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铰链互补结构的宽频段高灵敏度光纤光栅振动传感器

Wide-band high-sensitivity fiber Bragg grating vibration sensor based with hinged complementary structure
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摘要 针对振动传感器工作频段与灵敏度相互制约的问题,设计了一种基于铰链互补结构的宽频段高灵敏度光纤光栅振动传感器。将两个“工作区”与谐振峰互补的振动传感单元进行组合,在保证高灵敏度测量的同时,扩展了传感器的工作频率范围。首先建立了传感单元的结构模型,通过力矩平衡方程,得出了影响传感器灵敏度和固有频率的因素,然后使用Ansys与SolidWorks联合仿真,优化了传感器结构参数,最后制作了传感器实物,搭建封装和测试系统完成封装和特性测试。实验结果表明:两个传感单元的谐振峰位于650Hz和925Hz,分别与传感单元2和传感单元1的“工作区”互补,将工作频率范围扩展到0~1500Hz,灵敏度优于410.4pm/g,测量分辨率为0.16mg。文中所设计的传感器具有灵敏度高、工作频段宽等优点,为微振动监测提供新的技术手段。 Objective The existing FBG vibration sensor has a wide operating frequency band, but it has low sensitivity compared to high-sensitivity vibration sensor. Additionally, the sensor's intrinsic frequency is not high, and there are mutual constraints on the relationship between the working frequency band of the FBG vibration sensor and the measurement sensitivity. Consequently, the extension of the sensor's operating frequency spectrum has significant research value in order to guarantee the high sensitivity of the vibration sensor simultaneously.Methods The proposed FBG vibration sensor is made up of two FBGs, two integrally molded sensing units, and front and rear end caps(Fig.2), each of which has a tower-shaped mass block, an L-shaped base, and a circular flexible hinge(Fig.1). First, structural mechanics modeling research was used to determine the elements influencing the sensing unit's sensitivity and inherent frequency. To enhance the sensitivity, the mass block was shaped like a rectangle. The sensitivity of the sensing unit was determined by measuring the distance between the FBG and the hinge center. The mass block is designed as a tower to increase the intrinsic frequency by lowering the mass block's center of mass, which expands the operating band of a single sensing unit. The intrinsic frequency of the sensor unit is related to the mass block's moment of inertia, which is related to the distance from the mass block's center of mass to the center of the hinge. The sensing unit is skeletonized with such a way that the resonance peak and the "working area" sensing units complement one another and work together to broaden the working frequency band. Subsequently, the dimensional parameters of the sensor are optimized and expedited by the combined simulation of ANSYS and SolidWorks. To finish the packaging and characterization investigations of the sensor, the packaging system(Fig.6) and the performance test system(Fig.9) were constructed.Results and Discussions The intrinsic frequency of the sensing units 1 and 2 are 650 Hz and 925 Hz,respectively (Fig.10).The sensor operates in the frequency range of 0 to 1500 Hz (Fig.11),with a sensitivity of better than 410.4 pm/g (Fig.12) and a measurement resolution of 0.16 mg (Fig.13).Conclusions This article proposes a method of design for a high-sensitivity wide-band FBG vibration sensor based on a hinge complementary structure,providing an innovative approach to the current problem of mutual limits on the operating frequency range and sensitivity of vibration sensors.With its wide working frequency range and outstanding sensitivity,the developed sensor provides a unique technical method for micro-vibration monitoring.
作者 鲜中泽 辛璟焘 黎琪慧 唐翔 董明利 XIAN Zhongze;XIN Jingtao;LI Qihui;TANG Xiang;DONG Mingli(Key Laboratory of Optoelectronic Testing Technology and Instrumentation,Ministry of Education,Beijing University of Information Science and Technology,Beijing 100192,China;Beijing Laboratory of Optical Fiber Sensing and Systems,Beijing University of Information Science and Technology,Beijing 100016,China;Guangzhou Nansha Institute of Photonic Sensing Technology,Guangzhou 511462,China)
出处 《红外与激光工程》 EI CSCD 北大核心 2024年第7期242-250,共9页 Infrared and Laser Engineering
基金 国家重点研发计划项目(2021YFA1003504)。
关键词 光纤布拉格光栅 振动传感器 高灵敏度 宽频段 fiber Bragg grating vibration sensor high sensitivity wide frequency range
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