Arm/claw Design and Dynamic Modeling of Jumping/perching Robot

许勇; 刘凌霄; 李俊楠; 魏馨梅; 郑佳乐; 赖磊捷

doi:10.13433/j.cnki.1003-8728.20230352

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Arm/claw Design and Dynamic Modeling of Jumping/perching Robot

更新时间：2026-04-23

- Arm/claw Design and Dynamic Modeling of Jumping/perching Robot
- Mechanical Science and Technology for Aerospace Engineering Vol. 44, Issue 11, Pages: 1919-1928(2025)
- 作者机构：
  
  上海工程技术大学机构机械与汽车工程学院,上海,201620
- 作者简介：
- 基金信息：
- DOI：10.13433/j.cnki.1003-8728.20230352
  CLC：
- Published：2025
- 稿件说明：
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许勇, 刘凌霄, 李俊楠, et al. Arm/claw Design and Dynamic Modeling of Jumping/perching Robot[J]. Mechanical Science and Technology for Aerospace Engineering, 2025, 44(11): 1919-1928.
DOI：

许勇, 刘凌霄, 李俊楠, et al. Arm/claw Design and Dynamic Modeling of Jumping/perching Robot[J]. Mechanical Science and Technology for Aerospace Engineering, 2025, 44(11): 1919-1928. DOI： 10.13433/j.cnki.1003-8728.20230352.

摘要

提出了一种在非结构化环境中具备抓取和栖息能力的带臂爪弹跳/栖息机器人。基于折叠缓冲和回弹锁定机理，设计了受猛禽启发的、可将瞬时碰撞能量被动转化为强大抓取力的欠驱动臂爪，实现了机器人与栖息物的可控高速碰撞及可靠栖息。建立了机器人三维弹跳/空中抓握动力学模型，推导了机器人腿部电机驱动扭矩和惯量尾电机驱动扭矩的解析解，实现了机器人的可控连续跳跃和三维姿态实时控制。基于上述动力学模型，进行了机器人质心依次抵达三维空间中目标位置点的连续跳跃仿真和空中抓握仿真。仿真结果表明，机器人有望通过三维跳跃获得抓握/悬垂、空中栖息/观测作业能力，从而验证了该文提出的欠驱动臂爪设计方案和连续弹跳/空中抓握动力学模型的可行性。

Abstract

A jumping/perching robot with arm/claw capable of grasping and perching in unstructured environment is proposed. Based on the folding buffering and springback locking principles

an underactuated arm/claw inspired by the raptor peregrine is designed

which can passively transform the instantaneous collision energy into powerful grasping force

and realize controllable high-speed collision and reliable perching between the robot and perching target. The dynamic models of the robot's three-dimensional jumping and aerial grasping are established

and the analytical solutions of drive torques of the leg motor and inertia tail motors are derived

so that the controllable continuous jump and real-time three-dimensional attitude control of the robot are realized. Based on the dynamic models above

the continuous jump simulation and aerial grasping simulation are carried out

in which the robot's center of mass can accurately reach all the three-dimensional target positions. The simulation results show that the robot is expected to obtain the grasping/hanging

aerial perching/observation abilities through three-dimensional jumping

which verifies feasibility of the under-actuated arm/claw design and continuous jumping/aerial grasping dynamic models proposed in this paper.

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