Locating Sources of Vibration with Harmonics and Pulse Signals in Industrial Machines

IF 1.3 Q3 ACOUSTICS

Acoustics (Basel, Switzerland) Pub Date : 2022-07-29 DOI:10.3390/acoustics4030036

A. Valeev, B. Kharrasov

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Abstract

This paper is devoted to a new approach to condition monitoring. The main feature is an application of strain gauge analysis for geometrical locating of vibrating defects. Information about the exact geometrical location of a defect, intensity of excitation and its frequency provides accurate diagnostics. The research contains theoretical and experimental parts. Three types of defects are analyzed: defects with harmonic parameters, defects with non-harmonic periodical parameters (pulse periodic signal) and defects with non-periodical parameters (pulse non-periodical signal). For the first type, analysis of micro movements in the equipment is used. The others use triangulation; for detecting time lag of signal approaching in each sensor, an analysis of phase spectrum is used. This method can find sources of vibration/defects with pulse-like signals. An electronic board and computer program for implementation of the proposed method are developed. The electronics measure strain gauge data in real time and transmit it to a computer program. Such an approach gives new information for diagnostics and provides new opportunities for effective defect detection and condition monitoring of various machines and equipment.

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利用谐波和脉冲信号定位工业机械的振动源

本文致力于一种新的状态监测方法。主要特点是应变仪分析在振动缺陷几何定位中的应用。关于缺陷的确切几何位置、激励强度及其频率的信息提供了准确的诊断。研究包括理论和实验两部分。分析了三种类型的缺陷：具有谐波参数的缺陷、具有非谐波周期参数的缺陷（脉冲周期信号）和具有非周期参数的故障（脉冲非周期信号）。对于第一种类型，使用对设备中的微小运动的分析。其他使用三角测量；为了检测每个传感器中信号接近的时间滞后，使用了相位谱分析。这种方法可以用类似脉冲的信号找到振动/缺陷的来源。开发了用于实现所提出的方法的电子板和计算机程序。电子设备实时测量应变仪数据，并将其传输到计算机程序。这种方法为诊断提供了新的信息，并为各种机器和设备的有效缺陷检测和状态监测提供了新机会。

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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