JPH0757611B2 - Rear wheel steering control device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a rear wheel steering control device for automatically steering a rear wheel in a reverse direction in accordance with a steering angle of a front wheel to reduce a turning radius of a vehicle.

[Technical background of the invention] Generally, large vehicles and front-wheel drive vehicles usually have large turning radii, and for example, when driving a large vehicle on a narrow road or smoothly entering a garage, a skilled driving technique is required. And For this reason, recently, a rear wheel steering device has been considered which automatically steers the rear wheels of a vehicle according to the steering angle of the front wheels. This rear wheel steering device, for example, steers the rear wheels in the opposite direction to obtain an extremely small turning radius when the front wheels are steered to the right or left by a certain angle or more. It facilitates driving operations such as parking. As described above, in the rear wheel steering device that steers the rear wheels in the opposite direction with respect to the front wheels to obtain a small turning radius, the vehicle speed sensor is used to detect sudden changes in the vehicle body posture due to the rear wheel steering during high-speed traveling. When the applied vehicle speed exceeds a certain vehicle speed value, steering of the rear wheels is prohibited. That is, when the vehicle speed detected by the vehicle speed sensor exceeds a preset constant vehicle speed value, the hydraulic cylinders for steering the rear wheels are locked in the neutral position to ensure the safety of the vehicle equipped with the rear wheel steering device at high speeds. I am trying.

[Problems of Background Art] However, in the rear wheel steering system configured as described above, for example, if the vehicle speed sensor fails, the vehicle speed detection signal is not supplied to the controller or becomes an abnormal signal, so that the vehicle speed is constant. The controller no longer outputs the command signal for locking the cylinder for steering the rear wheels even though the vehicle speed value is exceeded. In this case, the rear wheels are steered even during high-speed driving, which may cause a sudden change in the posture of the vehicle body.

[Object of the Invention] The present invention has been made in view of the above problems.
Not only when the vehicle speed exceeds a certain vehicle speed value but also when the vehicle speed sensor breaks down, the steering of the rear wheels in the opposite direction can be prohibited, and the danger of sudden changes in the vehicle body posture at high speed running can be eliminated. It is an object of the present invention to provide a rear-wheel steering control device having the above configuration.

[Outline of the Invention] That is, the rear wheel steering control device according to the present invention prohibits the rear wheel steering even when a failure of the vehicle speed sensor is detected.

[Embodiment of the Invention] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows its configuration. In this figure, 11 is an engine, 12a and 12b are hydraulic pumps driven by this engine 11, and 13 is an oil reservoir. Further, 14 is an oil passage extending from one of the hydraulic pumps 12a and 12b to the front wheel 15a, 15b steering gear box 15 of the hydraulic pumps 12a and 12b, and 16 is a hydraulic control valve 17 for steering the rear wheels from the other hydraulic pump 12b. It is a high-pressure oil passage that extends to. This rear wheel steering hydraulic control valve 17 is composed of, for example, an electromagnetic switching valve mechanism, 18 is a low pressure oil passage extending to the reservoir 13, and 19a and 19b are rear wheel steering hydraulic cylinders 20. It is an extended oil passage. This rear wheel steering hydraulic cylinder 20 is composed of a piston rod 21 that penetrates the cylinder body and projects at both ends.
Reference characters a and 22b are parallel links on the rear wheels 23a and 23b side connected to the piston rod 21. Next, 24 is the steering wheel
A front wheel steering angle sensor attached to the rotary shaft of 25, 26 is a first vehicle speed sensor attached to a speedometer 27, and 28 is a gear shift unit of an automatic transmission.
A second vehicle speed sensor attached to the output shaft of 29, 30 is a gear position sensor attached to this gear shift unit 29, 31
Is a selector lever. Here, the front wheel steering angle detection signal from the front wheel steering angle sensor 24, the vehicle speed detection signals from the first and second vehicle speed sensors 26 and 28, and the shift speed detection signal from the shift speed sensor 30 are all rear wheel steering signals. It is supplied to the controller 32. The rear wheel steering controller 32 supplies a hydraulic valve switching signal a to the rear wheel steering hydraulic control valve 17 on the basis of the contents of the detection signals from the above-mentioned sensors to control the piston rod 21 of the rear wheel steering hydraulic cylinder 20. The operating direction is switched to the right, left, or neutral position, and the gear shift unit 29 is supplied with a gear shift signal b to switch the set gear.
Further, the rear wheel steering controller 32 constantly compares the vehicle speed detection signal values from the two vehicle speed sensors 26 and 28, and when the difference is equal to or more than a predetermined value, it is determined as "vehicle speed sensor failure". At this time, the controller 32 has a function of supplying the gear shift unit 29 with the gear shift signal b for "holding the third speed" only when the selector lever 31 is in the D range. In addition, the above controller
32 is a hydraulic control valve for steering the rear wheels 17 when the vehicle speed value detected by each vehicle speed sensor 26, 28 exceeds a certain vehicle speed value.
It also has a function of supplying a "rear wheel steering prohibited" hydraulic valve switching signal a for locking the position of the piston rod 21 of the rear wheel steering hydraulic cylinder 20 at the neutral position.

