摘要
飞机大部件智能装配能力建设涉及领域多、范围广,多学科、多专业交叉融合特点显著,是一项复杂的系统工程。近年来,飞机智能装配能力建设已实现相当程度的单点技术突破与应用,但并未达到全局最优,亟需采用科学的方法对智能装配体系能力建设进行整体规划与全局优化。提出采用基于模型的系统工程(Model-Based Systems Engineering,MBSE),科学开展飞机大部件智能装配体系能力建设的方法研究,逐级明确、细化智能装配能力建设需求与技术方案,构建相对应的数字模型并采用仿真技术进行不断验证、迭代优化,最终实现智能装配能力效能的最大化。
Construction of intelligent assembly capability for aircraft large components(CIAC–ALC)is a complex system engineering with remarkable characteristics of multi-disciplinary and multi-professional cross-integration.In recent years,CIAC–ALC has achieved a considerable degree of single-point technological breakthrough and applications,but it has not reached the global optimum.Therefore,a method-based on modelbased systems engineering(MBSE)is proposed to scientifically develop the CIAC–ALC.Through this method,the requirements and technical schemes of CIAC–ALC are defined and refined step by step.In the process,the corresponding digital model is constructed and the simulation technology is used in continuous verification and iterative optimization for realizing maximum effectiveness of CIAC–ALC.
作者
刘顺涛
邱世广
LIU Shuntao;QIU Shiguang(AVIC Chengdu Aircraft Industrial(Group)Co.,Ltd.,Chengdu 610092,China)
出处
《航空制造技术》
2020年第1期22-31,共10页
Aeronautical Manufacturing Technology
