System for detecting inclination angle of vehicle body

Details System for detecting inclination angle of vehicle body System for detecting inclination angle of vehicle body

2002-07-03

2004-02-17

Nguyen, Thu (Department: 3661)

Data processing: vehicles, navigation, and relative location

Vehicle control, guidance, operation, or indication

Reexamination Certificate

active

06694226

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a process for determining the presence or absence of a possibility that a vehicle is overturning laterally or sideways, based on a rolling angle and a rolling angular speed of the vehicle, and to a system for detecting an angle of inclination of the vehicle.
2. Description of the Related Art
A process for determining a possibility of lateral overturning of a vehicle is known from Japanese Patent Application Laid-open No.7-164985. In this known process, a lateral overturning region is established on a two-dimensional map made using a rolling angle and a rolling angular speed as parameters in an area where the rolling angle and the rolling angular speed are large (an area spaced apart from an origin), and a lateral non-overturning region is established on the map in an area where the rolling angle and the rolling angular speed are small (an area including the origin). When a hysteresis line made by plotting actual rolling angles and actual rolling angular speeds, detected respectively by sensors, on the map enters the lateral overturning region from the lateral non-overturning region, it is determined that there is a possibility that the vehicle is overturning laterally or sideways, whereby an active roll bar is raised.
Principal parameters governing the presence or absence of a possibility that the vehicle is overturning laterally or sideways, are the rolling angle and the rolling angular speed, and in addition to these, there are parameters promoting or inhibiting the lateral overturning of the vehicle. For example, even if the rolling angle and the rolling angular speed of the vehicle are of the same level, the degree of the possibility of the lateral overturning is varied largely depending on a lateral acceleration of the vehicle. More specifically, if a lateral acceleration is generated in a direction of inclination of the vehicle, the lateral overturning of the vehicle is promoted. And if a lateral acceleration is generated opposite to the direction of inclination of the vehicle, the lateral overturning of the vehicle is inhibited. In addition, even if the rolling angle and the rolling angular speed of the vehicle are of the same level, the degree of the possibility of the lateral overturning is varied largely depending on a lateral slipping of the vehicle. More specifically, when the vehicle has been slipped laterally in a direction of rolling of the vehicle, whereby a tire has collided against an obstacle such as a curb, a large rolling moment about the curb is generated to promote the lateral overturning of the vehicle.
When a steering wheel is operated leftwards, the vehicle is inclined rightwards. When the steering wheel is operated rightwards, the vehicle is inclined leftwards. Therefore, when a lateral lane change is conducted continuously, or when the vehicle travels through an S-shaped road, the vehicle is inclined alternately leftwards and rightwards. When the frequency of the operation of the steering wheel is closer to the frequency of an inherent vibration of a suspension provided on the vehicle, there is a possibility that the rolling angle of the vehicle may be liable to be diverged due to a resonance, resulting in the lateral overturning.
In addition, even if the rolling angle and the rolling angular speed of the vehicle are of the same level, the degree of the possibility of the lateral overturning is varied largely depending on a steering angle of the vehicle. More specifically, when the steering wheel is operated leftwards, the vehicle is rolled rightwards. When the steering wheel is operated rightwards, the vehicle is rolled leftwards. Therefore, when the steering wheel is operated leftwards in a state in which the vehicle has been rolled rightwards, the rightward overturning of the vehicle is promoted. When the steering wheel is operated rightwards in a state in which the vehicle has been rolled leftwards, the leftward overturning of the vehicle is promoted.
Further, even if the rolling angle and the rolling angular speed of the vehicle are of the same level, the degree of the possibility of the lateral overturning is varied largely depending on a rolling angular acceleration of the vehicle. More specifically, when a rolling angular speed has been generated in a direction to increase the absolute value of a rolling angle of the vehicle, the lateral overturning of the vehicle is promoted if a rolling angular acceleration is generated in a direction to increase the absolute value of the rolling angular speed. On the other hand, if a rolling angular acceleration is generated in a direction to decrease the absolute value of the rolling angular speed, the lateral overturning of the vehicle is inhibited.
In the process described in Japanese Patent Application Laid-open No.7-164985, a rolling angle &thgr; of the vehicle is detected using two sensors. The first sensor is a sensor for detecting an inclination angle with respect to the direction of gravity force, and detects an initial value &thgr;
0
of a rolling angle of the vehicle based on a component of a gravitational acceleration in a lateral direction of a vehicle body and a component of the gravitational acceleration in a vertical direction of the vehicle body when an ignition switch is turned ON. The second sensor calculates an amount of change in rolling angle according to ∫&ohgr;dt by time-integrating a rolling angular speed &ohgr; of the vehicle. The rolling angle &thgr; of the vehicle is given as a sum of outputs from the two sensors according to &thgr;=&thgr;
0
+∫&ohgr;dt.
It is surely possible to detect the rolling angle &thgr; of the vehicle, even if using the first sensor alone. However, a lateral acceleration generated with the turning movement of the vehicle and a vertical acceleration generated due to unevenness of a road surface cannot be recognized as components of the gravitational acceleration in lateral and vertical directions of the vehicle body, respectively. For this reason, there is a possibility that a large error may be generated in the detection of a rolling angle &thgr; during traveling of the vehicle. Moreover, there is a problem that a rolling angle &thgr; cannot be detected during free dropping of the vehicle.
The second sensor detects an amount of change in rolling angle &thgr; by time-integrating a rolling angular speed &ohgr; and hence, it is necessary to use another sensor for detecting an initial value &thgr;
0
of rolling angle &thgr; in combination with the second sensor, as described in Japanese Patent Application Laid-open No.7-164985. Moreover, the rolling angular speed sensor suffers from the following problem. It is difficult to avoid the generation of a drift, and even in a state in which the rolling angular speed &ohgr; is 0, the output does not necessarily assume 0. For this reason, an error is liable to be generated in the amount of change in rolling angle &thgr;, which is an integration value of such output.
SUMMARY OF THE INVENTION
Accordingly, it is a first object of the present invention to ensure that, when it is determined whether there is a possibility that a vehicle is overturning laterally or sideways, based on a rolling angle and a rolling angular speed of the vehicle, the accuracy of the determination is further enhanced.
It is a second object of the present invention to provide an inclination angle detecting system capable of accurately detecting an angle of inclination of a vehicle in various situations.
To achieve the above first object, according to a first aspect and feature of the present invention, there is provided a process for determining the lateral overturning of a vehicle, comprising the steps of: establishing a threshold value line on a two-dimensional map made using a rolling angle and a rolling angular speed of the vehicle as parameters, plotting a hysteresis line for an actual rolling angle and an actual rolling angular speed on the two-dimensional map, and determining that there is a possibility that the vehicle is overturnin

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