KR20050027543A - Method for recognizing transition state by steering position in electrical power steering system - Google Patents

Abstract

A method for recognizing a transition state of a steering position in an electrical power steering system is provided to prevent chattering during state determination at a boundary value by applying hysteresis. A method for recognizing a transition state of a steering position in an electrical power steering system includes a step of recognizing a steering position such as a counterclockwise direction state when output values of a steering torque sensor exist in a range of a lower voltage(S1). The steering position such as a neutralization state is recognized when output values of a steering torque sensor exist in a range of a middle voltage(S2). The steering position such as a clockwise direction state is recognized when output values of a steering torque sensor exist in a range of a high voltage(S3).

Description

Method of judging the steering displacement transition state of the power steering system {METHOD FOR RECOGNIZING TRANSITION STATE BY STEERING POSITION IN ELECTRICAL POWER STEERING SYSTEM}

The present invention relates to a method for determining a steering displacement transition state of a power steering apparatus, and more particularly, when determining a transition state of a steering displacement in a power steering apparatus in a reverse direction without going through an intermediate step by a sensing time of a steering torque sensor. In case of transition, it is possible to judge the transition state of steering displacement by applying hysteresis to prevent chattering in the judgment of the state at the threshold value, so that the steering displacement transition state of the power steering system can be judged more precisely. It is about a method.

In general, a hydraulic power steering apparatus using a hydraulic actuator as a source of steering assistance force is configured to be coaxially connected through an output shaft connected to a steering wheel and an input shaft torsion bar connected to a handle. Therefore, when steering torque is applied to the handle, relative angle displacement occurs between the input shaft and the output shaft in accordance with the torsion of the torsion bar. At this time, the steering assistance force is obtained by supplying hydraulic pressure to the operating chamber corresponding to the direction of steering torque by a rotary valve formed between the input shaft and the valve body according to the generated relative angular displacement.

Therefore, the steering torque applied to the handle is sensed to generate steering assistance in a clockwise direction or to generate steering assistance in a counterclockwise direction. On the other hand, in the neutral state is maintained neutral without generating steering assistance in any direction.

In this way, the steering displacement is shifted clockwise to neutral, from neutral to counterclockwise, and in the reverse direction, the steering displacement is shifted from counterclockwise to neutral and from neutral to clockwise.

That is, if the value of the steering torque sensor is a low voltage, it is determined as the counterclockwise state, when the high voltage is determined as the clockwise state, and when the handle is slowly turned when the medium voltage is judged as the neutral state, the steering coke sensor As the value of increases to low voltage, medium voltage, high voltage, or transitions to high voltage, medium voltage and low voltage, steering assist force is generated in the clockwise or counterclockwise direction.

In this case, the displacement state is composed of three displacement states: counterclockwise, neutral, and clockwise. However, the low and high voltages are used to generate steering assistance. As the two displaced states are the same and the judgment criteria are different from each other, and the steering wheel is steered faster than the sensing period of the steering torque sensor, the medium voltage state is not recognized and the high voltage state is immediately Transitions from a high voltage state to a low voltage state, so that hysteresis cannot be applied in the middle of the low voltage state, the medium voltage state, and the high voltage state. .

The present invention has been made to solve the above problems, an object of the present invention is to transition in the opposite direction without going through the intermediate step by the sensing time of the steering torque sensor when determining the transition state of the steering displacement in the power steering apparatus In this case, it is possible to determine the transition state of steering displacement by applying hysteresis to prevent chattering at the state determination at the threshold value so that the steering displacement transition state of the power steering system can be judged more precisely. In providing.

The present invention for realizing the above object is a method for determining the transition state of the steering displacement by the steering torque sensor in the power steering device, the neutral state when the transition to the counterclockwise state, neutral state, clockwise state The transition state is judged based on the steering torque sensor value and the set value of the neutral state when the hysteresis voltage is set to the outside of both ends, and the neutral state is set when the clock state or counterclockwise state is changed. The transition state is determined by a value obtained by adding or subtracting a hysteresis voltage to a value.

When the transition to the clockwise state from the above it is characterized in that the transition state is determined by adding the hysteresis voltage to the set value of the neutral state.

In addition, when the transition to the counterclockwise state, the transition state is determined based on a value obtained by subtracting the hysteresis voltage from the set value of the neutral state.

The present invention made as described above is different from each other by the hysteresis voltage when the transition from the neutral state to the clockwise state or the counterclockwise transition and the transition from the clockwise state to the neutral state or the counterclockwise state to the neutral state As set, it is possible to precisely control by preventing chattering at the boundary point of the neutral state, and to apply the hysteresis voltage value when a transition is made without the neutral state from the clockwise state or the neutral state from the counterclockwise state. do.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, this embodiment is not intended to limit the scope of the present invention, but is presented by way of example only.

1 is a graph for explaining a steering displacement transition state of the power steering apparatus according to the present invention.

