Analysis and optimization of lever propelled wheelchair

2014 Innovative Applications of Computational Intelligence on Power, Energy and Controls with their impact on Humanity (CIPECH) Pub Date : 2014-11-01 DOI:10.1109/CIPECH.2014.7019124

Shikhar Agarwal, Saumya Gautam

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Abstract

A wheelchair is a commonly used assistive device used by disabled people for mobility. An appropriate wheelchair gives them a sense of independence and encourages them to become productive members of the society. It gives them a feeling of belongingness and inclusion in the society. But for centuries now in India, there has been a clear vacuum of thoughts over a redesign of traditional wheelchairs. A new design of existing levered wheelchair is proposed here. This new design would increase the reach capabilities and social boundaries of disabled which inhibit the lives of the disabled day to day. The paper is divided into two parts. In the first part a comparative study has been done of push rim wheelchair and lever wheelchair. In the second part, Optimization of the lever wheelchair has been done. The comparison has been done on various parameters such as peak velocity, average velocity, acceleration, retardation, Stroke frequency, Reduction in effort, Mechanical efficiency, Obstacle climbing ability, Turning radius, the distance travelled per stroke, Pressure cuts and burns caused during propelling the chair. Biomechanical testing is also done considering the heart rate and oxygen level consumption. This information can be used to determine the energy demand, which is intrinsically connected to a wheelchair's mechanical efficiency. Feedback from test subjects was used for the optimization of the chair. The optimization mainly focus on the ergonomics and efficiency of design and for that the main emphasis is given on factors like the position of Lever-drive system, Configuration of wheel, chassis and Foot Rest. This optimized design would make the chair more efficient and easy to use by enabling the person to drive, steer, and stop without even touching the wheels, thus, eliminating the risk of friction burns and protecting the wrists and shoulders from repetitive stresses. The analysis is done using software like ANSYS and CATIA and validation of results is conducted with the users and non-users of wheel chair.

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杠杆式轮椅的分析与优化

轮椅是残疾人常用的辅助工具。一辆合适的轮椅能给他们一种独立感，并鼓励他们成为对社会有贡献的成员。它给他们一种归属感和融入社会的感觉。但几个世纪以来，在印度，对传统轮椅的重新设计一直存在明显的思想真空。对现有的杠杆式轮椅提出了一种新的设计方案。这种新设计将增加残疾人的接触能力和社会界限，这些限制了残疾人的日常生活。本文分为两部分。第一部分对推轮轮椅和杠杆轮椅进行了比较研究。第二部分对杠杆轮椅进行了优化设计。对各种参数进行了比较，如峰值速度、平均速度、加速度、减速、冲程频率、减少努力、机械效率、障碍爬坡能力、转弯半径、每冲程行驶的距离、推动椅子时造成的压力和烧伤。生物力学测试也要考虑心率和耗氧量。这些信息可以用来确定能量需求，这与轮椅的机械效率有着内在的联系。测试对象的反馈用于椅子的优化。优化主要集中在人机工程学和设计效率方面，其中重点考虑了杠杆传动系统的位置、车轮配置、底盘和脚架等因素。这种优化的设计将使椅子更高效、更容易使用，使人能够在不接触车轮的情况下驾驶、转向和停车，从而消除摩擦烧伤的风险，保护手腕和肩膀免受重复的压力。利用ANSYS和CATIA等软件进行分析，并与轮椅使用者和非使用者进行结果验证。

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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2014 Innovative Applications of Computational Intelligence on Power, Energy and Controls with their impact on Humanity (CIPECH)

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