JP7224248B2 - sealing device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sealing device for sealing between a shaft and a hole into which the shaft is inserted, and more particularly to a sealing device used under conditions of use where exposure to muddy water, dirt, and the like is expected.

For example, in agricultural machinery such as tractors and cultivators and construction machinery, a sealing device has been conventionally used to seal an annular space between an axle and a shaft hole into which the axle is inserted. Due to the usage environment of agricultural machinery such as tractors and cultivators and construction machinery, it is assumed that the sealing devices used in these machines will be exposed to foreign matter such as muddy water and dust. There is a demand for blocking performance for preventing foreign matter from entering the seal lip side. For this reason, some conventional sealing devices used in agricultural machinery such as tractors and cultivators and construction machinery are intended to improve the blocking performance against foreign matter. Some of such conventional sealing devices attempt to improve foreign matter blocking performance by increasing the number of dust lip that the elastic member has (see, for example, Patent Document 1).

JP 2017-219176 A

In the conventional sealing device as described above, since the elastic body portion has a plurality of dust lips, it is possible to improve the foreign matter blocking performance. However, there is still a demand for a sealing device that can maintain foreign matter blocking performance even in long-term use. As described above, conventional sealing devices used in agricultural machinery and construction machinery are required to have a configuration capable of maintaining foreign matter blocking performance for a long period of time.

SUMMARY OF THE INVENTION An object of the present invention is to provide a sealing device capable of maintaining foreign matter blocking performance over a long period of time.

To achieve the above object, a sealing device according to the present invention is a sealing device for sealing an annular gap between a shaft and a hole into which the shaft is inserted, the sealing device comprising a main body mounted in the hole. It comprises a seal portion, a dust seal portion fitted to the main seal portion, and a slinger attached to the shaft. and an elastic body portion formed from a body and having an annular shape around the axis, and the elastic portion has a main lip that is an annular lip around the axis and contacts the slinger from the outer peripheral side. The slinger has a flange portion which is an annular portion around the axis extending toward the outer peripheral side, and the dust seal portion is located on one side of the main lip in the axial direction. The dust seal portion includes a side lip which is an annular lip around the axis contacting the flange portion from the other side in the axial direction, and an annular resin around the axis contacting the slinger from the outer peripheral side. and a seal ring formed from

In the sealing device according to one aspect of the present invention, the outer peripheral edge of the flange portion faces the main seal portion from the inner peripheral side through an annular gap, and the gap forms a labyrinth seal. ing.

In the sealing device according to one aspect of the present invention, the dust seal portion has a backup ring, which is an annular member around the axis line that pushes the seal ring inward.

In a sealing device according to an aspect of the present invention, the dust seal portion has a mounting ring that is an annular member around the axis, the side lip is mounted on the mounting ring, the reinforcing ring and The mounting ring has portions facing each other in the axial direction, the backup ring is provided between the portions of the reinforcing ring and the mounting ring facing each other, and the mounting ring comprises: It has a cylindrical portion that is a cylindrical portion extending along the axis and a facing portion that is an annular portion that is a portion facing the reinforcing ring extending toward the inner peripheral side from the cylindrical portion, The dust seal portion can be fitted to the main seal portion through the cylindrical portion of the mounting ring, and the backup ring contacts the cylindrical portion of the mounting ring from the inner peripheral side.

In the sealing device according to one aspect of the present invention, an elastic member is attached to the inner peripheral surface of the slinger.

According to the sealing device of the present invention, it is possible to maintain foreign matter blocking performance over a long period of time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view taken along an axis line for showing a schematic configuration of a sealing device according to an embodiment of the present invention; FIG. 2 is a partially enlarged cross-sectional view showing an enlarged part of a cross section along the axis for showing the schematic configuration of the sealing device shown in FIG. 1 ; FIG. 2 is a partially enlarged cross-sectional view of the sealing device shown in FIG. 1 in a use state in which the sealing device is attached to an attachment target;

A sealing device according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a cross-sectional view along the axis x for showing a schematic configuration of a sealing device 1 according to an embodiment of the present invention, and FIG. 2 is a partially enlarged cross-sectional view of the sealing device 1 shown in FIG. is. A sealing device 1 according to the present embodiment is a sealing device for sealing an annular gap between a shaft and a hole into which the shaft is inserted. It is a sealing device that is used under the assumed usage conditions. The sealing device 1 is used, for example, to seal an annular space between an axle and a shaft hole in agricultural machinery such as tractors and cultivators, and construction machinery. The object to which the sealing device 1 according to the embodiment of the present invention is applied is not limited to the above.

