Automatic unmanned aerial vehicle wing production device

Abstract

The invention relates to the technical field of unmanned aerial vehicle wing production and processing, in particular to an automatic unmanned aerial vehicle wing production device which comprises a base, stand columns, moving structures, a replacing structure, a fixing structure, a limiting structure, a containing structure and an anti-rotation structure. The moving structures are arranged at one ends of the two stand columns, a polishing assembly can be automatically adjusted to be close to a to-be-polished wing and away from the to-be-polished wing, so that the to-be-polished wing is conveniently and automatically polished, the polishing assembly can be rapidly installed and replaced in cooperation with the arrangement of the replacing structure, and therefore the damaged polishing assembly can be conveniently replaced in the later period; and by installing the fixing structure at the top end of the base, the wing can be adsorbed and fixed according to the vacuum adsorption principle, so that the surface of the wing is comprehensively polished conveniently, polishing and discharging can be conducted independently, namely, when one wing is polished, the other wing can be discharged or charged, and therefore the discharging and charging time is shortened, and accordingly, the polishing efficiency can be improved.

Description

technical field [0001] The invention relates to the technical field of UAV wing production and processing, in particular to an automatic UAV wing production device. Background technique [0002] Unmanned aircraft, referred to as "unmanned aerial vehicle", or "UAV" in English, is an unmanned aircraft that is controlled by radio remote control equipment and its own program control device, or is completely or intermittently operated autonomously by an on-board computer. Drones are often better suited for missions that are too "dumb, dirty or dangerous" than manned aircraft. According to the application field, UAV can be divided into military and civilian. In terms of military use, UAVs are divided into reconnaissance aircraft and target aircraft. In terms of civilian use, drones + industry applications are the real rigid needs of drones; currently, they are used in aerial photography, agriculture, plant protection, micro selfies, express delivery, disaster relief, wildlife ob...

AI Technical Summary

Problems solved by technology

[0003] In the production and processing process of UAVs, the production of UAV wings is an important link. Generally, after the UAV wings are stamped and formed, in order to facilitate the subsequent spraying and other processes, the stamping and forming The wing of the drone is polished on both sides. At present, the grinding of the wing of the drone is done manually, which is time-consuming and laborious, and the processing efficiency is low. There are also some automatic grinding methods, but the general grinding components are all It is directly fixed, which is extremely inconvenient during installation and later replacement, and when fixing the wing, using mechanical clamping will clamp the edge of the wing, which will seriously affect the quality of grinding, and even Secondary grinding is required, which is extremely inconvenient, and generally only one station is set for the fixed wing, that is, grinding and loading and unloading cannot be carried out at the same time, which will seriously waste the time of loading and unloading, resulting in a problem of lower efficiency, and the general The grinding equipment does not provide a processing platform for temporarily placing parts, and additional components are required for placement, which will cause a waste of operating space and the operation is extremely inflexible

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