KR19990031878A - Front wheel suspension - Google Patents

Abstract

It is possible to realize better ride comfort and maneuvering stability, and minimizes the amount of push-in of the dash panel that separates the engine room and the room by dispersing and absorbing the impacts in the “” type subframe and side members in case of offset collision. For the purpose of providing a front wheel suspension of the vehicle to enable the safety of the occupants due to the improved collision safety;

A wheel carrier rotatably supporting the wheel; A lower control arm disposed in the vehicle width direction and connecting a lower end of the main body of the wheel carrier to a vehicle body side; An upper control arm disposed in the vehicle width direction and connecting an upper end of an extension part formed to an upper side of the main body of the wheel carrier with a vehicle body side; A strut assembly having an integral type of a spring and a shock absorber for absorbing and attenuating the load input from the wheel in the vertical direction; Including a subframe connected to the vehicle body side connection portion of the lower control arm while reinforcing the vehicle body,

The sub-frame provides a front wheel suspension of a vehicle, characterized in that it is made of a closed type with a predetermined space in the center.

Description

Front wheel suspension

The present invention relates to a front wheel suspension of a vehicle, and more particularly, to improve the ride comfort and the steering stability at the same time in detail, and to offset the impact of the impact on the sub-frame and the side member during offset collisions, so that the amount of sliding in the vehicle side of the dash panel By minimizing the present invention, the present invention relates to a front wheel suspension of a vehicle that enables the safety of the occupant due to the improvement of the collision safety.

Suspensions in automobiles exist between the body and the charun and are connected by one or more control arms, supported by springs and shock absorbers in the vertical direction, and high rigidity and flexibility in the other directions. By appropriately harmonizing, mechanically harmonizes the relative movement between the vehicle body and the wheels to absorb vibrations and shocks received from the road surface while driving to improve ride comfort and turning stability.

In order to satisfy the performance of various sectors for the input from the road surface, the following three conditions are required.

First, for the sake of steering stability, the tire should maintain the ideal posture on the road surface to maximize the grip force on the road, and the body should maintain the best posture in its own way to enable the desired vehicle movement state. In addition, it must not have any momentary force to get the next motion at all times and at the same time allow any behavior by external input except the driver's intended direction and moment.

Secondly, for comfort, the passengers should be able to absorb any shocks sensitively so that passengers in the car will not feel uncomfortable.

Third, it is necessary to contribute to the absorption of the collision energy in the collision to increase the collision safety.

In the above requirements of the suspension system, until now, the development to meet the first and second conditions has been chiefly focused and the designed suspension system has been applied to mass production vehicles, but in recent years, the safety regulations have become increasingly difficult. As a result, the design concept of the existing suspension system was not sufficient to satisfy this.

Accordingly, in recent years, a suspension system has been developed as a starter stage that can effectively absorb collision energy in front and offset collisions in a condition that does not adversely affect the vehicle body structure to improve collision safety.

Considering this point, the conventional strut-type suspension applied to the front wheels will be described. As shown in FIG. 6, the spring 102 and the shock absorber 104 are integrally formed and the upper end thereof is interposed with the insulator 106. And a strut assembly (110) fixedly supported on the vehicle body and having a wheel carrier (108) fixedly supporting the wheel so as to be integrally fixed to the vehicle body.

And a lower control arm 114 connecting the lower portion of the wheel carrier 108 with the vehicle body or frame 112.

However, in the suspension system as described above, it is a suspension device designed in consideration of ride comfort and adjustment stability, and in the event of a collision, the suspension device, especially the lower control arm, is pushed to the rear by its collision load, and its rear end portion hits the inside of the vehicle, By modifying the lower end of the side member and the dash panel fixing this to the inside of the vehicle, there is a problem that can not guarantee the safety of occupants in the vehicle.

Therefore, the present invention has been invented to solve the above problems, an object of the present invention is to minimize the amount of in-vehicle side sliding of the suspension device to ensure that the impact is dispersed and absorbed in the sub-frame and side members during offset collision, collision safety It is to provide a front wheel suspension of a vehicle that can improve the safety of the occupants due to the improvement of the vehicle.

In order to realize this, the present invention includes a wheel carrier rotatably supporting a wheel;

A lower control arm disposed in the vehicle width direction and connecting a lower end of the main body of the wheel carrier to a vehicle body side;

An upper control arm disposed in the vehicle width direction and connecting an upper end of an extension part formed to an upper side of the main body of the wheel carrier with a vehicle body side;

A strut assembly having an integral type of a spring and a shock absorber for absorbing and attenuating the load input from the wheel in the vertical direction;

Including a subframe connected to the vehicle body side connection portion of the lower control arm while reinforcing the vehicle body,

The sub-frame provides a front wheel suspension of a vehicle, characterized in that it is made of a closed type with a predetermined space in the center.

