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作 者:刘茜 肖航 李泽 田园 苏晨辉 张雷[1] 张法业[1] 姜明顺[1] 隋青美[1] LIU Qian;XIAO Hang;LI Ze;TIAN Yuan;SU Chen-hui;ZHANG Lei;ZHANG Fa-ye;JIANG Ming-shun;SUI Qing-mei(School of Control Science and Engineering,Shandong Universit)
机构地区:[1]山东大学控制科学与工程学院
出 处:《化工自动化及仪表》2018年第9期692-695,共4页Control and Instruments in Chemical Industry
基 金:国家自然科学基金项目(41472260);山东省自然科学基金项目(2014ZRE27372;ZR2017PEE023);山东大学基本科研业务费交叉培育专项(2016JC012);山东大学青年学者未来计划(2016WLJH30)
摘 要:为了满足微振信号的检测要求,提高检测精度,采用Y型1-7石英光纤发射和接收光信号,设计了一种反射式光纤测振系统。详细介绍了反射式光强调制型光纤测振传感器的工作原理和系统方案,建立光强调制的理论模型,在理论上分析了该系统检测微振信号的可行性。最后搭建了反射式光纤测振系统,通过静态测试找出最佳的静态位移点,在此位移点上进行动态频率范围为100~1 000Hz的动态测试,获取并处理电压信号,进行微振动实验研究。结果表明:该系统能获得良好的实验信号,可以实际检测到微振源的频率信息。In order to meet the detection requirements of the micro-vibration signals and improve the detection precision,a reflective optical fiber vibration measurement system which employing Y-type 1-7 quartz fibers to transmit and receive light signals was designed; and both working principle and system scheme of the reflective light intensity modulation optic fiber vibration sensor was described and the theoretical model of light intensity modulation was established to analyze the feasibility of detecting micro-vibration signals in the system theoretically. Finally,a reflective optical fiber vibration measurement system was built and the static test was used to find the best static displacement point. At this displacement point,a dynamic frequency range of 100 Hz to 1 000 Hz was used to acquire and process voltage signals and carry out micro-vibration experiments. The results show that,the system can acquire fine experimental signals and can detect frequency information of the micro-vibration source.
关 键 词:光纤测振传感器 微振动 反射式 光纤传感器 光电探测
分 类 号:TH825[机械工程—仪器科学与技术]
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