KR19980029882U - Camber shim of vehicle with escape prevention structure - Google Patents

Abstract

The present design prevents the camber shim due to the vibration and impact of the road surface and the vibration of the upper arm itself, thereby stabilizing the wheel alignment and improving the wear resistance of the tire to improve driving stability. In the camber shim of a motor vehicle having a fastening hole is formed between the upper arm shaft pin of the upper arm of the vehicle and the upper arm bracket, while the camber shim to fix the bolt to the fastening hole,

An elastic bent portion extending from an inner circumferential surface of the fastening hole and bent to be wrinkled so as to be applied with its own elasticity;

It includes a tab recess formed on both sides of the elastic bent portion and has a circumference smaller than the outer diameter of the tab of the bolt so that the elastic bent portion is elastically applied while being fitted by the bolt.

Description

Camber shim of vehicle with escape prevention structure

The present invention relates to a camber shim of a vehicle having a breakaway prevention structure, and more particularly, to stabilize the wheel alignment and prevent tire wear out by preventing the camber shim due to the vibration of the road surface and the impact of the upper arm itself. The present invention relates to a camber shim of an automobile having a departure prevention structure capable of improving driving stability.

In general, the front wheels are steered so that they can be turned left and right around the steering knuckles and king pins. Therefore, when driving a car, it is necessary to maintain the right direction at the same time and to immediately return to the straight state when the course is distracted by steering wheel operation or external force, etc. On the other hand, it should be able to operate the steering wheel lightly. In order to satisfy their condition, the front wheel is equipped to maintain a constant relation position with the front axle or king pin, and this is called front wheel alignment.

The front wheel alignment consists of four elements: camber angle, kingpin inclination angle, toe-in, and caster, but considering turning, a turning radial is necessary to prevent side wheels from slipping when the handle is disengaged. Done.

Also, if you give a wheel a camber or toe-in, the wheel will try to travel in a different direction than the driving direction of the car. However, the wheels are constrained by the axle, which causes side slips while driving.

If the amount of side slip of the wheel is large, it may cause unstable driving, mishandling of the steering wheel and tire wear, and the wheel alignment should be set to a balanced value so as not to cause side slip on the tire.

The amount of side slip is usually indicated by how many meters the wheel slips when the car is traveling 1 km. The amount of side slip can be measured with a side slip tester. The safety standard of the car is within 5m per km.

Suspension is a device that connects the axle to the body to prevent the axle from transmitting the vibrations or shocks received from the road surface directly to the body to prevent damage to the body and cargo and improve ride quality. It is composed of shock absorber that controls the free vibration of the spring, chassis spring and improves the riding comfort, and stabilizer which prevents rolling of the car.

In addition, the suspension system has an important role of transmitting the driving force generated from the driving wheel or the braking force of each wheel during braking to the vehicle body, withstanding the centrifugal force during the turning, and maintaining each wheel in the correct position with respect to the vehicle body.

The front suspension of the axle includes parallel leaf springs, horizontal leaf springs, and two-axis suspensions.The independent front suspensions include wishbones, horizontal springs, trailing links, and struts (Macpherson). Etc.

The coil spring type is adopted in the rear suspension of a passenger car, but the coil spring alone cannot support the axle, and thus the axle is supported by the control arm and the lateral rod.

Wish bone type (wish bone type) is a type that has been used a long time in the front suspension is an example of the type using a coil spring. Two upper and lower suspension arms, made of V-shape, are mounted to the frame by the shaft, and the tip of each suspension arm is coupled to the steering knuckle by a ball joint. In this type, the suspension arm supports all the braking force and the cornering force generated on the wheels, and the spring supports the load in the vertical direction only.

Among them, the most frequently used type is suspension by two upper and lower suspension arms, an arm shaft installed on the suspension arm through a screw bush, a coil spring and a ball joint installed between the lower suspension arm and the frame to cushion It is installed on the arm and consists of steering knuckles that can rotate for up and down movement and steering.

In this form, the camber or tread changes depending on the length and length of the upper and lower suspension arms. In this case, since it is impossible to prevent both sides from changing, in general, the lower arm is made longer than the upper arm so as to avoid wear of the tire, so that the change in tread is small even if the change in camber is slightly increased.

When the front wheel is seen from the front, it is installed obliquely to the outside, but the angle made by the center line of the wheel and the vertical line to the road surface is called a camber. Generally, the camber is 0.5 to 2 degrees depending on the vehicle type.

