JP2011208725A - Tapered roller bearing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tapered roller bearing improved in assemblability.SOLUTION: This tapered roller bearing includes: an inner ring 10; an outer ring 20; a plurality of tapered rollers 30; and a retainer 40. The inner ring 10 is formed with a large flange 12 which guides a large end surface 32 of the plurality of tapered rollers 30, in a large-diameter side end part of an inner ring raceway surface 11, and is formed with a small flange 15 which guides a small end surface 33 of the plurality of tapered rollers 30, in a small-diameter side end part of the inner ring raceway surface 11. A small-diameter side end part of a pocket 43 of the retainer 40 is formed with a contact part 47, which can be brought into contact with a part positioning on the inner diameter side of the retainer 40 than the position of the center of gravity of the tapered roller 30 in a small end surface 33 of the tapered roller 30.

Description

  The present invention relates to a tapered roller bearing.

2. Description of the Related Art Conventionally, tapered roller bearings used for vehicle differential devices and the like have been required to have low torque for improving fuel efficiency.
Therefore, in order to improve the torque reduction by restricting the inflow amount of the lubricating oil flowing into the tapered roller bearing, as shown in FIG. 12, the inner ring 510 of the tapered roller bearing is connected to the small diameter side from the small collar 515. The extension portion 517 is formed by extending outward in the axial direction. On the other hand, by forming a small-diameter side flange 545 with a slight gap S ′ toward the outer peripheral surface of the small-diameter side extension 517 of the inner ring 510 at the small-diameter end edge of the small-diameter-side annular portion 542 of the cage 540, lubricating oil Limiting the amount of inflow is being developed by the same applicant.
In such a tapered roller bearing, as shown in FIG. 13, when the inner ring 510, the plurality of tapered rollers 530, and the cage 540 are assembled by the tapered roller bearing assembling apparatus, first, the roller assembly table 550 is held. The taper hole 551 and the roller opening jig 560 are set with the small-diameter side flange 545 of the cage 540 facing downward.
Next, a plurality of tapered rollers 530 are introduced from a roller feeding device (not shown) between the opening jig 560 and the retainer 540 with the small end surface 533 facing downward, and then the roller opening jig 560 is rotated about the rotation center. By rotating around a line (vertical line), each tapered roller 530 is brought down along the inner peripheral surface of the roller holding taper hole 551 through the plurality of pockets 543 of the cage 540.
Thereafter, the inner ring 510 placed on the roller opening jig 560 is lowered together with the opening jig 560 and inserted into the array of the plurality of tapered rollers 530. Then, in a state where the plurality of tapered rollers 530 are disposed between the large collar 512 and the small collar 515 of the inner ring 510, the diameter of the cage 540 is reduced, so that the inner ring 510, the plurality of tapered rollers 530, and the cage 540 (see FIG. 12).
Moreover, in the tapered roller bearing, for example, Patent Document 1 discloses that a tapered roller is assembled in a pocket of a cage by its own weight.
In this case, a protrusion is provided on the inner side of the end portion of the small-diameter side flange of the cage, which is on the inner diameter side of the pitch circle of the small end surface of the tapered roller.

Japanese Patent Application Laid-Open No. 8-177851

By the way, in the tapered roller bearing shown in FIG. 12, after the retainer 540 and the plurality of tapered rollers 530 are disposed between the holding taper hole 551 of the assembly table 550 and the roller opening jig 560, the roller opening is performed. When the jig 560 rotates and the plurality of tapered rollers 530 are tilted along the inner peripheral surface of the holding taper hole 551, for example, one of the plurality of tapered rollers 530 has one tapered roller 530 a of the holding taper hole 551. There is a case where it bounces back to the inner peripheral surface and returns to a standing state.
In this case, when the inner ring 510 is inserted into the center of the arrangement circle of the plurality of tapered rollers 530, as shown in FIG. 14, the collar 515 of the inner ring 510 lowered together with the opening jig 560 is raised. It collides with the large end surface 532 of the tapered roller 530a in a state and cannot be assembled.
Further, in the tapered roller bearing disclosed in Patent Document 1, the inner diameter dimension of the flange on the small diameter side of the cage is set larger than the outer diameter dimension of the small collar of the inner ring. For this reason, even if a protrusion is provided on the small-diameter side flange of the cage, it is impossible to contact the small end surface of the tapered roller.
That is, in the tapered roller bearing shown in the figure, the invention disclosed in Patent Document 1 cannot be adopted.

