JP7331477B2 - cross joint - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cross joint used for an intermediate shaft of a vehicle steering system or the like.

A vehicle steering system includes an intermediate shaft that connects a steering wheel-side column shaft and a steering gear-side steering shaft. Cross joints are provided between the column shaft and the intermediate shaft and between the steering shaft and the intermediate shaft, respectively, and the shafts are tiltably connected (see, for example, Patent Document 1). .

FIG. 5 is a diagram showing the conventional cross joint. As shown in FIG. 5, the cross joint 100 includes a cross shaft 104 having four shaft portions 102, a bottomed cylindrical outer ring 108 fitted onto the shaft portion 102 via a plurality of rollers 106, a shaft A sealing member 110 is provided to seal between the portion 102 and the outer ring 108 . The seal member 110 is provided to prevent muddy water or the like from entering the outer ring 108 .

FIG. 6(a) is an enlarged cross-sectional view of the seal member 110 in FIG.
6A, the outer ring 108 includes a cylindrical portion 108a whose inner peripheral surface serves as a rolling surface for the plurality of rollers 106, and an annular side plate extending radially inward from one axial end of the cylindrical portion 108a. and a portion 108b.
The seal member 110 includes an annular portion 112 fitted onto the outer peripheral surface 102 a of the shaft portion 102 , a dust lip 114 projecting from the annular portion 112 , and a main lip 116 .
The dust lip 114 protrudes axially from the radially outer side of the annular portion 112 . A lip portion 114 a that contacts the outer ring 108 is provided on the tip side of the dust lip 114 . Further, the main lip 116 protrudes axially from the radially inner side of the dust lip 114 in the annular portion 112 . A lip portion 116a that contacts the side plate portion 108b is provided on the tip side of the main lip 116 .

JP 2012-154414 A

In the seal member 110 , the dust lip 114 and the main lip 116 protrude from the annular portion 112 toward the other side in the axial direction and come into line contact with the outer ring 108 . Therefore, the dust lip 114 and the main lip 116 mainly have interference in the axial direction with respect to the outer ring 108 and press the outer ring 108 in the axial direction.

Here, due to variations in the dimensions of each component that occur during manufacturing, the effects of loads acting during operation, etc., variations occur in the axial relative positions of the outer ring 108 and the shaft portion 102, resulting in variations between the outer ring 108 and the shaft portion 102. The relative position in the axial direction may deviate from the proper position determined by design.

For example, when the position of the outer ring 108 shown in FIG. 6(a) is assumed to be an appropriate position, as shown in FIG. , 116 increases, and the lips 114, 116 are deformed. As a result, the tip side surfaces 114b, 116b of the lip portions 114a, 116a come into surface contact with the outer ring 108. The surface pressure of the portions 114a and 116a against the outer ring 108 may decrease.
If the surface pressure of each lip portion 114a, 116a is lowered, the sealing performance of the seal member 110 is lowered, and the muddy water resistance is lowered.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cross joint capable of suppressing deterioration in sealing performance even if the axial position of the outer ring relative to the shaft portion changes. aim.

A cross joint, which is the present invention for achieving the above object, comprises a cross shaft having four shaft portions arranged in a cross shape, and a shaft portion rotatably fitted on the shaft portions via a plurality of rollers. A cross joint comprising a bottomed cylindrical outer ring that is open on one side in the axial direction and a seal that seals between the shaft and the outer ring, wherein the seal is attached to the shaft. an annular portion fixed to a base end portion; and one or more annular lip bodies extending from the annular portion to the other side in the axial direction and having a lip portion at a distal end portion in contact with the outer ring; A plurality of lip bodies are provided with auxiliary lip portions that can come into contact with the outer ring and protrude from the tip side surfaces of the lip portions.

According to the cross joint configured as described above, even if the lip body is deformed due to a change in the axial position of the outer ring with respect to the shaft portion, and the tip side surface of the lip portion comes into surface contact with the outer ring and the surface pressure of the lip portion is reduced, The auxiliary lip portion protruding from the side surface of the tip contacts the outer ring, and the sealing performance can be maintained by the auxiliary lip portion. As a result, deterioration of sealing performance of the seal can be suppressed.

