Structure Optimization of a Bi-planar Parallel Mechanism for Spine Surgeries

2015 Seventh International Conference on Measuring Technology and Mechatronics Automation Pub Date : 2015-06-13 DOI:10.1109/ICMTMA.2015.249
Wang Yongfeng, Yu Hongjian, Du Zhijiang, D. Wei
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引用次数: 2

Abstract

Due to the urgent needs for high precision surgical equipments in minimally invasive spine surgeries, a novel robot-assisted system for the accurate placement of pedicle screws in lumbar spinal surgeries is developed. The structure design of the robot is based on a macro-micro mechanism, which includes a serial mechanism and a bi-planar 5R parallel mechanism. The researchable workspace, kinematic model and dynamic model of the planar 5R mechanism are analyzed, based on which the links lengths of 5R mechanisms are optimized. This paper provides a reference for the structure design of new medical robots for minimally invasive spine surgeries.
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脊柱外科双平面并联机构的结构优化
针对微创脊柱手术对高精度手术设备的迫切需求,开发了一种新型的机器人辅助腰椎手术椎弓根螺钉精确放置系统。机器人的结构设计基于宏微观机构,包括一个串联机构和一个双平面5R并联机构。分析了平面5R机构可研究的工作空间、运动模型和动力学模型,并在此基础上对5R机构的连杆长度进行了优化。本文为脊柱微创手术新型医疗机器人的结构设计提供了参考。
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2015 Seventh International Conference on Measuring Technology and Mechatronics Automation
2015 Seventh International Conference on Measuring Technology and Mechatronics Automation
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