  In view of the above problems, an object of the present invention is to provide a tapered roller bearing capable of improving the assemblability of the tapered roller bearing.

In order to solve the above problems, a tapered roller bearing according to claim 1 of the present invention is a tapered roller bearing including an inner ring, an outer ring, a plurality of tapered rollers, and a cage,
The inner ring is formed with a large brim for guiding the large end surfaces of the plurality of tapered rollers at the large diameter side end portion of the inner ring raceway surface, and the plurality of tapered rollers at the small diameter side end portion of the inner ring raceway surface. A small brim that guides the small end face is formed,
The cage includes a large-diameter side annular portion, a small-diameter side annular portion, and a plurality of pillar portions that connect the both annular portions and define pockets for holding the plurality of tapered rollers. And
A portion of the small-diameter side end portion of the pocket is positioned such that the small end surface of the tapered roller faces downward, and the small end surface of the tapered roller is located closer to the inner diameter side of the retainer than the center of gravity of the tapered roller. The roller contact part which can contact is formed.

According to the above configuration, when the inner ring, the plurality of tapered rollers, and the cage are assembled by the tapered roller bearing assembly device, the plurality of tapered rollers are inserted between the opening jig and the cage from the roller feeding device. When the opening jig is rotated, the small end surface of the tapered roller comes into contact with the roller contact portion at the small-diameter side end of the pocket, and all the tapered rollers pass through the plurality of pockets of the cage to form the roller holding taper holes. It falls along the inner peripheral surface and is kept in this state.
As described above, all the tapered rollers can be brought down along the inner peripheral surface of the roller holding taper hole by the configuration in which the roller contact portion at the small-diameter side edge of the pocket of the cage is pressed. It is possible to prevent a problem that the roller is in an unexpected posture due to a bad fall of the roller or rebounding.
For this reason, the small brim of the inner ring lowered together with the opening jig is inserted well without colliding with the large end face of the tapered roller.
As a result, the inability to assemble due to the standing tapered roller can be eliminated, and the assemblability can be improved.

The tapered roller bearing according to claim 2 is the tapered roller bearing according to claim 1,
On the small diameter side end of the inner ring, a small diameter side extension extending from the small brim to the axial direction outward is formed,
A small-diameter flange that limits the flow rate of the lubricating oil is formed on the small-diameter side end edge of the small-diameter-side annular portion of the cage by facing the outer peripheral surface of the small-diameter-side extension of the inner ring with a slight gap. It is characterized by.

According to the above configuration, the flow rate of the lubricating oil can be limited by the small-diameter side flange portion of the cage facing the outer peripheral surface of the small-diameter side extension portion of the inner ring with a slight gap, thereby improving the reduction in torque. Can be planned.
In addition, when a small-diameter flange with a slight gap between the inner ring and the small-diameter side extension of the inner ring is formed on the small-diameter side edge of the cage, the inner diameter dimension of the small-diameter side flange is inevitably required. Must be smaller than. For this reason, compared with the case where the inner diameter of the small-diameter side edge of the cage is larger than the small collar portion of the inner ring, the outer diameter dimension of the roller opening jig becomes smaller and the rollers are more difficult to fall. As a result, the problem of assembly is particularly likely to occur, but the inner peripheral surface of the tapered roller hole for holding all tapered rollers is configured by pressing the small end surface of the roller at the roller contact portion of the small diameter side edge of the cage pocket. It can be defeated along and can improve the assemblability.

The tapered roller bearing according to claim 3 is the tapered roller bearing according to claim 1 or 2,
The roller contact portion is formed by a protruding piece formed by protruding a small-diameter side end portion of the pocket in the inner diameter direction.

