摘要
首先概述目前仿生鸟类扑翼飞行器发展缓慢的原因,针对其原因设计一种具有普适性的多鸟类统一运动机构,并对其主要结构进行简单的概述;其次通过inspire对运动部分进行运动分析实验,采集各项实验数据,并可视化处理;然后通过JJ124BC分析天平对模型运动机构整体质量进行抗压实验和质量数据采集,验证材料制造方面可行性;最终形成由提取蓝本参数、代入运算进行设计、虚拟样机仿真和扑翼飞行器制造的完整结构,践行设计制造一体化和微型扑翼飞行器实验研究的严谨性和实践性。
This paper first outlines the reason for the slow development of bionic bird flapping wing aircraft, and designs a universal multi-bird unified motion mechanism according to its reasons, and a brief overview of its main structure.Secondly, through inspire, the exercise part has conducted exercise analysis experiments, collects various experimental data,and can be treated visually, and then analyzes the overall quality of the model movement institution through JJ124BC analysis. The complete structure of parameters, integrated operations for design, virtual prototype simulation, and fluttering aircraft manufacturing, and practice the rigor and practicality of the integrated design and manufacture and the experimental research of the design and manufacture and the experiment of micro-fluttering aircraft.
出处
《科技创新与应用》
2022年第23期53-56,共4页
Technology Innovation and Application
基金
大连科技学院大学生创新创业项目(S202003207028)。
关键词
仿生机械学
仿生扑翼飞行器
运动分析
航空航天
飞行器设计
bionic mechanics
bionic flapping wing aircraft
motion analysis
aeronautics and astronautics
aircraft design
