Solution of the contact task of the elbow orthosis prototype

I. Lavrenko, Bohdan Lebedynskyi
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Abstract

Over the past two decades, upper limb exoskeletons used for service delivery and rehabilitation have attracted attention from the biomedical and engineering sectors. Technology is becoming one of the key solutions for physically weak or disabled people. Mechanical devices were developed to improve the performance and strength of the user. Devices that help the patient during postoperative or post-traumatic rehabilitation after joint damage of various types are orthoses. There are different types of orthoses, such as mechanical, active with EMG functions, exoskeletons, and others. In this work, an overview of various types of orthoses is given, problems of fixing orthoses elements are considered. In the review of the literature related to these studies, the advantages and disadvantages of bolted connections are given. Two contact problems of the orthosis were also considered and the stress-strain state of the bolted joint of the structural elements of the elbow orthosis prototype under study was determined using the FEMAP with NASTRAN software package. Based on the necessary operating conditions, a prototype model of the orthosis was presented.
肘部矫形器原型接触任务的求解
在过去的二十年中,上肢外骨骼用于服务提供和康复引起了生物医学和工程部门的关注。科技正成为身体虚弱或残疾人士的关键解决方案之一。机械装置的开发是为了提高用户的性能和强度。在各种类型的关节损伤后,帮助患者在术后或创伤后康复的设备是矫形器。有不同类型的矫形器,如机械式,主动肌电图功能,外骨骼,和其他。本文概述了各种类型的矫形器,并讨论了矫形器元件的固定问题。在回顾与这些研究相关的文献中,给出了螺栓连接的优点和缺点。同时考虑了矫形器的两个接触问题,利用FEMAP和NASTRAN软件包确定了所研究的肘关节矫形器原型结构元件螺栓连接的应力-应变状态。根据需要的操作条件,建立了矫形器的原型模型。
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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