DE102019207424A1 - Sealing structure and this seal structure having device - Google Patents

Abstract

The seal structure according to an embodiment of the present invention includes a seal member provided between a shaft member and a housing accommodating at least a part of the shaft member. The seal member has a base portion and a main lip which is disposed in the rotation axis direction of the shaft member at a position which does not overlap with the base portion.

Description

[Technical area]

The present invention relates to a sealing structure for preventing a liquid inside a device from leaking out of the device and a liquid from entering the device from outside, and a device comprising this sealing structure.

[Background Technology]

A sealing structure for sealing between a rotational component and a housing receiving the rotational component is known.

A conventional sealing structure is z. In the patent publication JP 2016 - 84911 A (Patent Document 1). In this publication, a seal structure is disclosed which seals between an outer ring and an inner ring. The seal structure includes a seal member and a slinger that is surrounded by the seal member. The slinger includes a collar surrounding a shaft and a flange that is bent toward a housing surrounding the shaft. The flange improves the stiffness of the slinger. Through the flange deformation of the sealing member during installation of the sealing member can be prevented in a device.

[Documents of the Prior Art]

[Patent Documents]

[Patent Document 1] Patent Publication JP 2016-84911 A

[Summary of the Invention]

Technical Problem of the Invention

The seal member of the seal structure in Patent Document 1 has a core metal and a main lip provided on the diametrical inside of the core metal. In order to prevent interference between the core metal and the main lip, it is necessary to increase the diametrical dimension of the sealing structure of the cited document 1. Further, when the diametrical dimension of the sealing structure becomes larger, there is a problem that the degree of planning freedom for the apparatus into which this sealing structure is incorporated decreases.

An object of the present invention is to provide a seal structure whose dimension can be reduced in the diametrical direction and a device comprising this seal structure.

[Means to solve the task]

The seal structure according to an embodiment of the present invention includes a seal member provided between a shaft member and a housing accommodating at least a part of the shaft member. The seal member has a base portion and a main lip which is disposed in the rotation axis direction of the shaft member at a position which does not overlap with the base portion.

In one embodiment of the present invention, the base portion has a tubular portion and an annular portion. In one embodiment, the main lip is disposed at a position that does not overlap with the annular portion in the rotation axis direction.

In one embodiment of the present invention, the sealing member has a dust lip. In one embodiment, the dust lip is disposed at a position that does not overlap with the base portion in the rotation axis direction. In one embodiment, the main lip is arranged to the dust lip on one side of the rotational axis direction.

The sealing structure according to an embodiment of the present invention comprises a spring ring provided on the main lip and a cover portion covering the spring ring from the diametrical outside of the shaft member. In one embodiment of the present invention, the cover portion is provided so as to protrude from the base portion to the rotation axis direction of the shaft member.

The seal structure according to an embodiment of the present invention includes a slinger provided on the outer peripheral side of the shaft member. In one embodiment, the sealing member is provided between the housing and the slinger.

In one embodiment of the present invention, the sealing member is provided between the housing and the slinger. In one embodiment, the main lip and the dust lip are in contact with the end surface of the slinger.

The seal structure according to an embodiment of the present invention includes a seal member provided between the shaft member and a housing that accommodates at least a part of the shaft member. The Seal member has a base portion and a main lip, which is arranged in the rotation axis direction of the shaft member on the opposite side of the base portion. In one embodiment of the present invention, the base portion has a tubular portion and an annular portion. In one embodiment, the annular portion is disposed between the main lip and the tubular portion.

The device according to an embodiment of the present invention comprises a shaft member, a housing accommodating at least a part of the shaft member, and a sealing structure for sealing between the shaft member and the housing. In one embodiment, the sealing structure comprises a sealing member provided between the housing and the shaft member. In one embodiment, the seal member has a main lip disposed in the rotation axis direction of the shaft member at a position that does not overlap with the base portion of the seal member.

The sealing structure according to the respective embodiments of the present invention can be suitably applied to various devices.

