip and the end piece of the first radial runner tapered opening formed.

To further improve the invention, the plurality of second projections adjacent the second sealing lip contact each other with the first radial projection.

To further improve the invention, a second curved portion extending obliquely in the direction of the outer space is attached to the end portion of the first radial projection, and the second tapered opening is formed between the second sealing lip and the second curved portion.

To further improve the invention, the first projections extend obliquely in the direction of the bearing interior and the second projections extend obliquely in the direction of the outer ring.

To further improve the invention, a recess is formed at the juncture of the first axial runner and the first radial runner, this recess being part of the gap, and the seal comprises a third seal lip located between the first projections and the second projections, wherein the third sealing lip and the surface of the recess touch each other.

To further improve the invention, the surface of the recess is a circular arc surface.

In order to further improve the invention, the second ring piece further comprises a radially relative connection section to the second axial extension, and the second axial extension, second radial extension and connection section are arranged around a receiving cavity open in the direction of the bearing interior.

Compared with the current state of the art, the present invention has the following advantages: a gap is formed between the first ring piece and the second ring piece, and a labyrinth seal structure is arranged in the gap, so that a better sealing effect can be realized.

Description of the attached figures

1 is a sectional figure of a bearing with sealing structure of the prior art;

2 is an enlarged view of the seal structure 1 ;

3 is a sectional view of a bearing with sealing structure according to an embodiment of the present invention;

4 is an enlarged view of the seal structure 3 ;

5 Fig. 12 is a schematic view of the sealing structure of another embodiment of the present invention.

embodiments

As in 3 and 4 As shown, bearings according to an embodiment of the present invention include an outer ring 10 , an inner ring 20 , between the outer ring 10 and inner ring 20 located several rolling bodies 30 and a seal structure used at both axial ends of the bearing to seal the bearing interior 40 ,

The seal structure 40 includes a on the outer surface of the inner ring 20 attached first ring piece 41 and one on the inner surface of the outer ring 10 attached second ring piece 42 , In the present embodiment, first ring piece 41 and second ring piece 42 each stamped from metallic materials. The first ring piece 41 has an "L" shape, it includes an axially extending first axial tail 411 and one from the bearing interior remote end of the first Axialausläufers 411 radially extending first radial runner 412 ; the second ring piece 42 includes an axially extending second axial runner 421 and one from the bearing interior remote end of the second Axialausläufers 421 radially extending second radial runners 422 , The second axial tail 421 is located radially outside the first axial runner 411 , and the second radial tail 422 is located axially within the first radial spur 412 , thus becomes between first ring piece 41 and second ring piece 42 A gap 43 educated.

At the second ring piece 42 is an elastic seal 44 arranged, in the present embodiment, both are connected to each other by injection molding. The seal 44 forms on second axial tail 421 in the gap 43 protruding several first projections 441 from, wherein the plurality of first projections 441 axially distributed at a distance and to the first Axialausläufer 411 there is a margin, thus a labyrinth seal is formed; the seal 44 forms at the second radial spur 422 in the gap 43 protruding several second projections 442 from, wherein the plurality of second projections 442 are distributed radially at a distance and the first radial runners 412 there is a margin, thus also a labyrinth seal is formed. In addition, the seal forms 44 with the end piece of the first Axialausläufers 411 a first tapered opening 45 out, and forms the seal 44 with the end piece of the first radial spur 412 a second tapered opening 46 out. The seal is concrete 44 at the end of the second Axialausläufers 421 a extending in the direction of the bearing interior first sealing lip 443 from, accordingly forms the tail of the first Axialausläufers 411 a first curved section 4110 out, with the first sealing lip 443 toward the inner surface of the first curved portion 4110 has a slope and between the first curved portion 4110 and the first sealing lip 443 the first tapered opening 45 is trained. The first tapered opening 45 connects the bearing interior with the gap 43 ; the seal 44 forms at the second radial spur 422 a extending in the direction of the outer space second sealing lip 444 out, this second lip 444 is located radially outside the end piece of the first radial projection 412 , wherein the second sealing lip 444 in the direction of the inner surface of the end piece of the first Radialausläufers 412 has a slope and the second sealing lip 444 with the end piece of the first radial spur 412 the second tapered opening 46 formed. Preferably, the end piece of the first Radialausläufers 412 a second curved portion extending obliquely in the direction of the outside space 4120 formed, thus, between the second curved portion 4120 and the second sealing lip 444 the second tapered opening 46 formed, and the second tapered opening 46 connects the outside space with the gap 43 ,

Because the opening of the first tapered opening 45 Thus, grease from inside the bearing can not easily pass through the first tapered opening 45 in the gap 43 penetrate, and even if small amounts of grease through the first tapered opening 45 in the gap 43 When they penetrate, they are also easily released from the first tapered opening by the action of centrifugal force 45 away; Accordingly, since the opening of the second tapered opening 46 is very small, soiling and particles from the outside also not easily through the second tapered opening 46 in the gap 43 penetrate, and even if small amounts of dirt and particles through the second tapered opening 46 in the gap 43 When they penetrate, they are also easily released from the second tapered opening by the action of centrifugal force 46 brought to the outside.

