医学文献 >>
  • 检索发现
  • 增强检索
知识库 >>
  • 临床诊疗知识库
  • 中医药知识库
评价分析 >>
  • 机构
  • 作者
默认
×
热搜词:
换一批
论文 期刊
取消
高级检索

检索历史 清除

基于金属编织技术的柔性机械手结构设计与实验验证

Structural design and experimental verification of flexible manipulator based on metal weaving technology

摘要目的:开发一种应用于经自然腔道内镜手术(NOTES)机器人柔性机械手的骨架结构,以满足NOTES对手术执行器械的性能需求。方法:基于金属编织技术设计一种柔性机械手结构及对应结构的控制策略。根据柔性机械手的机械结构特征推导几何关系公式。通过链式梁约束模型(CBCM)以及机械弹簧理论建立理论模型。对机械结构建立有限元模型并分析,验证理论模型的精度;并由金属编织结构的抗弯刚度验证柔性机械手的载荷能力。结果:基于金属编织技术设计了一种柔性机械手结构及对应结构的控制策略。在设置恰当的约束条件后,金属圆环作为单个受力单元在受到0.5 N的轴向力驱动时,最大应变约为1.49%,处于线性弹性阶段。最大形变约为0.308 9 mm,比理论值高3.26%。机械手骨架的最大应变约为0.21%,处于线性弹性阶段。最大总形变约为7.135 5 mm,比理论值高6.30%。机械手骨架的抗弯刚度计算为3.19 N·mm 2,与同量级尺寸形状记忆聚合物(SMPs)制成的柔性机械手相当。 结论:开发一种应用于NOTES机器人柔性机械手的骨架结构,符合执行NOTES手术任务的支撑刚度需求。

更多

abstractsObjective:To develop a skeleton structure for the flexible manipulator of a robotic system used in natural orifice transluminal endoscopic surgery (NOTES), meeting the performance requirements of surgical actuators.Methods:A flexible manipulator structure and a control strategy for the corresponding structure were designed based on metal braiding technology. Geometric relationship formulas were derived according to the mechanical structure characteristics of the flexible manipulator. A theoretical model was established using the chained beam-constraint-model (CBCM) and mechanical spring theory. The finite element model of the mechanical structure was established, and simulation analysis was performed to verify the accuracy of the theoretical model. The bending stiffness of the metal-braided structure was tested to verify the load capacity of the flexible manipulator.Results:A flexible manipulator structure and a control strategy for the corresponding structure were designed based on metal braiding technology. With proper constraints, the maximum strain of the metal ring as a single stressed unit was about 1.49% when subjected to an axial force of 0.5 N. At this time, the material was in the linear elastic phase and the maximum deformation was about 0.308 9 mm, which was 3.26% higher than the theoretical value. The maximum strain of the manipulator skeleton was about 0.21% in the linear elastic phase. The maximum total deformation was about 7.135 5 mm, which was 6.30% higher than the theoretical value. The flexural stiffness of the manipulator skeleton was calculated to be 3.19 N·mm 2, which was comparable to a flexible manipulator made of shape memory polymers (SMPs) of the same magnitude and size. Conclusions:A skeleton structure for application to NOTES robotic flexible manipulators is developed that meets the support stiffness requirements for performing NOTES surgical tasks.

More
广告
  • 浏览17
  • 下载0
国际生物医学工程杂志

加载中!

相似文献

  • 中文期刊
  • 外文期刊
  • 学位论文
  • 会议论文

加载中!

加载中!

加载中!

加载中!

扩展文献

法律状态公告日 法律状态 法律状态信息

特别提示:本网站仅提供医学学术资源服务,不销售任何药品和器械,有关药品和器械的销售信息,请查阅其他网站。

  • 客服热线:4000-115-888 转3 (周一至周五:8:00至17:00)

  • |
  • 客服邮箱:yiyao@wanfangdata.com.cn

  • 违法和不良信息举报电话:4000-115-888,举报邮箱:problem@wanfangdata.com.cn,举报专区

官方微信
万方医学小程序
new医文AI 翻译 充值 订阅 收藏 移动端

官方微信

万方医学小程序

使用
帮助
Alternate Text
调查问卷