Hereinafter, for convenience of explanation, the arrow a (see FIG. 1) direction side in the axis x direction is the inside (the other side), and the arrow b (see FIG. 1) direction side is the outside (one side) in the axis x direction. . More specifically, the inside is the side of the space to be sealed (the side of the object to be sealed) and is the side of the space where the object to be sealed such as lubricating oil exists, and the outside is the side opposite to the inside. , on the atmosphere side. In a direction orthogonal to the axis x (hereinafter also referred to as “radial direction”), the direction away from the axis x (the direction of arrow c in FIG. 1) is defined as the outer peripheral side, and the direction approaching the axis x (arrow d in FIG. 1) direction) is the inner circumference side.

A sealing device 1 according to the present embodiment includes a main seal portion 2 attached to a shaft hole to be attached, which will be described later, a dust seal portion 3 fitted to the main seal portion 2, and a shaft to be attached, which will be described later. and a slinger 4 that is mounted. The main seal portion 2 has a ring-shaped reinforcing ring 10 around the axis x, and a ring-shaped elastic body portion 20 formed of an elastic body attached to the reinforcing ring 10 around the axis x. The elastic body portion 20 has a main lip 21 that is an annular lip around the axis x that contacts the slinger 4 from the outer peripheral side. The slinger 4 has a flange portion 41 which is an annular portion around the axis x extending toward the outer peripheral side (the direction of the arrow c). The dust seal portion 3 is located on one side (arrow b direction side, outside) of the main lip 21 in the axis line x direction, and the dust seal portion 3 is located on the flange portion 41 on the other side (arrow a direction side) in the axis line x direction. side lip 31, which is an annular lip around the axis x that contacts the slinger 4 from the direction side and the inside, and a seal ring 32 that is made of an annular resin around the axis x that contacts the slinger 4 from the outer peripheral side. . The structure of the sealing device 1 will be specifically described below.

The reinforcement ring 10 in the main seal portion 2 is, as shown in FIGS. are configured to be mated and installed. The reinforcing ring 10 has a facing portion 11 that faces a mounting ring 34 (described later) of the dust seal portion 3 in the direction of the axis x.

As shown in FIG. 1 , the reinforcing ring 10 includes, for example, a cylindrical portion 12 which is a cylindrical portion extending along the axis x located on the outer peripheral side, and an inner peripheral side and an outer side from the inner end of the cylindrical portion 12 . It has a folded portion 13 which is a portion extending inward. The facing portion 11 extends from the inner peripheral end of the folded portion 13 toward the inner peripheral side. More specifically, the cylindrical portion 12 of the reinforcing ring 10 is a cylindrical or substantially cylindrical portion having the axis x as its central axis. More specifically, the folded portion 13 includes a curved portion 13a that extends from the inner end of the cylindrical portion 12 to the inner peripheral region, and a curved portion 13a that extends along the axis x from the inner peripheral end of the curved portion 13a. and a cylindrical portion 13b extending outward. The curved portion 13a is a portion that changes the extending direction of the reinforcing ring 10, and is a portion that changes the extending direction of the reinforcing ring 10 extending inward in the axis x direction in the cylindrical portion 12 to outward in the axis x direction. be. For example, as shown in FIGS. 1 and 2, the curved portion 13a is formed so that a cross section along the axis x (hereinafter also simply referred to as a cross section) is substantially U-shaped. The shape of the curved portion 13a may be another shape. 1 and 2, the tubular portion 13b of the folded portion 13 is, for example, a cylindrical or substantially cylindrical portion having the axis x as its central axis. The cylindrical portion 13b may extend linearly or may extend in a curved shape in cross section. The shape of the cylindrical portion 13b may be another shape. For example, as shown in FIGS. 1 and 2, the facing portion 11 is an annular or substantially annular plate-like portion extending radially about the axis x. The facing portion 11 may be inclined with respect to the radial direction. The facing portion 11 may extend linearly or may extend curvedly in the cross section. In the reinforcing ring 10 , the opposing portion 11 is located in the region on the inner peripheral side of the cylindrical portion 12 .

Further, the reinforcing ring 10 has a labyrinth portion 14 extending from the outer end portion of the tubular portion 12 to the outer peripheral side and the outer side, as shown in FIG. 1 . The labyrinth portion 14 forms a labyrinth seal together with the flange portion 41 of the slinger 4 as will be described later. , and a cylindrical portion 14b extending outward from the outer peripheral end of the flange portion 14a. For example, as shown in FIGS. 1 and 2, the flange portion 14a is an annular or substantially annular plate-like portion extending radially about the axis x. The flange portion 14a may be inclined with respect to the radial direction. The flange portion 14a may extend linearly or may extend curvedly in cross section. For example, as shown in FIGS. 1 and 2, the cylindrical portion 14b is a cylindrical or substantially cylindrical portion having the axis x as its central axis. The cylindrical portion 14b may extend linearly or may extend in a curved shape in cross section. An elastic body portion 20 is attached to the reinforcing ring 10 to reinforce the elastic body portion 20 .

