生物
机器人
导线
适应性
机制(生物学)
扭矩
计算机科学
夹持器
变形(气象学)
机械工程
平面的
软机器人
纺纱
工程类
电流(流体)
链轮
仿生学
爬行
材料科学
执行机构
软质材料
模拟
运动控制
控制理论(社会学)
作者
Zihao Yuan,Feifei Chen,Xinjia Huang,Kai Huang,Zenan Song,Yimiao Ding,Zhefeng Gong,Guoying Gu
出处
期刊:Soft robotics
[Mary Ann Liebert, Inc.]
日期:2025-11-03
卷期号:12 (6): 777-786
被引量:1
标识
DOI:10.1177/21695172251387190
摘要
larvae can quickly ascend tubular surfaces via rolling, a capability not yet replicated by soft robots. Here, we present a single-piece soft robot capable of rolling along tubular structures by sequentially actuating its built-in axial muscles. We reveal that the sequential actuation generates distributed spinning torques along the robot's curved axis, enabling continuous non-coaxial rolling-distinct from current gravity-dependent rolling solutions. This non-coaxial rolling mechanism allows the robot to swiftly navigate tubular surfaces while conforming to their shapes and maintaining a stable grip. The robot's deformation and gripping force are actively adjusted to enhance its adaptability to various surfaces. We demonstrate that our robot can ascend pipes with varying geometries (e.g., varying-diameter, spiral-shaped, or non-cylindrical), traverse diverse terrains, pass through confined tunnels, and transition smoothly between planar rolling and pipe climbing. The robot's great adaptability and rapid movement underscore its potential for navigating scenarios with intricate surface geometries.
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