According to the said structure, a roller contact part can be easily formed by forming a protrusion piece in the small diameter side edge part of a pocket.
Further, when the cage is made of a thin steel plate, it can be easily formed by bending a protruding piece constituting the roller contact portion in the same direction as the punching direction in the step of punching the pocket.

The tapered roller bearing according to claim 4 is the tapered roller bearing according to claim 1 or 2,
The roller contact portion is formed such that the small-diameter side of the cage is positioned below and the center line forms a vertical line, and the small-diameter side end of the pocket is formed on an inclined surface whose inner peripheral side is higher than the outer peripheral side. It is characterized by comprising an inclined surface.

According to the said structure, a roller contact part can be easily formed by forming the small diameter side edge part of a pocket in an inclined surface.
Further, when the cage is made of a thin steel plate, it is possible to punch the small-diameter side end portion into the inclined surface in the step of punching the pocket.

The tapered roller bearing according to claim 5 is the tapered roller bearing according to claim 1 or 2,
The roller contact portion is formed by a small-diameter side end portion of the pocket formed on the small-diameter cylindrical portion of the narrow-diameter cylindrical portion of the narrow-diameter portion of the cage. It is characterized by being.

  According to the above configuration, the roller contact portion can be easily formed by forming the small-diameter side end portion of the pocket in the small-diameter cylindrical portion that is stepped in the small-diameter portion side portion of the cage and narrowed to a small diameter. it can.

It is a longitudinal cross-sectional view which shows the tapered roller bearing which concerns on Example 1 of this invention. It is a longitudinal cross-sectional view which expands and similarly shows the assembly state of an inner ring, an outer ring, a tapered roller and a cage. It is a perspective view which fractures | ruptures and shows a part of cage similarly. It is explanatory drawing which shows the state by which the several tapered roller was thrown into the holder | retainer set to the assembly table of the assembly apparatus of the tapered roller bearing similarly. It is explanatory drawing which shows the state by which the several tapered roller was fallen along the taper hole for roller holding | maintenance similarly by the roller opening jig | tool. Similarly, when the tapered roller is in a state of being tilted along the roller holding taper hole, the state where the small end surface of the tapered roller is brought into contact with the roller contact portion of the cage and the tapered roller is held in the tilted position is enlarged. It is explanatory drawing shown. It is explanatory drawing which shows the state by which the inner ring | wheel was similarly mounted in the upper surface of a roller opening jig | tool. It is explanatory drawing which shows the state by which the inner ring | wheel was similarly lowered | hung with the roller opening jig | tool. It is explanatory drawing which shows the state by which the diameter reduction process of the cage | basket was similarly carried out, and the some tapered roller was assembled between the large collar and the small collar of an inner ring | wheel. It is explanatory drawing which shows the contact state of the roller contact part of the retainer which concerns on Example 2 of this invention, and the small end surface of a tapered roller. It is explanatory drawing which shows the contact state of the roller contact part of the retainer which concerns on Example 2 of this invention, and the small end surface of a tapered roller. It is a longitudinal cross-sectional view which shows the tapered roller bearing under development by the same application. It is explanatory drawing which shows the case where one tapered roller is returned to the standing state when a plurality of tapered rollers are similarly fallen along the roller holding taper hole by the roller opening jig. It is explanatory drawing which shows the state which collided with the big end surface of the tapered roller in which the small collar of the inner ring | wheel descend | fallen with the opening jig | tool similarly is standing.

  A mode for carrying out the present invention will be described in accordance with an embodiment.

A first embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 1, the tapered roller bearing includes an inner ring 10, an outer ring 20, a plurality of tapered rollers 30, and a cage 40.

As shown in FIG. 2, the inner ring 10 has a conical inner ring raceway surface 11 formed on the outer peripheral surface thereof. On the large diameter side end of the inner ring raceway surface 11 of the inner ring 10, a large collar 12 having a roller guide surface 13 for guiding the large end surfaces 32 of the plurality of tapered rollers 30 on the side surface is formed.
A small brim 15 having a roller guide surface 16 on the side for guiding the small end surfaces 33 of the plurality of tapered rollers 30 is formed at the small diameter side end of the inner ring raceway surface 11 of the inner ring 10.
Further, the inner ring 10 is formed with a cylindrical small-diameter side extension 17 that extends from the small collar 15 outward in the axial direction.