The elastic body part 20 is attached to the reinforcing ring 10 so as to cover the whole or part of the reinforcing ring 10, as shown in FIGS. The elastic body portion 20 has the main lip 21 and the gasket portion 22 as described above. Specifically, as shown in FIG. 2, the gasket portion 22 is a portion attached to the outer peripheral surface 12a of the cylindrical portion 12 of the reinforcing ring 10 on the outer peripheral side. The outer diameter of the gasket portion 22 is larger than the diameter of the inner peripheral surface of the shaft hole to which the sealing device 1 (main seal portion 2) is attached. Therefore, when the sealing device 1 is fitted in the shaft hole, the gasket portion 22 is radially compressed between the cylindrical portion 12 of the reinforcing ring 10 and the shaft hole, and is compressed between the cylindrical portion 12 of the reinforcing ring 10 and the cylindrical portion of the reinforcing ring 10 . 12 is sealed. Thereby, the space between the sealing device 1 and the shaft hole is sealed. The outer diameter of the gasket portion 22 does not have to be larger than the diameter of the inner peripheral surface of the axial hole over the entire axis x direction, and the outer diameter of the gasket portion 22 is larger than the diameter of the inner peripheral surface of the axial hole in part. It may be. For example, an annular projection having a tip diameter larger than the diameter of the inner peripheral surface of the shaft hole may be formed on the outer peripheral surface of the gasket portion 22 .

As shown in FIGS. 1 and 2, the main lip 21 extends cylindrically from the opposing portion 11 on the inner peripheral side of the cylindrical portion 13b of the folded portion 13 of the reinforcing ring 10, It has an annular lip tip 23 . The lip tip portion 23 is a portion formed so as to come into contact with a cylindrical portion 42 of the slinger 4 to be described later with a predetermined interference. The main lip 21 may extend from the tubular portion 13 b of the folded portion 13 and the opposing portion 11 , or may extend from the tubular portion 13 b of the folded portion 13 .

In addition, as shown in FIG. 2, an annular recess 24 is formed on the outer peripheral side of the main lip 21 at a position facing the lip tip portion 23, and a garter spring 25 is fitted in the recess 24. there is The garter spring 25 pushes the lip tip portion 23 in the direction toward the axis x, and the lip tip portion 23 is attached to the slinger 4 so that the lip tip portion 23 follows the displacement of the cylindrical portion 42 of the slinger 4 caused by the displacement of the shaft. gives a straining force of a predetermined magnitude to the cylindrical portion 42 of the . The lip tip portion 23 contacts the outer peripheral surface 42a of the cylindrical portion 42 of the slinger 4 to seal the sealing device 1 (main lip portion 2) and the cylindrical portion 42 of the slinger 4, as will be described later.

As described above, the elastic body portion 20 has a portion that covers the main lip 21, the gasket portion 22, and the other reinforcing ring 10, and each portion is integrated. It is integrally formed from material.

The reinforcing ring 10 described above is made of a metal material, such as stainless steel or SPCC (cold rolled steel). As the elastic body of the elastic body portion 20, for example, there are various rubber materials. Examples of various rubber materials include synthetic rubbers such as nitrile rubber (NBR), hydrogenated nitrile rubber (H-NBR), acrylic rubber (ACM), and fluorine rubber (FKM).

The reinforcing ring 10 is manufactured by, for example, pressing or forging, and the elastic body portion 20 is molded by bridging (vulcanizing) molding using a molding die. At the time of this cross-linking molding, the reinforcing ring 10 is placed in a mold, the elastic body portion 20 is adhered to the reinforcing ring 10 by cross-linking adhesion, and the elastic body portion 20 and the reinforcing ring 10 are integrally molded. be done.

The dust seal portion 3 has the side lip 31 and the seal ring 32 as described above, and the dust seal portion 3 has the backup ring 33 and the mounting ring 34 . As shown in FIG. 1, the backup ring 33 is an annular member around an axis x that pushes the seal ring 32 inward. As shown in FIG. 1, the mounting ring 34 is an annular member around the axis x, and the side lip 31 is attached to the mounting ring 34. The mounting ring 34 has a facing portion 35 that faces the facing portion 11 of the reinforcing ring 10 in the direction of the axis x. It is located between 35.

