Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The auxiliary mountaineering system based on the unmanned aerial vehicle application comprises an unmanned aerial vehicle, the unmanned aerial vehicle comprises a rack, the rack is connected with an energy supply mechanism and a rotor wing mechanism, and the rack is further provided with a transportation cabin; the energy supply mechanism comprises a hydrogen fuel cell, the hydrogen fuel cell is communicated with a hydrogen storage tank, the hydrogen fuel cell is communicated with an air conveying pipe, and the air conveying pipe is provided with an air inlet fan; the air conveying pipe is communicated with an oxygen storage tank, and a flow regulating valve is arranged between the oxygen storage tank and the air conveying pipe; the energy supply mechanism is arranged at the bottom of the rack, the rotor mechanisms are distributed on the periphery of the top of the rack, and the energy supply mechanism is electrically connected with the rotor mechanisms. The scheme has the beneficial effects that according to the description of the scheme, the structure is simple, the design is reasonable, the signal transmission problem when the unmanned aerial vehicle is applied to mountaineering auxiliary automatic flight is solved, and the problem that the unmanned aerial vehicle has enough lift force and cruising ability in a rarefied air environment is also solved.
本申请公开了一种基于无人机应用的辅助登山系统,包括无人机,无人机包括机架,机架连接有供能机构和旋翼机构,机架还设置有运输舱;供能机构包括氢燃料电池,氢燃料电池连通有氢气储存罐,氢燃料电池连通有空气输送管,空气输送管设置有进气风扇;空气输送管连通有氧气储存罐,氧气储存罐与空气输送管之间设置有流量调节阀;供能机构设置有机架的底部,旋翼机构分布于机架顶部的四周,供能机构电连接旋翼机构。本方案的有益效果可根据对上述方案的叙述得知,结构简单,设计合理,解决了无人机应用于登山辅助自动飞行的信号传输问题,又解决了空气稀薄环境下有无人机具有足够升力和续航能力的问题。
The auxiliary mountaineering system based on the unmanned aerial vehicle application comprises an unmanned aerial vehicle, the unmanned aerial vehicle comprises a rack, the rack is connected with an energy supply mechanism and a rotor wing mechanism, and the rack is further provided with a transportation cabin; the energy supply mechanism comprises a hydrogen fuel cell, the hydrogen fuel cell is communicated with a hydrogen storage tank, the hydrogen fuel cell is communicated with an air conveying pipe, and the air conveying pipe is provided with an air inlet fan; the air conveying pipe is communicated with an oxygen storage tank, and a flow regulating valve is arranged between the oxygen storage tank and the air conveying pipe; the energy supply mechanism is arranged at the bottom of the rack, the rotor mechanisms are distributed on the periphery of the top of the rack, and the energy supply mechanism is electrically connected with the rotor mechanisms. The scheme has the beneficial effects that according to the description of the scheme, the structure is simple, the design is reasonable, the signal transmission problem when the unmanned aerial vehicle is applied to mountaineering auxiliary automatic flight is solved, and the problem that the unmanned aerial vehicle has enough lift force and cruising ability in a rarefied air environment is also solved.
本申请公开了一种基于无人机应用的辅助登山系统,包括无人机,无人机包括机架,机架连接有供能机构和旋翼机构,机架还设置有运输舱;供能机构包括氢燃料电池,氢燃料电池连通有氢气储存罐,氢燃料电池连通有空气输送管,空气输送管设置有进气风扇;空气输送管连通有氧气储存罐,氧气储存罐与空气输送管之间设置有流量调节阀;供能机构设置有机架的底部,旋翼机构分布于机架顶部的四周,供能机构电连接旋翼机构。本方案的有益效果可根据对上述方案的叙述得知,结构简单,设计合理,解决了无人机应用于登山辅助自动飞行的信号传输问题,又解决了空气稀薄环境下有无人机具有足够升力和续航能力的问题。
Auxiliary mountaineering system based on unmanned aerial vehicle application
一种基于无人机应用的辅助登山系统
CONG XIAO (Autor:in)
12.05.2023
Patent
Elektronische Ressource
Chinesisch
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