介电型EAP卷绕式驱动器的实现与应用被引量：1

Implementation and Application of Dielectric Electroactive Polymer Roll Actuators

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摘要基于介电型EAP(electroactive polymer,电活性聚合物)的优点,以VHB4910作为驱动材料,设计、实现了卷绕式二自由度驱动器,它可产生轴向伸缩和弯曲运动。对驱动器的性能进行测试,其最大轴向位移为6.78 mm,最大轴向推拉力分别为9.56 N、9.81 N;最大弯曲角度达87°,最大侧向力为1.04 N。在驱动器两端安装两对单向轮,实现了一个可爬行运动的机器人,该机器人可通过驱动器的伸缩和弯曲向前运动,其伸缩运动速度为1.55 mm/s,弯曲运动速度可达6.41 mm/s。试验证明介电型EAP可以用于实现微小型爬行机器人。 Based on the merits of dielectric electroactive polymer（ EAP）,a 2-DOF roll actuator is designed and implemented using VHB4910 as actuating material,which can make elongating and shortening motion and bending motion. The properties of the actuator are tested,the largest axial displacement is up to 6. 78 mm,the largest axial thrust and tension are up to 9. 56 N and 9. 81 N,the largest bending angle is up to 87° and the largest blocking force is up to 1. 04 N. A robot can crawl by installing two one-way wheels on both ends of the actuator and go ahead by the elongating and shortening motion and bending motion,the fastest speed of elongating and shortening motion is 1. 55 mm / s,and the fastest speed of bending motion is up to 6. 41 mm / s. The experiments prove that electroactive polymer can be used to implement the crawling of miniature robot.

作者杨位东王化明魏礼建罗华安

机构地区南京航空航天大学机电学院

出处《机械制造与自动化》 2015年第1期163-167,共5页 Machine Building & Automation

基金江苏省自然科学基金资助项目(BK2011735) 南京航空航天大学基本科研业务费(NS2012048) 中央高校基本科研业务费专项资金资助南京航空航天大学研究生创新基地(实验室)开放基金资助(KFJJ120118)

关键词介电型EAP 卷绕式驱动器伸缩弯曲爬行机器人 dielectric EAP roll actuator elongating and shortening bending crawling robot

分类号 TP24 [自动化与计算机技术—检测技术与自动化装置]

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二级引证文献2

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1周丽萍,王化明,魏礼建,杨位东.介电型EAP线性和弯曲驱动器研究[J].机械设计与制造,2014(11):115-118. 被引量：4
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