Specifically, as shown in FIGS. 1 and 2, the mounting ring 34 includes a cylindrical portion 34a extending along the axis x and a facing portion 35 extending inwardly from the cylindrical portion 34a. and For example, as shown in FIGS. 1 and 2, the cylindrical portion 34a is a cylindrical or substantially cylindrical portion having the axis x as its central axis. The cylindrical portion 34a may extend linearly or may extend in a curved shape in cross section. The facing portion 35 is, for example, an annular plate-like portion extending radially about the axis x, as shown in FIGS. The facing portion 35 may be inclined with respect to the radial direction. The facing portion 35 may extend linearly or may extend curvedly in the cross section. In the mounting ring 34, the opposing portion 35 extends from, for example, an outer end portion of the cylindrical portion 34a, and the mounting ring 34 has a substantially L-shaped cross section.

The mounting ring 34 can be fitted to the main lip portion 2 at the cylindrical portion 34a. Specifically, the tubular portion 34 a is pressed against the main lip portion 2 toward the outer peripheral side at the portion of the tubular portion 12 of the reinforcing ring 10 . As shown in FIGS. 1 and 2, the inner peripheral surface 12b of the reinforcing ring 10 facing the inner peripheral side of the tubular portion 12 is covered with the elastic portion 20, and the tubular portion 34a is reinforced through the elastic portion 20. It is designed to be pressed against the cylindrical portion 12 of the ring 10 from the inner peripheral side. The inner peripheral surface 12b of the cylindrical portion 12 of the reinforcing ring 10 is not covered with the elastic body portion 20, and the cylindrical portion 34a is directly pressed against the cylindrical portion 12 of the reinforcing ring 10 from the inner peripheral side without the elastic body portion 20 interposed therebetween. It may be possible to Further, as will be described later, as shown in FIGS. 1 and 2, the outer peripheral surface 34b of the mounting ring 34 facing the outer peripheral side of the cylindrical portion 34a is covered with an elastic body forming the side lip 31. is pressed against the main lip portion 2 from the outer peripheral side via this elastic body. Further, the outer peripheral surface 34b of the cylindrical portion 34a of the mounting ring 34 is not covered with the elastic body forming the side lip 31, and the cylindrical portion 34a is directly pressed against the main lip portion 2 from the outer peripheral side. good too.

For example, when the mounting ring 34 is fitted to the main lip portion 2, the main seal portion 2 and the dust seal portion 3 are arranged so that the facing portion 35 of the mounting ring 34 is spaced apart from the reinforcing ring 35 by a predetermined distance in the direction of the axis x. 10 facing the facing portion 11 from the outside. For example, the mounting ring 34 fitted to the main lip portion 2 contacts the elastic body portion 20 or the facing portion 11 at the inner end portion of the tubular portion 34a. The distance in the direction of the axis x from the reinforcing ring 10 of the opposing portion 35 to the opposing portion 11 is determined.

The side lip 31 is made of an elastic material and is attached to the mounting ring 34 as described above. As shown in FIG. (Inside surface 41a) is contacted with a predetermined interference.

Specifically, the side lip 31 is formed as part of the side lip portion 30 , and the side lip portion 30 has an attachment portion 30 a that is attached to the attachment ring 34 . The mounting portion 30a is mounted so as to cover the outer peripheral surface 34b of the cylindrical portion 34a of the mounting ring 34 and the surface (outer surface 35a) of the opposing portion 35 facing the outside. The attachment portion 30a does not have to cover the outer peripheral surface 34b of the cylindrical portion 34a.

Moreover, the side lip 31 has a root portion 31b and a tip portion 31c. The root portion 31b is a portion extending from a portion covering the outer side surface 35a of the facing portion 35 of the mounting portion 30a, and has, for example, a cross-sectional shape that is curved so as to protrude toward the inner peripheral side. The tip portion 31c extends outward from the root portion 31b while being inclined toward the outer peripheral side, and has, for example, a conical cylindrical shape whose diameter increases outward in the direction of the axis x. A tip surface 31a is formed at the end portion on the outer peripheral side of the tip portion 31c. The side lip 31 may not have the root portion 31b and the tip portion 31c may extend from the mounting portion 30a.

As described above, the seal ring 32 is an annular member around the axis x. and a cylindrical or substantially cylindrical outer peripheral surface 32b. The inner peripheral surface 32 a is a surface facing the inner peripheral side of the seal ring 32 , and the outer peripheral surface 32 b is a surface facing the outer peripheral side of the seal ring 32 . An inner peripheral surface 32a of the seal ring 32 is adapted to contact the cylindrical portion 42 of the slinger 4. As shown in FIG. As described above, the seal ring 32 is made of a resin material, and the resin material of the seal ring 32 includes, for example, PTFE (polytetrafluoroethylene). The resin material of the seal ring 32 is not limited to PTFE.

