KR101393841B1 - Suspension apparatus for vehicle - Google Patents

Abstract

The present invention relates to a suspension system for a vehicle, in which a wheel (1) passes through an obstacle without directly contacting the obstacle (7), and the vehicle body (2) Or the stability of the transported article can be greatly improved.

Description

[0001] Suspension Apparatus for Vehicles [

The present invention relates to a suspension system for a vehicle, and more particularly, to a suspension system for a vehicle capable of independently controlling the height of a wheel without passing through an obstacle when an obstacle exists in the direction of travel.

Generally, a vehicle is equipped with a suspension device for relieving vibration and shock from the road surface to improve ride comfort. As an example of the suspension device, a wheel 1 and a vehicle body 2 are connected A coil spring 4 provided on the shock absorber 3, and the like.

The coil spring 4 absorbs impacts when the wheel 1 is bumped and rebounded and the shock absorber 3 quickly absorbs vibration and damps the vibration of the coil spring 4 It keeps the garage constant.

The conventional suspension device as described above absorbs shocks and vibrations generated when the wheels 1 are in direct contact with obstacles existing in the traveling direction, and thus has a disadvantage in that the impact is directly transmitted to passengers or transported goods on the vehicle In particular, when the obstacle is passed, the vehicle body can not maintain the horizontal state continuously, and the vehicle body tilts to one side.

Such disadvantages are particularly adversely affecting dangerous goods (explosives) transportation vehicles, emergency patient transportation vehicles, transportation vehicles for persons with disabilities equipped with wheelchairs, and heavy equipment vehicles requiring a safe posture at work.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

Korean Patent Publication No. 10-1997-0040360.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a suspension system for a vehicle which can independently adjust the height of a wheel independently of a vehicle body, The present invention is intended to further improve the stability of passengers and transported goods as much as possible to prevent transmission to a maximum extent and to maintain the vehicle body continuously in a horizontal state.

According to an aspect of the present invention, there is provided a suspension system for a vehicle including: a drive motor connected to the drive shaft so as to transmit power so as to rotate a drive shaft of the wheel; A ground adhesion sensor connected to the drive motor for detecting a ground adhesion state of the wheel; And a lift module operable to vary the length of the wheel so as to adjust the height of the wheel while connecting the ground adhesion sensor to the vehicle body.

And a coil spring installed to support the ground adhesion sensor and the lift module at both ends to absorb an impact generated when the wheel is moved up and down.

And the ground adhesion sensor is an on-off switch that is turned on or off according to a state in which the wheel is in contact with the ground and a state in which the wheel is not in contact.

The ground adhesion sensor is a photosensor that senses the amount of light depending on whether the wheel is in contact with the ground or not.

The lift module includes: a cylinder-shaped fixing member having one end connected to the vehicle body; And a rod-shaped movable member which is connected to the ground adhesion sensor at one end and is inserted into the fixing member so as to insert the other end, and moves along the fixing member so as to change the height of the wheel.

The lift module is a linear actuator in which a coil is wound on the fixing member and the movable member moves linearly when a current is applied to the coil.

Wherein the lift module further comprises a driving member for operating the movable member; Wherein the movable member and the driving member are rack-and-pinion gears or worm gears.

According to the vehicle suspension system of the present invention, since the wheel can pass the obstacle without directly contacting the obstacle, the impact transmission to the vehicle body can be prevented as much as possible, and even when the wheel passes the obstacle, It is possible to greatly improve the stability of the passenger or the vehicle on board the vehicle.

1 is a view for explaining a conventional suspension device,
2 is a view of a vehicle equipped with a suspension device according to the present invention,
3 is a front view of a suspension device according to the present invention,
4 is a view of an embodiment in which the ground adhesion sensor according to the present invention is configured as an on-off switch,
5 is a view of another embodiment in which the ground adhesion sensor according to the present invention is constituted by a photosensor,
6 is a view for showing an operating state of a suspension device according to the present invention.

Hereinafter, a vehicle suspension system according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 2 to 6, the suspension system for a vehicle according to the present invention is constructed so that the wheel 1 and the vehicle body 2 are connected to each other and can operate independently for each wheel 1, A drive motor (10) connected to the drive shaft (5) so as to transmit power so as to rotate the drive shaft (5) connected to the drive shaft (1); A ground adhesion sensor 20 connected to the driving motor 10 to detect a ground adhesion state of the wheel 1; And a lift module 30 operable to vary the length of the wheel 1 so as to adjust the height of the wheel 1 while connecting the ground adhesion sensor 20 and the vehicle body 2. [

The present invention further includes a coil spring 40 installed at both ends of the ground adhesion sensor 20 and the lift module 30 so as to absorb an impact generated when the wheel 1 moves up and down.

