Upper extremity prosthesis 3D bio-pneumatic self-adjusting clamping to non-homogeneous surfaces under the principle of communicating vessel

Revista de Ingeniería Biomédica y Biotecnología Pub Date : 2021-06-30 DOI:10.35429/10.35429/jbeb.2021.13.5.1.7

Angel Peralta-Meza, Félix Arnoldo Durán-Núñez, José Angel Pendones-Fernández

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Abstract

There are several models that emulate the mechanical behavior of biological tissues. Its automation, new materials and manufacturing techniques will enable its use in the near future. This research is based on the use of compressed air in pneumatic muscles that actuate the phalanges. The research is important because it proposes a system that adapts to the needs and economic accessibility or people with limited resources. The problem to solve is that it meets certain standards such as: stable grip and pressure and that it adapts to irregularly shaped objects with more natural movements. The principle of communicating vessels and the force exerted by a fluid on the walls of the container that is used. Consequently, the fluid exerts pressure in all directions. The prosthesis with the design of the Flexy Hand 2 is manufactured by inserting pneumatic muscles to each of the fingers connecting them by means of nylon ropes that are attached to the homemade pneumatic muscles connected to a common manifold, regulating the pressure by means of a valve and a degree of freedom. As a result of the above, it can be concluded that the prototype worked favorably.

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基于交通血管原理的上肢三维生物气动自调节夹持非均匀表面

有几种模型可以模拟生物组织的机械行为。它的自动化、新材料和制造技术将使其在不久的将来得以使用。这项研究是基于在气动肌肉中使用压缩空气来驱动指骨。这项研究很重要，因为它提出了一个适应资源有限的人的需求和经济可及性的系统。要解决的问题是，它要满足一定的标准，比如:稳定的抓地力和压力，以及它能以更自然的运动适应不规则形状的物体。流体在容器壁上所施加的力:与容器沟通的原理和所用容器壁上所施加的力因此，流体向各个方向施加压力。采用flexxy Hand 2设计的假体是通过在每个手指上插入气动肌肉来制造的，通过尼龙绳连接它们，尼龙绳连接到连接到公共歧管的自制气动肌肉上，通过阀门和自由度来调节压力。综上所述，可以得出结论，样机工作良好。

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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Revista de Ingeniería Biomédica y Biotecnología

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