Further, in the above-described cross joint, the one or more lip bodies are deformed according to a change in the axial position of the outer ring with respect to the shaft portion, and the state of the one or more lip bodies when deformed is Preferably, at least a first state in which the lip portion contacts the outer ring and the auxiliary lip portion does not contact the outer ring, and a second state in which the auxiliary lip portion contacts the outer ring are included.
In this case, when the auxiliary lip portion does not need to function with the lip portion contacting the outer ring, the auxiliary lip portion does not contact the outer ring, and the auxiliary lip portion can be brought into contact with the outer ring only when necessary. .

Further, in the cross joint, the outer ring includes a cylindrical portion having an inner peripheral surface on which the plurality of rollers roll, and an annular side plate portion extending radially inward from one axial end of the cylindrical portion. and a curved portion that connects the cylindrical portion and the side plate portion, and the plurality of lip bodies include a first lip body in which the lip portion contacts the outer surface of the curved portion or the outer peripheral surface of the cylindrical portion. and a second lip body provided radially inward of the first lip body, the lip portion contacting the outer surface of the curved portion or the outer surface of the side plate portion, wherein the first lip body and the second lip body When both of the two lip bodies are in the first state and the outer ring is displaced to one side in the axial direction, the auxiliary lip portion of the first lip body and the auxiliary lip portion of the second lip body are in the first state. It is preferable that both the first lip body and the second lip body transition from the first state to the second state by contacting the outer ring.
In the first lip body, which contacts the outer surface of the curved portion or the outer peripheral surface of the cylindrical portion, a slight change in the axial position of the outer ring with respect to the shaft causes the tip side surface of the lip portion to contact the outer ring, and the surface pressure of the lip portion against the outer ring. Degradation can easily occur. On the other hand, by providing the first lip body with the auxiliary lip portion, it is possible to effectively suppress the deterioration of the sealing performance even if the contact pressure of the lip portion easily decreases.

Further, in the cross joint, the outer ring includes a cylindrical portion having an inner peripheral surface on which the plurality of rollers roll, and an annular side plate portion extending radially inward from one axial end of the cylindrical portion. and a curved portion connecting the cylindrical portion and the side plate portion, and the plurality of lip bodies include a first lip body in which the lip portion contacts the outer surface of the curved portion or the outer peripheral surface of the cylindrical portion. and when the outer ring is displaced to one side in the axial direction from the state in which the plurality of lip bodies are in the first state, the auxiliary lip portion of the first lip body is in a position other than the first lip body. It is preferable that the auxiliary lip portion of the lip body is provided so as to come into contact with the outer ring prior to the auxiliary lip portion.
As described above, the surface pressure of the lip portion of the first lip body that contacts the outer peripheral surface of the cylindrical portion may easily decrease. However, there is a possibility that the surface pressure of the lip portion may decrease at an earlier timing than the other lip bodies. In contrast, when the outer ring is displaced to one side in the axial direction, the auxiliary lip portion of the first lip body is provided so as to come into contact with the outer ring before the auxiliary lip portions of the other lip bodies. Even if the surface pressure of the lip portion of the first lip body is lowered prior to the decrease of the surface pressure of the second lip body, the auxiliary lip portion of the first lip body can be made to function at an appropriate timing. As a result, the auxiliary lip portion of the first lip body and the auxiliary lip portion of the other lip body can function properly.

ADVANTAGE OF THE INVENTION According to this invention, even if a change arises in the axial position of an outer ring|wheel with respect to an axial part, the deterioration of a sealing performance can be suppressed.

