深度与形貌检测的仿生磁致伸缩触觉传感器设计及实验测试
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TP212 TH702

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河北省省级科技计划项目(E2022202067)资助


Design and experimental test of the bionic magnetostrictive tactile sensor for depth and shape detection
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    摘要:

    物体表面形貌深度信息对于智能机器人检测物体表面特征、人机交互具有重要意义。 受动物毛发感知机理启发,设 计了一种新型仿生磁致伸缩触觉传感器单元及阵列;基于逆磁致伸缩效应、欧拉-伯努利梁理论和胡克定律,推导了深度检 测的输出电压模型。 仿真研究确定了最佳偏置磁场和阵列间距,实验测试了传感器单元在静态和动态下的输出特性,在 0. 05~ 4. 8 mm 深度检测范围内,灵敏度为 185. 72 mV/ mm,响应时间和恢复时间分别为 31 ms 和 43 ms,且具有良好的重复 性,传感器阵列中单元之间输出电压的耦合影响不超过 2. 4% 。 将传感器单元及阵列安装在机械手上,选择合适的滑动速度 滑过不同物体表面时,根据输出电压波形精确测量各种深度和形貌,结果表明该传感器单元和阵列可为深度与形貌检测提 供参考。

    Abstract:

    The depth information of object surface topography is of great significance for intelligent robots to detect object surface features and human-computer interaction. Inspired by the mechanism of animal hair perception, a novel bionic magnetostrictive tactile sensor unit and array are designed. Based on the inverse magnetostrictive effect, Euler-Bernoulli beam theory, and Hooke′s law, the output voltage model of depth detection is derived. The simulation study determined the optimal bias magnetic field and array spacing. The output characteristics of the sensor unit under static and dynamic conditions were tested. In the depth detection range of 0. 05 ~ 4. 8 mm, the sensitivity is 185. 72 mV/ mm, and the response time and recovery time are 31 ms and 43 ms, respectively. It has good repeatability, and the coupling effect of the output voltage between the units in the sensor array does not exceed 2. 4% . The sensor unit and array are installed on the manipulator. When the appropriate sliding speed is selected to slide through the surface of different objects, various depths, and morphologies are accurately measured according to the output voltage waveform. The results show that the sensor unit and array can provide a reference for depth and morphology detection.

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孙 英,郭腾蛟,李 笑.深度与形貌检测的仿生磁致伸缩触觉传感器设计及实验测试[J].仪器仪表学报,2024,44(2):214-223

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  • 在线发布日期: 2024-05-14
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