仿猛禽无人机稳态栖息建模及抓取腿爪设计  

作　　者：许勇 郭书言 魏馨梅 XU Yong;GUO Shuyan;WEI Xinmei(School of Mechanical and Automotive Engineering,Shanghai University of Engineering Science,Shanghai 201620,China)

机构地区：[1]上海工程技术大学机械与汽车工程学院,上海201620

出　　处：《上海大学学报（自然科学版）》2024年第4期704-720,共17页Journal of Shanghai University:Natural Science Edition

基　　金：上海市自然科学基金面上项目(21ZR1426000)。

摘　　要：目前,带臂爪无人机对形状复杂物体的抓取、栖息能力仍然有限,针对这一问题提出了一种可与无人机本体集成、在非结构化环境中具备可靠抓握和稳定栖息能力的仿猛禽无人机.在建立仿猛禽无人机的稳态栖息模型时,求解得到了具有最小倾覆力矩的腿部最优尺寸;建立了无人机的角动量和线动量模型,求解获得了满足倾覆力矩和动量约束、由质心速度角-质心速度-腿角3维参数组合生成的栖息成功参数域;设计了可将瞬时碰撞能量被动转化为强大抓握力、通过自锁来被动保持可靠抓握状态的欠驱动抓握腿爪;完成了无人机样机栖息实验,且实验和仿真的参数变化规律一致,变化连续平稳.上述成果证实了该稳态栖息模型、动量模型及无人机结构设计方案的合理性,为后续实现仿猛禽栖息无人机的位姿实时控制,以及无人机在遥感探测、搜救避险、环境监测等非结构化环境中的广泛应用提供了理论和方法指导.To solve the limitations in the abilities of aerial robots with legs/claws in grasping and perching on complex objects,a bionic raptor robot that can be integrated with a robot body and has the ability to reliably grasp and maintain stable perching in unstructured environments was presented in this paper.In this study,a steady-state perching model of a robot was established,and the optimal leg sizes with the minimum overturning moment were obtained.Angular momentum and linear momentum models of the robot were established,and a successful perching parameter domain satisfying the overturning moment and momentum constraints,which were generated by a combination of the three-dimensional parameters of the centroid velocity angle,centroid velocity,and leg angle,was obtained.A pair of under-actuated grasping legs/claws was designed to passively transform instantaneous impact energy into a strong grasping force and passively maintain a reliable grasping state by self-locking.In the perching experiments and perching motion simulations of this robot prototype,the kinematic parameters changed consistently and steadily.The above achievements confirm the rationality of the steady-state perching model,momentum model,and robot structural design scheme proposed in this study and lay theoretical and methodological foundations for the subsequent realization of the real-time position control of a bionic raptor perching robot and its wide applications in remote sensing,search and rescue,and environmental monitoring in unstructured environments.

关 键 词：仿猛禽栖息无人机 稳态栖息模型 动量模型 栖息成功参数域 欠驱动抓握腿爪 

分 类 号：TH112[机械工程—机械设计及理论]