KR102199528B1 - Vehicle drive axle with anti-strain capability - Google Patents

Abstract

The present invention relates to a drive axle for a vehicle having a deformation preventing function, and in particular, to a drive axle for a vehicle to prevent deformation of a constant velocity joint groove by forming a deformation preventing groove on one side of the axle hub. The configuration is in the drive axle for a vehicle including an axle housing, a drive shaft, and a wheel bearing, wherein a deformation preventing groove is formed between one end of the groove portion and the orbital forming portion formed to receive the ball of the drive shaft coupled to the inside of the axle housing. It is formed, characterized in that the one end portion of the groove and the orbital forming portion are formed as close to each other as possible.

Description

Vehicle drive axle with anti-strain capability

The present invention relates to a drive axle for a vehicle having a deformation preventing function, and in particular, by forming a deformation preventing groove on one side of the groove located inside the axle housing, the groove in which the ball of the drive shaft constituting the constant velocity joint is received is deformed It relates to a vehicle drive axle to prevent.

In general, a vehicle is equipped with an axle, which is a device that supports the weight of the vehicle through wheels and transmits power to the wheels.

Two of these axles are installed in small and medium-sized vehicles and 3 to 4 in large vehicles, depending on the purpose, and are usually divided into a front axle and a rear axle.The front axle is divided into vehicle weight, direction adjustment, and driving power. The rear axle is divided into a drive axle and a dead axle.The drive axle shares the weight of the vehicle and transmits the driving force to the wheel, and the dead axle only supports the weight of the vehicle.

1A and 1B, the drive axle 100 is coupled to the axle housing 110 and the inner center of the axle housing 110 to form a constant velocity joint for transmitting rotational force (not shown) Si) and a wheel bearing 120 coupled to the outside of the axle housing 110.

In addition, the wheel bearing 120 includes a bearing outer ring 121, a bearing inner ring 122 and a ball 123.

The conventional drive axle 100 includes a fastening method in which the inner ring 122 of the wheel bearing 120 pressed into the axle housing 110 is fastened with a lock nut 124 to apply a preload, and the axle housing 110 ), an orbital forming method in which a preload is applied by directly supporting the inner ring 122 of the wheel bearing 120 by deforming the orbital forming part 112 formed at one end of the) is mainly used.

However, in the conventional orbital forming type vehicle drive axle 100, the orbital forming part 112 formed at one end of the axle housing 110 is bent upward in order to increase the quality, durability and life of the wheel bearing 120. Since it is deformed to support and fix the inner ring 122 of the wheel bearing 120, there is a problem in that the shape and dimensions of the groove part 111, which is a peripheral part, are deformed by forming.

In addition, the conventional orbital forming type vehicle drive axle 100 is a groove 111 for coupling with a ball (not shown) of a drive shaft (not shown) constituting a constant velocity joint formed on the inner surface of the axle housing 110 ), the end of the orbital forming part 112 is separated a lot to minimize the deformation of the groove part 111, the steering angle of the drive shaft constituting the constant-velocity joint is narrowed so that smooth steering operation cannot be achieved, and a compact structure is achieved. There was a problem that could not be achieved.

Patent No. 10-1938553

Accordingly, the present invention was conceived to solve the above problems, and an object of the present invention is to improve quality and improve performance by preventing deformation of the groove when fixing the inner ring of the wheel bearing by modifying the orbital forming part formed in the axle housing. It is to provide a drive axle for a vehicle having a deformation preventing function to achieve.

In order to achieve the above object, the present invention provides a drive axle for a vehicle including an axle housing, a drive shaft, and a wheel bearing. A deformation preventing groove is formed between the forming portions, and one end portion of the groove portion and the orbital forming portion are formed as close to each other as possible.

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As described above, the present invention has the effect of achieving quality improvement and performance improvement by preventing deformation of the groove formed inside the axle housing when the inner ring of the wheel bearing is fixed by orbital forming.

In addition, the present invention is to increase the rotation radius (steering angle) of the drive shaft constituting the constant-velocity joint by not allowing a large distance between the end of the groove portion and the orbital forming portion for coupling with the balls of the drive shaft constituting the constant-velocity joint. There is an effect of achieving steering operation and reducing weight to improve fuel economy and reduce cost.

1A is a schematic cross-sectional view of a drive axle for a vehicle in which a preload is applied by fixing an inner ring of a wheel bearing using a conventional lock nut.
1B is a cross-sectional view schematically illustrating a drive axle for a vehicle in which a preload is applied by fixing an inner ring of a wheel bearing using a conventional orbital forming part.
2 is a cross-sectional view schematically showing a state in which a deformation preventing groove is intermittently formed as a vehicle drive axle according to the present invention.
3 is a cross-sectional view schematically illustrating a state in which a deformation preventing groove is continuously formed as a drive axle for a vehicle according to the present invention.
4 is a cross-sectional view schematically showing a state in which a drive shaft is coupled as a drive axle for a vehicle according to the present invention.

Hereinafter, a preferred embodiment according to the present invention will be described in more detail with reference to the accompanying drawings.

Here, elements having the same function in all of the drawings below are omitted by using the same reference numerals, and repetitive descriptions are omitted, and terms to be described later are defined in consideration of functions in the present invention, and this is a unique and commonly used meaning Specifies that it should be interpreted as.

2 to 4, the vehicle drive axle 200 having a deformation preventing function according to the present invention is formed to receive the ball 221 of the drive shaft 220 coupled to the inside of the axle housing 210 A deformation preventing groove 212 is formed on one side of the groove 211.

Here, an orbital forming part 213 for fixing the wheel bearing 230 is formed at one end of the axle housing 210.

In addition, the axle housing 210 according to the present invention is equipped with a wheel bearing 230 on an outer surface, and an integral type capable of accommodating the ball 221 of the drive shaft 220 inside the axle housing 210 It has a structure.

