Hydrogen suspending photovoltaic monitoring aircraft and manufacturing method thereof

Abstract

The present invention provides a hydrogen suspending photovoltaic monitoring aircraft and a manufacturing method thereof. A thin film photovoltaic cell is laid on the surface of a hydrogen airship, the hydrogen airship and a rotor aircraft are connected into a whole through a connection rod and a connection plate, a flight control system box and a control line, as well as a charging device box and a power supply line are fixed to the aircraft through the connection rod and sleeve on a flight control bus. The hydrogen suspending photovoltaic monitoring aircraft manufactured through the method can be lifted off and hover for a long time, fly horizontally and land smoothly and steadily by depending on the suspension balance force of the hydrogen airship only under the effect of upward, horizontal and downward power rotors, and thus the power consumption can be reduced; high-precision hovering can be realized as the hovering control relies on a Dajiang flight control system, enough power consumption for a video camera to monitor can be provided by using solar electricity generation and charging; the aircraft has the functions of long-time suspension, lifting off and flight, high-precision hovering and high-quality in-air video monitoring. Therefore the purposes of the invention are realized with a low cost and high efficiency.

Description

technical field [0001] The technical fields involved in the invention include: hydrogen boat, helium boat suspension technology, rotorcraft hovering technology, solar photovoltaic power generation and charging technology, especially a hydrogen suspension photovoltaic monitoring aircraft and its manufacturing method. Background technique [0002] Unmanned aerial vehicles are becoming more and more colorful due to the rise of multi-rotor aircraft. For example, there are many types of such aircraft for sale in Taobao.com, and users can also purchase related materials online to make such aircraft. However, due to the limitation of the battery power supply of this type of aircraft, the endurance time is about 15 minutes or even shorter, which affects the practicality of this type of aircraft. The original intention of the present invention is to overcome this shortcoming, make this type of aircraft practical. [0003] The advantages of suspension technologies such as hydrogen bo...

AI Technical Summary

Problems solved by technology

[0003] The advantages of suspension technologies such as hydrogen boats or helium boats are: because of their low cost and long-term suspension, they have been widely used in related industries such as aerial advertising, aerial photography, and air transportation; their disadvantages are: their own air hovering control technology, It uses its own gravity and suspension force to balance, resulting in passive hovering in the air, so it is difficult to refine the position accuracy control of space hovering; resulting in a decrease in the quality of aerial video surveillance

[0004] At present, the mainstream rotorcraft hover control in the market mostly adopts DJI (www.dji.com) multi-rotor flight control system and helicopter flight control system technology. The advantages of this multi-technology are: high hovering accuracy, ±0.5 m, ±1.5m in the horizontal direction (GPS mode); its disadvantage is: because of its flight power and video camera monitoring are very power-hungry, so its battery life is limited

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