FIG. 1 is a side view of an intermediate shaft used in a vehicle steering system. FIG. 2 is a cross-sectional view taken along the line II-II in FIG. 1 and shows the cross joint according to the embodiment. FIG. 3 is an enlarged cross-sectional view of the main portion of the outer ring. 4(a) is an enlarged cross-sectional view of the seal member, and FIG. 4(b) is a state in which the outer ring has moved to one side in the axial direction from the state of FIG. 4(a), and the axial position of the outer ring 26 has changed. It is a cross-sectional view showing the. FIG. 5 is a diagram showing a conventional cross joint. 6(a) and 6(b) are cross-sectional views enlarging the seal portion.

Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.
[Overall composition]
FIG. 1 is a side view of an intermediate shaft used in a vehicle steering system.
In FIG. 1, one end of an intermediate shaft 2 is connected to a column shaft 4 to which a steering wheel of a vehicle is attached. A steering shaft 6 for steering wheels is connected to the other end of the intermediate shaft 2 via a steering gear box or the like.
A cross joint 10 is provided between the intermediate shaft 2 and the column shaft 4 to connect the shafts 2 and 4 so as to be tiltable. A cross joint 10 is also provided between the intermediate shaft 2 and the steering shaft 6 to connect the two shafts 2 and 6 so that they can tilt.

The cross joint 10 provided between the intermediate shaft 2 and the column shaft 4 includes a pair of yokes 12 provided at the end of the intermediate shaft 2 and a pair of yokes 12 provided at the end of the column shaft 4. A yoke 14 and a cross shaft 20 connecting the pair of yokes 12 and the pair of yokes 14 in a combined state.
A cross joint 10 provided between the intermediate shaft 2 and the steering shaft 6 also includes a pair of yokes 12 provided at the end of the intermediate shaft 2 and a pair of yokes 12 provided at the end of the steering shaft 6. A yoke 14 and a cross shaft 20 connecting the pair of yokes 12 and the pair of yokes 14 in a combined state.
The cross joints 10 provided at both ends of the intermediate shaft 2 have the same structure. Therefore, in the following description, the cross joint 10 between the intermediate shaft 2 and the steering shaft 6 will be described.

FIG. 2 is a sectional view taken along line II-II in FIG.
A pair of yokes 14 provided on the steering shaft 6 are provided at their ends with bearing holes 14a having the same axial line. In addition, bearing holes 12a having the same axial line are also provided at the ends of a pair of yokes 12 provided on the intermediate shaft 2. As shown in FIG.

The cross shaft 20 has a body portion 22 and four shaft portions 24 protruding in four directions from the body portion 22 in a cross shape. The cross shaft 20 is a member formed using steel for machine structural use or the like, and a body portion 22 and a shaft portion 24 are integrally formed by forging or the like.
A plurality of needle rollers 28 that roll on the outer peripheral surface 24a of each shaft portion 24 are arranged.

An outer ring 26 is fitted onto each shaft portion 24 via a plurality of needle rollers 28 .
The outer ring 26 is a member formed using steel for machine structural use or the like, and is formed in a cylindrical shape with a bottom that is open on one side in the axial direction. The outer ring 26 has a cylindrical portion 40 and a bottom portion 42 that closes the opening of the cylindrical portion 40 on the other side in the axial direction.
A plurality of needle rollers 28 are arranged between the inner peripheral surface 40 a of the cylindrical portion 40 and the outer peripheral surface 24 a of the shaft portion 24 so as to be free to roll. As a result, the outer ring 26 is rotatably fitted onto the shaft portion 24 .

As shown in FIG. 2, each outer ring 26 is press-fitted into the bearing holes 12a, 14a of the yokes 12, 14. As shown in FIG. Therefore, the cross shaft 20 is rotatable with respect to the yokes 12 and 14, and the yokes 12 and 14 are tiltable relative to each other. Thereby, the cross joint 10 connects the intermediate shaft 2 and the steering shaft 6 so as to be tiltable.