[Effects of the Invention]

A sealing structure in which the dimensions can be reduced in the diametrical direction and a device comprising this sealing structure can be provided.

list of figures

• [ 1 ] 1 FIG. 12 is a schematic cross section of the sealing structure in an embodiment of the present invention. FIG.
• [ 2 ] 2 is a schematic enlarged cross-sectional view of a part of the sealing structure in 1 shows enlarged.
• [ 3 ] 3 Fig. 10 is a schematic cross section of the sealing structure in another embodiment of the present invention.

Embodiments of the Invention

1 is a schematic cross section of a device 10 that have a sealing structure 1 in one embodiment of the present invention.

The device 10 includes a shaft member 4 , a housing 5 as well as the seal structure 1 , The seal structure 1 in one embodiment of the present invention, seals between the shaft member 4 and the housing 5 from. This seals the sealing structure 1 an interior of the device 10 from an outside space (eg atmosphere).

The device 10 includes the sealing structure 1 , the shaft member 4 and the case 5 , wherein the components of the device 10 but not limited thereto. That is, the device 10 may also have other ingredients than the seal structure 1 , the shaft member 4 and the case 5 include.

The device 10 is z. B. a reducer. The device 10 but can also be a device other than a reducer. The shaft member 4 is a component that z. B. by the operation of a reducer rotates. The shaft member 4 but can also be another rotatable rotation component. It is not intended the sealing structure 1 only to be provided on a special device, but it can be applied to any device comprising a rotational component.

The shaft member 4 in one embodiment of the present invention is constructed such that it is a certain axis of rotation RAX rotates. The shaft member 4 has a columnar shape, cylinder shape or other shape. In 1 are two to the axis of rotation of the shaft member 4 parallel arrows are shown. One of the arrows (the arrow pointing to the right side of the leaf surface) is the axis of rotation of the shaft member 4 parallel direction, this to the inside of the interior of the housing 5 is directed, the other arrow (arrow which is directed to the left side of the leaf surface) is to the axis of rotation of the shaft member 4 parallel direction, with this in the exterior of the housing 5 directed direction is directed.

The housing 5 In one embodiment of the present invention, it is coaxial or substantially coaxial with the shaft member 4 arranged. In one embodiment of the present invention, at least one of the shaft members rotates 4 or the housing 5 around the axis of rotation RAX , In this case, the shaft member 4 with respect to the attached housing 5 around the axis of rotation RAX turn, but it can also be the case 5 with respect to the attached shaft member 4 around the axis of rotation RAX rotate.

The housing 5 in one embodiment of the present invention has an interior, wherein in this interior a part of the shaft member 4 is recorded. In the interior of the housing 5 may also contain other components of the device 10 as the shaft member 4 recorded become. As an example, in the interior of the housing 5 also one with the shaft member 4 connectable gear unit can be added.

The seal structure 1 in an embodiment of the present invention is in an annular space between the shaft member 4 and the housing 5 provided, and thereby seals the interior of the housing 5 from the outside space.

The shaft member 4 in an embodiment of the present invention has an outer peripheral surface (end surface) 14 on. An inner peripheral surface of the seal structure 1 adheres to the outer peripheral surface 14 of the shaft member 4 ,

The housing 5 in one embodiment of the present invention has an inner peripheral surface 15 on. An outer peripheral surface 23 the sealing structure 1 adheres to the inner peripheral surface 15 of the housing 5 , This will make the seal structure 1 arranged such that they are between the inner peripheral surface 15 of the housing 5 and the outer peripheral surface 14 of the shaft member 4 is trapped.

The seal structure 1 in one embodiment of the present invention comprises a slinger 2 and a sealing member 3 on. The seal structure 1 also can not a slinger 2 include. The slinger 2 includes a cylindrical tubular portion 11 , and one of the tubular portion 11 to the diametrical outside of the shaft member 4 (hereinafter simply referred to as "diametrical direction") protruding flange portion 12 , The slinger 2 can apart from the tubular section 11 and the flange portion 12 contain further ingredients. In one embodiment of the present invention, the sealing member 3 between the case 5 and the slinger 2 intended. The seal structure 1 may in one embodiment in addition to the sealing member 3 also have another seal member. The other seal member may also be attached to the seal member 3 be provided adjacent. The other sealing member may also be an axis of rotation RAX of the shaft member 4 have surrounding ring shape or cylindrical shape. The other seal member may also be in the rotational axis direction of the seal member 3 be arranged on the outside.

