Design and experimental validation of a new wheelchair seat stabilization system.

IF 1.9 4区医学 Q2 REHABILITATION

Disability and Rehabilitation-Assistive Technology Pub Date : 2024-08-01 Epub Date: 2023-10-14 DOI:10.1080/17483107.2023.2270013

João Gabriel da Cruz Passos, Luis Fernando Freire de Souza, André Luiz Leal da Costa Junior, Vitor Hugo Rezende Dias, Eduardo Pinto Magalhães, Márcio Falcão Santos Barroso, Artur Henrique de Freitas Avelar, Alvaro César de Oliveira Penoni

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引用次数: 0

Abstract

Purpose: Seat tilting wheelchair features can increase the comfort and safety of the user. Although many power wheelchairs have tilting mechanisms, they are often designed with a specific wheelchair model in mind. In this study, a design process for seat tilting mechanisms that can be applied to most rear-wheel drive wheelchair models is developed.

Methodology: Equations were developed to describe the geometrical and load constraints that were used to size the electric actuator that powers the system and define its position. Finally, the equations were used to create the seat tilting mechanism of a prototype wheelchair, which was then tested.

Results: The equations yielded coherent results which showed that advantageous actuator positions from a load minimization perspective usually require dimensions that cannot be found in commercial actuators. Also, there are positions in which the load increases exponentially, which should be avoided. The tests showed that the system was able to function properly on the prototype wheelchair and that the actuator position affected the time taken for the actuator to execute different parts of the tilting movement.

Conclusions: The design process presented here was successful and modelled by general equations that can be applied to most front-wheel drive wheelchairs. It presents a low-cost option for the design of seat tilting systems, which can increase their accessibility.

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一种新型轮椅座椅稳定系统的设计和实验验证。

目的：座椅倾斜轮椅的功能可以增加使用者的舒适性和安全性。尽管许多电动轮椅都有倾斜机构，但在设计时往往会考虑到特定的轮椅型号。在这项研究中，开发了一种适用于大多数后轮驱动轮椅模型的座椅倾斜机构的设计过程。方法：开发了方程来描述几何约束和负载约束，这些约束用于确定为系统供电的电动执行器的尺寸并定义其位置。最后，利用这些方程建立了原型轮椅的座椅倾斜机构，并对其进行了测试。结果：这些方程产生了一致的结果，表明从负载最小化的角度来看，有利的致动器位置通常需要商业致动器中找不到的尺寸。此外，有些位置的负荷呈指数级增加，这是应该避免的。测试表明，该系统能够在原型轮椅上正常工作，致动器位置影响致动器执行倾斜运动不同部分所需的时间。结论：本文提出的设计过程是成功的，并通过可应用于大多数前轮驱动轮椅的通用方程进行了建模。它为座椅倾斜系统的设计提供了一种低成本的选择，可以增加其可接近性。

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

Disability and Rehabilitation-Assistive Technology REHABILITATION-

CiteScore

5.70

自引率

13.60%

发文量

128