使用蜜蜂算法优化可穿戴座椅的设计

Mert Eren Ayğahoğlu, Abdullah Çakan, Mete Kalyoncu
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引用次数: 0

摘要

为减少工人的肌肉骨骼疾病,设计了一种可穿戴座椅。使用蜜蜂算法进行了两阶段优化,以确定椅子的最低可操作高度,并最大限度地减小三个支撑之间的最大力。相应地定义了几何、尺寸和旋转角度约束。椅子的 CAD 模型被导入 ADAMS 软件进行模拟。模拟结果确定了椅子上受力最大的杆件。在 ADAMS 中选择并执行了一个弹簧来抵消该杆上的外力。通过比较受力最大的支撑杆上的力和弹簧在一个确定运动中的力,发现两者之间的差异很小,这表明弹簧有效地抵消了外力。结果表明,蜜蜂算法成功应用于可穿戴座椅,并成功实施了弹簧来抵消外力,从而实现了本研究的目标。
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Design optimization of a wearable chair using The Bees Algorithm
A wearable chair is designed to reduce musculoskeletal disorders in workers. Two-staged optimization process using The Bees Algorithm is conducted to determine the lowest operable height of the chair and minimize the maximum force among the three supports. Geometric, dimensional, and rotational angle constraints are defined accordingly. A CAD model of the chair is imported into ADAMS software for simulation. The simulation results identified the most stressed rod in the chair. A spring is selected and implemented in ADAMS to counteract the applied force on this rod. A comparison between the force on the most stressed support and the spring force through a defined motion revealed minimal differences, indicating that the spring effectively counteracted the applied force. The results demonstrated the successful application of The Bees Algorithm to wearable chairs and the successful implementation of a spring to counteract applied force, thereby achieving the objectives of this study.
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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
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