基于聚合物的人工肌腱在活动踝关节假体中弹性储能的可用性。

Jeanne Evrard, Francois Heremans, Renaud Ronsse
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引用次数: 0

摘要

最近,随着主动系统的出现,下肢假肢的发展出现了新的转折。然而,其内在的可穿戴性导致了对重量和负担的严格要求。为了减少其活动部件的负载,从而减少其体积,几个原型利用了柔顺致动的概念,包括与致动器并联和/或串联的弹性元件。在本文中,我们探讨了与踝关节假体的致动器平行放置的聚合物顺应性绳索的可用性。绳索本质上很轻且紧凑,因此与更传统的螺旋弹簧或钢板弹簧相比,绳索具有几个优点。聚合物材料因其高能量密度和屈服强度而被选择。我们用几根绳索、预张力水平和周期性载荷剖面进行了一组实验测试。结果表明,聚合物基绳索在脚踝辅助装置中具有很高的潜力,因为它们可以以低体积存储所需的能量。然而,应该进行进一步的研究来提高它们的效率,因为我们估计只有大约50%的储存能量可以释放,而绳索预处理和负载分布的变化很少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the Usability of Polymer-Based Artificial Tendons for Elastic Energy Storage in Active Ankle Prostheses.

In the recent past, the development of lower-limb prostheses has taken a new turn with the emergence of active systems. However, their intrinsic wearable nature induces strict requirements regarding weight and encumbrance. In order to reduce the load - and thus the bulkiness - of their active part, several prototypes leverage the concept of compliant actuation, consisting in including an elastic element in parallel and/or in series with the actuator. In this paper, we explore the usability of polymer compliant ropes placed in parallel with the actuator of an ankle prosthesis. Ropes are intrinsically light and compact, and thus offer several advantages as compared to more traditional coil or leaf springs. Polymer materials were selected for their high energy density and yield strength. We conducted a set of experimental tests with several ropes, pretension levels, and periodic loading profiles. Results show that polymer-based ropes have a high potential for ankle assistance devices, since they can store the required energy in a low volume. However, further research should be conducted to improve their efficiency, since we estimated that only about 50% of the stored energy can be released, with few variations as a function of the rope preconditioning and loading profile.

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