Here, the wheel 1 moves up and down when the length of the lift module 30 is variable, and falls off the ground 6 or comes into contact with the ground 6 when the lift module 30 is vertically moved.

The lift module (30) includes a cylindrical fixing member (31) having one end connected to the vehicle body (2); And a rod-like shape moving along the fixing member 31 so as to change the height of the wheel 1, one end of which is connected to the ground adhesion sensor 20 and the other end is inserted into the fixing member 31, And a movable member (32).

The lift module 30 includes a linear actuator in which a coil is wound on the fixing member 31 and the movable member 32 linearly moves along the fixing member 31 when a current is applied to the coil .

The lift module 30 may further include a driving member (not shown) for operating the movable member 32. The movable member 32 and the driving member may be rack-and-pinion gears or worm gears .

The upper end of the coil spring 40 is supported by the lower end of the fixing member 31 and the lower end of the coil spring 40 is supported by the upper end of the coil spring 40. [ And is supported on the upper surface of the ground adhesion sensor 20.

On the other hand, the ground adhesion sensor 20 may be constituted by an on-off switch or a photo sensor.

4 (A) is a state in which the wheel 1 is in contact with the paper surface 6, and Fig. 4 (B) is a state in which the wheel 1 is in contact with the ground 6, (1) is separated from the paper surface (6).

The ground adhesion sensor 20 is composed of first and second switches 21 and 22 which are the concept of female and male switches. The first switch 21 is provided with a slit-shaped guide hole 21a extending in the vertical direction, And the second switch 22 is formed with a guide protrusion 22a passing through the guide hole 21a.

Since the ground adhesion sensor 20 is composed of the first and second switches 21 and 22 as an example, it can be configured in various forms as required. Further, the guide hole 21a is formed by the movable member 32 The guide holes 21a and the guide protrusions 22a may be formed in various shapes according to need.

4 (A) shows a state in which the wheel 1 is in contact with the paper surface 6, and the first and second switches 21 and 22 are in contact with each other at this time, and are kept in the ON state.

When the movable member 32 rises as the lift module 30 is operated in this state, the wheels 1 are lifted together from the ground 6, and at the same time, the first switches 21 rise together (Arrow M1), and the second switch 22 is lowered by the weight of the wheel 1 (arrow M2). As a result, the first and second switches 21, do.

When the wheel 1 is brought into contact with the paper surface 6 and the first and second switches 21 and 22 are in contact with each other and maintained in an ON state as shown in Fig. 4A, power is supplied to the drive motor 10 The wheel 1 is continuously rotated.

When the wheel 1 is separated from the paper surface 6 and the first and second switches 21 and 22 are apart from each other and remain OFF as shown in Fig. 4B, the drive motor 10 is not driven So that the wheel 1 maintains the state in which the rotation is finished.

The operation of the lift module 30 and the operation of the driving motor 10 are controlled by a controller (not shown) included in the vehicle. The vehicle is provided with a front terrain in the running direction and an obstacle detection A sensor 50 is provided.

The obstacle detection sensor 50 may be mounted on the front side of the vehicle body 2 or both the front side and the rear side. When the obstacle detection sensor 50 detects the obstacle, A signal is received from the wheel 50 to control the operation of the lift module 30 and the operation of the driving motor 10 so that the wheel 1 can pass through the obstacle without contact with the obstacle.

The obstacle detection sensor 50 is preferably an infrared sensor, but is not limited thereto.

5 (A) shows a state in which the wheel 1 is in contact with the paper surface 6, and Fig. 5 (A) shows a state in which the wheel 1 is in contact with the paper surface 6, B is a state in which the wheel 1 is separated from the paper surface 6, and the configuration thereof is the same as that in Fig. 4, and thus a detailed description thereof will be omitted.

The first switch 21 is provided with a shield 21b and the second switch 22 is provided with an insertion groove 22b into which the shield 21b can be inserted. The light emitting portion 22c and the light receiving portion 22d are provided.

When the wheel 1 is brought into contact with the paper surface 6 and the cover 21b is inserted into the insertion groove 22b as shown in Fig. 5A, the photosensor is kept ON, The wheel 1 is continuously rotated as power is supplied to the wheel 10.

When the wheel 1 is separated from the paper surface 6 and the cover 21b is removed from the insertion groove 22b as shown in Fig. 5B, the photosensor is kept in the OFF state. At this time, As the motor 10 is not driven, the wheel 1 is maintained in a state in which the rotation is completed.

Hereinafter, the operation of the embodiment of the present invention will be described.

When the obstacle detection sensor 50 senses the obstacle 7, the signal at this time is transmitted to the controller, and the controller controls the wheel 1 so that the wheel 1 of one row of the wheels 1 touches the obstacle 7 A control signal is sent to the lift module 30 of the first wheel 1 to operate the lift module 30. [

That is, when the movable member 32 connected to the first-row wheel 1 is raised by the signal of the controller, the first-row wheel 1 is lifted together from the ground 6, The second switch 22 is lowered by the self weight of the first wheel 1, and the first and second switches 21 and 22 are turned off.

