语音控制假肢机械臂的设计与制造及其众多应用

C. Chakravarthy, S. S. Kumar, B. Kedarnath, K. V. Rao
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摘要

这项任务的目标是得到一种新颖的合理的3D打印假肢来观察机器人手的限制,它是手腕控制的,由语音控制的小工具供电。采用Fusion 360°软件设计假肢手指及手臂模型,并通过3D打印机制作模型。病人能看到每根手指,并能自由移动。所以自我调节拇指的发育鼓励了物体的处理。手指通过电缆机构控制。当电缆受到压缩应力时,手指移动以握住物体。设备重量轻,尺寸适应性强。这些装置向下弯曲手腕部分工作,并允许紧绷的链接拖动手指关闭。搬运手腕时,允许松紧带进入休息状态。电缆过紧会产生杂音。这些声音会切断对物体的控制。语音识别和手指动作非常准确。这个特殊的模型是由客户看到的。所以在任何情况下,他们都要用手掌的某一部分来连接这个小工具来完成工作。本文成功地完成了声控机械臂的设计、制造和测试。该手臂的优点是设计简单,可打印,易于组装,公差和美观等,从测试结果的输出来看,它可以用于许多应用,例如携带600克至800克的重量,如携带杂货,拿手机,扔球和开门等。首次为机器人手指运动引入了新型的缆索机构,使得机械臂的设计非常简单,易于组装。该假体用于各种工业、工程和医疗应用。3D打印手腕控制的机器人假体提供了一种经济上有效,有效估计和非常有用的替代方案,这已经无法实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and fabrication of voice controlled robotic arm for prosthetic and numerous applications
The objective of the task is that to get a novel of reasonable 3D printed prosthetic to see the constraints in Robot-hand and it is wrist-controlled and was powered with voice controlled gadget. So Prosthetic finger with arm models are designed by Fusion 360° and models were fabricated through 3D printer. The client can see each of the fingers, and move it freely. So self-regulating thumb development encouraged object handle. Fingers are controlled through cable mechanism. When the cables are getting compression stress, the fingers are moved to hold the objects.The device weight is less and the size was effectively adaptable. These devices work bowing down the wrist part, and permit the tensioned links to drag the fingers shut. Delivering the wrist permits elastics to get in to rest. Excessive tight of the cable will produce voices. These voices will cut-off the holding of the objects. The voice recognition and fingers movements are very accuracy.This particular model is seen by clients with motion. So in any event some portion of their palm to connect the gadget to accomplish work. In this work, the voice-controlled robot arm was designed, fabricated and tested successfully. Advantages of this arm is simple in designs, printability, ease of assembly, tolerancing, and aesthetics etc., From the output of test results, it can be used for numerous applications of holding weights about 600g to 800g like as carrying groceries, hold a cell phones, throw the balls and open the doors etc. First time the new cable mechanism was introduced for robotic fingers movement, with the help of Very simple design and easy to assemble of robotic arm. The prosthesis was intended for various industrial, engineering and medical applications. A 3D printed wrist-controlled robotic prosthesis gives a financially effective, effectively estimated and exceptionally useful alternative which has been already inaccessible.
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