The purpose of this paper is to design a biomimetic surface structure for use in a glass transport device to enhance the suspension lift of a glass transport unit.,This paper presents a surface structure of a suspended glass transport device based on the principle of bionics. First, a mapping model is constructed based on the wing structure. Second, the optimal structural parameters are given according to genetic algorithm optimization. Finally, the experimental comparison of the test bench verified the feasibility of the theory.,Through experimental comparison, the biomimetic suspension glass transport device saves 20% of air pressure compared with the ordinary suspended glass transport device, which verifies the effectiveness of the theoretical method.,This paper proposes a suspended glass transport device based on the principle of bionics, which saves the air pressure required for work. It is expected to be used in suspension glass transport devices.,The peer review history for this article is available at: https://publons.com/publon/10.1108/ILT-09-2019-0389/

中文翻译：

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一种基于蜻蜓翅膀仿生结构的悬浮玻璃运输装置表面结构设计方法

本文的目的是设计一种用于玻璃运输装置的仿生表面结构，以增强玻璃运输单元的悬浮升力。本文提出了一种基于仿生学原理的悬浮玻璃运输装置的表面结构。首先，基于机翼结构构建映射模型。其次，根据遗传算法优化给出最优结构参数。最后通过试验台的实验对比验证了理论的可行性,通过实验对比,仿生悬浮玻璃输送装置比普通悬浮玻璃输送装置节省气压20%,验证了理论方法的有效性.,本文提出了一种基于仿生学原理的悬浮玻璃运输装置，从而节省了工作所需的气压。预计将用于悬浮玻璃运输装置。,本文的同行评审历史可在：https://publons.com/publon/10.1108/ILT-09-2019-0389/