The purpose of placing the camber is firstly to prevent the front wheel from spreading under load. Second, it prevents the wheels from falling out while driving. Third, in addition to the king pin inclination angle, the offset amount is reduced to facilitate handle operation. Fourth, since the center of the tread of the wheel enters the inside more than the camber is zero, the load point is closer to the root of the knuckle spindle, thereby reducing the force of bending the spindle or knuckle.

In order to set the camber angle to perform these functions, as shown in Fig. 1 or 2, the operator connects the upper arm bracket 50 and the upper arm 40 of the body frame, even if the upper and lower flow depending on the road conditions when driving The arm bracket 50 and the upper arm 40 are firmly coupled to calculate an appropriate number of camber shims 10 between the upper arm shaft pin 30 serving as a connecting link and the upper arm bracket 50. Fit together.

However, the camber shim 10 forcibly sandwiched between the upper arm shaft pin 30 and the upper arm bracket 50 is separated from the vibration and impact of the road surface and the intrinsic vibration of the upper arm 40 itself. There was a problem that the deformation caused by the deterioration of running stability such as uneven wear of the tire significantly.

Therefore, the present invention has been devised to solve the above problems, the purpose of which is to prevent the separation of the camber core due to the vibration and impact of the road surface and the vibration of the upper arm itself to stabilize the wheel alignment and tire wear It is to provide a camber shim of a vehicle having a departure prevention structure that can improve the driving stability by improving.

In order to achieve the above object, the present invention, while a fastening hole is formed between the upper arm shaft pin and the upper arm bracket of the upper arm of the vehicle, in the camber shim to fix the bolt by the fastening hole,

An elastic bent portion extending on an inner circumferential surface of the fastening hole and bent to be wrinkled so that self elasticity is applied;

It is characterized in that it comprises a tab recess formed on both sides of the elastic bent portion and has a circumference smaller than the outer diameter of the tab of the bolt so that the elastic bent portion is elastically applied while being fitted by the bolt.

1 is a perspective view of the main portion extract showing a conventional camber shim combined state.

2 is a front view of a conventional camber shim.

3 is a front view of a camber shim according to the present invention.

Explanation of symbols on the main parts of the drawings

10: camber shim, 12: fastener,

14: elastic bend, 16: tab recess,

20: bolt, 30: upper arm shaft pin,

40: upper arm, 50: upper arm bracket,

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

3 is a front view of the camber shim according to the present invention, Figure 4 is a side cross-sectional view of the camber shim according to the present invention.

In the constitution of the present invention, the fastening hole 12 is formed to be interposed between the upper arm shaft pin 30 and the upper arm bracket 50 of the upper arm 40 of the vehicle, while the fastening hole 12 includes a bolt ( In the camber shim 10 to which 20 is inserted and fixed,

An elastic bent portion 14 extending on an inner circumferential surface of the fastening hole 12 and bent to be wrinkled so as to be applied with its own elasticity;

Including the tab recess 16 formed on both sides of the elastic bent portion 14 and is fitted by the bolt and has a circumference smaller than the outer diameter of the tab of the bolt 20 so that the elastic bent portion 14 is elastically applied. It is.

Referring to the working state of the present invention configured as described above are as follows.

When the upper arm shaft pin 30 is fastened to the upper arm 40, and the upper arm bracket 50 is fastened to the upper arm shaft pin 30 between the upper arm shaft pin 30 and the upper arm bracket 50. The camber shim 10 is interposed in and then the bolt 20 is fastened.

The bolt 20 is press-fitted into the tab recess 16 of the elastic bending portion 14, the elastic bending portion 14 has its own elasticity to return to itself when an external pressure is applied.

This state is applied to the tab portion of the bolt 20 to press the tab surface of the bolt 20.

That is, even when a large vibration is generated by the minute play of the fastening hole 12 of the camber shim 10 generated by the vibration of the vehicle, it is possible to prevent the separation of the camber shim 10.

As described above, according to the present invention, it is possible to prevent the camber shim due to the vibration and impact of the road surface and the vibration of the upper arm itself, so that the wheel alignment is stabilized and the tire wear resistance is improved to improve driving stability. .

Claims (1)

A fastening hole 12 is formed between the upper arm shaft pin 30 and the upper arm bracket 50 of the upper arm 40 of the vehicle, and the bolt 20 is fitted into the fastening hole 12 to fix the bolt 20. In the camber shim 10, An elastic bent portion 14 extending on an inner circumferential surface of the fastening hole 12 and bent to be wrinkled so as to be applied with its own elasticity; Including the tab recess 16 formed on both sides of the elastic bent portion 14 and is fitted by the bolt and has a circumference smaller than the outer diameter of the tab of the bolt 20 so that the elastic bent portion 14 is elastically applied. Camber shim of the vehicle having a departure prevention structure, characterized in that.