The graph shown here describes the state in which the steering displacement is shifted according to the output value of the steering torque sensor. When the output value of the steering torque sensor is in the low voltage range, it is defined as the counterclockwise state (S1) and is in the medium voltage range. It is defined as the neutral state (S2), and defined as the clockwise state (S3) when in the high voltage range.

Then, the hysteresis voltage value HYS is set outside the minimum value and the maximum value of the neutral state S2.

Therefore, as shown in (a), when the transition to the counterclockwise state S1, the neutral state S2, and the clockwise state S3 is made, the hysteresis voltage value HYS is set to the outside of both ends of the neutral state. When transitioning to the neutral state (S2), the transition state is judged by the value of the steering torque sensor and the set value of the neutral state, and when transitioning to the clockwise state (S3) or the counterclockwise state (S1), the neutral state (S2). The transition state is determined based on a value obtained by adding or subtracting the hysteresis voltage (HYS) to the set value.

That is, this will be described in detail again according to the transition state as follows.

FIG. 1B is a graph illustrating a process of transitioning from the counterclockwise state S1 to the neutral state S2 and transitioning from the neutral state S2 to the clockwise state S3, and FIG. It is a graph showing a process of transitioning from the direction S3 to the neutral state S2 and from the neutral state S2 to the counterclockwise state S1.

Therefore, as shown in (b), the transition point for determining the transition state from the anticlockwise state S1 to the neutral state S2 is the neutral state S2 when the transition state is greater than or equal to the minimum value S2_MIN of the neutral state S2. You will be judged. The transition point for determining the transition state from the neutral state S2 to the clockwise state S3 is the clockwise state when the hysteresis voltage value HYS is added to the maximum value S2_MAX of the neutral state S2. It is determined by (S3).

However, when the transition is reversed, the transition point for judging the transition state from the clockwise state S3 to the neutral state S2 as shown in (c) is less than or equal to the maximum value S2_MAX of the neutral state S2. It is determined as the neutral state (S2). The transition point for determining the transition state from the neutral state S2 to the counterclockwise state S1 is the counterclockwise direction when the hysteresis voltage value HYS is subtracted from the minimum value S2_MIN of the neutral state S2. It is determined in the state S1.

On the other hand, when the transition state is determined from the counterclockwise state (S3) to the counterclockwise state (S3) without the neutral state (S2) or the counterclockwise state (S1) from the clockwise state (S3) When the steering is suddenly made by the sensing time of the steering torque sensor, the case of transition to the next step immediately without going through the neutral state (S2) will be described.

(D) is a graph showing the process of transition from the counterclockwise state (S1) to the clockwise state (S3), (E) is a transition from the clockwise state (S3) to the counterclockwise state (S1) It is a graph showing the process.

Therefore, as shown in (d), the transition point for determining the transition state from the counterclockwise state S1 to the clockwise state S3 is the hysteresis voltage value HYS at the maximum value S2_MAX of the neutral state S2. ) Is determined as the clockwise state (S3).

And as shown in (e) the transition point for determining the transition state from the clockwise state (S3) to the counterclockwise state (S1) is the hysteresis voltage value (HYS) to the minimum value (S2_MIN) of the neutral state (S2) When the value is less than the subtracted value, it is determined as the counterclockwise state S1.

In this way, when the transition to the neutral state (S2), the transition state is judged by the value of the steering torque sensor and the minimum and maximum values of the neutral state, and when the transition to the clockwise state (S3) or counterclockwise state (S1) The hysteresis is applied to determine the transition state by setting the hysteresis voltage (HYS) to the minimum value or the maximum value of the neutral state (S2), and the hysteresis is applied to prevent chattering at the boundary value so that it can be precisely controlled. do.

As described above, the present invention applies the hysteresis to the transition state of the steering displacement even when the power steering device makes the transition in the opposite direction without going through the intermediate step by the sensing time of the steering torque sensor. By making it possible to judge, it is possible to prevent chattering in the state determination at the boundary value, thereby making it possible to judge more precisely.

1 is a graph for explaining a steering displacement transition process of a power steering apparatus according to the present invention.

Claims (3)

In the method of determining the transition state of the steering displacement by the steering torque sensor in the power steering apparatus, When transitioning to counterclockwise, neutral or clockwise state, the hysteresis voltage is set to the outside of both ends of neutral state, and when transitioned to neutral state, the transition state is judged by the value of steering torque sensor and the set value of neutral state. When the transition is made to the clockwise or counterclockwise state, the transition state is judged based on the value of the hysteresis voltage added to the set value of the neutral state. Steering displacement transition state determination method of the power steering device characterized in that. The method of claim 1, wherein the transition state is determined by adding a hysteresis voltage to a set value of the neutral state. 2. The method of claim 1, wherein the transition state is determined by subtracting the hysteresis voltage from the set value of the neutral state when the state transitions to the counterclockwise state.