An air suspension platform uses air pressure to realize the suspension function during the suspension process, and it has the\ndisadvantage of large air pressure and a small suspension force. In this study, an air suspension platform was built using bionic\ndesign to reduce the required air pressure and increase the suspension force. A suspension structure mapping model was\nestablished according to the physiological structure characteristics of albatross wings. A bionic model was established by using\nthe theoretical calculation formula and structural size parameters of the structural design. A 3D printer was used to manufacture\nthe physical prototype of the suspended workpiece. Based on this, a suspension test rig was built. Six sets of contrast\nexperiments were designed. The experimental results of the suspension test bench were compared with the theoretical\ncalculation results. The results show that the buoyancy of the suspended workpiece with a V-shaped surface at a 15-degree\nattack angle was optimal for the same air pressure as the other workpieces. The surface structure of the suspended workpiece\nwas applied to the air static pressure guide rail. By comparing the experimental data, the air pressure of the original air\nsuspension guide rail was reduced by 37%, and the validity of the theory and design method was verified.
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