JP4013618B2 - Rolling bearing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a rolling bearing device, and more particularly to a rolling bearing device suitable for supporting an axle.
[0002]
[Prior art]
A schematic configuration of a rolling bearing device used for supporting the axle on the driven wheel side will be described with reference to FIG. This rolling bearing device has an outer ring member 50, a plurality of balls 51 a and 51 b, and an inner ring member 52. The outer ring member 50 has raceways for the balls 51a and 51b in two rows in the axial direction on the inner peripheral surface thereof, and is supported non-rotatingly on the vehicle body side. The inner ring member 52 includes a hub shaft 53 having a raceway surface of one ball 51 a on the outer peripheral surface, and an annular member 54 having a raceway surface of the other ball 51 b on the outer peripheral surface and fitted on the hub shaft 53. It is included and is arranged concentrically on the radially inner side with respect to the outer ring member 50.
[0003]
The hub shaft 53 is formed in a solid cross section by hot forging, and includes a shaft portion 55, a hub flange 56, and an annular guide portion 57. The hub flange 56 is provided outward in the radial direction of the outer peripheral surface of the shaft portion 55 on the vehicle outer side in order to attach the brake disc and the tire wheel in a stacked manner. The annular guide portion 57 is also referred to as an inlay portion, and has an annular structure that protrudes from the hub flange 56 in the vehicle outer side direction. The annular guide portion 57 serves as a guide when the brake disc and the tire wheel are stacked on the hub flange 56.
[0004]
[Problems to be solved by the invention]
In the case of the hub shaft 53 of the rolling bearing device, an expensive and large-scale manufacturing facility such as a press machine for applying a large pressure is required to integrally form the portions 55 to 57 extending in three directions by hot forging. Become. Particularly in the case of hot forging, since it is difficult to ensure the product accuracy of the hub shaft 53 more than necessary, post-processing such as turning and polishing of the hub shaft 53 is required after forging, which increases the number of manufacturing processes and the manufacturing cost. Problems such as higher prices are pointed out.
[0005]
[Means for Solving the Problems]
A rolling bearing device according to claim 1 of the present invention includes an outer ring member, an inner ring member disposed on the outer ring member concentrically, and a plurality of rolling elements rollably interposed between the two members, the A brake disk mounting flange provided on the inner ring member , and a guide member that serves as a guide when the brake disk is attached to the brake disk mounting flange, the inner ring member is a cylindrical first inner ring member extending in the axial direction. And a second inner ring member having the brake disk mounting flange, wherein the first inner ring member has a caulking portion that is caulked to an end surface of the second inner ring member at the end, and the guide member It includes a fitting portion to be written fitting a guide part for attaching the brake disc protrudes in the axial direction than the flange brake disc attached to the inner peripheral surface of an end portion of the first inner ring member Wherein, and wherein the guide member is a separate structure from said inner member and the outer ring member.
A rolling bearing device according to a second aspect of the present invention includes an outer ring member, an inner ring member disposed concentrically with the outer ring member, a plurality of rolling elements interposed between the two members so as to be freely rollable, A brake disk mounting flange provided on the outer ring member, and a guide member that serves as a guide when the brake disk is attached to the brake disk mounting flange, the outer ring member being a cylindrical first outer ring member extending in the axial direction And a second outer ring member having the brake disk mounting flange, wherein the first outer ring member has a caulking portion that is caulked against an end surface of the second outer ring member at the end, and the guide member Is a guide portion that is projected in the axial direction from the flange for mounting the brake disc to attach the brake disc, and a fitting portion that is fitted into the inner peripheral surface of the end portion of the first outer ring member, Wherein, and wherein the guide member is a separate structure from said inner member and the outer ring.
[0006]
As described above, an outer ring member or an inner ring that protrudes in three directions by providing a guide member that serves as a guide when the brake disk is attached to the brake disk mounting flange separately from the outer ring member and the inner ring member. Since it becomes unnecessary to form the member, at least one of the outer ring member and the inner ring member can be formed by cold forging. This eliminates the need for large facilities when manufacturing the rolling bearing device. Further, according to cold forging, the product accuracy is increased, and therefore the polishing time for making the raceway surface of the rolling element necessary accuracy can be shortened. For this reason, manufacture of a product becomes easy and manufacturing cost is reduced.