  As shown in FIG. 2, a conical outer ring raceway surface 21 is formed on the inner peripheral surface of the outer ring 20 so as to face the inner ring raceway surface 11 of the inner ring 10. A plurality of tapered rollers 30 are disposed between the inner and outer raceway surfaces 11 and 21 so as to be able to roll, and a large end surface 32 of these tapered rollers 30 is a roller guide surface of the large collar 12 of the inner ring 10. 13, the small end surface 33 of the tapered roller 30 is guided to the roller guide surface 16 of the small collar 15.

As shown in FIGS. 2 and 3, the retainer 40 is formed into a substantially conical cylinder shape by pressing a thin steel plate material, for example, and has a large-diameter side annular portion 41 and a small-diameter side annular portion. 42, and a plurality of column portions 44 that connect both the annular portions 41, 42 and define a pocket 43 that holds the plurality of tapered rollers 30 individually.
Further, a small-diameter side flange portion 45 is formed in an annular shape with a slight gap S toward the outer peripheral surface of the small-diameter side extension portion 17 of the inner ring 10 at the edge of the small-diameter side annular portion 42 of the cage 40. The inflow amount of the lubricating oil is limited by the cooperation of the small diameter side flange 45 and the small diameter side extension 17.

  In the first embodiment, when the diameter of the inner peripheral edge of the small-diameter side flange 45 is A, the outer diameter of the small-diameter extension 17 is B, and the outer diameter of the small collar 15 is C, “C > A> B ”. Furthermore, when a diameter dimension of a roller opening jig 60 to be described later is D, a relationship of “A> D” is set (see FIG. 4).

As shown in FIGS. 2 and 3, a roller contact portion 47 capable of contacting the small end surface 33 of the tapered roller 30 is formed at the small diameter side end portion of the pocket 43 of the cage 40.
In the first embodiment, the roller contact portion 47 is configured by a protruding piece 48 formed by protruding the center portion in the width direction of the small diameter side end portion of the pocket 43 in the inner diameter direction by bending.

  As shown in FIG. 6, the tip end portion of the protruding piece 48 as the roller contact portion 47 is inclined such that the small end surface 33 of the tapered roller 30 faces downward and the center line (rotation center) L of the tapered roller 30 is set. The tapered roller 30 is in an attitude of an angle θ1 (an inclination angle of the center line L of the tapered roller 30 when the tapered roller 30 is tilted in contact with the holding taper hole 51 of the assembly table 50 as shown in FIG. 6). It is formed so as to be able to contact the portion of the small end surface 33 of the tapered roller 30 so as to be positioned on the inner diameter side of the retainer 40 by a distance α1 from the center of gravity position P1.

The tapered roller bearing according to the first embodiment is configured as described above.
Therefore, as shown in FIG. 2, there is a slight gap S between the inner peripheral surface of the small diameter side flange 45 of the small diameter side annular portion 42 of the cage 40 and the outer peripheral surface of the small diameter side extension portion 17 of the inner ring 10. Since the inflow amount of the lubricating oil can be limited by the cooperation between the small-diameter side flange 45 and the small-diameter side extension portion 17, the effect is greatly improved in reducing the torque.

Next, an assembling method for assembling the inner ring, the plurality of tapered rollers, and the cage with the tapered roller bearing assembling apparatus will be described with reference to FIGS.
As shown in FIG. 4, first, between the holding taper hole 51 of the roller assembly table 50 and the roller opening jig 60, the holder 40 is set with the small-diameter side flange 45 facing downward.
Next, a plurality of tapered rollers 30 are inserted from a roller charging device (not shown) between the insertion groove 61 on the outer peripheral surface of the opening jig 60 and the inner peripheral surface of the retainer 40 with the small end surface 33 facing downward. To do.

