%0 Journal Article
%T 飞鸟驱赶系统设计<br>Design of Flying Bird Repelling System
%A 齐建豪
%A 尹猛
%A 吕青青
%A 杨立权
%A 黄鑫
%A 王硕
%J Modeling and Simulation
%P 1263-1275
%@ 2324-870X
%D 2025
%I Hans Publishing
%R 10.12677/mos.2025.141114
%X 近年来农场、高压输电线路、光伏产业园等场所发生的鸟害事故增多&#65292;并且市场上存在的各类驱鸟装置使用效果都不好&#65292;存在防护范围有限、作用有时效性和安全稳定性差等缺点。所以我们设计出一款高效的驱鸟系统&#65292;其中包含了反光驱鸟、仿生驱鸟、超声波语音驱鸟。三种驱鸟装置同时工作&#65292;进一步提高了驱鸟效率。在设计中主要对系统驱动装置进行模态分析和主要受力装置进行静力学分析&#65292;为系统选择低能耗的超声波语音模块&#65292;设计超声波语音模块的驱鸟电路。<br>In recent years, there has been an increase in bird damage accidents in farms, high-voltage transmission lines, photovoltaic industrial parks and other places, and the use of various bird repellent devices on the market is not good, and there are shortcomings such as limited protection range, poor timeliness and safety stability. Therefore, we have designed an efficient bird repellent system, which includes reflective bird repellent, bionic bird repellent, and ultrasonic voice bird repellent. Three bird repellent devices work at the same time, which further improves the efficiency of bird repellent work. In the design, the modal analysis of the system driving device and the static analysis of the main stressed device are carried out, the low-energy ultrasonic voice module is selected for the system, and the bird-repellent circuit of the ultrasonic voice module is designed.
%K 风轮&#65292
%K 摇杆&#65292
%K 偏心轮&#65292
%K 超声波<br>Wind Wheel
%K Rocker
%K Eccentric Wheel
%K Ultrasound
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=106448