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基于多电技术的民用飞机舱门电作动器研究 被引量:6
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作者 孙欢庆 《航空科学技术》 2014年第11期14-18,共5页
目前国内多电技术的工程应用较少,基于此,以舱门电作动器为例,分析了其技术要求,从No-Back和软硬件设计技术两方面对设计难点进行了研究,然后对电机组件、齿轮装置、控制组件、控制板、作动器控制算法进行了系统设计,并完成样件试验。... 目前国内多电技术的工程应用较少,基于此,以舱门电作动器为例,分析了其技术要求,从No-Back和软硬件设计技术两方面对设计难点进行了研究,然后对电机组件、齿轮装置、控制组件、控制板、作动器控制算法进行了系统设计,并完成样件试验。结果表明,样件满足设计要求和功能要求。 展开更多
关键词 多电技术 民用飞机 电作动器 no-back 样件试验
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Investigations on MBSE modelling and dynamic performance assessment of an electrical trimmable horizontal stabilizer actuator
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作者 Wensen ZHANG Jian FU +4 位作者 Jean-Charles MARÉ Haolin MA Tianxiang XIA Yongling FU Jiangao ZHAO 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2023年第11期417-433,共17页
With the development of power-by-wire technology for more electric aircraft,the electromechanical actuator(EMA)has the advantages to replace the conventional hydraulic servo actuator in some aerospace flight controls.... With the development of power-by-wire technology for more electric aircraft,the electromechanical actuator(EMA)has the advantages to replace the conventional hydraulic servo actuator in some aerospace flight controls.Conventional hydraulically powered trimmable horizontal stabilizer actuation(THSA)system is nowadays developed to be electrically supplied.Given their safety-criticality,no-back mechanism and redundant load paths are utilized to meet the flight control requirements.However,rare literatures have introduced these functions and addressed the virtual prototyping activities from system-level point of view.This paper proposed such a model of a THSA system with dual electric power sources and fault-tolerant mechanical load paths.The nonlinear effects of components are considered with realism,and system-level simulation test is conducted to support the model-based system engineering(MBSE)approach.The models are developed with a power view instead of a pure signal view.Focusing on the friction effect and compliance effect with backlash or preload,some improved and novel approaches are adopted for these crucial components and validated via experimental results.Meanwhile,the implemented systemlevel model enables injection of crucial faults.Finally,the simulation of the proposed model shows that it is an efficient resource to investigate the actuator’s dynamic performance,to virtually prove that the actuator meets the fail/safe constraint,and to demonstrate the soundness of the fault monitoring functions. 展开更多
关键词 Electro-mechanical actuator Flight control Mechanical load path MODELLING no-back mechanism
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