[About sealing material]
A seal member 30 is provided on the inner peripheral surface side of the outer ring 26 to seal the gap between the outer ring 26 and the shaft portion 24 .
FIG. 3 is an enlarged cross-sectional view of the main portion of the outer ring.
The outer ring 26 includes, in addition to the above-described cylindrical portion 40, an annular side plate portion 44 extending radially inward from one axial end of the cylindrical portion 40, and a curved portion 46 connecting the cylindrical portion 40 and the side plate portion 44. have

The side plate portion 44 is provided so as to be able to come into contact with the end surfaces 28a of the plurality of needle rollers 28, and restricts the movement of the plurality of needle rollers 28 to one side in the axial direction relative to the side plate portion 44. That is, the axial positions of the plurality of needle rollers 28 are defined by the bottom portion 42 and the side plate portions 44 .

The seal member 30 is fixed to the outer peripheral surface 24 a of the shaft portion 24 .
The seal member 30 includes an annular portion 32 externally fitted and fixed to the outer peripheral surface 24a of the shaft portion 24, a dust lip 34 (first lip body) in contact with the outer ring 26, and a dust lip 34 provided radially inward. , and a main lip 36 (second lip body) that contacts the outer ring 26 .
Note that FIG. 3 shows the shape of the dust lip 34 and the main lip 36 in a free state.

The annular portion 32 has an annular core metal 32a and an elastic body portion 32b made of an elastic material such as nitrile rubber. The annular portion 32 is externally fitted and fixed to the outer peripheral surface 24 a of the shaft portion 24 . Further, the annular portion 32 is in contact with a step surface 24 b rising from the outer peripheral surface 24 a of the shaft portion 24 and is fixed to the base end portion of the shaft portion 24 .
The core metal 32a is a member formed by press-molding a steel plate or the like. It has a connecting portion 32a3. One axial side of the connecting portion 32a3 is exposed and is in contact with the stepped surface 24b.

The elastic body portion 32b is vulcanized on the outer surface of the cored bar 32a and has an annular shape. The elastic body portion 32b has a fixing portion 32b1 interposed between the inner cylindrical portion 32a2 and the outer peripheral surface 24a of the metal core 32a and fixing the annular portion 32 to the shaft portion 24. As shown in FIG. The fixed portion 32b1 is elastically compressed in a state where the annular portion 32 is fitted onto the outer peripheral surface 24a, and tightens the shaft portion 24 by the repulsive force. The annular portion 32 is firmly fixed to the outer peripheral surface 24a by the tightening force of the fixing portion 32b1.

The dust lip 34 and the main lip 36 extend from the inner peripheral surface 32b2 of the elastic body portion 32b to the other side in the axial direction. The radial position of the dust lip 34 is provided so as to substantially match the radial position of the outer cylindrical portion 32a1 of the metal core 32a. Further, the radial position of the main lip 36 is provided so as to substantially match the radial position of the inner cylindrical portion 32a2 of the cored bar 32a. As a result, the influence of deformation of the dust lip 34 and the main lip 36 can be suppressed from reaching the annular portion 32, and the dust lip 34 and the main lip 36 can be stably deformed.

The dust lip 34 and the main lip 36 are annularly formed of an elastic material such as nitrile rubber. The dust lip 34 and the main lip 36 are formed integrally with the elastic body portion 32b.
The main lip 36 mainly seals the space on the inner peripheral side of the outer ring 26, suppresses the grease in the space from flowing out to the outside, and allows muddy water and the like to enter the space on the inner peripheral side of the outer ring 26 from the outside. suppress the
The dust lip 34 is provided radially outward of the main lip 36 to prevent the main lip 36 from being directly exposed to dust, muddy water, etc. from the outside.

The dust lip 34 has a lip portion 50 that is provided on the tip side and contacts the outer ring 26 , and an auxiliary lip portion 52 that is provided on the inner peripheral side of the dust lip 34 and contacts the outer ring 26 .
The lip portion 50 is provided on the tip side of the dust lip 34 . The lip portion 50 has a chevron-shaped cross section and protrudes radially inward. A tip 50 a of the lip portion 50 makes line contact with the outer surface 46 a of the curved portion 46 or the outer peripheral surface 40 b of the cylindrical portion 40 .
The auxiliary lip portion 52 is provided on the inner peripheral side of the dust lip 34 and on the root side (one side in the axial direction) of the lip portion 50 . The auxiliary lip portion 52 is formed to have a chevron-shaped cross section and protrudes radially inward. The auxiliary lip portion 52 is provided so as to protrude from the tip side surface 50 b of the lip portion 50 . As will be described later, the tip 52a of the auxiliary lip portion 52 makes line contact with the outer ring 26 according to the deformation of the dust lip 34 caused by the change in the axial position of the outer ring 26. As shown in FIG.