[0007]
A rolling device according to a third aspect of the present invention is the rolling bearing device according to the first or second aspect, wherein the guide member further relays and connects the guide portion and the fitting portion. And the guide member covers the caulking portion with the relay portion.
[0008]
This configuration also eliminates the need for large facilities when manufacturing the rolling bearing device. Also, by forming the guide member by cold forging, the capacity of the guide member can be reduced compared with the case where the guide member is integrally formed with the outer ring member or the inner ring member by hot forging. Torque is reduced.
[0011]
In addition, by forming the outer ring member, the inner ring member, and the guide member from, for example, a tubular material by cold forging, the manufacture of the product becomes easier and the manufacturing cost is reduced.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a rolling bearing device according to an embodiment of the present invention will be described with reference to the drawings. In the figure, the rolling bearing device is applied to an axle rolling bearing device on the driven wheel side. FIG. 1 is a cross-sectional view showing the overall configuration of a rolling bearing device according to an embodiment of the present invention, and FIG. 2 is a side view of the rolling bearing device from the vehicle outer side. As illustrated, the rolling bearing device 1 includes an outer ring member 2, two rows of balls 4 and 5 as rolling elements, and an inner ring member 6.
[0013]
The outer ring member 2 is formed by hot forging. The outer ring member 2 has a support flange 20. The support flange 20 is formed to protrude radially outward at a position in the axial direction of the outer ring member 2. By attaching the support flange 20 to a knuckle incorporated on the vehicle body side (not shown), the outer ring member 2 is supported non-rotatingly around the axis with respect to the vehicle body. A cover 22 is fitted to the vehicle inner side end of the outer ring member 2. The cover 22 is for securing a space 21 in which a vehicle speed sensor (not shown) is installed. The balls 4 and 5 in each row are respectively held at equidistant positions in the circumferential direction by the crown-shaped cage 3.
[0014]
The inner ring member 6 includes one inner ring member 11 and the other inner ring member 13. One inner ring member 11 is formed with a track portion 7 having an outer peripheral surface as an inner ring raceway surface of the balls 4 in one row on the vehicle inner side. One inner ring member 11 has a reduced diameter portion 14 on the vehicle outer side. One inner ring member 11 having such a configuration is formed into a cylindrical shape having an axial sectional shape as shown in FIG. 1 by cold forging from a tubular material.
[0015]
The other inner ring member 13 includes a raceway portion 12 having an outer peripheral surface as an inner raceway surface of the ball 5 on the other side, and a hub as a brake disk mounting flange formed to project radially outward from the raceway portion 12. And a flange 10. The other inner ring member 13 has a center hole 12 a in the center of the track portion 12 in which the reduced diameter portion 14 of the one inner ring member 11 is fitted. The other inner ring member 13 is formed from a tubular, ring-shaped or flat plate-shaped material by cold forging. One inner ring member 11 also has a caulking portion 13 a that is caulked against an end surface of the other inner ring member 13 at an end portion on the vehicle outer side.
[0016]
A guide member 23 serving as a guide when the brake disc 8 and the tire wheel 9 are attached to the hub flange 10 is provided so as to cover the caulking portion 13a. The guide member 23 is a portion also referred to as an inlay member, and has a separate structure from the outer ring member 2 and the inner ring members 11 and 13.
[0017]
The guide member 23 is formed at the center thereof, and has a cylindrical fitting portion 25 that is press-fitted into the inner space portion 24 of one inner ring member 11, and radially outward from an end portion of the cylindrical fitting portion 25. Are formed integrally from a flat plate portion 26 serving as a relay portion and an annular guide portion 28 that is bent from the radially outer end of the flat plate portion 26 toward the vehicle inner side.
[0018]
The guide member 23 has an outer peripheral surface of the guide portion 28 as a guide surface 28a for attachment when the brake disc 8 and the tire wheel 9 are attached. And the guide part 28 will be in the state protruded from the hub flange 10 to the axial direction, ie, a vehicle outer side, in the state in which the cylindrical insertion part 25 is press-fit in the inner space part 24 of one inner ring member 11. . The guide member 23 having such a configuration is formed from a flat material by cold forging.
