Ergonomics Simulation and Analysis of Specially Designed Chair

S. Mohamaddan, Aliff Rahman, M. Shanat, Siti Zawiah Md Dawal, A. Hanafusa
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引用次数: 1

Abstract

Chair comes in different sizes and shapes depending on the functions as well as the users involved. However, the designers seldom consider the ergonomics aspect in chair design. This research has been conducted as a case study to compare and select the best design parameters within two chairs known as Chair A and B using human modelling software called AnyBody. Different parameter was manipulated in the simulation which is backrest angles for Chair A and seat heights for Chair B. A total of ten chairs with different parameters (five from Chair A and five from Chair B) were conducted in the simulation. Results were generated through inverse dynamics analysis in the form of muscle activities envelopes and reaction force on vertebrae L4 to L5. The result shows that 80° backrest was the best ergonomics design for Chair A while 0.30 m seat height was the best ergonomics design for Chair B. The simulation conducted is important as an early ergonomics intervention before the real chair fabrication is conducted.
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特殊设计座椅的人体工程学仿真与分析
椅子有不同的尺寸和形状,这取决于所涉及的功能和用户。然而,设计师在椅子设计中很少考虑人体工程学方面。这项研究是作为一项案例研究进行的,目的是使用名为AnyBody的人体建模软件比较和选择两把椅子a和B的最佳设计参数。在模拟中操纵了不同的参数,即椅子A的靠背角度和椅子B的座椅高度。在模拟中总共进行了十把具有不同参数的椅子(五把来自椅子A,五把来自座椅B)。结果是通过反向动力学分析以肌肉活动包络和L4至L5椎骨上的反作用力的形式产生的。结果表明,80°靠背是椅子A的最佳人体工程学设计,而0.30 m座椅高度是椅子B的最佳人体工学设计。在进行真正的椅子制造之前,所进行的模拟作为早期人体工程学干预非常重要。
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
International Journal of Mechanics
International Journal of Mechanics Engineering-Computational Mechanics
CiteScore
1.60
自引率
0.00%
发文量
17
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