In one embodiment, the slinger is 2 on the outer peripheral surface 14 of the shaft member 4 liable. As shown in the figure, the slinger can 2 also via an elastic component 9 on the outer peripheral surface 14 of the shaft member 4 be provided. The elastic component 9 runs along the outer peripheral surface 14 of the shaft member 4 , wherein it extends from the end portion to the diametrical outside. The elastic component 9 is an elastically deformable component z. B. made of rubber. As material of the elastic component 9 For example, a suitable elastically deformable known material may be used.

The tubular section 11 of the slinger 2 can be formed partially or wholly tubular. One end or both ends of the tubular portion 11 can also be chilled. The tubular section 11 of the slinger 2 includes an inner peripheral surface 21 and an outer peripheral surface 20 on the inner circumferential surface 21 opposite side. The elastic component 9 is between the inner peripheral surface 21 of the tubular portion 11 and the outer peripheral surface 14 of the shaft member 4 intended. Instead of the elastic component 9 It is also possible to provide an adhesion layer. Through the adhesive layer of the slinger adheres 2 on the outer peripheral surface 4 of the shaft member 4 , On the inner peripheral surface 21 of the tubular portion 11 and the outer peripheral surface 14 of the shaft member 4 It is also possible to provide a component other than an adhesion layer.

The seal member 3 has an annular shape in one embodiment of the present invention. The seal member 3 is arranged such that it is the axis of rotation of the shaft member 4 surrounds. In one embodiment, the sealing member 3 a base section 13 , a main ring part 24 , a main lip 25 in the rotational axis direction of the shaft member 4 at one not with the base section 13 overlapping position is provided, a dust lip 26 and a spring washer 27 on. The dust lip 26 is used to prevent foreign matter, such as dust floating in the outside space, from entering the interior space.

Next will be based on 2 Details of the sealing member 3 explained. 2 is an enlarged cross section of the seal member 3 in 1 shows enlarged. As shown, the seal member 3 in an embodiment of the present invention, an outer peripheral surface 23 on that with the inner peripheral surface 15 of the housing 5 in contact. The main ring part 24 has a cylindrical first section 241 with a central axis coinciding with the axis of rotation of the shaft member 4 coincides or substantially coincides, and an annular second portion, that of the end portion of the first portion 241 to the diametrical inside of the shaft member 4 directed protrudes. The main ring 24 is on the first section 241 with the inner peripheral surface 15 of the housing 5 in contact. The main lip 25 and / or the dust lip 26 can / can also be one piece with the Main ring member 24 be formed. The main lip 25 and / or dust lip 26 can / can also be formed by an elastic component such as rubber. The dust lip 26 can also on the main ring part 24 be provided. The dust lip 26 Can also be made in one piece with the main ring part 24 be formed. The spring ring 27 is in the diametrical direction of the shaft member 4 on the outside of the main lip 25 intended. In one embodiment, the main lip 25 and / or the dust lip 26 also be arranged so that they are with the end face 20 of the slinger 2 stay in contact.

In one embodiment of the present invention, the base portion 13 made of a corrosion-resistant metal, eg. B. made of steel. In the illustrated embodiment, the base portion 13 in one the axis of rotation RAX of the shaft member 4 cross section seen formed L-shaped. The shape, structure, dimensions and material of the base section 13 are not limited to those explicitly explained in the present description. The base section 13 In one embodiment of the present invention, a tubular portion 16 and an annular portion 17 on. The tubular section 16 is coaxial or substantially coaxial with the axis of rotation RAX of the shaft member 4 arranged. The annular section 17 is from an end portion in the rotation axis direction of the tubular portion 16 to the inside of the shaft member 4 in front.

