![]() based on bionics principle to design a floating platform for the growth of the leading edge of the ear wing, changing the aerodynamic performance, improving the suspension capacity, and reducing the required air pressure. designed the airfoil of small wind turbines based on the bionic swallow's extended wing, which improved the aerodynamic performance of the turbine. In references, from the use of improved designs of the venting hole or control of the gas flow, under the premise of ensuring the normal operation of the equipment, the required gas pressure was reduced, and the stability of the air suspension system was guaranteed. proposed multi-air suspension technology, which greatly reduced the required airflow and ensured that the suspended workpiece was more stable. Lu and Wang used air suspension technology to design an air suspension support system, which reduced the required air pressure and improved the carrying capacity of the electric platform. Grinchuk based on the characteristics of small gas flow suspension technology to design a suspended solid particle device to save gas flow and improve the combustion efficiency of the particles. used gas suspension technology to design a tangential blowing suspension device, which was applied to glass transportation to improve the suspension lift of the glass while ensuring stability during the transportation of the glass. In the early days of research on this subject, Paivanas and Hassan developed an air output device for suspending and moving small silicon wafers (57-82 mm in diameter) based on air suspension technology, which greatly reduced the need for solid contact control with a smaller airflow device system. ![]() In recent years, scholars around the world have conducted a large amount of experimental research on this subject. However, air suspension technology needs to provide a large airflow to complete this movement, and it is now necessary to reduce the airflow required for the work and at the same time ensure the normal operation of the air suspension workpiece. Air suspension technology is widely used in bearings, guide rails, compressors, trains, blowers, glass transport equipment, metal smelting, and other aspects. This produces a gas film between two objects in contact, separating the objects and thereby reducing the friction between the two objects. ![]() By comparing the experimental data, the air pressure of the original air suspension guide rail was reduced by 37%, and the validity of the theory and design method was verified.Īir suspension technology is a technique that uses the buoyancy provided by flowing airflow to overcome gravity to suspend an object. The surface structure of the suspended workpiece was applied to the air static pressure guide rail. The results show that the buoyancy of the suspended workpiece with a V-shaped surface at a 15-degree attack angle was optimal for the same air pressure as the other workpieces. The experimental results of the suspension test bench were compared with the theoretical calculation results. ![]() Six sets of contrast experiments were designed. Based on this, a suspension test rig was built. A 3D printer was used to manufacture the physical prototype of the suspended workpiece. A bionic model was established by using the theoretical calculation formula and structural size parameters of the structural design. A suspension structure mapping model was established according to the physiological structure characteristics of albatross wings. In this study, an air suspension platform was built using bionic design to reduce the required air pressure and increase the suspension force. An air suspension platform uses air pressure to realize the suspension function during the suspension process, and it has the disadvantage of large air pressure and a small suspension force. ![]()
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