Automatic inspection system for unmanned aerial vehicle

Abstract

The invention provides an automatic inspection system for an unmanned aerial vehicle, and relates to the technical field of water conservancy detection. The automatic inspection system comprises the unmanned aerial vehicle, a control center and an imaging device carried on the unmanned aerial vehicle, and the unmanned aerial vehicle flies on a path preset by the control center. The automatic inspection system is characterized in that the unmanned aerial vehicle is provided with a communication device, a data storage device, a positioning device, a parachute and a pop-up device, wherein data of the imaging device and the positioning device is stored in the data storage device which is fixedly connected with the communication device and communicated with the control center through the communication device; the positioning device controls the pop-up device to be ejected, the pop-up end of the pop-up device stretches out of the surface of the unmanned aerial vehicle, the data storage device and the communication device are hidden in the pop-up end of the pop-up device, and the parachute is tied to the data storage device; when the positioning device detects that the unmanned aerial vehicle does not fly on the preset path, the pop-up device ejects the data storage device and the communication device. Compared with the prior art, the automatic inspection system for the unmanned aerial vehicle has the advantages that safe data transmission is guaranteed, and the data transmission rate is increased.

Description

technical field [0001] The invention relates to the technical field of water conservancy detection, in particular to an automatic inspection system for unmanned aerial vehicles. Background technique [0002] For the monitoring of water conservancy project areas, there are generally two ways to carry out operations in the past. One is manual on-site measurement, which has high strength, low efficiency, and low coverage; Set up control points near the detection area, and then use high-precision measuring instruments to monitor the water conservancy project detection area regularly or irregularly. The monitoring data obtained by this measurement can only reflect the status of scattered monitoring points, and rarely can achieve the whole area The stability analysis cannot fully reflect the state of the entire water conservancy project area. Recently, unmanned aerial vehicles have begun to be used in the monitoring field, but they are rarely used in the monitoring of water conse...

AI Technical Summary

Problems solved by technology

[0002] For the monitoring of water conservancy project areas, there are generally two ways to carry out operations in the past. One is manual on-site measurement, which has high strength, low efficiency, and low coverage; Set up control points near the detection area, and then use high-precision measuring instruments to monitor the water conservancy project detection area regularly or irregularly. The monitoring data obtained by this measurement can only reflect the status of scattered monitoring points, and rarely can achieve the whole area The stability analysis cannot fully reflect the state of the entire water conservancy project area

Recently, unmanned aerial vehicles have begun to be used in the monitoring field, but they are rarely used in the monitoring of water conservancy engineering areas. The reason is that there are great shortcomings in the application of unmanned aerial vehicles to the monitoring of water conservancy engineering areas. The monitoring of water conservancy project areas needs to face complex environments, especially when monitoring under extreme weather conditions, drones are very prone to crashes due to weather effects, so that real-time monitoring data of water conservancy project areas cannot be sent out