[0019]
Reference numeral 30 in the figure denotes a hub bolt. The hub bolt 30 is press-fitted into the insertion hole 29 at a predetermined position in the circumferential direction of the hub flange 10. The brake disc 8 and the tire wheel 9 are respectively connected to the hub flange 10 so that the center hole (not shown) is along the outer peripheral surface of the annular guide portion 28 of the guide member 23 and the hub bolt 30 is inserted through the board surface. Are overlaid as shown by the phantom lines in the figure. The brake disc 8 and the tire wheel 9 are fixed to the hub flange 10 by screwing a nut member (not shown) to the hub bolt 30.
[0020]
The rolling bearing device 1 has a sealing device 16 for sealing the annular space 15 between the outer ring member 2 and the other inner ring member 13 on the vehicle outer side. The sealing device 16 is an elastic seal body having a core metal fitted to the inner peripheral surface of the outer side end portion of the outer ring member 2 and a lip attached to the core metal and contacting a facing portion of the other inner ring member 13. It consists of and.
[0021]
A manufacturing procedure of the rolling bearing device 1 having the above-described configuration will be described. First, the balls 4 and 5 in each row are assembled to the outer ring member 2 while being held by the crown-shaped cage 3. Subsequently, one inner ring member 11 is assembled so as to be inserted into the outer ring member 2 from the vehicle inner side, and the other inner ring member 13 is assembled from the vehicle outer side. At this time, the inner ring members 11 and 13 are aligned at the radial position so that the reduced diameter portion 14 of one inner ring member 11 is smoothly inserted into the center hole 12a of the other inner ring member 13. In a state where the reduced diameter portion 14 of one inner ring member 11 is inserted into the center hole 12a of the other inner ring member 13, the end surface of the one inner ring member 11 is expanded on the end surface of the other inner ring member 13. The caulking portion 13a is formed on one inner ring member 11 by caulking. Thus, by caulking the end face of one inner ring member 11 with respect to the end face of the other inner ring member 13, both inner ring members 11 and 13 are rotated and integrated around the axis, and the balls 4 in both rows are aligned. , 5 is given a predetermined preload.
[0022]
Thereafter, the cylindrical fitting portion 25 of the guide member 23 is press-fitted into the inner space portion 24 of one inner ring member 11, and the annular guide portion 28 is in contact with the vehicle outer side end surface of the other inner ring member 13. The guide member 23 is assembled to one inner ring member 11. Thereafter, the outer ring member 2 is assembled to the vehicle body via the support flange 20, and the brake disc 8 and the tire wheel 9 are attached to the hub flange 10.
[0023]
As described above, when the brake disc 8 and the tire wheel 9 are attached to the hub flange 10, the center hole thereof is guided to the mounting guide surface 28 a that is the outer peripheral surface of the guide portion 28 of the guide member 23.
[0024]
In the rolling bearing device 1 manufactured as described above, when the vehicle travels, the inner ring member 6, that is, the one inner ring member 11 and the other inner ring member 13 rotate around the axis as the wheels (not shown) rotate.
[0025]
By the way, the guide member 23 is formed as a separate body from the other components constituting the rolling bearing device 1 by cold forging. For this reason, at least one inner ring member 11 can be formed in a cylindrical shape using a tubular material. In some cases, the other inner ring member 13 can be formed by cold forging. Thus, by forming the guide member 23, the one inner ring member 11, and the other inner ring member 13 by cold forging, the hub shaft is solid-shaped by hot forging as in the conventional example shown in FIG. Compared with the case where it forms, the whole capacity | capacitance and weight of the rolling bearing apparatus 1 can be reduced. As a result, the rotational torque can be reduced as the driven wheel.
[0026]
Further, as in the conventional example shown in FIG. 3, compared with the case where the hub shaft is formed in a solid cross section by hot forging, even a small-scale and inexpensive manufacturing facility can cope with it, and at the same time, with high accuracy. The inner ring member 11 can be formed. In other words, in the case of hot forging, the surface accuracy of the product is low, and in particular, a long polishing time is required to make the inner ring raceway surface of the balls 4 necessary accuracy, and in some cases, the portions other than the inner ring raceway surface are also polished. I needed it. On the other hand, when one inner ring member 11 is formed by cold forging using a tubular material, the material cost is low and the accuracy of the product is good, so that the inner ring raceway surface has the necessary accuracy. Therefore, it is possible to shorten the polishing process time and hardly require the polishing process for parts other than the inner ring raceway surface. As a result, the manufacturing cost can be greatly reduced.