That is, in the rear wheel steering control device configured as described above, first, the rear wheel steering function will be described.

For example, when the selector lever 31 travels normally in the D range, if the vehicle encounters a turning angle, the controller
A front wheel steering angle detection signal corresponding to a rotation operation of the steering wheel 25 is supplied to the 32 from the front wheel steering angle sensor 24.
At this time, the bending angle is extremely tight, and when the front wheel steering angle detected by the front wheel steering angle sensor 24 exceeds a preset constant steering angle, the controller 32 reverses the steering direction of the front wheels 15a, 15b. A hydraulic valve switching signal a for steering the rear wheels 23a, 23b is supplied to the rear wheel steering hydraulic control valve 17. Here, for example, when the turning angle is the right turn direction and the steering direction of the front wheels 15a, 15b is the right direction R, the pressure oil from the hydraulic pump 12b is the high pressure oil passage 16, the rear wheel steering hydraulic control valve 17, and It is supplied to the left chamber of the rear wheel steering hydraulic cylinder 20 via the oil passage 18b. Along with this, the pressure oil discharged from the right chamber of the cylinder 20 is transferred to the oil passage 19a, the control valve 17 and the low pressure oil passage 18
It is returned to the reservoir 13 via. As a result, the piston rod 21 slides in the direction indicated by arrow B, and the rear wheels 23a and 23b are steered in the left direction L by a certain angle.

On the other hand, when the front wheels 15a and 15b are steered to the left by a constant steering angle, the pressure oil from the hydraulic pump 12b passes through the high pressure oil passage 16, the hydraulic control valve 17, and the oil passage 19a to the hydraulic cylinder 20. The pressure oil supplied to the right chamber and discharged from the left chamber of the cylinder 20 is returned to the reservoir 13 via the oil passage 19b, the hydraulic control valve 17 and the low pressure oil passage 18. This causes the piston rod 21 to slide in the direction indicated by the arrow A,
The rear wheels 23a, 23b are steered in the right direction R by a certain angle.

That is, when turning a tight turn as described above,
Alternatively, when entering the garage or the like, by steering the rear wheels 23a, 23b in the opposite direction to the front wheels 15a, 15b, an extremely small turning radius can be obtained, and the driving operation can be simplified.

