Study on the Applicability of Influence Coefficient Method Combined with Vector Analysis in Dynamic Balancing Rigid Rotor Using Flexible Supports

Lam Nguyen Tran Thanh, Ngon Dang Thien, C. L. Chi
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引用次数: 1

Abstract

Dynamic balance using flexible supports is one of the commonly applied solutions to determine the position and unbalanced mass in rotors. However, dynamic balance using flexible supports are being determined experimentally, resulting in low accuracy and long calibration time. This paper presents some research results when applying the influence coefficient method to combine vector analysis (using balanced method on individual planes and trial mass). To verify experimentally the theory, HMC1501 sensors are attached at the supports to measure vibration induced displacement, an encoder 2.048 PPR is used to determine the position (phase angle $\varphi$ and a DSPIC30F4011 microcontroller is equipped to receive signal were used. The measured results were obtained by the Fast Fourier Transform (FFT) combined with numerical analysis, including phase angle j and unbalance mass U.
影响系数法结合矢量分析在柔性支承动平衡刚体转子中的适用性研究
采用柔性支承进行动平衡是确定转子位置和不平衡质量的常用方法之一。然而,目前使用柔性支撑的动平衡都是通过实验来确定的,因此精度低,校准时间长。本文介绍了影响系数法与矢量分析(单面平衡法与试验质量法)相结合的一些研究成果。为了验证该理论,在支架上安装了HMC1501传感器来测量振动引起的位移,使用2.048 PPR编码器来确定位置(相位角$\varphi$),并使用DSPIC30F4011单片机来接收信号。采用快速傅里叶变换(FFT)和数值分析相结合的方法得到了测量结果,包括相角j和不平衡质量U。
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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