KR19990011507U - Device for testing the output characteristics of the rust sensor - Google Patents

Abstract

The present invention is a device for testing the output characteristics of the rust sensor for sensing the knocking (knocking) of the engine, etc., vibration transmission device for transmitting the vibration of the exciter 20 generating a constant vibration and acceleration in accordance with the input signal (30) The screw 40 is inserted and detached between the lower part 32 of the head) and the upper part 34 of the vibration transmitting device 30 for transmitting vibration to the rust sensor 10 installed for the test. By blocking and connecting; While the vibration of the exciter 20 reaches the target level, it is configured to solve the problem that the responsiveness is not checked by the rust sensor 10 that outputs the output waveform of the same frequency.

Description

Device for testing the output characteristics of the rust sensor

The present invention is a device for testing the output characteristics of the rust sensor. Specifically, when the rust sensor detecting the knocking of the vehicle is fixed to the test equipment for the performance test, the rust sensor of the specimen under test (vibration generating equipment) The present invention relates to an apparatus for testing the output characteristics of a rust sensor, which makes it possible to easily check the responsiveness of the sensor by receiving the generated vibration at once by inserting and removing the screw.

In general, the rust sensor used in automobiles is a sensor that detects 4 to 7 HZ vibration generated by the knocking of the engine.It is preferable to ignite at a high compression ratio in order to increase the thermal efficiency of the turbo engine, but knocking occurs when the compression ratio is increased. do. Therefore, the vibration caused by knocking is detected by an accelerometer or a piezoelectric element to delay the ignition timing.

However, when the knock sensor installed between the block and the head of the cylinder or the knock sensor installed on the block of the cylinder to detect the knocking phenomenon is defective, or the responsiveness is excessive or delayed, the knocking is not properly controlled.

In addition, the conventional test equipment that is tested to test whether the rust sensor is defective or responsiveness of the vibration equipment equipped with a rust sensor vibration of the exciter (vibration generating equipment) that generates a constant vibration in accordance with the input signal It is fixedly transmitted to the part so that the vibration of the vibrator cannot be connected immediately only when necessary. Therefore, after the vibration of the vibrator reaches a certain frequency for testing purposes, the vibration of the vibrator is transmitted to the rust sensor. The responsiveness of the rust sensor could not be measured accurately because the method of delivery was not adopted.

In other words, in order to determine the initial performance of the rust sensor, in the item of identifying transient response characteristics, the vibration of the exciter is maintained at 11KZ and 3G acceleration, and then the vibration is transmitted to the rust sensor at a time to receive the shock from the rust sensor. Although the responsiveness should be sufficiently checked, the conventional test equipment does not have the proper means for blocking and connecting the vibration of the vibrator. The rust sensor of the EUT is already vibrated while the vibrator is vibrated to reach 11KZ, 3G. By maintaining the same frequency and acceleration state as in the present invention, the target value of the test cannot be obtained and the response cannot be measured.

That is, the conventional test equipment for checking the responsiveness of the rust sensor has not been provided with suitable means for transmitting and blocking the vibration of the exciter to the rust sensor of the specimen under test and reaches the target level to test the vibration and acceleration of the exciter. There was a problem that can not check the responsiveness from the rust sensor because it does not transmit the vibration of the excitation to the rust sensor.

Therefore, the present invention has been devised to solve the problems described above, and the rust sensor tested after the vibration of the exciter reaches a certain level in the transient responsiveness grading item tested to determine the initial performance of the rust sensor. It is an object of the present invention to provide equipment for testing the output characteristics of a rust sensor that allows vibration to be transmitted at a time so that the responsiveness of the rust sensor can be measured more accurately.

1 is a state diagram showing a state in which the output characteristics of the rust sensor is tested by the present invention.

