压电振动传感系统的设计与加工应用

IF 3.3 Q2 ENGINEERING, MANUFACTURING

Journal of Manufacturing and Materials Processing Pub Date : 2023-09-10 DOI:10.3390/jmmp7050166

Yiqing Yang, Longpeng Li, Mirakov Akhmedovich, Wenshuo Ma, Dongdong Xu

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引用次数: 0

摘要

本文设计了一种压电振动传感系统(PVSS)，用于机械加工中的振动传感。该系统包括三个主要组件，其中传感器用于收集和转换能量，随后通过低噪声电缆将其传输到数据采集卡(DAC)。整个系统的关键在于基于上位机的控制应用，便于将指令传输到DAC进行数据采集和传输。DAC和计算机之间Wi-Fi数据传输能力的集成有助于消除与使用传感器作为电压源相关的主要问题。利用商用加速度计对所设计装置的灵敏度进行了校准，同时制作了一个铝制工件进行振动和加工测试，以验证PVSS的性能。激振器激励实验产生的峰值电压为0.05 mV，从而证实PVSS与商用加速度计相比可以更准确地识别工件在5000 Hz以下的固有频率。实验验证了所设计的PVSS能够精确测量铣削过程中的振动，并可用于检测加工稳定性。

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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Design and Machining Applications of the Piezoelectric Vibration Sensing System

A piezoelectric vibration sensing system (PVSS) was devised in this study and employed for the purpose of vibration sensing in machining. The system comprises three primary components, wherein the sensor is utilized for the collection and conversion of energy, subsequently transmitting it to the data acquisition card (DAC) via a low-noise cable. The crux of the entire system lies in the upper computer-based control application, which facilitates the transmission of instructions to the DAC for data acquisition and transmission. The integration of Wi-Fi data transfer capability between the DAC and the computer serves to eliminate the principal issue associated with employing the sensor as a voltage source. The sensitivity of the designed device was calibrated utilizing commercial accelerometers, while an aluminum workpiece was fabricated to conduct vibration and machining tests in order to verify the performance of the PVSS. The shaker excitation experiment yielded a peak voltage of 0.05 mV, thereby substantiating that the PVSS can more accurately discern the natural frequency of the workpiece below 5000 Hz compared to commercial accelerometers. The experiments verify that the devised PVSS can precisely measure vibrations during the milling process, and can be implemented for the purpose of detecting machining stability.

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