As described above, the backup ring 33 is an annular member around the axis x, and as shown in FIG. have. The inner peripheral surface 33 a faces the inner peripheral side of the backup ring 33 and is formed so as to contact the outer peripheral surface 32 b of the seal ring 32 . The backup ring 33 is an elastic body made of an elastic material such as a rubber-like elastic material. The radial width is set so as to generate a repulsive force. The outer peripheral surface 33b of the backup ring 33 facing the outer peripheral side is formed, for example, so that an annular protrusion projecting to the outer peripheral side is formed. In the illustrated example, the outer peripheral surface 33b forms two protrusions. This projection makes it easier for the outer peripheral side of the backup ring 33 to elastically deform, thereby increasing the above-described repulsive force.

The backup ring 33 is provided between the outer side surface 11a of the facing portion 11 of the reinforcing ring 10 and the inner side surface 35b facing the inside of the facing portion 35 of the mounting ring 34, which face each other. The backup ring 33 may be sandwiched between the outer surface 11a of the facing portion 11 and the inner surface 35b of the facing portion 35. They may be provided with a gap therebetween. In the sealing device 1, if the elastically deformed backup ring 33 contacts the outer surface 11a of the facing portion 11 and the inner surface 35b of the facing portion 35, the backup ring 33 is tightened in the direction of the axis x. The radial repulsive force of the backup ring 33 described above can be increased. The shape of the backup ring 33 is not limited to the illustrated shape, and may be other shapes. For example, backup ring 33 may be an X-ring, an O-ring, a D-ring, or the like.

The side lip portion 30, that is, the side lip 31 is integrally formed of the same elastic material as the elastic body portion 20, and examples of the elastic material of the side lip 31 include various rubber materials. Examples of various rubber materials include synthetic rubbers such as nitrile rubber (NBR), hydrogenated nitrile rubber (H-NBR), acrylic rubber (ACM), and fluorine rubber (FKM). The mounting ring 34 is made of a metal material, such as stainless steel or SPCC (cold rolled steel).

The mounting ring 34 is manufactured, for example, by press working or forging, and the side lip portion 30 is formed by bridging (vulcanizing) molding using a molding die. During this cross-linking molding, the mounting ring 34 is placed in a molding die, the side lip portion 30 is adhered to the mounting ring 34 by cross-linking adhesion, and the side lip portion 30 and the mounting ring 34 are molded integrally. be done.

The slinger 4 is an annular member attached to a shaft when the sealing device 1 is used, which will be described later, and is an annular member centered or substantially centered on the axis x. As described above, the slinger 4 has the flange portion 41 , the tubular portion 42 , and the connection portion 43 that connects the flange portion 41 and the tubular portion 42 .

Specifically, as shown in FIG. 2 , the flange portion 41 is an annular or substantially annular plate-like portion centered on the axis x and extending in the radial direction from the outer end portion of the connection portion 43 . . An inner side surface 41a, which is a surface facing the inside of the flange portion 41, extends in the radial direction so as to be parallel or substantially parallel to a plane perpendicular to the axis x. The tip 31a of the side lip 31 of the dust seal portion 3 contacts the inner side surface 41a of the flange portion 41. As shown in FIG. The flange portion 41 may be inclined in the radial direction.

An edge 41b, which is an edge on the outer peripheral side of the flange portion 41, faces the main seal portion 2 from the inner peripheral side through an annular gap g, and the gap g forms a labyrinth seal. It's like Specifically, the edge 41b of the flange portion 41 faces the main seal portion 2 from the inner peripheral side of the cylinder portion 14b of the labyrinth portion 14 of the reinforcing ring 10 with a gap g therebetween. As shown in FIG. 2, when the cylindrical portion 14b of the labyrinth portion 14 is covered with the elastic body portion 20 from the inner peripheral side, the end edge 41b of the flange portion 41 extends from the elastic body portion 20 covering the cylindrical portion 14b. A gap g is formed between and to form a labyrinth seal. On the other hand, when the tubular portion 14b of the labyrinth portion 14 is not covered with the elastic body portion 20, the edge 41b of the flange portion 41 forms a gap g with the tubular portion 14b to form a labyrinth seal.

The cylindrical portion 42 of the slinger 4 is, as shown in FIG. It has a surface 42a. The lip tip portion 23 of the main lip 21 and the inner peripheral surface 32a of the seal ring 32 are in contact with the outer peripheral surface 42a over the entire circumference.

