Nano-pesticide unmanned aerial vehicle spraying system

Abstract

The invention relates to a nano-pesticide unmanned aerial vehicle spraying system which is characterized in that the nano-pesticide unmanned aerial vehicle spraying system comprises a spraying unmanned aerial vehicle for spraying nano-pesticide and at least two loading unmanned aerial vehicles for loading pesticide boxes, and the pesticide boxes are used for storing the nano-pesticide required by spraying; wherein the spraying unmanned aerial vehicle is provided with a spray head, a water pump, an adjusting mechanism and a connecting pipe, the spray head is connected with the water pump, one end of the connecting pipe is connected with the water pump, and the adjusting mechanism is connected with the other end of the connecting pipe and can drive the connecting pipe to move; the loading unmanned aerial vehicle is provided with a loading mechanism and a pesticide box, the pesticide box is detachably installed on the loading mechanism, and the pesticide box is provided with a bottle opening used for being connected and communicated with one end of the connecting pipe; the spraying unmanned aerial vehicle is connected with one of the loading unmanned aerial vehicles and sprays, and the other loading unmanned aerial vehicle is in a preparation state.

Description

technical field [0001] The invention relates to the technical field of agricultural equipment, in particular to a nanopesticide drone spraying system. Background technique [0002] In the field of pesticides, the research on nano-pesticides is to give full play to the efficacy potential of the active ingredients of pesticides and improve the application effect of pesticides, that is, to achieve the purpose of improving efficacy, reducing application and increasing efficiency, and improving the environment. The method of pesticide application determines that "nano-pesticide" must refer to the "nano-particle" range where the active ingredients of the pesticide reach the target (including liquid particles) in the range of "nanoparticles" below 100nm, not just the pesticide particles in the preparation state. nano state. Only when the pesticide particles on the target are in the nanometer state, can the pesticide preparation reflect the improvement of the pesticide efficacy per...

AI Technical Summary

Problems solved by technology

Existing drones are equipped with spraying components, and the drone carries a pesticide box containing nano-pesticides for spraying. In this way, the spraying ability of the drone is severely limited by its own battery life and the pesticide box, that is, , the pesticide capacity in the pesticide box is too small, and the UAV needs to carry out multiple pesticide fillings, going back and forth between the spraying area and the filling area, which reduces the endurance time and increases the spraying operation time; in addition, the pesticides in the pesticide box The pesticide capacity is too large, which requires high load capacity and battery life of the UAV. The cost of the UAV is high, and the pesticide capacity is too large, which leads to the long spraying time of the UAV. During the spraying process, the pesticides in the pesticide box Nano-pesticides will be stratified, which will affect the effect of nano-pesticides on the one hand, and on the other hand, the layered nano-pesticides will increase the chance of clogging the sprinkler head

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