Intelligent unmanned aerial vehicle for maintaining photovoltaic power generation device based on Internet of Things

Abstract

The invention relates to an intelligent unmanned aerial vehicle for maintaining photovoltaic power generation device based on the Internet of Things. The intelligent unmanned aerial vehicle comprisesa main body, a supporting mechanism, a washing mechanism and a translation mechanism. The flushing mechanism comprises a water storage tank. The supporting mechanism comprises a driving mechanism, twotelescopic mechanisms and two clamping plates. Each telescopic mechanism comprises a first sliding block, a first fixing block, a telescopic frame, a hinge block, a second fixing block, a second sliding block, a sliding rail and a supporting plate. A flow guide pipe and a speed regulating mechanism are arranged in the water storage tank. The intelligent unmanned aerial vehicle for maintaining photovoltaic power generation device based on the Internet of Things has the advantages that: a driving mechanism in the supporting mechanism drives the two first sliding blocks to get close, so that a solar panel is clamped by the two clamping plates for cleaning and cleaning can be performed without consuming flight energy; the water flow speed in a backflow pipe is increased through the speed regulating mechanism, and high-speed water flow is sprayed out through a first spray head, so that flushing of firmly-attached dirt is facilitated, the surface of a solar panel is made clean, and therefore the practicability of the equipment is improved.

Description

technical field [0001] The invention relates to the field of unmanned aerial vehicles, in particular to an intelligent unmanned aerial vehicle for maintaining photovoltaic power generation devices based on the Internet of Things. Background technique [0002] Unmanned aerial vehicle, unmanned aerial vehicle (UAV) for short, is a new concept weapon equipment in rapid development, which has the advantages of flexible maneuvering, quick response, unmanned flight, and low operation requirements. UAVs equipped with multiple types of sensors can realize real-time image transmission and detection of high-risk areas, which is a powerful supplement to satellite remote sensing and traditional aerial remote sensing. At present, the scope of use of UAVs has been expanded to the three major fields of military, scientific research, and civilian use, specifically in power, communications, meteorology, agriculture, ocean, exploration, photography, disaster prevention and reduction, crop pro...

AI Technical Summary

Problems solved by technology

[0003] Because drones have the ability to fly, they are often used to help people perform some high-altitude operations. In some drones, some are used to maintain photovoltaic power generation devices on the top of buildings, especially for cleaning the surface of solar panels. , to ensure the power generation efficiency of the photovoltaic power generation device, but most of the existing drones fly on the surface of the solar panel for cleaning work, so that the drone needs to spend a lot of energy to maintain the flight, resulting in energy consumption when the drone cleans the photovoltaic power generation device It is not conducive to cleaning batches of solar panels. Not only that, for some sundries that adhere to the surface of solar panels, such as bird droppings, because they are firmly adsorbed on solar panels, traditional drones have little cleaning power. Difficult to remove these strongly adsorbed impurities

Images