A Study on Design Concept for a Braille Tactile Sensor Segment Using Softness Parameters

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-06-15 DOI:10.1299/JSMEC.49.480

Zhongwei Jiang, Sayyed Alireza Arabshahi, Tetsuyou Watanabe

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引用次数: 3

Abstract

The purpose of this report is to introduce and discuss about the design parameters for a segment of a tactile sensor reading one dot of a Braille alphabet. A sensor segment consisting of a piezoelectric (PVDF) film sandwiched between two elastic materials is designed. Experiments and simulations are used to define and examine the design parameters. With regards to the sensor structure, Free and Clamped boundary conditions are presented and the relevant equations containing the design parameters, e.g. “bending softness”, are derived. Applying different materials and thicknesses for layers surrounding the PVDF film, simulations are used to quantize the approximate values for each design parameter. The results show that the output of sensor is mostly dependent on the bending effect near the PVDF layer, and the structure encouraging more bending produces higher output. Finally, it is concluded that the real sensor has a structure which is between Free and Clamped boundary conditions, therefore design parameters are modified to compromise between the two cases and optimum values are presented.

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基于柔软度参数的盲文触觉传感器分段设计概念研究

本报告的目的是介绍和讨论一段触觉传感器读取盲文字母的一个点的设计参数。设计了一种由压电(PVDF)薄膜夹在两种弹性材料之间的传感器段。实验和模拟被用来定义和检验设计参数。对于传感器结构，给出了自由边界条件和夹紧边界条件，并推导了包含“弯曲柔软度”等设计参数的相关方程。应用不同材料和厚度的PVDF膜周围层，模拟用于量化每个设计参数的近似值。结果表明，传感器的输出主要依赖于PVDF层附近的弯曲效应，而鼓励更多弯曲的结构产生更高的输出。最后，得出了实际传感器结构处于自由边界条件和箝位边界条件之间的结论，因此对设计参数进行了修改，以折衷这两种情况，并给出了最优值。

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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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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