The invention discloses an electronic confrontation reconnaissance unmanned aerial vehicle and a confrontation reconnaissance method thereof. The connecting shafts are symmetrically arranged at the two ends of the shell and are concentric; the battery module is arranged on the shell; the first motor and the second motor are respectively arranged on the connecting shafts; the upper rotor wing and the lower rotor wing are respectively connected with the first motor and the second motor; the integrated planar helical antenna device is respectively arranged on connecting shafts at two ends of the shell and integrates investigation and interference; the steering engine drives the upper rotor wing to adjust different flight attitudes; and the integrated planar helical antenna device is also provided with a high-power-consumption electronic module for improving the heat exchange effect. The battery module is mounted between the upper rotor wing and the lower rotor wing, so that the weight between the upper rotor wing and the lower rotor wing is balanced, and the flying stability of the unmanned aerial vehicle is improved; by using the integrated planar helical antenna device, investigation and interference share one planar helical antenna, so that the overall size is reduced, the miniaturization of the device is realized, and the production is reduced.
本发明公开了一种电子对抗侦查无人机及其对抗侦查方法,其特征包括外壳、对称安装在外壳两端并同心的连接轴、安装在外壳上的电池模块、分别安装在连接轴上的第一电机和第二电机、分别与第一电机和第二电机连接的上旋翼和下旋翼以及分别安装在外壳两端的连接轴上集侦查和干扰为一体的一体化平面螺旋天线装置和驱动上旋翼调整不同飞行姿态的舵机;所述一体化平面螺旋天线装置上还安装有提高换热效果的高功耗电子模块。本发明通过将电池模块安装至上旋翼和下旋翼之间,使上旋翼与下旋翼之间重量平衡,从而提高无人机飞行的平稳度;通过利用一体化平面螺旋天线装置使侦查和干扰共用一个平面螺旋天线,减小了整体尺寸,实现装置的小型化,降低生产。
Electronic confrontation investigation unmanned aerial vehicle and confrontation investigation method thereof
一种电子对抗侦查无人机及其对抗侦查方法
2024-06-07
Patent
Electronic Resource
Chinese
IPC: | B64U |
Target-borne unmanned aerial vehicle for airspace confrontation
European Patent Office | 2022
|Underwater unmanned underwater vehicle cluster defense confrontation method
European Patent Office | 2025
|Study on asymmetrical systemic aerial confrontation
British Library Online Contents | 2004
|European Patent Office | 2020
|