Mechatronic Design and Control of a 3D Printed Low Cost Robotic Upper Limb

2018 11th International Workshop on Human Friendly Robotics (HFR) Pub Date : 2018-11-01 DOI:10.1109/HFR.2018.8633519

Duncan Carter-Davies, Junshen Chen, Fei Chen, Miao Li, Chenguang Yang

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引用次数: 3

Abstract

Robots and robotic technologies are changing how society functions. Found throughout industry, education, and more recently consumers homes, robotic devices perform and assist with large varieties of tasks. Robotic limbs allow users to regain or enhance their abilities, notably when completing challenging tasks, ultimately leading to greater productivity with less stain on the user. However, robotic limbs tend to be very costly, a factor that limits the availability of current robotic limbs. In this paper, we have developed an inexpensive 3D printed, 4-degrees of freedom, robotic upper limb. An Arduino microcontroller, electromechanical actuators and additional electronics were integrated to and assembled in to the 3D printed chassis, forming a functional contained system. The assembled robotic upper limb, with potential for use as a supernumerary robotic limb or transhumeral prosthesis for both disabled and non disabled person to use, was then generally tested for appropriate function. Discussion of how this design can be improved leads to the conclusion that 3D printing and inexpensive components certainly pose potential for use in affordable robotic limbs, with the prototype limb being proclaimed a successful foundation.

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3D打印低成本机器人上肢机电一体化设计与控制

机器人和机器人技术正在改变社会的运作方式。机器人设备在工业、教育以及最近的家庭中广泛使用，它们执行并协助完成各种各样的任务。机器人四肢允许用户恢复或增强他们的能力，特别是在完成具有挑战性的任务时，最终导致更高的生产力，对用户的污染更少。然而，机械臂往往非常昂贵，这是限制当前机械臂可用性的一个因素。在这篇论文中，我们开发了一种廉价的3D打印，4个自由度的机器人上肢。Arduino微控制器、机电致动器和其他电子设备被集成并组装到3D打印机箱中，形成一个功能齐全的系统。装配好的机器人上肢有可能作为辅助机器人肢体或经肱骨假体供残疾人和非残疾人使用，然后对其进行适当的功能测试。关于如何改进这种设计的讨论得出的结论是，3D打印和廉价的组件肯定有可能用于价格合理的机器人肢体，而原型肢体被宣布为成功的基础。

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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2018 11th International Workshop on Human Friendly Robotics (HFR)

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