The main lip 36 has a lip portion 54 provided at the tip and an auxiliary lip portion 56 provided on the inner peripheral side of the main lip 36 .
The lip portion 54 is provided on the tip side of the main lip 36 . The lip portion 54 is formed to have a chevron-shaped cross section and protrudes to one side in the axial direction. A tip 54 a of the lip portion 54 is in line contact with the outer surface 44 a of the side plate portion 44 .
The auxiliary lip portion 56 is provided on the inner peripheral side of the main lip 36 and on the root side (one side in the axial direction) of the lip portion 54 . The auxiliary lip portion 56 has a chevron-shaped cross section and protrudes radially inward. Further, the auxiliary lip portion 56 is provided so as to protrude from the tip side surface 54 b of the lip portion 54 . As will be described later, the tip 56a of the auxiliary lip portion 56 makes line contact with the outer ring 26 according to the deformation of the main lip 36 caused by the change in the axial position of the outer ring 26. As shown in FIG.

FIG. 4A is an enlarged sectional view of the seal member 30, showing a state where the lip portion 50 of the dust lip 34 and the lip portion 54 of the main lip 36 are in line contact.

4A, the tip 50a of the lip portion 50 of the dust lip 34 and the tip 54a of the lip portion 54 of the main lip 36 are in line contact, but the auxiliary lip portion 52 of the dust lip 34 and the tip 54a of the lip portion 54 of the main lip 36 are in line contact. The auxiliary lip portion 56 of the main lip 36 does not contact the outer ring 26 .

FIG. 4(b) shows a state in which the outer ring 26 has moved to one side in the axial direction from the state of FIG. 4(a), and the axial position of the outer ring 26 has changed.
In the state shown in FIG. 4(b), interference with the dust lip 34 and the main lip 36 is large. Therefore, the dust lip 34 is deformed so as to ride on the cylindrical portion 40 of the outer ring 26 . Therefore, the tip side surface 50b of the lip portion 50 comes into surface contact with the outer ring 26, and the surface pressure of the tip 50a of the lip portion 50 is reduced.
However, according to the deformation of the dust lip 34 , the tip 52 a of the auxiliary lip portion 52 protruding from the tip side surface 50 b is in line contact with the outer surface 46 a of the curved portion 46 of the outer ring 26 . As a result, even if the surface pressure of the lip portion 50 is reduced, the sealing performance of the dust lip 34 can be maintained.

Further, in FIG. 4B, the main lip 36 is deformed so as to stand radially outward. Therefore, the tip side surface 54b of the lip portion 54 is in surface contact with the outer ring 26, and the surface pressure of the tip 54a of the lip portion 54 is reduced.
However, according to the deformation of the main lip 36 , the tip 56 a of the auxiliary lip portion 56 protruding from the tip side surface 54 b is in line contact with the outer surface 44 a of the side plate portion 44 of the outer ring 26 . As a result, even if the surface pressure of the lip portion 54 is reduced, the sealing performance of the main lip 36 can be maintained.

As described above, in the present embodiment, the deformation of the dust lip 34 (main lip 36) caused by the change in the axial position of the outer ring 26 with respect to the shaft portion 24 causes the tip side surface 50b of the lip portion 50 (the tip side surface 50b of the lip portion 54) to be deformed. Even if the tip side surface 54b) is in surface contact with the outer ring 26 and the surface pressure of the lip portion 50 (lip portion 54) is reduced, the auxiliary lip portion 52 (auxiliary lip portion 56) is in line contact with the outer ring 26 and the auxiliary lip portion 52 (Auxiliary lip portion 56) can maintain sealing performance. As a result, deterioration of the sealing performance of the seal member 30 can be suppressed.