1 is a perspective view of a suspension device according to the present invention.

Figure 2 is a rear view of the suspension according to the present invention.

3 is a perspective view of a lower control arm applied in the present invention.

4 is a plan view of a sub-frame applied to the present invention.

Figure 5 is a side view schematically showing the coupling state of the sub-frame and the side member applied to the present invention.

6 is a perspective view showing an example of a conventional suspension device.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described in detail.

As shown in the figure, the wheel carrier 2 rotatably supports the wheel 4, and a through hole 8 is formed in the center of the main body 6 thereof so as to rotatably support the end of the drive shaft, not shown. It was forever.

In addition, an upper portion of the main body 6 is curved in an upper portion of the vehicle body side, and an upper end thereof is formed integrally with an extension 10 located at an upper portion of the vehicle body side of the wheel 2, and the main body 6 thereof. The lower portion and the upper portion of the extension 10 are connected with the wheel side connections of the lower control arm 12 and the upper control arm 14.

In the above, the lower control arm 12 has one wheel-side connecting portion 16 connected to the lower part of the main body 6 of the wheel carrier 2 to the outside, as shown in FIG. Alternatively, two vehicle body side connecting portions 20 and 22 connected to the sub frame 18 are formed.

The wheel side connection portion 16 is connected by a known ball joint method, and the front side connection portion 20 of the vehicle side connection portions 20 and 22 is horizontal, and the rear connection portion 22 uses a vertical bush. The connection is made.

In addition, the front connection portion 20 of the vehicle body side connection portion of the lower control arm 12 is fixed by a bolt that is fastened through both ends of the bush shaft 21 from the outside of the vehicle body to the inside, which is assembled of the lower control arm It is for improving sex.

In the above, the horizontal and vertical bushes applied at the front and rear connecting portions 20 and 22 are classified according to how the shafts of the bushes are arranged, and the horizontal bushes are arranged in a horizontal state. Vertical means that the axis is arranged in a vertical state.

The upper control arm 14 which connects the upper end of the wheel carrier 2 to the vehicle body has one wheel side connection portion 24 and two body side connection portions 26 before and after the same as the lower control arm 12. While retaining the 28, the wheel side connection portion 24 is connected by a ball joint method, the body side connection portion 26, 28 uses a horizontal bush, but high using the anchor bolts 30, 32 It was fixed to the body.

In connecting the wheel carrier 2 and the lower and upper control arms 12 and 14 in the above, the ball joint method is used to allow the wheel carrier 2 to be steered by rotation.

In addition, the lower and upper control arms 12 and 14 are subjected to a complex and severe load during the driving of the vehicle, and thus prevents a large accident due to cracks or fractures caused by fatigue damage. It must be formed in a structure that can withstand fatigue sufficiently.

Accordingly, these arms are usually manufactured by press-working two steel plates, and welding their edges to form a structure in which a hollow part is formed therein.

And the bushes applied to the above is used a rubber bush having a suitable rigidity and flexibility, which are known, the detailed description will be omitted.

In addition, the strut assembly 34 which controls the vertical movement of the wheel 4 has the coil spring 36 and the shock absorber 38 integrally formed, and the upper end thereof is supported by the vehicle body via the insulator 40. The lower part is branched to the front and the rear side and connected by interposing a horizontal bush to the connection part 42 formed inward of the wheel side connection part 16 of the lower control arm 12.

Accordingly, the up and down shock input from the wheel 4 is absorbed and attenuated according to the road surface condition.

In addition, the sub-frame 18 supporting the lower part of the component is formed in a shape in which a space portion having a predetermined shape is formed therein, as shown in FIGS. 1 and 4, but in the present invention, the space portion has a substantially rectangular shape. Formed to form a "井" as a whole, the middle portion was formed in the form of concave downward when viewed from the side.

In forming the subframe 18, two upper and lower steel sheets were pressed and manufactured by means of welding the edges thereof.

This is to increase the fatigue stiffness as well as to reduce the weight.

The space part is formed in the above, and the intermediate part is recessed downward in consideration of the mountability of the power unit including the engine and the transmission, and the subframe 18 thereof has a side member ( 46) is fixed to the lower side.

In this way, when connecting the sub-frame 44 to the lower side of the side member 46, the connecting portions 48, 50, 52, 54, 56, 58 formed on both front and rear side ends and the rear side of the intermediate portion. Connection is made through), the connection portion is connected via a vertical rubber bush.