That is, the axle housing 210 is integrated to accommodate the wheel bearing 230 on the outside and the drive shaft 220 constituting the constant velocity joint on the inside. As it moves, the length of the drive shaft 220 increases, so that the maximum cutting angle is improved.

Therefore, the joint strength on the wheel side can be improved and the torque steering performance can be improved.

In addition, the wheel bearing 230 includes an outer ring 231, an inner ring 232 and a ball 233.

The orbital forming part 213 formed at one end of the axle housing 210 of this configuration is deformed to be bent upward by the orbital forming method and fixed to directly apply a preload to the inner ring 232 of the wheel bearing 230 do.

At this time, since the orbital forming part 213 is deformed to fix the inner ring 232 of the wheel bearing 230, the shape and dimension of the groove 211, which is a peripheral part, are partially deformed by forming, and the drive axle 200 To prevent deterioration of the quality and performance of the deformation prevention groove 212 is formed.

In addition, the deformation preventing groove 212 is formed to be adjacent to one end of the groove 211 formed in the axle housing 210.

More specifically, the deformation preventing groove 212 is formed between one end of the groove 211 and the orbital forming part 213.

Here, it is preferable that one end portion of the groove portion 211 and the orbital forming portion 213 are formed as close to each other as possible.

That is, if one end of the groove 211 and the orbital forming part 213 are formed much apart, there is no effect of deformation of the periphery due to orbital forming, but the steering angle of the drive shaft 220 constituting the constant velocity joint is narrowed and thus smooth steering The operation cannot be achieved, the compact structure cannot be achieved, and the weight is increased.

Accordingly, it is preferable that the groove portion 211 and the orbital forming portion 213 are designed and formed to be located as close as possible to form a compact package of the vehicle and improve performance.

In addition, when the deformation preventing groove 212 is formed between one end of the groove 211 and the orbital forming part 213, the entire inner diameter of the axle housing 210 is continuously formed or a plurality of Dogs can form intermittently at intervals from each other.

Here, when the deformation-preventing groove 212 is formed continuously over the entire inner diameter of the axle housing 210, processing is convenient to improve workability and at the same time intermittent deformation-preventing grooves 212 ), it can reduce the weight.

In addition, when the orbital forming part 213 is deformed to be bent upward to fix the inner ring 232 of the wheel bearing 230, the deformation of the peripheral portion linked thereto is absorbed by the deformation preventing groove 212 And no longer spreading.

Accordingly, deformation of the shape and dimensions of the groove 211 formed on the inner surface of the axle housing 210 can be prevented, thereby preventing deterioration of the quality and performance of the drive axle 200.

In addition, when the deformation-preventing groove 212 is intermittently formed in the inner diameter of the axle housing 210, precise dimensional control is possible, thereby further improving the quality.

Here, the intermittently formed deformation preventing groove 212 is preferably formed only at a position corresponding to each of the grooves 211 formed on the inner surface of the axle housing 210.

That is, the intermittent deformation preventing groove 212 is formed only on one side of the portion where each groove 211 is formed.

In this case, the length of the intermittent deformation preventing groove 212 is formed to correspond to the width of each groove 211.

Therefore, when the orbital forming part 213 is deformed to be bent upward to fix the inner ring 232 of the wheel bearing 230, the deformation preventing groove 212 absorbs the stretching deformation, so that the axle housing It is possible to prevent deterioration of the quality and performance of the drive axle 200 by preventing deformation of the shape and dimensions of the groove 211 formed on the inner surface of the 210.

In addition, the present invention further provides a vehicle (not shown) equipped with the drive axle 200 having the deformation preventing function.

The assembly relationship of the drive axle of the present invention configured as described above will be described as follows.

First, the outer ring 231 of the wheel bearing 230, the ball 233, and the cage in the axle housing 210 having a deformation preventing groove 212 formed between the groove 211 and the orbital forming part 213 Assemble (not shown).

Next, the inner ring 232 is assembled to the axle housing 210 in which the outer ring 231 of the wheel bearing 230 and the ball 233 and the cage are assembled.

In addition, the orbital forming part 213 formed at one end of the axle housing 210 is bent upward and deformed to fix the inner ring 232 of the wheel bearing 230.

At this time, when the orbital forming part 213 is bent upwardly and deformed, the deformation of the peripheral portion linked thereto is absorbed by the deformation-preventing groove 212 and is no longer diffused.

Thereafter, the drive shaft 220 is coupled into the axle housing 210. That is, the ball 221 of the drive shaft 220 is coupled to the groove 211 formed in the axle housing 210 so as to be accommodated.

In addition, a wheel and a wheel (not shown) may be assembled outside the axle housing 210.

Accordingly, the drive axle according to the present invention achieves quality improvement and performance improvement by preventing deformation of the groove during orbital forming, and achieves smooth steering operation by increasing the rotation radius (steering angle) of the drive shaft constituting the constant velocity joint, and reducing weight. Fuel economy improvement and cost reduction can be achieved.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes to other equivalent embodiments are possible within the scope of the technical spirit of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains.

200: vehicle drive axle 210: axle housing
211: groove 212: deformation preventing groove
213: orbital forming unit 220: drive shaft
221: ball 230: wheel bearing
231: outer ring 232: inner ring
233: ball

Claims (5)

In the vehicle drive axle comprising an axle housing, a drive shaft and a wheel bearing,
A deformation preventing groove is formed between one end portion of the groove portion and the orbital forming portion formed to receive the ball of the drive shaft coupled to the inside of the axle housing, and the one end portion of the groove portion and the orbital forming portion are formed as close to each other as possible. A drive axle for a vehicle with a deformation prevention function as characterized. delete delete delete delete

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