Rear wheel toe angle control system of a vehicle

Abstract

The present invention relates to a vehicle posture control system for improving handling stability by controlling a posture of the vehicle. An object of the present invention is to provide a rear wheel toe angle control system, in which as an actuator for controlling rear wheels of a vehicle, an electric-powered one is used for rapid operation thereof, thereby ensuring handling stability, the left and right rear wheels are operated by the single actuator to reduce weight and manufacturing costs of a vehicle, and toe angles of the left and right rear wheels are identically controlled to improve handling stability of a vehicle. According to one embodiment of the present invention, there is provided a rear wheel toe angle control system of a vehicle, comprising a rack bar received in a case installed in parallel with a cross member supporting left and right rear wheels; left and right link members having first ends respectively connected to the left and right rear wheels and second ends respectively connected to ends of the rack bar; and an actuator installed to the rack bar to cooperate therewith, the actuator moving the rack bar so that the left and right link members change toe angles of the left and right rear wheels at the same time.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and advantages of the present invention will become apparent from the following description of a preferred embodiment given in conjunction with the accompanying drawings, in which:

FIG. 1 is a view showing a rear wheel toe angle control system of a vehicle according to a prior art;

FIG. 2 is a view showing a rear wheel toe angle control system of a vehicle according to the present invention; and

FIG. 3 is a perspective view schematically showing the rear wheel toe angle control system of a vehicle according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

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

FIG. 2 is a view showing a rear wheel toe angle control system of a vehicle according to one embodiment of the present invention, and FIG. 3 is a perspective view schematically showing the rear wheel toe angle control system of the vehicle illustrated in FIG. 2.

Referring to FIGS. 2 and 3, left and right rear wheels 54 and 55 of a vehicle are suspended by a rear cross member 52. At this time, the rear wheels 54 and 55 are coupled to knuckles 56, which are supported by control arms 57 in a lateral direction of the vehicle and supported by trailing arms (not shown) in a longitudinal direction of the vehicle. In addition, each of the knuckles 56 is supported by a spring 58 and a shock absorber 59 in an at least partially vertical direction.

Meanwhile, a rear wheel toe angle control system 60 is installed to the left and right rear wheels 54 and 55 to change toe angles of the rear wheels 54 and 55 when the vehicle turns.

The rear wheel toe angle control system 60 includes a case 66 installed in parallel with the cross member 52 and a rack bar 67 received in the case 66. The rack bar 67 is movably supported in the case 66, and a plurality of rack teeth 67a are formed on a surface of the rack bar 67.

In addition, a pair of link members 64 and 65 connected to the left and right rear wheels 54 and 55 are connected to both ends of the rack bar 67, respectively. The link members 64 and 65 are movably installed, and each of them may be composed of one or more members and its rotation center may be fixed to a side of the cross member 52.

Meanwhile, the link members 64 and 65 control the toe angles of the rear wheels 54 and 55 by the translation of the rack bar 67. To this end, an actuator 62 is installed in order to translate the rack bar 67.

Accordingly, as the actuator 62 operates, the rack bar 67 is moved to move the link members 64 and 65, whereby the toe angles of the left and right rear wheels 54 and 55 are changed at the same time. That is, when the vehicle turns, one of the left and right rear wheels 54 and 55 is toed in and the other is toed out according to the turning direction, thereby controlling the posture of the turning vehicle.

The actuator 62 includes a housing, and a motor 63 installed in the housing, and a reduction gear 68 is connected to a rotary shaft of the motor 63. The reduction gear 68 includes a worm gear 68a coupled to the rotary shaft 63a of the motor 63, and a worm wheel 68b meshed with the worm gear 68a, so that a rotation speed of the worm wheel 68b is reduced according to a gear ratio of the worm gear 68a and the worm wheel 68b.

In addition, a pinion gear 69 meshed with the rack bar 67 is installed to the worm wheel 68b of the reduction gear 68. The pinion gear 69 may be installed on a rotary shaft 63a of the worm wheel 68b, and is preferably press fitted into and fixed to a central hole of the worm wheel 68b. In addition, a bearing (not shown) is installed to an upper portion of the rotary shaft of the worm wheel 68b, and the bearing is fixedly installed to the housing.

Here, the motor 63 is an electric-powered motor, preferably a DC motor. In this embodiment, the motor 63 is operated at an input voltage of DC 10 to 16V and a rated input voltage of 13.5V.

In addition, in order to measure a rotation amount of the motor 63, a magnetic ring is installed to the worm gear 68a and a magnetic sensor is installed at a position adjacent to the magnetic ring so as to detect a magnetic force of the magnetic ring. A magnetic signal detected from the magnetic sensor is sent to a central processing unit of the vehicle, and a rotation amount of the worm gear 68b is measured by the central processing unit.

Meanwhile, a linear displacement of the rack bar 67 is measured from the rotation amount of the worm gear 68a measured from the rotation amount of the magnetic ring, a gear ratio of the reduction gear 68, and a pitch ratio of the rack teeth 67a of the rack bar 67. Then, the toe angles of the left and right rear wheels 54 and 55 are controlled according to the linear displacement of the rack bar 67.

A limit switch 70 is installed on a moving line of the rack bar 67 so as to limit a stroke range of the rack bar 67. The limit switch 70 senses an initial position of the rack bar 67 to set a reference position of the rack bar 67, and then senses an end of the rack bar 67 when the rack bar 67 is excessively moved thereby controlling the operation of the actuator 62 to stop.