And the intermediate connecting portion 52, 54 is formed in the upper end of the protruding support members 60, 62 protruding upward from the sub-frame 18, which is the shape of the surf frame 18 and the side member 46 It is formed by), it does not need to give a special meaning for the protrusion.

In addition, although the sub-frame 18 has been described as being integrally formed in a rectangular shape, the present invention is not limited thereto, and the rear lateral member may use a cross member of an existing vehicle body.

Reference numeral 64 in the drawing refers to a steering mechanism for steering.

According to the present invention made as described above, like the existing suspension device, the up and down impacts input from the road surface are absorbed and attenuated by the strut assembly 34 including the coil spring 36 and the shock absorber 38.

In addition, the front and rear forces and the lateral forces input in directions other than the vertical direction are connected to these wheel carriers 2, the rougher and lower control arms 12 and 14, and the connection portion connecting the vehicle body and the subframe 18 to each other. It is absorbed by the rigidity and flexibility of the intervening bush.

When the impact force F is input from the front of the vehicle by the offset collision or the collision while driving the vehicle as shown in FIGS. 4 and 5, first, the subframe 18 and the side member 46 are allocated to the subframe 18 and the side member 46. As a result, the lower control arm of the suspension device can be prevented from hitting the inside of the vehicle as in the prior art.

That is, in the conventional suspension device, the impact force acts as a intensive load on the suspension device in the event of an offset collision, so that the lower control arm hits the inside of the vehicle. However, in the present invention, the subframe 18 and the side member 46 are present. In the first absorbed state in the deformation is made, according to the deformation amount of the suspension occurs due to the deformation amount of the deformation is extremely small, the same as the conventional risk does not occur.

In addition, since the sub-frame 18 is formed in a closed type having a predetermined space in the center portion, the impact force is effectively dispersed, and the durability is relatively increased as compared with the non-closed type, so that the shock absorbing effect is increased. Is further increased and the amount of deformation is minimized.

In the above description, the offset collision refers to the collision of two rigid bodies eccentrically with respect to the center rather than the frontal collision. In a vehicle, a partial collision from the center of the vehicle to one of the collisions is described. It means.

As described above, according to the present invention, since the span between the high mounted upper control arm and the nor control arm is wide, the camber rigidity is high, the camber defect rate is low, and the optimum wheel geometry can be realized, thereby providing a high performance suspension. Will be.

Also, in terms of safety, the impact of the offset is distributed and absorbed in the sub-frame and side members during the collision, thereby minimizing the amount of sliding in the inside of the dash panel. It is an invention that can achieve.

Claims (6)

A wheel carrier rotatably supporting the wheel; A lower control arm disposed in the vehicle width direction and connecting a lower end of the main body of the wheel carrier to a vehicle body side; An upper control arm disposed in the vehicle width direction and connecting an upper end of an extension part formed to an upper side of the main body of the wheel carrier with a vehicle body side; A strut assembly having an integral type of a spring and a shock absorber for absorbing and attenuating the load input from the wheel in the vertical direction; Including a subframe connected to the vehicle body side connection portion of the lower control arm while reinforcing the vehicle body, The sub-frame is formed in the center of the space portion is formed in a substantially rectangular shape "井" form, the middle portion is formed in the form of recessed downwards is fixed to the side member through a plurality of connection parts of the front wheel of the vehicle Suspension. The wheel control arm of claim 1, wherein the lower control arm has one wheel side connection portion connected to the lower side of the main body of the wheel carrier and two vehicle body connection portions branched from the inner side to the subframe. The connection part is connected by a ball joint method, and the front connection part of the vehicle body side connection part is connected horizontally, the rear connection part is connected using a vertical bushing. The front wheel suspension of a vehicle according to claim 2, wherein the front connection portion of the vehicle body side connection portion of the lower control arm fixes both ends of the bush shaft with bolts which are fastened through the outside of the vehicle body. The upper control arm of claim 1, wherein the upper control arm has one wheel-side connection and two front and rear body-side connections, wherein the wheel-side connection is connected by a ball joint method, and the body-side connection is a horizontal bush and an anchor bolt. Front suspension of the vehicle, characterized in that connected to. The front wheel suspension of a vehicle according to claim 1, wherein the strut assembly is connected to the connecting portion formed at the inner side of the wheel-side connection portion of the lower control arm by interposing a lower portion of the strut assembly through a horizontal bush. The front wheel suspension of a vehicle according to claim 1, wherein the subframe and the side member are connected to each other at both front and rear ends and a connection part formed at the rear of the middle part via a vertical rubber bush.