Here, as shown in FIG. 5, by rotating the roller opening jig 60 around the rotation center line (vertical line), each tapered roller 30 passes through the plurality of pockets 43 of the retainer 40 and has a roller holding taper hole 51. Defeated along (in contact with) the inner periphery of
When the tapered roller 30 is tilted in contact with the inner peripheral surface of the holding taper hole 51, the tip end portion of the protruding piece 48 serving as the roller contact portion 47 at the small diameter side end portion of the pocket 43 is located at the center of gravity P of the tapered roller 30. Also contacts the portion of the small end face 33 of the tapered roller 30 located on the inner diameter side of the cage 40.
For this reason, as shown in FIG. 5, all the tapered rollers 30 fall down along the inner peripheral surface of the roller holding taper hole 51 of the assembly table 50 through the plurality of pockets 43 of the cage 40 and are kept in a fallen state. Be drunk.
As a result, it is possible to prevent the tapered roller 30 from bouncing back to the inner peripheral surface of the holding taper hole 51 and returning to the standing state.

Thereafter, as shown in FIG. 7, the inner ring 10 is placed on the roller opening jig 60.
Then, as shown in FIG. 8, the inner ring 10 is lowered together with the opening jig 60 and is inserted into the array of the plurality of tapered rollers 30.
Thereafter, as shown in FIG. 9, with the plurality of tapered rollers 30 disposed between the large collar 12 and the small collar 15 of the inner ring 10, the cage 40 is deformed and reduced in diameter, The plurality of tapered rollers 30 and the cage 40 are assembled with each other.

As described above, the plurality of tapered rollers 30 are inserted between the roller insertion groove 61 of the roller opening jig 60 and the inner peripheral surface of the cage 40, and the roller opening jig 60 is rotated, whereby the cage The small end surface 33 of the tapered roller 30 comes into contact with the protruding piece (roller contact portion 47) 48 of the 40 pocket 43, and all the tapered rollers 30 hold the rollers of the roller assembly table 50 through the plurality of pockets 43 of the cage 40. It falls along the inner peripheral surface of the taper hole 51 for use, and is maintained in this state.
Therefore, after that, the small collar 15 of the inner ring 10 lowered together with the roller opening jig 60 is inserted well without colliding with the large end surface 32 of the tapered roller 30.
As a result, it is possible to eliminate the inability to assemble due to the standing tapered roller 30 and to improve the assembling property of the tapered roller bearing.

In the first embodiment, the roller contact portion 47 can be easily formed by forming the protruding piece 48 at the small diameter side end portion of the pocket 43 of the cage 40.
Further, when the cage 40 is made of a thin steel plate, it is easily formed by bending the protruding piece 48 constituting the roller contact portion 47 in the same direction as the punching direction in the step of punching the pocket 43. be able to.

A tapered roller bearing according to Embodiment 2 of the present invention will be described with reference to FIG.
As shown in FIG. 10, in Example 2, the roller contact portion that can contact the small end surface 33 of the tapered roller 30 by forming the small diameter side end portion of the pocket 143 of the cage 140 on the inclined surface 148. 147 is configured.
The inclined surface 148 constituting the roller contact portion 147 is an inclined surface in which the smaller diameter side of the cage 140 is positioned below and the center line is a vertical line, and the inner circumferential side is higher than the outer circumferential side of the cage 140. There is no.
Further, the tapered roller 30 has a posture in which the small end surface 33 of the tapered roller 30 is directed downward and the center line L of the retainer 140 is set to an inclined angle θ2 at the upper edge of the inclined surface 148 as the roller contact portion 147. It is formed so as to be able to contact the portion of the small end face 33 of the tapered roller 30 so as to be positioned on the inner diameter side of the retainer 140 by a distance α2 from the center of gravity position P2.
Since other configurations of the second embodiment are configured in the same manner as the first embodiment, description thereof is omitted.

Therefore, the tapered roller bearing according to the second embodiment also has the same effects as those of the first embodiment.
In particular, in the second embodiment, the roller contact portion 147 can be easily formed by forming the small diameter side end portion of the pocket 143 of the cage 140 on the inclined surface 148.
Further, when the cage 140 is made of a thin steel plate, it is possible to punch the small diameter side end portion into the inclined surface 148 in the step of punching the pocket 143.

