摘要
基于仿生学的微扑翼飞行器是一种模仿鸟类飞行的新概念飞行器,应用前景广泛。通过对鸟类生物学构造和飞行机理的分析,进行机翼和驱动机构的仿生学设计,提出了一种高效节能的驱动机构,并制作了翼展300mm微扑翼飞行器样机。试飞结果表明,该飞行器可进行姿态良好的飞行,可持续飞行10~20s,其结构具有一定的实用价值及应用前景,为微扑翼飞行器的进一步微型化打下基础。
The flapping-wing micro air vehicle (FMAV) based on bionics is a sort of new aircraft which imitates birds. It has extensive applications. By analyzing the bionic structure and the flight mechanism of birds, the bionic wing and driving machine was designed, and an economic driving machine with great efficiency was designed. A prototype of FMAVs with the 300mm wingspan was manufactured. The prototype can fly with a nice stance. Results of flight-testing show that the driving machine is effective and useful and it can help to minish FMAVs effectively.
出处
《机床与液压》
北大核心
2007年第6期1-3,10,共4页
Machine Tool & Hydraulics
基金
国家自然科学基金(50575183)
博士点专项科研基金(20050699022)