The connecting portion 43 of the slinger 4 is connected to the tubular portion 42 at its inner end and to the flange portion 41 at its outer end, thereby connecting the tubular portion 42 and the flange portion 41 . For example, as shown in FIG. 2, the connecting portion 43 has a shape that increases in diameter toward the outside in the direction of the axis x.

An elastic member 44 is attached to the inner peripheral surface 4a of the slinger 4 facing the inner peripheral side. The elastic member 44 is made of an elastic material such as a rubber elastic material, and covers the inner peripheral surface 4a. The inner peripheral surface 4 a of the slinger 4 and the elastic member 44 are compressed in the radial direction between the shaft and the inner peripheral surface 4 a of the slinger 4 when the shaft to be attached is inserted into the slinger 4 . , the elastic member 4 is in close contact with the outer peripheral surface of the shaft over the entire circumference. As a result, the sealing performance between the slinger 4 and the shaft can be improved when the sealing device 1 is used. The elastic member 44 may not be provided on the entire inner peripheral surface 4a of the slinger 4, and may be provided on at least a part of the cylindrical portion 42 in the direction of the axis x. Also, the slinger 4 may not have the elastic member 44 on the inner peripheral surface 4a. In this case, the cylindrical portion 42 of the slinger 4 is formed so as to be fittable on the shaft. That is, the inner diameter of the cylindrical portion 42 is smaller than the diameter of the outer peripheral surface of the shaft so that the cylindrical portion 42 can be tightly fitted to the shaft. The slinger 4 is not limited to being fixed by tightly fitting the elastic member 44 or the tubular portion 42 to the shaft, but may be fixed by bonding the tubular portion 42 to the shaft. It may be fixed to the shaft by the fixing method of .

The slinger 4 is made of a metal material. For example, SPCC (cold-rolled steel) is used as a base material, and the SPCC is subjected to a phosphate film treatment for rust prevention. Phosphate film treatment includes, for example, zinc phosphate film treatment. The slinger 4 with high anti-corrosion performance can suppress the occurrence of rust on the flange portion 41, which is a sliding portion with respect to the side lip 31, and can maintain the sealing function and sealing performance of the side lip 31 for a long time. . As the base material of the slinger 4, other metals such as stainless steel having excellent rust resistance and rust prevention properties may be used. Further, the antirust treatment of the base material of the slinger 4 may be other treatment such as metal plating.

As shown in FIG. 2, in the sealing device 1, the seal ring 32 may be positioned in the direction of the axis x. Specifically, the inner surface 32c facing the inside of the seal ring 32 contacts the outer surface 11a of the facing portion 11 of the reinforcing ring 10, and the outer surface 32d facing the outside of the seal ring 32 contacts the side lip portion 30. or the inner surface 35b of the facing portion 35 of the mounting ring 34. The inner side surface 32c of the seal ring 32 may face the outer side surface 11a of the facing portion 11 of the reinforcing ring 10 with a space therebetween in the direction of the axis x. Further, the outer surface 32d of the seal ring 32 may face the mounting portion 30a of the side lip portion 30 or the inner surface 35b of the facing portion 35 of the mounting ring 34 in the direction of the axis x with a space therebetween. This structure, which allows the seal ring 32 to be positioned in the direction of the axis x, allows the shape of the seal ring 32 to be simplified and the manufacture of the seal ring 32 to be simplified.

Next, the operation of the sealing device 1 having the configuration described above will be described. FIG. 3 is a partially enlarged cross-sectional view of the sealing device 1 in a state of use in which the sealing device 1 is attached to a housing 50 to which the sealing device 1 is attached and a shaft 52 inserted into a shaft hole 51 which is a hole formed in the housing 50. be. The axle 52 is, for example, an axle of a tractor, which is an agricultural machine. passes through the shaft hole 51 of the housing 50 to the outside of the housing 50 .

As shown in FIG. 3, when the sealing device 1 is in use, the sealing device 1 is press-fitted into the shaft hole 51 and fitted into the shaft hole 51, and the slinger 4 is fitted onto the shaft 52 by interference fit. It is Specifically, the cylindrical portion 12 of the reinforcement ring 10 of the main seal portion 2 is press-fitted into the shaft hole 51 , and the gasket portion 22 of the elastic body portion 20 is positioned between the inner peripheral surface 51 a of the shaft hole 51 and the reinforcement ring 10 . The main seal portion 2 is fixed to the shaft hole 51 by the radial repulsive force of the gasket portion 22 , which is radially compressed between the tubular portion 12 and the gasket portion 22 . In this state, the gasket portion 22 is in close contact with the inner peripheral surface 51a of the shaft hole 51, thereby sealing between the sealing device 1 and the shaft hole 51. As shown in FIG. In addition, the shaft 52 is press-fitted into the hollow portion of the slinger 4 , and the elastic member 44 attached to the inner peripheral surface 4 a of the slinger 4 moves radially between the tubular portion 42 of the slinger 4 and the outer peripheral surface 52 a of the shaft 52 . The slinger 44 is fixed to the shaft 52 by the radial repulsive force of the elastic member 44 which is compressed. In this state, the elastic member 44 is in close contact with the outer peripheral surface 52a of the shaft 52, so that the seal between the sealing device 1 and the shaft 52 is achieved.