Next, a tapered roller bearing according to Embodiment 3 of the present invention will be described with reference to FIG.
As shown in FIG. 11, in the third embodiment, the small-diameter side portion of the cage 240 is stepped and narrowed to a small diameter, and the small-diameter side end portion 248 of the pocket 243 is fitted into the narrowed small-diameter cylindrical portion 240a. Thus, a roller contact portion 247 is formed.
Further, the small diameter side end portion 248 of the pocket 243 as the roller contact portion 247 has a center of gravity of the tapered roller 30 in such a posture that the small end surface 33 of the tapered roller 30 faces downward and the center line L is set to an inclination angle θ3. It is formed so as to be able to contact the portion of the small end face 33 of the tapered roller 30 so as to be positioned on the inner diameter side of the retainer 240 by a distance α3 from the position P3.
Since other configurations of the third embodiment are configured in the same manner as the first embodiment, description thereof is omitted.

Therefore, also in the tapered roller bearing according to the third embodiment, the same effects as those of the first embodiment can be obtained.
In particular, in the third embodiment, the roller contact portion is formed by forming the small diameter side end portion 248 of the pocket 243 in the small diameter cylindrical portion 240a by narrowing the small diameter portion side portion of the cage 240 to a small diameter. 247 can be easily formed.

In addition, this invention is not limited to the said Example 1, In the range which does not deviate from the summary of this invention, it can also be implemented with a various form.
For example, the present invention can be implemented even if the cage 40 (140, 240) is made of a thin steel plate or a synthetic resin.

DESCRIPTION OF SYMBOLS 10 Inner ring 11 Inner ring raceway surface 12 Large brim 15 Small brim 17 Small diameter side extension part 20 Outer ring 21 Outer ring raceway surface 30 Tapered roller 32 Large end face 33 Small end face 40, 140, 240 Cage 41 Large diameter side annular part 42 Small diameter side annular part 43, 143, 243 Pocket 44 Pillar part 45 Small diameter side flange part 47, 147, 247 Roller contact part

Claims (5)

A tapered roller bearing comprising an inner ring, an outer ring, a plurality of tapered rollers, and a cage,
The inner ring is formed with a large brim for guiding the large end surfaces of the plurality of tapered rollers at the large diameter side end portion of the inner ring raceway surface, and the plurality of tapered rollers at the small diameter side end portion of the inner ring raceway surface. A small brim that guides the small end face is formed,
The cage includes a large-diameter side annular portion, a small-diameter side annular portion, and a plurality of pillar portions that connect the both annular portions and define pockets for holding the plurality of tapered rollers. And
A portion of the small-diameter side end portion of the pocket is positioned such that the small end surface of the tapered roller faces downward, and the small end surface of the tapered roller is located closer to the inner diameter side of the retainer than the center of gravity of the tapered roller. A tapered roller bearing characterized in that a roller contact portion capable of contacting the roller is formed. The tapered roller bearing according to claim 1,
On the small diameter side end of the inner ring, a small diameter side extension extending from the small brim to the axial direction outward is formed,
A small-diameter flange that limits the flow rate of the lubricating oil is formed on the small-diameter side end edge of the small-diameter-side annular portion of the cage by facing the outer peripheral surface of the small-diameter-side extension of the inner ring with a slight gap. Tapered roller bearings characterized by The tapered roller bearing according to claim 1 or 2,
The tapered roller bearing is characterized in that the roller contact portion is constituted by a protruding piece formed by protruding a small-diameter side end portion of the pocket in the inner diameter direction. The tapered roller bearing according to claim 1 or 2,
The roller contact portion is formed such that the small-diameter side of the cage is positioned below and the center line forms a vertical line, and the small-diameter side end of the pocket is formed on an inclined surface whose inner peripheral side is higher than the outer peripheral side. A tapered roller bearing comprising an inclined surface. The tapered roller bearing according to claim 1 or 2,
The roller contact portion is formed by a small-diameter side end portion of the pocket formed on the small-diameter cylindrical portion of the narrow-diameter cylindrical portion of the narrow-diameter portion of the cage. Tapered roller bearings characterized by

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