Further, in this embodiment, as shown in FIGS. 4A and 4B, the dust lip 34 (main lip 36) is deformed according to the change in the axial position of the outer ring 26 with respect to the shaft portion 24. The state of the dust lip 34 (main lip 36) at this time is at least the first state (Fig. 4 ( a)) and a second state (FIG. 4(b)) in which the auxiliary lip portion 52 (56) is in line contact with the outer ring 26. FIG.

That is, when the position of the outer ring 26 is displaced to one side in the axial direction from the case where both the dust lip 34 and the main lip 36 are in the first state, the auxiliary lip portion 52 of the dust lip 34 and the auxiliary lip portion 52 of the main lip 36 The portion 56 is provided so as to contact the outer ring 26 . Therefore, when the position of the outer ring 26 is displaced to one side in the axial direction from the state in which both the dust lip 34 and the main lip 36 are in the first state, the dust lip 34 and the main lip 36 are shifted from the first state to the first state. Transition to two states.
As a result, when there is no need for the auxiliary lip portions 52 and 56 to function with the lip portions 50 and 54 in line contact with the outer ring 26, the auxiliary lip portions 52 and 56 are not brought into contact with the outer ring 26 and can be moved when necessary. The auxiliary lip portions 52 and 56 can be brought into line contact with the outer ring 26 only by

Further, since the dust lip 34 contacts the outer surface 46 a of the curved portion 46 or the outer peripheral surface 40 b of the cylindrical portion 40 , even a slight change in the axial position of the outer ring 26 with respect to the shaft portion 24 causes the tip side surface 50 b of the lip portion 50 to move toward the outer ring. 26, and the contact pressure of the lip portion 50 against the outer ring 26 may easily decrease. In contrast, by providing the dust lip 34 with the auxiliary lip portion 52, even if the surface pressure of the lip portion 50 of the dust lip 34 is easily reduced, the deterioration of the sealing performance can be effectively suppressed.

Further, as described above, the surface pressure of the lip portion 50 of the dust lip 34 may easily decrease. There is a risk that the surface pressure of the lip portion 50 will decrease at an early timing.
In contrast, in this embodiment, when the outer ring 26 is displaced to one side in the axial direction from the first state in which both the dust lip 34 and the main lip 36 are in the first state, the auxiliary lip portion 52 of the dust lip 34 is , is provided so as to make line contact with the outer ring 26 prior to the auxiliary lip portion 56 of the main lip 36 .
As a result, even if the surface pressure of the lip portion 50 of the dust lip 34 decreases before the main lip 36, the auxiliary lip portion 52 of the dust lip 34 can function at an appropriate timing. As a result, the auxiliary lip portion 52 of the dust lip 34 and the auxiliary lip portion 56 of the main lip 36 can function properly.

〔others〕
It should be noted that the present invention is not limited to the above embodiments.
In the above embodiment, the seal member 30 includes the dust lip 34 and the main lip 36, but the seal member 30 may include at least one lip. Also, three or more lips may be provided.

Further, the shapes of the lip portions 50, 54 of the dust lip 34 and the main lip 36 and the shapes of the auxiliary lip portions 52, 56 shown in the above embodiment are merely examples, and the axial direction of the outer ring 26 with respect to the shaft portion 24 Even if the dust lip 34 and the main lip 36 are deformed due to the change in position and the tip side surfaces 50b and 54b of the lip portions 50 and 54 come into surface contact with the outer ring 26 and the surface pressure of the lip portions 50 and 54 is reduced, the tip side surfaces As long as they project from 50b and 54b and are provided so as to be in line contact with the outer ring 26, their shape may be changed as appropriate.