[0027]
Further, since the guide member 23 functions as a cover for the caulking portion 13a of one inner ring member 11, muddy water or the like is prevented from entering between the end surface of the other inner ring member 13 and the caulking portion 13a. It has a function.
[0028]
The present invention is not limited to the above embodiment. In the said embodiment, the example of an inner ring | wheel rotation type is shown as the rolling bearing apparatus 1, and the guide member 23 is assembled | attached to the inner ring member 11. FIG. However, the present invention can also be applied to an outer ring rotation type rolling bearing device in which the outer ring member 2 has the hub flange 10. In this case, the guide member 23 is assembled to the inner peripheral surface of the end portion of the outer ring member 2.
[0029]
In any case, by making the guide member 23 separate from the inner ring members 11, 13 or the outer ring member 2, at least one inner ring member 11 can be formed by cold forging using a tubular material. Thus, the rotational torque can be reduced and the manufacturing cost can be greatly reduced.
[0030]
In each of the above embodiments, the inner ring members 11 and 13, the outer ring member 2, and the tubular or ring-shaped or plate-shaped material used as the material of the guide member 23 are reduced in weight by reducing the thickness as long as the strength permits. It is excellent in terms of workability and manufacturing cost.
[0031]
Furthermore, although the rolling bearing device 1 in the said embodiment showed the case where it used on the driven wheel side of a vehicle, it is not limited to this, It can also be made to apply to the drive wheel side in a vehicle.
[0032]
【The invention's effect】
As is apparent from the above description, according to the present invention, not only is expensive and large-scale equipment unnecessary, but post-processing time such as polishing or turning can be shortened or omitted, thereby reducing the manufacturing cost. obtain.
[Brief description of the drawings]
FIG. 1 is an overall cross-sectional view of a rolling bearing device according to an embodiment of the present invention.
FIG. 2 is a side view of the same.
FIG. 3 is an overall sectional view of a conventional rolling bearing device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Rolling bearing apparatus 2 Outer ring member 10 Hub flange 11 One inner ring member 13 The other inner ring member 13a Caulking part 23 Guide member 25 Cylindrical insertion part 26 Flat plate part 28 Annular guide part 24 Inner space part

Claims (3)

An outer ring member, an inner ring member disposed concentrically with the outer ring member, a plurality of rolling elements interposed between the two members so as to freely roll, a brake disk mounting flange provided on the inner ring member , Including a guide member that serves as a guide when the brake disk is attached to the brake disk mounting flange,
The inner ring member includes a cylindrical first inner ring member extending in the axial direction, and a second inner ring member having the brake disk mounting flange.
The first inner ring member has a caulking portion that is caulked with respect to an end surface of the second inner ring member at an end portion;
The guide member includes a guide portion that is projected in the axial direction from the brake disc mounting flange and is attached to the brake disc, and a fitting portion that is fitted to the inner peripheral surface of the end portion of the first inner ring member , In addition, the rolling bearing device is characterized in that the guide member has a separate structure from the inner ring member and the outer ring member. An outer ring member, an inner ring member arranged concentrically with the outer ring member, a plurality of rolling elements interposed between the two members so as to freely roll, a brake disk mounting flange provided on the outer ring member, Including a guide member that serves as a guide when the brake disk is attached to the brake disk mounting flange,
The outer ring member has a cylindrical first outer ring member extending in the axial direction, and a second outer ring member having the brake disk mounting flange,
The first outer ring member has a caulking portion that is caulked against an end surface of the second outer ring member at an end portion;
The guide member includes a guide portion that is projected in the axial direction from the brake disc mounting flange and is attached to the brake disc, and a fitting portion that is fitted into the inner peripheral surface of the end portion of the first outer ring member, The rolling bearing device is characterized in that the guide member has a separate structure from the inner ring member and the outer ring . The rolling bearing device according to claim 1 or 2, wherein
The rolling bearing device according to claim 1 , wherein the guide member further includes a relay portion that relay-connects the guide portion and the fitting portion, and the guide member covers the caulking portion with the relay portion .

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