It is a principle that the one-row wheel 1 is raised sufficiently to not contact the obstacle 7.

When the ground adhesion sensor 20 of the one-row wheel 1 is turned off as described above, power is not supplied to the driving motor 10 of the first-row wheel 1, So that the first-row wheel 1 is maintained in a state where the rotation is completed, and the remaining two or more rows of the wheels 1 continue to rotate.

Therefore, among the wheels 1 provided in the vehicle, only the first-wheel 1 rises and the remaining wheels 1 continue to rotate in contact with the ground 6. Therefore, And the ascending first-row wheel 1 passes without being in contact with the obstacle 7.

When the first wheel 1 passes the obstacle 7, the movable member 32 of the first-wheel 1 descends by the signal of the controller and the first and second switches 21 and 22 The drive motor 10 is driven again in response to the ON signal of the ground adhesion sensor 20 and the first row wheel 1 is brought into contact with the ground 6 again As shown in FIG.

When the two-row wheel 1 is positioned in front of the obstacle 7 again, it rises like the above-mentioned one-row wheel, passes through the obstacle without contact with the obstacle, and the remaining wheels operate in the same manner.

As described above, according to the suspension device of the present invention, since the wheel 1 can pass through the obstacle without directly contacting the obstacle 7, the shock transmission to the vehicle body can be prevented as much as possible, It is possible to greatly improve the stability of the passenger or the transported goods.

In the embodiment of the present invention, the wheel 1 passing through the obstacle 7 is configured to independently move up and down independently of the vehicle body 2, so that the vehicle body is always in a horizontal state So that the stability can be further improved.

Particularly, the suspension device according to the present invention is applicable to a dangerous substance (explosive) transportation vehicle, an emergency patient transportation vehicle, a disabled person transportation vehicle equipped with a wheelchair, a heavy equipment vehicle requiring a safe posture at work, etc., which are vulnerable to shocks and tilting of the vehicle body There is an advantage that it can be utilized effectively.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

1 - wheel 2 - bodywork
5 - drive shaft 10 - drive motor
20 - Ground adhesion sensor 30 - Lift module
31 - fixing member 32 - movable member
40 - coil spring

Claims (7)

A drive motor (10) connected to the drive shaft (5) so as to transmit power so as to rotate the drive shaft (5) of the wheel (1);
A ground adhesion sensor 20 connected to the driving motor 10 to detect a ground adhesion state of the wheel 1; And
And a lift module (30) operable to vary the length of the wheel (1) so as to adjust the height of the wheel (1) while connecting the ground adhesion sensor (20) to the vehicle body
When the obstacle detecting sensor 50 detects the obstacle 7 while the vehicle is running, the lift module 30 is brought into contact with the obstacle 7 by the operation of the lift module 30 under the control of the controller before sequentially touching the obstacle 7 from the first- And the raised wheel is in a state in which the raised wheel is in a state of being rotated as the first and second switches 21 and 22 of the ground adhesion sensor 20 are apart from each other and turned off, The remaining wheels in contact with the ground continue to rotate and after the raised wheel passes through the obstacle 7 without contacting the obstacle 7, it is lowered again by the operation of the lift module 30, , And the first and second switches (21, 22) are brought into contact with each other when brought into contact with the ground, thereby being driven by the power of the drive motor (10). The method according to claim 1,
Further comprising a coil spring (40) installed to support both the ground adhesion sensor (20) and the lift module (30) so as to absorb an impact generated when the wheel (1) moves up and down. Device. The method according to claim 1,
Wherein the ground adhesion sensor (20) is an on / off switch that is turned on or off according to a state in which the wheel (1) is in contact with the ground and a state in which the wheel (1) is not in contact. The method according to claim 1,
Wherein the ground adhesion sensor (20) is a photosensor that detects the amount of light according to a state in which the wheel (1) is in contact with the ground and a state in which the wheel (1) is not in contact with the ground. The method according to claim 1,
The lift module (30) includes a cylindrical fixing member (31) having one end connected to the vehicle body (2); And
A rod-like movement (not shown) that moves along the fixing member 31 so as to change the height of the wheel 1 and is provided with one end connected to the ground adhesion sensor 20 and the other end inserted into the fixing member 31, Member (32). ≪ Desc / Clms Page number 13 > The method of claim 5,
Wherein the lift module (30) is a linear actuator in which a coil is wound on the fixing member (31) and the movable member (32) linearly moves when a current is applied to the coil. The method of claim 5,
The lift module (30) further includes a driving member for operating the movable member (32);
Wherein the movable member (32) and the driving member are rack-and-pinion gears or worm gears.

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