According to the rear wheel toe angle control system 60 of a vehicle configured as described above, the single actuator 62 causes the left and right rear wheels 54 and 55 to be changed together, thereby improving the reliability of the posture control.

The operation of the rear wheel toe angle control system of a vehicle so configured will be described as follows.

When a vehicle runs, particularly turns, it may understeer or oversteer due to gravity of a vehicle body or friction with a road surface. At this time, the actuator 62 of the rear wheel toe angle control system 60 is operated to prevent the vehicle from understeering or oversteering. More specifically, if power is supplied to the motor 63 of the actuator 62, the motor 63 rotates and transmits the rotating force to the reduction gear 68.

The reduction gear includes the worm gear 68a installed to the rotary shaft 63a of the motor 63, and the worm wheel 68b meshed with the worm gear 68a, and reduces the rotation speed of the worm wheel 68b according to a gear ratio of the worm gear 68a and the worm wheel 68b.

The worm wheel 68b of which the rotation speed is controlled by the reduction gear 68 as mentioned above rotates the pinion gear 69 press fitted to the center portion of the worm wheel 68b, and accordingly the pinion gear 69 rotates to move the rack bar 67.

The rack bar 67 is moved in one of a left direction or a right side direction, thereby moving the link members 64 and 65 connected to the left and right rear wheels 54 and 55. Accordingly, the link members 64 and 65 controls the toe angles of the left and right rear wheels 54 and 55 at the same time, and cause one of them to be toed in and the other to be toed out, thereby preventing the vehicle from understeering or oversteering.

That is, the rear wheel toe angle control system 60 controls an unstable posture of the vehicle caused by the toe-out of the suspension generated when the vehicle turns by controlling the outer wheel to be toed in and the inner wheel to be toed out by means of the actuator 62, thereby ensuring the stable posture control and therefore the handling stability of the vehicle through the frictional force between the tire and the road surface.

At this time, the toe angles of the rear wheels 54 and 55 may be controlled according to the linear displacement of the rack bar 67. To this end, a magnetic force of the magnetic ring installed to the worm gear 68a is measured from the magnetic sensor, so that a rotation amount of the motor 63 is determined from the rotation amount of the magnetic ring, and the linear displacement of the rack bar 67 can be measured according to a gear ratio of the reduction gear 68 and a pitch ratio of the rack teeth 67a of the rack bar 67.

Meanwhile, an initial start position of the rack bar 67 is set by the limit switch 70, so that a stroke range of the rack bar 67 is accurately controlled. In addition, the limit switch 70 senses the end of the rack bar 67 and controls the operation of the actuator 62 so that the rack bar 67 is not excessively moved.

According to the rear wheel toe angle control system of a vehicle according to one embodiment of the present invention so configured, the toe angles of the rear wheels 54, 55 are operated by the electric-powered actuator having good response and rapid operation, whereby the handling stability can be improved. In addition, since the left and right rear wheels 54, 55 are operated by the single actuator 62, the handling stability is further improved by the control of the toe angles of the left and right rear wheels 54, 55. Moreover, the rear wheel toe angle control system has a small size, thereby ensuring easy installation and reducing the weight and manufacturing costs of the vehicle.

As mentioned above, the rear wheel toe angle control system of a vehicle according to an embodiment of the present invention has been illustrated with reference to the accompanying drawings, but the present invention is not limited to the aforementioned embodiments and drawings. It will be apparent that those skilled in the art can make various modifications and changes thereto within the scope of the invention defined by the claims.

For example, although the reduction gear 68 in the illustrated embodiment of FIG. 3 is configured to have a single gear ratio by the worm gear 68a and the worm wheel 68b, it is also possible for the reduction gear 68 to have a variety of gear ratios by installing a plurality of worm gears 68a and worm wheels 68b in multistage and a clutch means. However, in the illustrated embodiment of FIG. 3, the reduction gear 68 is illustrated to have a single reduction ratio in consideration of its installation space and size.

Claims

1. A rear wheel toe angle control system of a vehicle, comprising: a rack bar received in a case installed in parallel with a cross member configured to support left and right rear wheels;left and right link members having first ends configured to respectively connect to the left and right rear wheels and second ends configured to respectively connect to ends of the rack bar; andan actuator installed to the rack bar to cooperate therewith, the actuator configured to move the rack bar so that the left and right link members change toe angles of the left and right rear wheels at the same time.

2. The rear wheel toe angle control system as claimed in claim 1, wherein the actuator includes a motor used as a driving source; a reduction gear having a worm gear installed to a rotary shaft of the motor and a worm wheel meshed with the worm gear to rotate; and a pinion gear installed on a rotary shaft of the worm wheel to be meshed with rack teeth of the rack bar to move the rack bar.

3. The rear wheel toe angle control system as claimed in claim 2, wherein the pinion gear is press fitted into and fixed to a central portion of the worm wheel.

4. The rear wheel toe angle control system as claimed in claim 1, further comprising a limit switch installed on a moving line of the rack bar to detect an end of the rack bar, thereby controlling an initial position of the rack bar and operation of the actuator when the rack bar is excessively moved.

5. The rear wheel toe angle control system as claimed in claim 2, further comprising a magnetic ring installed to the worm gear and a magnetic sensor installed to sense a magnetic force of the magnetic ring, wherein a linear displacement of the rack bar is measured from a rotation amount of the magnetic ring, a gear ratio of the reduction gear and a pitch ratio of rack teeth of the rack bar.

6. The rear wheel toe angle control system as claimed in claim 1, further comprising the left and right wheels coupled to the cross member.