为磁可调 6-DOF 机械手设计具有可变刚度的选择性可调关节

IF 3.4 Q2 ENGINEERING, BIOMEDICAL
Simon Frieler;Sarthak Misra;Venkatasubramanian Kalpathy Venkiteswaran
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引用次数: 0

摘要

机器人机械手可用于各种外科手术,包括内窥镜和腹腔镜手术。在这些手术过程中,要在狭小而受限的空间内进行操作,要求机械手具有高度灵巧性和对运动路径的控制能力,同时还要占用较小的空间。在这项工作中,我们提出了一种模块化设计的磁导向小型机器人机械手。该机械手具有离散的万向关节,易于驱动。关节中加入了可变刚度,允许锁定和解锁单个自由度(DOF)。这种设计是模块化的,可以扩展到更多的自由度。每个自由度的范围为 60°,由一对形状记忆聚合物挠性片控制;一个关节由四个挠性片组成。由于采用了滚动接触元件,该设计消除了屈曲和可推动性问题。定制设计的加热元件可在 14(±0.8)s 内触发挠性片从高刚度(0.57Nmm/°)状态切换到低刚度(0.06Nmm/°)状态。环境冷却可在 64(±3.7)秒内确保形状锁定。在一项实验中,6-DOF 版本的机械手在狭小空间内绕过障碍物,并保持形状锁定,实现稳定运行。通过使用插入式手术工具进行模拟胃镜检查和息肉切除术,演示了实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selectively Tunable Joints With Variable Stiffness for a Magnetically-Steerable 6-DOF Manipulator
Robotic manipulators are used across various surgical tasks, including endoscopic and laparoscopic procedures. Operating in small and constrained spaces during these procedures requires the manipulators to have high dexterity and control over the motion path but with a small footprint. In this work, we propose a modular design of a magnetically-guided small-sized robotic manipulator. The manipulator has discrete universal joints that allow ease of actuation. Variable stiffness is incorporated into the joints to allow the locking and unlocking of individual degrees of freedom (DOFs). The design is modular and allows extension to additional DOFs. The range of each DOF is 60° and is controlled by a pair of shape memory polymer flexures; four flexures comprise one joint. With rolling-contact elements, the design eliminates problems with buckling and pushability. A custom-designed heating element triggers the flexures to switch from a high (0.57Nmm/°) to a low stiffness (0.06Nmm/°) state within 14(±0.8)s. Ambient cooling secures shape-locking within 64(±3.7)s. In an experiment, a 6-DOF version of the manipulator navigates around obstacles in confined spaces and remains shape-locked for stable operation. Practical application is demonstrated through simulated gastroscopy and polypectomy using inserted surgical tools.
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CiteScore
6.80
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