KR101056810B1 - Axle Carrier of Vehicle - Google Patents

Abstract

The present invention provides a simpler, easier and more accurate adjustment of the bearing preload, improving the workability of the bearing preload adjusting operation, and making it easier to manage and maintain the bearing preload of the axle carrier at an appropriate preload. to provide.

Axle carrier, bearing preload, tapered roller bearing

Description

Axle Carrier of Vehicle

The present invention relates to an axle carrier of a vehicle, and more particularly, to a technique for adjusting a preload of a bearing for supporting a pinion gear to a carrier case.

The axle carrier is mounted in a state where the differential gear and the differential gear are engaged with each other, so that the rotational force provided from the pinion gear can be drawn out to the driving wheel through the differential, thereby smoothly increasing the rotational force and rotating the vehicle during cornering. It is a part to be made.

Therefore, a differential is mounted on the carrier case of the axle carrier, and a pinion gear meshed with the differential ring gear is mounted to receive rotational force from the outside.

The pinion gear should be firmly supported in a rotatable state with respect to the carrier case. In FIG. 1, the pinion gear 500 is conventionally mounted on the carrier case 502.

The carrier case 502 is supported by the bearing retainer 504 in pairs of tapered roller bearings to support the pinion gear 500. A collar 506 is disposed between the two tapered roller bearings and the pinion gear 500 is disposed. The pinion nut 508 is fastened to the end of the tapered roller bearing by pressing the tapered roller bearing through the connecting flange 510 to adjust the preload of the two tapered roller bearings.

Here, the height of the collar 506 is a major component for determining the preload of the tapered roller bearings. If the height of the collar 506 is too low, the preload becomes too large even if the pinion nut 508 is slightly tightened. If the height of the collar 506 is too high, the pinion nut 508 may be in a state in which desired preload is not obtained.

The outer bearing 512, which is a tapered roller bearing disposed on the upper side of FIG. 1, is assembled so that the inner race is press-fitted into the pinion gear 500, so if the collar 506 needs to be replaced to obtain a desired bearing preload. Since the pressurized outer bearing 512 has to be disassembled, the preload adjustment operation is very cumbersome and demanding.

The present invention has been made to solve the above problems, it is simpler and easier to precisely adjust the bearing preload, improve the workability of the bearing preload adjustment operation, and improve the bearing preload of the axle carrier appropriate preload It is an object of the present invention to provide an axle carrier of a vehicle that is easy to manage and maintain.

The axle carrier of the vehicle of the present invention devised to achieve the object as described above

A carrier case;

A bearing retainer fixed to the carrier case;

An inner bearing installed between the bearing retainer and the pinion gear;

An outer bearing disposed symmetrically to the inner bearing to support the pinion gear;

Position adjusting means provided to move the outer bearing in the axial direction of the pinion gear with respect to the inner bearing;

Fixing means for fixing the position of the moved outer bearing;

And a control unit.

The position adjusting means

It may be configured as an adjustment screw ring for supporting the outer race of the outer bearing and coupled to screw movement along the axial direction of the pinion gear with respect to the bearing retainer.

The fixing means

A plurality of irregularities formed along the circumferential direction in the adjusting screw ring;

A fixing plate fitted to the unevenness;

It may be configured to include a fixing bolt for fixing the fixing plate to the bearing retainer.

The present invention makes it simpler, easier and more accurate to adjust the bearing preload, thereby improving the workability of the bearing preload adjustment operation and making it easier to manage and maintain the bearing preload of the axle carrier at the appropriate preload.

2, the axle carrier 1 of the vehicle of the present invention includes a carrier case 3; A bearing retainer 5 fixed to the carrier case 3; An inner bearing (9) installed between the bearing retainer (5) and the pinion gear (7); An outer bearing 11 arranged symmetrically with the inner bearing 9 to support the pinion gear 7; Position adjusting means provided to move the outer bearing 11 in the axial direction of the pinion gear 7 with respect to the inner bearing 9; It comprises a fixing means for fixing the position of the moved outer bearing (11).

That is, only the outer bearing 11 is moved or pressed along the axial direction of the pinion gear 7 with respect to the inner bearing 9 by using the position adjusting means.

The pinion gear 7 is connected to an external power supply device by fastening the connection flange 13 to the outside of the outer bearing 11 so that the rotational force can be transmitted, and the pinion outside the connection flange 13. The nut 15 is fastened.

