Approaches to manufacturing affordable 3D printed modules to improve the durability of white canes for visually impaired people.

IF 1.9 4区 医学 Q2 REHABILITATION
Burak Alanyalıoğlu
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Abstract

In this study, 3D printing-based solutions are sought to improve the durability of guide canes of visually impaired individuals. The financial inaccessibility of technological white canes is a challenge that this study addresses by integrating additive manufacturing. The proposed solutions are designing a ball caster tip with a suspension mechanism, manufacturing a barrier detection and vibration alert system, and a 3D-printed flexible cover for the guide cane. Each solution is specially prototyped for this study using Computer-Aid Design (CAD). It aims to produce accessories that can upgrade any regular cane to a more durable and comfortable state by easily clipping them onto any cane. The solutions were assessed under three criteria, for which the visually impaired consultee of the research was assigned weights for further evaluation. The assessment has been conducted based on each solution's effectiveness, cost, and comfort. According to the evaluation of the visually impaired consultee, the ball caster with suspension mechanism yielded the highest score for the assessment criteria. Further recommendations have been made for each solution to decrease the volume occupancy and increase lifespan, durability, and comfort.

制造负担得起的三维打印模块的方法,以提高视障人士白手杖的耐用性。
本研究寻求基于 3D 打印的解决方案,以提高视障人士导盲杖的耐用性。本研究通过整合增材制造技术来应对技术白杖在经济上的不可取性这一挑战。所提出的解决方案包括设计带有悬挂装置的球形脚轮顶端、制造障碍物检测和振动警报系统,以及为导盲杖设计3D打印柔性盖板。每个解决方案都是为本研究使用计算机辅助设计(CAD)专门制作的原型。其目的是生产可将任何普通手杖升级到更耐用、更舒适状态的配件,只需将其轻松夹在任何手杖上即可。我们根据三项标准对解决方案进行了评估,并为研究中的视障咨询者分配了权重,以便进一步评估。评估基于每个解决方案的有效性、成本和舒适度。根据视障咨询者的评估,带悬挂装置的球形脚轮在评估标准中得分最高。针对每种解决方案都提出了进一步的建议,以减少体积占用,提高使用寿命、耐用性和舒适度。
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
CiteScore
5.70
自引率
13.60%
发文量
128
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