Research on Calibration Technology of Displacement and Angle for Triaxial Flight Vibration Test System under the Coupling Vibration Environment

2021 IEEE 15th International Conference on Electronic Measurement & Instruments (ICEMI) Pub Date : 2021-10-29 DOI:10.1109/ICEMI52946.2021.9679620

Bo Ni, Fangyin Tian, Jigang Chen, Jiaxi Lu, Yongqi Zhao, Jiang Sha

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Abstract

Triaxial flight vibration test system is a test equipment to simulate the multi degree of freedom vibration environment suffered by the missile during flight. In order to ensure the accuracy and reliability of the test data of the test system, the calibration technology of displacement amplitude and attitude angle under the coupling vibration environment of the test system is studied: the measurement model of vibration displacement and angle is firstly established based on the principle of Doppler measurement; secondly, based on laser vibration measurement technology and adjustable measuring tooling, the in-situ calibration device of the test system is developed, and the anti-vibration deformation of the measuring tooling is simulated and analyzed by using SolidWorks software to verify the correctness of the tooling design; finally, the calibration test of the test system is carried out by using the calibration device, and the measurement uncertainty is given. This method can provide a strong guarantee for the effective traceability of the test system.

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耦合振动环境下三轴飞行振动试验系统位移与角度标定技术研究

三轴飞行振动试验系统是模拟导弹在飞行过程中所受多自由度振动环境的试验设备。为了保证测试系统测试数据的准确性和可靠性，研究了测试系统耦合振动环境下位移幅值和姿态角的标定技术:首先基于多普勒测量原理建立了振动位移和姿态角的测量模型;其次，基于激光振动测量技术和可调测量工具，研制了测试系统的原位校准装置，并利用SolidWorks软件对测量工具的抗振动变形进行了仿真分析，验证了工具设计的正确性;最后，利用标定装置对测试系统进行了标定试验，并给出了测量不确定度。该方法可为测试系统的有效溯源提供有力保障。

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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2021 IEEE 15th International Conference on Electronic Measurement & Instruments (ICEMI)

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