A new method of measuring displacement by means of variations of sound frequency and the length of air column in a small pipe (a resonant method using speaker and electric feedback loop)

JSME international journal. Series 3, Vibration, control engineering, engineering for industry Pub Date : 1992-03-15 DOI:10.1299/JSMEC1988.35.9

S. Sakamoto, R. Ichimiya, Yuji Suzuki

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引用次数: 1

Abstract

A new method of measuring displacement by means of variations of sound frequency and length of an air column in a stopped resonant pipe has been investigated. In this study, a speaker was used as the sound-generating source instead of the air jet, which was used for the feedback excitation mechanism on the edge instrument. This paper deals with a new kind of displacement sensor using an electric feedback circuit. A sweep signal is radiated from the speaker through the small hole which is opened on one end of the closed resonant pipe, toward the inside of the air column. The sound pressure takes the largest value at the resonant frequency. The displacement of the plunger which is inserted from the other end of the pipe corresponds to the length of the air column. Thus; the displacement of the plunger corresponds well to the resonant frequency of the air column. The phase-locked loop device is adopted for stability of the resonance and frequency

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一种利用小管道中声音频率和空气柱长度变化测量位移的新方法(扬声器和电反馈回路谐振法)

本文研究了一种利用停止谐振管内空气柱长度和声音频率变化来测量位移的新方法。在本研究中，用扬声器代替空气射流作为发声源，用于边缘仪器的反馈激励机制。本文研究了一种新型的基于电反馈电路的位移传感器。扫描信号从扬声器通过封闭谐振管一端开的小孔向气柱内部辐射。声压在谐振频率处取最大值。从管道另一端插入的柱塞的位移对应于气柱的长度。因此;柱塞的位移与气柱的谐振频率很好地对应。采用锁相环装置，保证了谐振和频率的稳定性

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JSME international journal. Series 3, Vibration, control engineering, engineering for industry

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