KR100482044B1 - Noise and vibration determination device - Google Patents

Abstract

A piezoelectric element capable of carrying the mounting directly and an accelerometer for measuring the vibration degree are attached to the mounting to measure the vibration level, and after measuring the noise of the vehicle interior with a micrometer, the measured vibration degree and the noise level are measured. For calculating and calculating on equipment;

Mounting; A jig supported by a predetermined fixed support member at an arbitrary position of the mounting; A piezoelectric element having a jig by a predetermined external signal provided and applied at a predetermined position of the jig; A first accelerometer provided at a predetermined position of the mounting to detect a vibration state; A second accelerometer provided at a predetermined position of the jig for detecting a vibration state of the jig; Frequency generating means for outputting a predetermined vibration frequency signal to the piezoelectric element; A plurality of microphones provided for measuring indoor noise; Amplification and analog / digital signal conversion means for amplifying an analog signal transmitted from the first accelerometer, the second accelerometer and the microphone into a predetermined signal, and then converting the analog signal into a digital signal; As a measuring means for receiving the signal output from the amplification and the analog / digital signal converting means and determining the vibration and noise level by a predetermined program, the test error can be significantly reduced, thereby reducing the test time. Accurate test data can be obtained.

Description

Noise and Vibration Measurement Device {NOISE AND VIBRATION DETERMINATION DEVICE}

The present invention relates to a noise vibration measuring apparatus, and more particularly, to a noise vibration measuring apparatus for measuring the noise vibration generated by using a piezoelectric element to the mounting mounted on the vehicle body.

In general, mounting is used to minimize the vibration of the engine while fixing the engine of the vehicle to the vehicle body. Even when the mounting is used, noise and fine vibration are introduced into the vehicle interior.

Therefore, in order to examine the effect of vibration introduced into the room noise through the mounting, as shown in FIG. 2, the mounting 1 is replaced with an impact hammer 2 by the IMPACT HAMMER 2. After the excitation, the vibration transmitted through the impact hammer 2 is amplified through the amplifier 3, and the indoor noise is inputted using the microphone 4 in the vehicle interior and amplified through the amplifier 5, and then A After converting the amplified analog signal to a digital signal via the / D converter (6), the noise level introduced into the vehicle interior through the mounting (1) by calculating by a predetermined noise level calculation program in the measuring equipment (7) Was measured.

However, in the conventional method described above, the impact of the impact may be introduced into the vehicle interior by opening the hood of the vehicle and performing the test by impacting the mounting using the impact hammer. There is no problem.

In addition, in measuring the noise level, as the tester directly impacts, there is a problem in that the test conditions cannot be unified as the tester, the vehicle, and the type of mounting are different.

Accordingly, an object of the present invention is to solve the above problems, by attaching an accelerometer which can measure the vibration degree and a piezoelectric element that can be mounted directly to the mounting to measure the vibration degree, the noise of the vehicle interior After the micro-measurement, it is to provide a noise vibration measuring device that can accurately determine the calculated vibration degree and the noise level as a value calculated by the measurement equipment.

 The present invention for achieving the above object,

Mounting; A jig supported by a predetermined fixed support member at an arbitrary position of the mounting; A piezoelectric element having a jig by a predetermined external signal provided and applied at a predetermined position of the jig; A first accelerometer provided at a predetermined position of the mounting to detect a vibration state; A second accelerometer provided at a predetermined position of the jig for detecting a vibration state of the jig; Frequency generating means for outputting a predetermined vibration frequency signal to the piezoelectric element; A plurality of microphones provided for measuring indoor noise; Amplification and analog / digital signal conversion means for amplifying an analog signal transmitted from the first accelerometer, the second accelerometer and the microphone into a predetermined signal, and then converting the analog signal into a digital signal; It is characterized in that it is provided as a measuring means for receiving the signal output from the analog / digital signal conversion means to determine the vibration and noise level by a predetermined program.

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

1 is a schematic diagram of a driving device for measuring noise and vibration in accordance with the present invention, including: a mounting 10; A jig (30) supported by a predetermined fixed support member (20) at any position of the mounting (10); A piezoelectric element 40 having a jig by a predetermined external signal provided and applied at a predetermined position of the jig 30; A first accelerometer (50) provided at a predetermined position of the mounting (10) to detect a vibration state; A second accelerometer (60) provided at a predetermined position of the jig (30) to detect a vibration state of the jig; A frequency generator (100) for outputting a predetermined vibration frequency signal to the piezoelectric element (40); A plurality of microphones 110 provided for measuring indoor noise; An amplification and analog / digital signal converter (120) for amplifying an analog signal transmitted from the first accelerometer (50), the second accelerometer (60) and the microphone (110) into a predetermined signal, and then converting the analog signal into a digital signal; It is provided with a measuring device 130 for receiving the signal output from the amplification and the analog / digital signal converter 120 to determine the noise level due to vibration by a predetermined program.

The noise vibration measuring method of the noise vibration measuring apparatus made by the above-described configuration will be described by way of example with reference to FIG. 1.

