Design of a novel passive endoscopic robot for sinus surgery

Peng Zhang, Yucheng He, Ying Hu, Xilong Hou, L. Zhu, Jianwei Zhang
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引用次数: 2

Abstract

In order to overcome the disadvantages of traditional Functional Endoscopic Sinus Surgery (FESS), a novel passive endoscopic robot for sinus surgery is designed in this paper. This paper mainly focuses on the design of the prototype of a novel passive endoscopic robot and the lock methods of the passive joints. The design of the robot is divided into two parts-the position arm and the end-effector with an endoscope. A parallelogram based passive position arm is proposed and detailed analyzed then, and a three spherical joints based end-effector is proposed and detailed analyzed. Hereafter, different lock methods for joints are discussed and evaluated for both passive position arm and end-effector. For passive position arm, a gear-like lock mechanism is proposed and detailed analyzed, and a bladder-spring based lock mechanism is proposed for the end-effector. The mechanical model of bladder-spring based lock mechanism is derived to guide the detailed design of the prototype of the robot.
一种新型被动鼻窦手术内窥镜机器人的设计
为了克服传统的功能性鼻窦内窥镜手术(FESS)的缺点,设计了一种新型的被动鼻窦内窥镜手术机器人。本文主要研究了一种新型被动式内窥镜机器人的原型设计和被动式关节的锁定方法。机器人的设计分为定位臂和带内窥镜的末端执行器两部分。提出并详细分析了一种基于平行四边形的被动位置臂,提出并详细分析了一种基于三球面关节的末端执行器。然后,对被动位置臂和末端执行器的不同关节锁紧方法进行了讨论和评价。针对被动位置臂,提出了一种齿轮式锁紧机构并进行了详细分析,提出了一种基于气囊弹簧的末端执行器锁紧机构。推导了气囊弹簧锁紧机构的力学模型,指导了机器人样机的详细设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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