KR0168558B1 - Method and device for measuring abs sensoring degree for a vehicle - Google Patents

Abstract

The present invention relates to a method and apparatus for measuring the accuracy of automotive ABS sensor ring, ABS sensor comprising a drive means having a variable speed, a sensor and a means for reading the change of the magnetic field to match the vehicle speed conditions By measuring accuracy in a single unit without having to settle the ring in the vehicle, the ABS sensor of the vehicle can significantly reduce the time required for accuracy measurement and completely eliminate the risks generated under actual driving conditions. An object of the present invention is to provide a ring accuracy measurement method and apparatus.

Description

ABS sensing sensor measuring method of car and its device

Figure is a schematic diagram showing an embodiment of the ABS sensoring accuracy measuring device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: motor 20: main base bracket

30: current source 40: ABS sensor ring

50: sensor 60: auxiliary base bracket

70: base plate

The present invention relates to a method and a device for measuring the accuracy of ABS sensor ring of a vehicle, and in particular, it is possible to measure in a single state by removing the existing method measured in the actual driving state after mounting the actual vehicle, The present invention relates to a method and apparatus for measuring ABS sensor ring accuracy of a vehicle that can more accurately measure accuracy and improve reliability of a measurement result.

In general, ABS sensor ring of automobile is one of the main components of brake control device, that is, antilock brake system, and the wheel speed sensor detects the rotation speed of ABS sensor ring that rotates integrally with hub. Can be sent to the electronic control unit (ECU).

In this case, when the ABS sensor ring is damaged such as a tooth break, the wheel speed sensor cannot accurately detect the rotational speed of the wheel, and thus the ABS sensor ring can be understood that maintaining the accuracy of the ABS sensor ring occupies a large proportion in the anti-lock brake system. .

In order to measure the degree of such ABS sensor ring, it has been measured while directly mounted on the actual vehicle and actually driving. However, such a measuring method has a long measurement time and has a considerable risk factor, so the need for improvement is urgently needed. Has been required.

Accordingly, the present invention has been made in view of the above, and has a driving means having a variable speed to match the vehicle speed condition, and means for reading changes in the sensor and the magnetic field, without mounting the ABS sensor ring in the vehicle. The method and device for measuring ABS sensoring accuracy of a vehicle that can significantly shorten the time required for accuracy measurement by enabling accuracy measurement in a single unit state, and to completely eliminate risk factors generated under actual driving conditions. The purpose is to provide.

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

The present invention includes a driving means for varying the rotation speed to suit each driving condition of the vehicle, the process of binding and rotating the ABS sensor ring integrally, and the detection means in close proximity to the rotating ABS sensor ring And, it is characterized by consisting of the process of generating a variable electromotive force by using the change of the magnetic field between these, and the process of measuring the output waveform appearing at this time by outputting the potential difference of the input electromotive force as a signal waveform.

In particular, it is possible to vary the rotational speed of the drive means by selectively supplying a DC pulse to the drive means.

This will be described in more detail as follows.

In order to rotate the ABS sensor ring of the present invention in the same conditions as the actual driving state is provided with a separate drive means.

In this case, the driving means uses a DC sub-motor capable of controlling its own speed according to the input value, and the low-speed and high-speed of the vehicle is applied by applying a DC power supply capable of selectively supplying a DC pulse as its power source. It allows you to reproduce the state.

That is, the sub-motor which is the driving means can have a rotation speed that is suitable for each speed mode of the vehicle.

The ABS sensor ring can be mounted on the shaft of the drive means and rotated integrally, so that the rotation speed of the ABS sensor ring can be proportional to the rotation speed of the drive means.

Accordingly, when the voltage (Voltage) of the DC servomotor is adjusted, the speed thereof can be controlled, so that performance measurement of ABS sensor ring according to the speed in various cases is possible.

In addition, it is provided with a detection means for generating an electromotive force under the influence of the rotational movement of the relative component, such as the ABS sensor ring, and placed close to the teeth forming portion of the ABS sensor ring, the magnetic field according to the change of the tooth shape of the ABS Detect changes.

To this end, the detection means at this time is equipped with a permanent magnet and a coil. If the ABS sensor ring is in a stationary state, there is no change in the magnetic field, so no current is induced in the coil, and if the ABS sensor ring is rotated, the minute magnetic field is formed by the irregularities of the teeth of the ABS sensor ring, which is a soft magnetic material. Change occurs.

As a result, a potential difference occurs while a current is generated in the coil of the detection means, and the potential difference is input to a device capable of outputting a signal waveform.

