基于鸟类低频飞行原理的仿生海上极限运动载具设计

DESIGN OF BIONIC MARITIME EXTREME SPORTS CARRIER BASED ON THE PRINCIPLE OF LOW FREQUENCY FLIGHT OF BIRDS

为了将鸟类飞行过程中的非定常空气动力学运用到海上载具,结合广汽研究院超级玩伴主题要求,对基于鸟类中低频飞行行为的仿生海上极限运动载具的综合设计。运用低频飞行生物运动过程中产生的攻角及变载量,获得比传统海上载具更高的动能效率,克服当前海上载具机动性低的缺陷;运用运动想象原理将人类的运动意向与鸟类的行为逻辑进行匹配,能够省去复杂的操作流程,进一步优化驾驶体验。得到三维装配模型。利用鸟类低频飞行原理,制作1:6尺寸模型进行结构可实现性分析,将鸟类身体构造、羽毛结构、运动方式、能耗利用等方面与船体结构与造型做出结合,提出一种仿鸟船体的运动结构。

In order to apply the non-constant aerodynamics of the birds'flight process to the ocean carrier,combined with the requirements of GAC Research Institute,the comprehensive design of a bionic maritime extreme motion carrier based on the low-frequency flight behavior of birds.Using the angle of attack and variable load generated during the movement of low-frequency flying creatures to obtain higher kinetic efficiency than traditional sea vehicles,overcoming the current shortcomings of low maneuverability of sea vehicles;using the principle of motion imagination to match human motion intention with the behavioral logic of birds,it can eliminate the complex operation process and further optimize the driving experience.Obtain a 3D assembly model.Using the principle of low-frequency flight of birds,we make a 1:6 size model for structural realizability analysis,combine the bird body structure,feather structure,movement mode,energy consumption utilization and other aspects with the hull structure and modeling to propose a bird-like hull movement structure.