SCOMA hand prosthetic

2021 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE) Pub Date : 2021-11-01 DOI:10.1109/ICMEAE55138.2021.00044

C. García, A. Reyes, Monserrat Canul, Octavio Gurza, Sebastian Cruzado, Joaquin Diaz, J. Brieva, E. Moya-Albor, Hiram Ponce

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Abstract

SCOMA Prosthetic Hand is a robotic hand that can give to the patient the ability to resume a good part of their daily activities. It is not only designed to resume daily activities, but also to improve the mental health of the patient. Worldwide, each year the number of amputees increases from 150,000 to 200,000 in which 30% of these amputees have suffered an upper limb amputation but only between 27% and 44% of them use arm prostheses. There are many reasons behind this, but some aspects to consider about existing prostheses are: uncomfortable, very expensive, have a robotic appearance, or need invasive procedures to fit patients. In our proposal we used the mechatronic design methodology and the data from the Amputee Coalition to create a new hand prosthesis. We analyzed it through different studies such as SWOT diagrams, quality matrix, goal tree and pairwise comparison matrix and simulation tests. In addition, we tested a 3D printing to find a suitable design and the most assertive components. By building the robotic hand with cheaper, more common components and limited functions, we can offer to the patients a comfortable prosthesis and a new more realistic option than those offer on the market. This prosthesis have limited functions but can be accessible to many people and the design could be improved in the future easily.

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脑缺血手假体

sma假肢手是一种机器人手，可以让病人恢复大部分日常活动的能力。这不仅是为了恢复日常活动，也是为了改善病人的心理健康。在世界范围内，每年被截肢的人数从15万增加到20万，其中30%的被截肢者上肢截肢，但只有27%至44%的人使用假肢。这背后有很多原因，但现有的假肢需要考虑的一些方面是:不舒服，非常昂贵，具有机器人外观，或者需要侵入性手术来适应患者。在我们的提案中，我们使用机电一体化设计方法和来自截肢者联盟的数据来创造一个新的假肢。我们通过SWOT图、质量矩阵、目标树、两两比较矩阵和模拟试验等不同的研究对其进行了分析。此外，我们测试了3D打印，以找到合适的设计和最自信的组件。通过使用更便宜、更普通的部件和有限的功能来制造机器人手，我们可以为患者提供一个舒适的假肢，一个比市场上提供的更现实的选择。这种假肢的功能有限，但对许多人来说是可以使用的，而且设计可以在未来很容易地改进。

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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来源期刊

2021 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE)

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