As shown in FIG. 1, in order to test the vibration transmission rate of the mounting 10 by being fixedly attached to a vehicle body by a predetermined fixing member, a tester first needs to measure a noise vibration device 130, an amplification and an analog / digital signal converter 120. When the power is applied to the frequency generator 100, the noise vibration measuring apparatus 130 amplifies and outputs a predetermined control signal to the analog / digital signal converter 120 by a preset program.

The amplification and analog / digital signal converter 120 outputs a predetermined response signal in synchronization with a predetermined control signal output from the noise vibration measuring apparatus 130.

When the noise and vibration measuring apparatus 130 receives a response signal from the amplification and analog / digital signal converter 120, the noise vibration measuring apparatus 130 is ready to determine the noise and vibration and waits.

Subsequently, the tester uses the frequency generator 100 to generate a vibration frequency from 0 Hz to several Hz to test the vibration transmission rate and noise generation of the mounting 10, The vibration frequency is applied to the piezoelectric element 40 provided at a predetermined position in front of the mounting 10.

When the oscillation frequency of 0 kHz to several kHz applied by the tester from the frequency generator 100 according to the test condition is applied to the piezoelectric element 40, the piezoelectric element 40 is excited by the applied vibration frequency. .

Therefore, as the piezoelectric element 40 is excited, the jig 30 and the mounting 10 supporting the piezoelectric element 40 are also excited.

As the mounting 10 and the jig 30 are excited in the above, the first accelerometer 50 provided at a predetermined position of the mounting 10 detects the vibration degree due to the excitation of the mounting 10, and the jig The second accelerometer 60 provided at a predetermined position of 30 detects the degree of vibration due to the excitation of the jig 30.

Therefore, the vibration degree of the mounting 10 and the jig 30 detected by the first accelerometer 50 and the second acceleration 60 is amplified and transmitted to the analog / digital signal converter 120 through a predetermined transmission line. Delivered.

Subsequently, as the mounting 10 is excited, vibration is transmitted to the vehicle body that supports the mounting 10, and noise is generated in the vehicle body by the transmitted vibration.

Therefore, in order to detect the degree to which the noise generated in the vehicle body flows into the vehicle interior, the tester is provided with the microphone 110 at an arbitrary position in front of the driver's seat and the passenger seat, not shown in the drawing, and flows into the room. Detects the noise level.

The noise level detected from the microphone 110 is transmitted to the amplification and analog / digital signal converter 120 through a predetermined transmission line.

The signal detected from the first accelerometer 50 and the second accelerometer and the microphone 110 transmitted to the amplification and the analog / digital signal converter 120 is amplified into a predetermined signal and then converted into a digital signal, The noise vibration measuring apparatus 130 is input to the noise vibration measuring apparatus 130 according to an operating state.

The input noise vibration signal is calculated by a preset program, and outputs information on the degree of vibration and the degree of noise due to the mounting 10 desired by the tester.

As a result, in performing noise vibration degree measurement by mounting with a piezoelectric element regardless of the tester and the test conditions, the test error can be significantly reduced, thereby reducing the test time and obtaining accurate test data. Can be.

As described above, the noise and vibration measuring apparatus according to the present invention attaches a piezoelectric element capable of carrying the mounting directly and an accelerometer for measuring the degree of vibration to the mounting to measure the degree of vibration, and measures the noise inside the vehicle by micro-measuring. After that, by calculating and calculating the measured vibration degree and the noise level in the measuring device, the test error can be significantly reduced, so that the test time can be shortened and accurate test data can be obtained.

1 is a schematic diagram of a noise vibration measuring apparatus according to the present invention.

2 is a schematic diagram of a conventional sound vibration measuring apparatus.

<Description of Symbols for Main Parts of Drawings>

DESCRIPTION OF SYMBOLS 10 Mounting 20 Jig 30 Bolting element 40 Piezoelectric element

50: first acceleration detection element 60: second acceleration detection element

100: frequency generator 110: microphone 120: A / D converter

130: measuring device

Claims (3)

Mounting; A jig supported by a predetermined fixed support member at an arbitrary position of the mounting; A piezoelectric element having a jig by a predetermined external signal provided and applied at a predetermined position of the jig; A first accelerometer provided at a predetermined position of the mounting to detect a vibration state; A second accelerometer provided at a predetermined position of the jig for detecting a vibration state of the jig; Frequency generating means for outputting a predetermined vibration frequency signal to the piezoelectric element; A plurality of microphones provided for measuring indoor noise; Amplification and analog / digital signal conversion means for amplifying an analog signal transmitted from the first accelerometer, the second accelerometer and the microphone into a predetermined signal, and then converting the analog signal into a digital signal; Noise measuring apparatus characterized in that it is provided with a measuring means for receiving the signal output from the analog / digital signal conversion means to determine the noise level due to vibration by a predetermined program. delete The device of claim 1, wherein the jig is formed to correspond to the mounting bracket shape.