The second ring piece 42 further comprises one to the second Axialausläufer 421 radially relative connection section 423 second axial tail 421 , second radial tail 422 and connection section 423 are about a receiving cavity open in the direction of the bearing interior 47 arranged around, this receiving cavity 47 can absorb a part of grease, so that more grease can be added to the bearing interior. At the junction of the first radial spur 412 and the first axial tail 411 is a depression 48 trained, this depression 48 belongs to a part of the gap 43 , The seal 44 further comprises a between the first projections 441 and the second protrusions 442 located third sealing lip 445 , where the third sealing lip 445 and the surface of the depression 48 touching each other, thereby forming a touch seal. Thus, the third sealing lip 445 potentially in the gap 43 Separate penetrating lubricating oil from dirt and particles to prevent mixing. For a better contact effect of third sealing lip 445 and inner surface of the recess 48 to achieve is the surface of the well 48 preferably a circular arc surface.

In another embodiment, the to the second sealing lip 444 adjacent a plurality of projections a of the plurality of second projections 442 with the first radial tail 412 touching each other, thus can through the second tapered opening 46 penetrated contaminants and particles through the protrusions a in a region near the second tapered opening 46 be blocked, thus, such contamination and particles can be easily removed by centrifugal force in the outer space during operation of the camp.

As in 5 shown, in the present embodiment, the plurality of first projections 441 extend obliquely in a direction opposite to the direction of flow of the grease, that is, they extend obliquely in the direction of the interior, correspondingly, the plurality of second projections extend 442 in an opposite direction in the flow direction of the contaminants and particles, that is, they extend obliquely in the direction of the outer ring, so that a better sealing effect can be achieved.

Between the first and second ring piece of the invention, a narrow gap is formed, and in the gap a labyrinth seal structure is arranged, so that a better sealing effect is achieved.

Although only a few exemplary embodiments are described for the present invention, these descriptions are merely exemplary and not limiting. Various changes are possible within the scope of the appended claims unless departing from the spirit and scope of the present invention.

Claims (10)

Bearing, the outer ring, inner ring, located between the inner ring and outer ring located a plurality of rolling elements and located at the two axial ends of the bearing seal structure, wherein the sealing structure attached to the inner ring first ring piece, attached to the outer ring second ring piece and arranged on the second ring piece seal The first ring piece comprises an axially extending first axial runner and a first radial runner extending radially from a side of the first axial runner remote from the bearing interior, the second ring piece having an axially extending second axial runner and a side remote from the bearing interior second axial runner radially extending second radial runner, wherein the second Axialausläufer is located radially outside of the first Axialausläufers, wherein the second Axialausläufer axially within the first Radialau slinger is formed, wherein between the first ring piece and the second ring piece, a gap is formed, characterized in that the seal on the second Axialausläufer in the gap protruding a plurality of first projections and the plurality of first projections are axially spaced apart, whereby between the second Axialausläufer and first labyrinth seal is formed on the first axial runner; the seal on the second Radialausläufer protruding into the gap protruding a plurality of second projections and the plurality of second projections are distributed radially at a distance, whereby between the second Radialausläufer and the first Radialausläufer a labyrinth seal is formed. Bearing according to the description in claim 1, characterized in that the seal with the end piece of the first axial runner forms a first tapered opening connecting the bearing interior with the gap; and the seal forms with the end portion of the first radial projection a second tapered opening connecting the gap with the exterior space. Bearing according to the description in claim 2, characterized in that the seal is a first sealing lip extending on the end piece of the second axial extension in the direction of the bearing interior, a first curved section is attached to the end piece of the first axial extension and between the first sealing lip and the first curved one Section the first tapered opening is formed. Bearing according to the description in claim 2, characterized in that the seal is a second sealing lip extending on the second radial runner in the direction of the outer space, this second sealing lip is located radially outside the end piece of the first radial runner and between the second sealing lip and the end piece of the first Radialausläufers the second tapered opening is formed. Bearing as described in claim 4, characterized in that the plurality of second projections adjacent to the second sealing lip contact each other with the first radial projection. Bearing according to the description in claim 4, characterized in that at the end of the first Radialausläufers in the direction of the outer space obliquely extending second curved portion is mounted and between the second sealing lip and the second curved portion, the second tapered opening is formed. Bearing according to the description in claim 1, characterized in that the first projections extend obliquely in the direction of the bearing interior and the second projections extend obliquely in the direction of the outer ring. Bearing according to the description in claim 1, characterized in that at the junction of the first Axialausläufers and the first Radialausläufers a recess is formed, which recess belongs to a part of the gap, and that the seal between the first projections and the second Projections located third sealing lip, wherein the third sealing lip and the surface of the recess contact each other. Bearing according to the description in claim 8, characterized in that the surface of the recess is a circular arc surface. Bearing according to the description in any one of claims 1 to 9, characterized in that the second ring piece is further radially relative to the second axial tail Includes connecting portion and that the second Axialausläufer, the second Radialausläufer and the connection portion are arranged around a receiving cavity open in the direction of the bearing cavity around.

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