In one embodiment, the main lip is 25 a component that is located further on the inner side in the rotation axis direction than an end surface 242a the inside in the rotation axis direction of the second section 242 of the main ring 24 , In 2 represents a dashed line L the interface between the main ring 24 and the main lip 25 dar. The dashed line L in 2 is an example of an interface between the main ring part 24 and the main lip 25 where the interface between the main ring 24 and the main lip 25 can also be provided at another location. In one embodiment, the main lip is 25 arranged at a position in the rotational axis direction of the shaft member 4 not with the annular section 17 overlaps. In one embodiment, the main lip 25 in rotation axis direction also on one side of the dust lip 26 to be ordered. In the illustrated embodiment, the main lip is 25 further on the inside in the rotation axis direction than the dust lip 26 arranged. The main lip 25 can also continue on the outside in rotation axis direction as the dust lip 26 to be ordered.

In the illustrated embodiment, the dust lip 26 on the diametrical inside of the annular section 17 intended. In one embodiment of the present invention, the dust lip is 26 arranged at a position in the rotational axis direction of the shaft member 4 not with the base section 13 overlaps. In one embodiment, the dust lip 26 in the rotation axis direction also on the to the annular portion 17 opposite side of the outside space are arranged. That is, the dust lip 26 may also be further on the inside in the rotation axis direction than the annular portion 17 to be ordered.

In one embodiment of the present invention, the main lip is 25 in the rotational axis direction on the to the annular portion 17 opposite side of the tubular portion 16 arranged. In one embodiment, the annular portion 17 also between the main lip 25 and the tubular portion 16 to be ordered.

As shown, the front end of the dust lip 26 with the outer peripheral surface 20 of the tubular portion 11 in contact. While at least either the shaft member 4 or the housing 5 turns, rubs the front end of the dust lip 26 at the end surface 14 of the shaft member 4 or the tubular portion 11 of the slinger 2 , In one embodiment, the slinger becomes 2 made of a material with a better wear resistance than the shaft member 4 formed, so that a wear of the slinger 2 through contact with the dust lip 26 can be suppressed.

The main lip 25 has a press ring 251 and a coupling ring 252 on. The pressing ring 251 stands between the dust lip 26 and the interior with the end surface 14 of the shaft member 4 or the outer peripheral surface 20 of the tubular portion 11 in contact. The coupling ring 252 couples the press ring 251 with the end part of the inside of the main ring part 24 in the rotation axis direction.

In the diametrical direction of the shaft member 4 is on the outside of the main lip 25 one the main lip 25 surrounding spring ring 27 intended. The spring ring 27 exercises on the press ring 251 the main lip 25 one to the diametrical inside of the shaft member 4 directed force. This will make the press ring 251 firmly with the end face 14 of the shaft member 4 or the outer peripheral surface 20 of the tubular portion 11 connected so that the press ring 251 and the outer peripheral surface 20 of the tubular portion 11 are firmly connected. This will cause leakage in the interior of the housing 5 absorbed liquid (eg lubricating oil, etc.) from the space between the press ring 251 and the outer peripheral surface 20 of the tubular portion 11 prevented in the outside space.

Next is based on 3 a sealing structure in another embodiment of the present invention is explained. An explanation of the common sections with 1 is omitted. In the 3 shown seal structure 1 is different from the one in 1 shown seal structure 1 in the point that this is a cover section 18 having. The cover section 18 is constructed and arranged such that it the spring ring 27 from the diametrical outside of the shaft member 4 covered.

In one embodiment, the cover portion becomes 18 provided such that it from the annular portion 17 of the base section 13 or from the main ring part 24 to the inside of the direction of the axis of rotation RAX protrudes. The cover section 18 Can be both integral with the base section 13 or the main ring part 24 be provided separately. Through the cover section 18 may be a fall of the spring ring 27 from the main lip 25 be prevented.

