International Journal of Mechanical Engineering
International Journal of Mechanical Engineering. 2024; 3: (2) ; 10.12208/j.ijme.20240018 .
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北京安泰可科技有限公司 北京
*通讯作者: 郭哲,单位:北京安泰可科技有限公司 北京;
农业无人机的机架设计对其性能和效率有着重要影响,特别是在重量和强度的平衡上。本文通过仿生学原理,探讨了农业无人机机架的轻量化设计方法。利用自然界中生物结构的优势,设计出符合农业环境需求的机架结构,既能保持结构的高强度,又能实现重量的显著降低。通过分析仿生学设计原理,并结合现代材料技术,提出了一种新型的无人机机架设计方案,显著提升了飞行稳定性和续航能力。实验结果表明,该设计在实际应用中具备良好的性能优势,为农业无人机的普及和发展提供了有效的技术支持。
The structural design of agricultural UAVs critically determines their operational performance and efficiency, particularly in achieving optimal weight-to-strength ratios. This study employs biomimetic principles to develop lightweight UAV frameworks tailored for agricultural applications. By leveraging the structural advantages of natural organisms, we designed a UAV framework that maintains high structural integrity while achieving substantial weight reduction. Through systematic analysis of biomimetic design principles and integration with modern material science, we propose an innovative UAV framework design that significantly enhances flight stability and endurance. Experimental results demonstrate the design's proven performance advantages in practical applications, providing robust technical support for the widespread adoption and advancement of agricultural drones.
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