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New Actuation Mechanism for Actively Cooled SMA Springs in a Neurosurgical Robot

机译：神经外科手术机器人中主动冷却SMA弹簧的新驱动机制

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摘要

The paper presents the use of shape memory alloy (SMA) spring actuators with real-time cooling to control the motion of the MINIR-II robot. A new actuation mechanism involving the passage of water as the cooling medium and air as the medium to drive out the water has been developed to facilitate real-time control of the springs. Control parameters, such as current, water flow rates, SMA pre-displacement, and gauge pressure of the compressed air, are identified from the SMA thermal model and from the actuation mechanism. In depth modeling and characterization have been performed regarding these parameters to optimize the robot motion speed. Forced water cooling has also been compared with forced air cooling and proved to be the superior method to achieve higher robot speed. An improved robot design and an MRI-compatible experimental platform have been developed for the implementation of the actuation mechanism.

机译：本文介绍了具有实时冷却功能的形状记忆合金（SMA）弹簧执行器的使用，以控制MINIR-II机器人的运动。为了促进弹簧的实时控制，已经开发了一种新的致动机构，该机构涉及使水作为冷却介质并且使空气作为驱出水的介质通过。从SMA热模型和致动机制中识别出控制参数，例如电流，水流量，SMA的预位移和表压，这是确定的。针对这些参数进行了深入的建模和表征，以优化机器人的运动速度。还已将强制水冷却与强制空气冷却进行了比较，事实证明，强制水冷却是实现更高机器人速度的更好方法。已经开发出一种改进的机器人设计和MRI兼容的实验平台，用于执行机构。

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期刊名称 other
作者
Shing Shin Cheng; Yeongjin Kim; Jaydev P. Desai;
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年(卷),期 -1(33),4
年度 -1
页码 986–993
总页数 24
原文格式 PDF
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专利

1. New Actuation Mechanism for Actively Cooled SMA Springs in a Neurosurgical Robot [J] . Shing Shin Cheng, Yeongjin Kim, Jaydev P. Desai IEEE Transactions on Robotics . 2017,第4期

机译：神经外科手术机器人中主动冷却SMA弹簧的新驱动机制
2. Design, development, and evaluation of an MRI-guided SMA spring-actuated neurosurgical robot [J] . Mingyen Ho, Yeongjin Kim, Shing Shin Cheng, The International journal of robotics research . 2015,第8期

机译：MRI引导的SMA弹簧驱动神经外科手术机器人的设计，开发和评估
3. Modeling and characterization of shape memory alloy springs with watern cooling strategy in a neurosurgical robot [J] . Cheng Shing Shin, Kim Yeongjin, Desai Jaydev P. Journal of intelligent material systems and structures . 2017,第16期

机译：神经外科机器人中形状记忆合金弹簧的水冷却策略建模与表征
4. Design and kinematic analysis of a neurosurgical spring-based continuum robot using SMA spring actuators [C] . Kim Yeongjin, Desai Jaydev P. IEEE/RSJ International Conference on Intelligent Robots and Systems . 2015

机译：基于SMA弹簧执行器的基于弹簧的神经外科连续体机器人的设计和运动学分析
5. Design and implementation of an actively adjustable spring mechanism via redundant actuation. [D] . Marquez, Eleazar. 2010

机译：通过冗余促动设计和实现主动可调弹簧机构。
6. Design development and evaluation of an MRI-guided SMA spring-actuated neurosurgical robot [O] . Mingyen Ho, Yeongjin Kim, Shing Shin Cheng, -1

机译：MRI引导的SMA弹簧驱动神经外科手术机器人的设计开发和评估
7. New Actuation Mechanism for Actively Cooled SMA Springs in a Neurosurgical Robot [O] . Shing Shin Cheng, Yeongjin Kim, Jaydev P. Desai 2017

机译：神经外科机器人积极冷却SMA弹簧的新致动机制
8. Electronically Integrated Active Compliant Transmission (ACT) Actuation Technologies Proof-of-Concept Investigation of Active Velcro for Smart Attachment Mechanisms [R] . Brei, D. , Lindner, D. , Frecker, M. , 2003

机译：电子集成的主动柔性传动（aCT）驱动技术用于智能连接机构的有效魔术贴的概念验证研究

New Actuation Mechanism for Actively Cooled SMA Springs in a Neurosurgical Robot

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