As the output means of the present invention, an oscilloscope, which is a device that shows the state of change in potential difference as a signal waveform, is used.

That is, the detection means is connected to an oscilloscope, and the potential difference transmitted from the detection means can be input, so that the change state of the input potential difference appears on the screen as an output waveform in the form of a sine wave, thereby making it possible to measure it.

For example, when the amplitude and period of each output waveform appear according to various driving speed conditions of the vehicle are different from the set output waveform, that is, the waveforms do not appear as uniform waveforms, there is a problem in the degree of ABS sensing. You will see that there is.

On the other hand, with reference to the accompanying drawings an embodiment of the device for measuring the ABS sensoring degree according to the present invention.

In the figure, reference numeral 10 denotes a motor which means drive means, and 11 denotes a current supply source of this motor.

The motor 10 is a DC servo motor capable of speed control, and is horizontally installed at an upper end of the main base bracket 20 on the base plate 70 and is rotated by being supplied with power while being connected to the current supply source 30. It becomes possible.

The current supply source 30 sends a current to the motor 10 in the form of a direct current pulse, and when the number of pulses is controlled at this time, the rotation speed of the motor 10 can be changed.

The ABS sensor ring 40 is integrally mounted to the shaft of the motor 10 to be rotatable with the motor shaft.

Reference numeral 50 denotes a sensor which means a detection means.

The sensor 50 is an induction type sensor in which a permanent magnet, a coil, and an electrode bar are built, and is capable of generating a current by being influenced by the movement of a counterpart (eg, ABS sensor ring).

The sensor 50 is horizontally installed and fixed on the auxiliary base bracket 60 vertically arranged side by side in front of the main base bracket 20, and the tip of the electrode rod of the sensor 50 at this time is ABS The tooth forming portion of the sensor ring 40, that is, the outer peripheral surface and the micro gap can be maintained while maintaining a close gap.

Here, the auxiliary base bracket 20 is also fixed to the base plate 70.

Since a magnetic field is always present between the electrode rod positioned in this way and the ABS sensor ring 40, when the teeth of the uneven shape are rotated to cause a gap change with the electrode rod, the sensor is changed by the magnetic field. A current is generated in the coil 50, and the potential difference at this time can be sent to the output means described later.

Reference numeral 60 denotes an oscilloscope which means an output means.

The oscilloscope 60 is connected to the sensor 50, from which the potential difference can be input.

The oscilloscope 60 receives the potential difference from the sensor 50 and outputs it as a signal waveform in the form of a sine wave, and the output is made through the screen.

Therefore, when the output waveform displayed on the screen of the oscilloscope 60 is analyzed, the degree of the ABS sensor ring 40 can be easily measured.

As described above, the present invention can reduce the development cost of the ABS sensor ring by providing an apparatus and a method which can measure the degree of accuracy of the ABS sensor ring in a single unit state, and perform the performance of the unit in a preceding step such as a real vehicle performance test. As a result of this evaluation, there is a merit that can exclude the risks of development.

Claims (6)

It is provided with a driving means for varying the rotational speed to suit each driving condition of the vehicle, the process of binding and rotating the ABS sensor ring here, and placing the detection means in close proximity to the rotating ABS sensor ring, these A method of measuring ABS sensoring degree of a vehicle, comprising the steps of generating a variable electromotive force by using mutual magnetic field changes, and outputting a potential difference between the input electromotive force as a signal waveform and measuring the output waveform appearing at this time. The method of claim 1, wherein the minimum speed of the driving means is variable by selectively supplying a DC pulse to the driving means. The ABS sensor ring can be mounted on the shaft, and the ABS sensor ring can be mounted on the shaft of the motor including a rotatable motor, a permanent magnet, a coil, and an electrode rod while varying the speed by receiving power from a current source. A sensor disposed close to the teeth and capable of obtaining electromotive force by using a magnetic ring change therefrom, an oscilloscope capable of outputting a potential difference input from the sensor as a sine wave signal waveform through a screen, and the motor and the sensor ABS sensor ring measuring method of the vehicle, characterized in that consisting of a plurality of base bracket and plate that can be fixed to each position. 4. The method of claim 3, wherein the current supply source is a DC power supply capable of supplying a current in the form of a DC pulse. 4. The method of claim 3, wherein the motor is a DC servomotor capable of speed control. 4. The method of claim 3, wherein the electrode rod tip of the sensor is positioned outwardly with a small distance from the end of the circle locus in the locus of the teeth of the ABS sensor ring.