In this embodiment, the position adjusting means supports an outer race of the outer bearing 11 and is adjusted to the screw retainer screw 17 along the axial direction of the pinion gear 7 with respect to the bearing retainer (5). ).

Accordingly, when the adjusting screw ring 17 is rotated with respect to the bearing retainer 5, the position of the outer race of the outer bearing 11 is helically moved together with the adjusting screw ring 17 and the pinion gear 7 Move or press along the axial direction.

The fixing means includes a plurality of irregularities 19 formed along the circumferential direction of the adjusting screw ring 17, a fixing plate 21 fitted to the irregularities 19, and the fixing plate 21 with the bearing retainer. It comprises a fixing bolt 23 fixed to (5).

That is, the fixing plate 21 fitted to the unevenness 19 of the adjusting screw ring 17 in order to maintain the state in which the bearing preload is adjusted stably by rotating the adjusting screw ring 17 as described above. It is to be fixed to the bearing retainer (5).

Of course, the fixing means may be configured to directly fix the adjusting screw ring 17 to the carrier case 3, not the bearing retainer (5).

On the other hand, the positioning means is configured such that the outer race of the outer bearing 11 is linearly movable along the axial direction of the pinion gear 7 with respect to the bearing retainer 5, and the outer race is very strong. It may be configured to be fixed by a separate fixing means capable of fixing the position of the pinion gear (7) relative to the bearing retainer (5) by pressing the elastic support after the spring.

Looking at the operation of adjusting the bearing preload in the axle carrier (1) of the vehicle of the present invention configured as described above are as follows.

Basically, as the pinion nut 15 is fastened to a predetermined torque, the preload of the inner bearing 9 on the lower side and the outer bearing 11 on the upper side is applied.

At this time, if the bearing preload is poor, the preload is adjusted by rotating the adjusting screw ring 17 to change the position of the outer race of the outer bearing 11.

That is, when the outer race of the outer bearing 11 is moved upward or pressurized by the rotation of the adjusting screw ring 17, the preload of the outer bearing 11 is increased, and this force is applied to the pinion gear ( 7) is transferred to the inner bearing (9) is to increase the preload of the inner bearing (9) together.

Of course, the increase in the bearing preload changes almost linearly according to the amount of rotation of the adjusting screw ring 17, so that the preload of the bearing can be easily and accurately increased to a very precise level.

On the other hand, when the adjustment screw ring 17 is rotated to reduce the bearing preload, and the outer race of the outer bearing 11 is moved downward, the preload applied to the outer bearing 11 is lowered. The state is transmitted to the inner bearing 9 through the pinion gear 7 so that the inner bearing 9 also has a lower preload.

Of course, this process of lowering the bearing preload is also made gradually according to the rotation angle of the adjusting screw ring 17, so that the operator can easily adjust the bearing preload only by the operation of rotating the adjusting screw ring 17. The adjusted bearing preload is firmly fixed by the fastening of the fixing plate 21 and the fixing bolt 23.

1 is a view showing an axle carrier structure of a vehicle according to the prior art,

2 is a view showing an axle carrier structure of a vehicle according to the present invention.

<Brief description of symbols for the main parts of the drawings>

One; Axle carrier 3; Carrier Case

5; Bearing retainer 7; Pinion Gear

9; Inner bearing 11; Outer Bearing

13; Connecting flange 15; Pinion Nuts

17; Adjusting screw ring 19; Unevenness

21; Fixed plate 23; Fixing bolt

Claims (3)

A carrier case; A bearing retainer fixed to the carrier case; An inner bearing installed between the bearing retainer and the pinion gear; An outer bearing symmetrically disposed on the inner bearing to support the pinion gear; Position adjusting means comprising an adjustment screw ring coupled to the outer bearing of the outer bearing so as to move the outer bearing in the axial direction of the pinion gear with respect to the inner bearing; A fixing means comprising fixing bolts fixed to the bearing retainer, the fixing plate coupled to the adjusting screw ring to fix the position of the moved outer bearing; Axle carrier of the vehicle, characterized in that configured to include. 2. The axle carrier of claim 1, wherein the adjustment screw ring is coupled to screw along the axial direction of the pinion gear with respect to the bearing retainer. The axle carrier of claim 2, wherein the fixing plate is fitted to a plurality of irregularities formed along the circumferential direction of the adjusting screw ring.

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