2 intermediate shaft 4 column shaft 6 steering shaft 10 cross joint 12 yoke 12a bearing hole 14 yoke 14a bearing hole 20 cross shaft 22 body 24 shaft 24a outer peripheral surface 24b stepped surface 26 outer ring 28 needle roller 28a end surface 30 sealing member 32 Annular Part 32a Core Metal 32b Elastic Body Part 32a1 Outer Peripheral Tube Part 32a2 Inner Peripheral Tube Part 32a3 Connecting Part 32b1 Fixing Part 32b2 Inner Peripheral Surface 34 Dust Lip 36 Main Lip 40 Cylindrical Part 40a Inner Peripheral Surface 40b Peripheral Surface 42 Bottom Part 44 Side Plate Part 44a outer surface 46 curved portion 46a outer surface 50 lip portion 50a tip 50b tip side surface 52 auxiliary lip portion 52a tip 54 lip portion 54a tip 54b tip side surface 56 auxiliary lip portion 56a tip

Claims (2)

A cross shaft having four shafts arranged in a cross shape, and a bottomed cylindrical outer ring that is rotatably fitted onto the shafts via a plurality of rollers and is open on one side in the axial direction. and a seal that seals between the shaft portion and the outer ring,
The seal includes one or more annular lip bodies each having an annular portion fixed to the base end portion of the shaft portion, and a lip portion extending from the annular portion to the other side in the axial direction and contacting the outer ring at the tip end portion. and
The one or more lip bodies are provided with an auxiliary lip portion capable of coming into contact with the outer ring and protruding from a tip side surface of the lip portion,
The one or more lip bodies are deformed in accordance with a change in the axial position of the outer ring with respect to the shaft portion. a first state in which the auxiliary lip portion contacts the outer ring and the auxiliary lip portion does not contact the outer ring; and a second state in which both the lip portion and the auxiliary lip portion contact the outer ring;
The outer ring includes a cylindrical portion having an inner peripheral surface on which the plurality of rollers roll, an annular side plate portion extending radially inward from one axial end of the cylindrical portion, and the cylindrical portion and the side plate. and a curved portion connecting the portions,
The plurality of lip bodies are
a first lip body in which the lip portion contacts the outer surface of the curved portion or the outer peripheral surface of the cylindrical portion;
a second lip body provided radially inward of the first lip body, the lip portion contacting the outer surface of the curved portion or the outer surface of the side plate portion;
When both the first lip body and the second lip body are in the first state and the outer ring is displaced to one side in the axial direction, the auxiliary lip portion of the first lip body and the second lip The auxiliary lip portion of the main body contacts the outer ring, and both the first lip body and the second lip body transition from the first state to the second state.
cross joint. A cross shaft having four shafts arranged in a cross shape, and a bottomed cylindrical outer ring that is rotatably fitted onto the shafts via a plurality of rollers and is open on one side in the axial direction. and a seal that seals between the shaft portion and the outer ring,
The seal includes one or more annular lip bodies each having an annular portion fixed to the base end portion of the shaft portion, and a lip portion extending from the annular portion to the other side in the axial direction and contacting the outer ring at the tip end portion. and
The one or more lip bodies are provided with an auxiliary lip portion capable of coming into contact with the outer ring and protruding from a tip side surface of the lip portion,
The one or more lip bodies are deformed in accordance with a change in the axial position of the outer ring with respect to the shaft portion. a first state in which the auxiliary lip portion contacts the outer ring and the auxiliary lip portion does not contact the outer ring; and a second state in which both the lip portion and the auxiliary lip portion contact the outer ring;
The outer ring includes a cylindrical portion having an inner peripheral surface on which the plurality of rollers roll, an annular side plate portion extending radially inward from one axial end of the cylindrical portion, and the cylindrical portion and the side plate. and a curved portion connecting the portions,
The plurality of lip bodies are
The lip portion includes a first lip body that contacts the outer surface of the curved portion or the outer peripheral surface of the cylindrical portion,
When the plurality of lip bodies are in the first state and the outer ring is displaced to one side in the axial direction, the auxiliary lip portion of the first lip body is displaced from the other lip bodies other than the first lip body. is provided so as to contact the outer ring before the auxiliary lip portion of
cross joint.

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