According to the unmanned aerial vehicle frame, an unmanned aerial vehicle frame can be assembled by combining a small number of aluminum alloy connecting pieces and carbon tubes (carbon fiber tubes), the weight of a vehicle body can be reduced, use of aluminum materials is reduced, the light weight and the strength of the carbon fiber vehicle body frame are achieved, and the manufacturing process of the aluminum alloy connecting pieces and the carbon tubes is simple; according to the unmanned aerial vehicle, the complex technology of a carbon fiber vehicle body frame is not needed, the frame is easy to assemble and manufacture, different types of unmanned aerial vehicle frames such as a four-axis unmanned aerial vehicle frame, a six-axis unmanned aerial vehicle frame, an eight-axis unmanned aerial vehicle three-dimensional frame and a twelve-axis unmanned aerial vehicle three-dimensional frame can be formed, different use requirements can be better met, the loading load and the endurance time can be both improved, and the unmanned aerial vehicle can be widely used. The unmanned aerial vehicle is simple in manufacturing process, easy to manufacture, light in weight and high in load-carrying capacity, the vehicle body is not prone to deformation during load-carrying flight, the vehicle arms in the frame can be folded, transportation and use are flexible, and the market requirement of the unmanned aerial vehicle can be better met.
一种无人机的机架,通过少量铝合金连接件与碳管(碳纤维管)结合就能够组装成无人机框架,能够减轻机身的重量,减少了铝材的使用,具备碳纤维机体框架的轻质和强度,铝合金连接件和碳管的制造工艺简单,不需要使用碳纤维机体框架的复杂工艺,框架组装制造也容易,且能够组成四轴无人机框架、六轴无人机框架、八轴无人机立体框架、十二轴无人机立体框架等不同的机型,能够更好地满足不同的使用需求,使载重负荷和续航时间都能够提升,制造工艺简单、容易制造、重量较轻、载重能力强,机体在载重飞行时不易变形,框架中的机臂能够折叠,运输和使用灵活,能更好地满足无人机的市场需求。
Rack of unmanned aerial vehicle
一种无人机的机架
2024-05-03
Patent
Electronic Resource
Chinese
IPC: | B64U |