3D打印柔软假肢手指的机械刚度增强

R. Mutlu, S. K. Yildiz, G. Alici, M. Panhuis, Geoffrey M. Spinks
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引用次数: 16

摘要

软机器人作为一个多学科的研究领域,由于提供了相对于刚性机器人的非常规特征,如弹性,高度灵巧,顺应性和更安全的与人类及其物理环境的交互,最近获得了显著的动力。然而,软体机器人无法承受自身的重量,这主要取决于制造它们的材料的弹性模量。本文报道了一种实用且易于实现的增强柔性机器人部件刚度的方法。我们使用熔融沉积建模(FDM)技术和由薄聚氯乙烯(PVC)片制成的刚度增强单元制造了一个柔软的机器人手指,它完全符合柔性铰链。通过线性驱动增刚度单元,机械地提高了整个机械手指的刚度。实验数据表明,手指的刚度提高了40%。根据材料性能和厚度的不同,可以很容易地获得更高的刚度增加率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanical stiffness augmentation of a 3D printed soft prosthetic finger
Soft robotics, as a multi-disciplinary research area, has recently gained a significant momentum due to offering unconventional characteristics relative to rigid robots such as a resilient, highly dexterous, compliant and safer interaction with humans and their physical environments. However, soft robots suffer from not being able to carry their own weight which mainly depends on the modulus of elasticity of the material used to fabricate them. In this paper, we report on a practical and easy-to-implement stiffness augmentation method to enhance stiffness of soft robotic components. We fabricated a soft robotic finger which is fully compliant with flexure hinges using Fused Deposition Modelling (FDM) technique and a stiffness augmenting unit made of thin poly(vinyl chloride)(PVC) sheets. The stiffness of the entire robotic finger was increased mechanically by linearly driving the stiffness augmenting unit. The experimental data presented show that stiffness of the finger was increased by 40 %. Depending on the material properties and thickness used for fabricating the stiffness augmenting unit, a higher rate of stiffness increase can be easily obtained.
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