The main seal portion 2 protrudes outward from the gasket portion 22 at the labyrinth seal portion 14 of the reinforcing ring 10, as shown in FIG. Therefore, when the main seal portion 2 is press-fitted into the shaft hole 51 as described above, the flange portion 14a of the labyrinth seal portion 14 comes into contact with the outer surface 50a of the housing 50 via the elastic body portion 20 or directly. The contact of the flange portion 14a of the labyrinth seal portion 14 determines the position of the main seal portion 2 in the housing 50 in the direction of the axis x.

When the sealing device 1 is attached to the shaft 52 and the shaft hole 51, the lip tip portion 23 of the main lip 21 of the main seal portion 2 is in contact with the outer peripheral surface 42a of the cylindrical portion 42 of the slinger 4. A relative position between the main seal portion 2 and the slinger 4 in the direction of the axis x is determined. In addition, the axial x direction between the main seal portion 2 and the dust seal portion 3 and the slinger 4 is adjusted so that the tip surface 31 a of the side lip 31 of the dust seal portion 3 contacts the inner surface 41 a of the flange portion 41 of the slinger 4 . relative positions in are determined. Further, in use, the gap g is formed between the edge 41b of the flange portion 41 of the slinger 4 and the cylindrical portion 14b of the labyrinth seal portion 14 of the main seal portion 2 to form a labyrinth seal. , the relative positions in the direction of the axis x between the main seal portion 2 and the slinger 4 are determined.

In this manner, when the sealing device 1 is in use, the gasket portion 22 of the elastic body portion 20 and the elastic member 44 of the slinger 4 respectively seal the outer peripheral side and the inner peripheral side of the sealing device 1 . Further, the lip tip portion 23 of the main lip 21 is in contact with the outer peripheral surface 42a of the cylindrical portion 42 of the slinger 4, and the slinger 4 is in contact with the main lip 21 so as to be slidable. A tight seal is provided between them. As a result, it is possible to prevent leakage of a sealed object such as grease in the housing 50 to the outside of the housing 50 . In addition, it is designed to prevent foreign matter such as muddy water and dust from entering the housing 50 from the outside.

In addition, the seal ring 32 is in contact with the outer peripheral surface 42a of the tubular portion 42 of the slinger 4 so that the slinger 4 can slide against the seal ring 32, so that the seal between the seal ring 32 and the slinger 4 is sealed. It is Further, the tip surface 31 a of the side lip 31 is in contact with the inner surface 41 a of the flange portion 41 of the slinger 4 , and the slinger 4 is slidably in contact with the side lip 31 . is hermetically sealed. This prevents foreign matter from entering the portion where the main lip 21 and the slinger 4 contact each other from the outside. In addition, the labyrinth seal formed between the edge 41b of the flange portion 41 and the portion of the labyrinth seal portion 14 of the main lip portion 2 can prevent foreign matter from entering the side lip 31 and the seal ring 32 side. Therefore, it is possible to further prevent foreign matter from entering the portion where the main lip 21 and the slinger 4 are in contact with each other. Therefore, it is possible to prevent the main lip 21 from being damaged due to foreign matter being caught in the main lip 21, and the sealing performance of the main lip 21 can be maintained for a long period of time.

Further, the seal ring 32 is made of a resin material, and wear of the seal ring 32 due to sliding can be reduced more than the wear due to sliding of a conventional rubber lip. Therefore, the foreign matter blocking performance of the seal ring 32 for preventing foreign matter from entering can be maintained for a longer time than in the conventional art. In addition, the seal ring 32 is pushed toward the inner peripheral side by the backup ring 33, so that the ability of the seal ring 32 to block foreign matter can be further improved.