Next, the effects and effects having the above embodiments of the present invention will be explained. According to the above respective embodiments, the main lip becomes 25 in the rotational axis direction of the shaft member 4 arranged at a position other than the base section 13 of the sealing member 3 overlaps, causing an enlargement of the seal structure 1 by overlapping the main lip 25 and the base section 13 in the diametrical direction of the shaft member 4 can be prevented. This will cause a reduction in the sealing structure 1 in the diametrical direction of the shaft member 4 allows.

According to the above embodiments, the main lip 25 arranged in the rotation axis direction at a position other than the annular portion 17 overlaps, causing an enlargement of the seal structure 1 by overlapping the main lip 25 and the annular portion 17 in the diametrical direction of the shaft member 4 can be prevented. This will cause a reduction in the sealing structure 1 in the diametrical direction of the shaft member 4 allows.

According to the above embodiments, the dust lip 26 arranged in the rotation axis direction at a position other than the base portion 13 overlaps, causing an enlargement of the seal structure 1 by overlapping the dust lip 26 and the base section 13 in the diametrical direction of the shaft member 4 can be prevented. This will cause a reduction in the sealing structure 1 in the diametrical direction of the shaft member 4 allows.

According to the above embodiments, the dust lip in the diametrical direction of the shaft member 4 on the inside of the annular section 17 arranged. This allows the sealing force through the dust lip 26 increase.

As stated above, a reduction in the dimensions of the sealing structure 1 in the diametrical direction of the shaft member 4 allows for planning freedom of the seal structure 1 and for the sealing structure 1 comprehensive device 10 can be increased.

LIST OF REFERENCE NUMBERS

1

sealing structure

2

slinger

3

sealing member

4

shaft member

5

casing

10

device

11

tubular section

12

flange

13

base section

14

End side (outer circumference)

15

End side (inner circumference)

16

tubular section

17

annular section

18

cover portion

20

end side

21

inner circumference

23

outer periphery

24

Main ring member

25

main lip

26

dust lip

27

spring washer

RAX

axis of rotation

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• JP 2016 [0003]
• JP 84911 A [0003]
• JP 2016084911 A [0004]

Claims (12)

A seal structure comprising a seal member provided between a shaft member and a housing receiving at least a part of the shaft member, wherein the sealing member has a base portion and a main lip which is disposed in the rotational direction of the shaft member at a position which does not overlap with the base portion. Seal structure after Claim 1 wherein the base portion has a tubular portion and an annular portion, and the main lip is disposed at a position that does not overlap with the annular portion in the rotation axis direction. Seal structure after Claim 2 wherein the seal member has a dust lip, and the dust lip is disposed at a position that does not overlap with the base portion in the rotation axis direction. Seal structure after Claim 3 wherein the main lip is arranged to the dust lip on a side of the rotation axis direction. Seal structure after Claim 3 wherein the dust lip is disposed in the diametrical direction of the shaft member on the inside of the annular portion. Sealing structure according to one of Claims 1 to 5 comprising a spring ring provided on the main lip and a cover portion covering the spring ring from the diametrical outside of the shaft member. Seal structure after Claim 6 wherein the cover portion is provided so as to protrude from the base portion to the rotation axis direction of the shaft member. Seal structure after Claim 1 comprising a slinger provided on the outer peripheral side of the shaft member, the seal member being provided between the housing and the slinger. Seal structure after Claim 3 wherein the seal structure comprises a slinger provided on the outer peripheral side of the shaft member, the seal member is provided between the housing and the slinger, and the main lip and the dust lip are in contact with the end surface of the slinger. Sealing structure, comprising a sealing member provided between a shaft member and a housing accommodating at least a part of the shaft member, wherein the seal member has a base portion and a main lip disposed in the rotation axis direction of the shaft member on the opposite side of the base portion. Seal structure after Claim 10 wherein the base portion has a tubular portion and an annular portion, and the annular portion is disposed between the main lip and the tubular portion. Device, the one wave member, a housing which accommodates at least a part of the shaft member, and a sealing structure for sealing between the shaft member and the housing, wherein the sealing structure comprises a sealing member provided between the housing and the shaft member, and the seal member has a main lip which is disposed in the rotation axis direction of the shaft member at a position which does not overlap with the base portion of the seal member.

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