** Explanation of symbols on the main parts of the drawing **

10: Rust sensor 20: Exciter (vibration equipment)

30: vibration transmission equipment 32: the lower part of the equipment

34: upper part of the equipment 40: screw

50: connector 60: oscilloscope

Therefore, the present invention is a screw between the lower part of the vibration transmission device for transmitting the vibration of the exciter generating a constant vibration and acceleration according to the input signal and the upper part of the vibration transmission device for transmitting vibration to the rust sensor installed for the test. By inserting and dismounting, the vibration can be blocked and connected as necessary, eliminating the problem of responsiveness not checked by the rust sensor that outputs the output waveform of the same frequency while the vibration of the exciter reaches the desired level. It is characterized by configuring a test device for output characteristics of the rust sensor.

When explaining the configuration of the subject innovation for realizing the above object with reference to the drawings illustrated as follows.

As illustrated in FIG. 1, the present invention has a lower portion 32 of the vibration transmitting device 30 installed to transmit vibrations of the exciter 20 generating a constant vibration and acceleration according to an input signal, and the exciter 20. The vibration and acceleration of the exciter 20 is connected between the upper portion 34 of the vibration transmission device 30 that transmits vibration to the rust sensor 10 installed for the test and receives the vibration from To allow the screw 40 to be inserted and removed.

Therefore, the screw 40 for connecting the vibration of the exciter 20 to the vibration transmission device 30 of the upper portion 34 according to the state in which the screw 40 is inserted and removed is intended for the vibration of the exciter 20. After reaching the level, the vibration generated through the lower and upper portions of the equipment 32 to transmit the vibration of the exciter 20 is immediately and immediately transmitted to the rust sensor 10 to the rust sensor 10. The responsiveness of the rust sensor 10 can be measured by allowing a constant output waveform to be output from the impact of the exciter 20 to be obtained.

Therefore, the signal output from the rust sensor 10 is configured to be connected to the amplifier and the monitor through the connector 50 or to output the signal to the oscilloscope 60 so that the response can be checked.

Referring to the operation and effect on the configuration of the present invention described above are as follows.

The exciter 20 for generating a constant vibration and acceleration in accordance with the input signal is a vibration generating device for generating the vibration and acceleration necessary to obtain the desired test result value, and receives the vibration of the exciter 20 Vibration transmission device 30 for transmitting it to the sensor 10 is an action to transmit the vibration to the rust sensor 10 by the screw 40 is inserted into the upper and lower portions 32, 34 as shown in the illustrated figure In particular, the screw 40 that is inserted after the exciter 20 reaches the desired vibration frequency and acceleration is to transmit the vibration of the exciter 20 to the rust sensor 10 by the exciter 20 It solves the problem that the output waveform of the rust sensor 10 reaches the same frequency while reaching the desired frequency, thereby making it possible to sufficiently check the responsiveness of the rust sensor 10.

In addition, the rust sensor 10 for outputting the detection signal according to the impact degree is transmitted to the output signal to the external output device through the connector 50, the output signal is amplified by the amplifier and output to the monitor Or to display frequency and acceleration on the oscilloscope 60.

Therefore, the test apparatus to which the present invention is applied is able to block the vibration transmitted to the rust sensor 10 until the vibration of the exciter 20 reaches the desired level, so that the desired vibration frequency is the exciter 20. By transmitting the vibration of the exciter 20 through the screw 40 to the rust sensor 10 after it has been generated from) it is possible to sufficiently check the responsiveness of the rust sensor 10.

As described above, the test apparatus using the device of the present invention can sufficiently transmit responsiveness from the rust sensor to be tested by being able to transmit the vibration of the vibrator to the rust sensor after the excitator reaches the desired vibration frequency and acceleration.

Claims (1)

In order to transmit the vibration transmitted from the lower part of the vibration transmitting device which is installed to transmit the vibration of the exciter generating a constant vibration and acceleration according to the input signal, and the vibration transmitted from the lower part of the vibrator and the vibration transmitting device to the rust sensor of the specimen The output characteristics of the rust sensor, characterized in that consisting of a screw that is installed between the upper and lower parts of the vibration transmission equipment to be installed and the vibration generated by the insertion and removal of the vibration transmission equipment Device to test.