In the sealing device 1 , the dust seal portion 3 is provided side by side with the main lip 21 in the direction of the axis x, and the dust seal portion 3 can be provided within the radial width range of the main seal portion 2 . Therefore, the addition of the dust seal (the side lip 31 and the seal ring 32 ) prevents or suppresses the radial width of the sealing device 1 from becoming larger than the radial width of the main seal portion 2 . As a result, the mounting space for the sealing device 1 in the mounting target can be reduced in the radial direction. Therefore, even if there is a restriction in the radial direction of the mounting space for the sealing device, the sealing device can be mounted depending on the object to be mounted. Moreover, when applying the sealing device 1, the sealing device 1 can be applied to the object to be attached without changing the shape of the object to be attached or without significantly changing the shape of the object to be attached.

As described above, the sealing device 1 according to the embodiment of the present invention can maintain foreign matter blocking performance for a long period of time.

Although the embodiments of the present invention have been described above, the present invention is not limited to the sealing device 1 according to the above-described embodiments of the present invention. including. Moreover, each configuration may be selectively combined as appropriate so as to achieve at least part of the above-described problems and effects. For example, the shape, material, arrangement, size, etc. of each component in the above embodiment may be changed as appropriate according to the specific usage of the present invention.

The sealing device 1 according to the embodiment of the present invention is applied to the axle and shaft hole of a tractor, but the application target of the sealing device according to the present invention is not limited to this, and other agricultural machines. The present invention can be applied to all configurations that can utilize the effects of the present invention, such as construction machines, vehicles, general-purpose machines, and industrial machines.

DESCRIPTION OF SYMBOLS 1... Sealing device, 2... Main seal part, 3... Dust seal part, 4... Slinger, 4a... Inner peripheral surface, 10... Reinforcement ring, 11... Opposed part, 11a... Outer surface, 12... Cylindrical part, 12a... Outer peripheral surface , 12b... Inner peripheral surface 13... Folded part 13a... Curved part 13b... Cylindrical part 14... Labyrinth part 14a... Flange part 14b... Cylindrical part 20... Elastic part 21... Main lip 22... Gasket portion 23 Lip tip portion 24 Recessed portion 25 Garter spring 30 Side lip portion 30a Mounting portion 31 Side lip 31a Tip surface 31b Root portion 31c Tip portion 32 Seal ring 32a Inner peripheral surface 32b Outer peripheral surface 32c Inner surface 32d Outer surface 33 Backup ring 33a Inner peripheral surface 33b Outer peripheral surface 34 Mounting ring 34a Cylindrical portion , 34b... Outer peripheral surface, 35... Opposite part, 35a... Outer surface, 35b... Inner surface, 41... Flange part, 41a... Inner surface, 41b... Edge, 42... Cylindrical part, 42a... Outer peripheral surface, 43... Connecting part , 44... Elastic member, 50... Housing, 50a... Outer surface, 51... Shaft hole, 51a... Inner peripheral surface, 52... Shaft, 52... Outer peripheral surface, g... Gap, x... Axis line

Claims (5)

A sealing device for sealing an annular gap between a shaft and a hole into which the shaft is inserted,
a main seal portion attached to the hole;
a dust seal portion fitted to the main seal portion;
a slinger attached to the shaft;
The main seal portion has an annular reinforcing ring around an axis, and an annular elastic body portion formed from an elastic body attached to the reinforcing ring and annular around the axis,
The elastic body portion has a main lip which is an annular lip around the axis and contacts the slinger from the outer peripheral side,
The slinger has a flange portion which is an annular portion around the axis extending toward the outer peripheral side,
The dust seal portion is located on one side of the main lip in the axial direction, and the dust seal portion is an annular lip around the axis that contacts the flange portion from the other side in the axial direction. A sealing device, comprising: a certain side lip; and a seal ring formed of resin in an annular shape around the axis and in contact with the slinger from the outer peripheral side. 2. The outer peripheral edge of the flange portion faces the main seal portion from the inner peripheral side through an annular gap, and the gap forms a labyrinth seal. sealing device. 3. The sealing device according to claim 1, wherein said dust seal portion has a backup ring which is an annular member around said axis for pushing said seal ring inwardly. The dust seal portion has a mounting ring that is an annular member around the axis, and the side lip is mounted on the mounting ring,
The reinforcing ring and the mounting ring have portions facing each other in the axial direction,
The backup ring is provided between the mutually facing portions of the reinforcing ring and the mounting ring,
The mounting ring has a tubular portion that is a tubular portion extending along the axis and a facing portion that is an annular portion that is a portion that faces the reinforcing ring extending toward the inner peripheral side from the tubular portion. has
The dust seal portion can be fitted to the main seal portion via the cylindrical portion of the mounting ring,
4. The sealing device according to claim 3, wherein the backup ring contacts the cylindrical portion of the mounting ring from the inner peripheral side. The sealing device according to any one of claims 1 to 4, wherein an elastic member is attached to the inner peripheral surface of the slinger.

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