In the rear wheel steering control device having such a rear wheel steering function, the rear wheel steering controller 32 always inputs the vehicle speed detection signals from the first and second vehicle speed sensors 26, 28 to keep the traveling vehicle speed constant. If it exceeds, a hydraulic valve switching signal of "rear wheel steering prohibited" is output to the rear wheel steering hydraulic control valve 17,
By shutting off the hydraulic circuit to the rear wheel steering hydraulic cylinder 20, the piston rod 21 is locked in the neutral position. This increases the safety by prohibiting the rear wheel steering during high speed running. However, if the vehicle speed sensors 26, 28 fail, the vehicle speed detection signal corresponding to the high speed running will be the controller 32.
In such a case, it may not be supplied to
The controller 32 performs a control to completely prohibit the rear wheel steering. That is, the rear wheel steering controller 32 uses the vehicle speed sensors 26, 2 that should always output the same vehicle speed detection signal.
8, when it is determined that the vehicle speed detection signal having a difference of a predetermined value or more is output, it is determined that "the vehicle speed sensor has failed", and in the same manner as in the above high speed running, the rear wheel steering hydraulic cylinder 20 Lock the piston rod 21 in the neutral position to completely prohibit rear wheel steering. In this case, a small turn by steering the rear wheels at the time of normal turning is impossible, but safety at the time of high-speed running can be ensured. Further, when the selector lever 31 is in the traveling state in the D range, the shift speed is automatically set in accordance with the vehicle speed detected by the vehicle speed sensors 26 and 28, so that the controller 32
When it is determined that "the vehicle speed sensor is abnormal" as described above, the gear shift unit 29 outputs a gear change signal for "holding the third gear" to forcibly hold the gear at the third gear. This prevents the gears from being mistakenly switched when the vehicle speed sensors 26, 28 fail.

In the above embodiment, when the difference between the vehicle speed detection signals from the two vehicle speed sensors 26, 28 is equal to or more than a predetermined value, it is determined that "vehicle speed sensor is abnormal" and the rear wheel steering is prohibited. Although the third speed is maintained, the fact that the third speed is set when the vehicle is stopped and the vehicle speed is zero means that the vehicle speed sensor is inevitably out of order. Therefore, for example, a vehicle speed zero sensor 41 is attached to an axle or the like so that the stopped state of the vehicle can be detected,
When the set gear position detected by the gear position sensor 30 is the third speed and the vehicle speed zero sensor 41 detects that the vehicle is stopped, the rear wheel steering hydraulic cylinder 20
The piston rod 21 may be locked at the neutral position to prohibit rear wheel steering.

[Advantages of the Invention] As described above, according to the present invention, by automatically steering the rear wheels according to the front wheel steering angle of the vehicle, a small turning with a small turning radius is possible, and the vehicle speed is constant. Not only when the vehicle speed sensor exceeds the limit, but also when the vehicle speed sensor fails, steering of the rear wheels in the direction opposite to the front wheels is prohibited, so there is no fear of sudden changes in the vehicle body posture at high speeds. It is possible to realize a rear-wheel steering control device with higher safety.

[Brief description of drawings]

FIG. 1 is a block diagram showing a rear wheel steering control device according to an embodiment of the present invention. 12a, 12b …… hydraulic pump, 15a, 15b …… front wheel, 17 …… hydraulic control valve for steering rear wheel, 20 …… hydraulic cylinder for steering rear wheel, 21
...... Piston rod, 23a, 23b ...... Rear wheel, 24 ...... Front wheel steering angle sensor, 26 ...... First vehicle speed sensor, 28 ...... Second vehicle speed sensor, 29 ...... Gear shift unit, 30 ...... Gear stage Sensor, 31 …… Selector lever, 32 …… Rear wheel steering controller, 41 …… Vehicle speed zero sensor.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hiroki Abe No. 1 Nakashiniri, Hashime-cho, Okazaki City, Aichi Prefecture Mitsubishi Motors Corporation, Passenger Vehicle Technology Center (56) Reference JP-A-59-128054 (JP, A) JP 59-45266 (JP, A) JP 57-178972 (JP, A)

Claims (1)

[Claims] 1. A rear wheel steering control device for steering a rear wheel in a direction opposite to that of the front wheel according to a steering angle of a front wheel of the vehicle, and prohibiting steering in the reverse direction in a region of a predetermined vehicle speed or more. First and second vehicle speed sensors that are separately installed in the vehicle and that detect the vehicle speed in each, and means for determining whether or not the difference between the output signals of the first and second vehicle speed sensors is equal to or greater than a predetermined value. A rear wheel steering control device comprising: means for prohibiting steering in the opposite direction when the difference between the output signals of the first and second vehicle speed sensors is determined to be a predetermined value or more.