混合双电源系统倾转旋翼无人机的设计
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摘要
针对复合翼构型的倾转旋翼无人机的缺点和不足,设计了一种氢锂混合能源倾转旋翼无人机。文章详细介绍了整体设计、可倾转旋翼动力系统、混合双电源系统和飞行控制系统等内容。这种无人机克服了现有复合翼构型的倾转旋翼无人机的缺点和不足,具有垂直起降、空中悬停、高速巡航、续航能力增强、载重能力增加、环保的优点。
Aiming at the shortcomings of tilt-rotor UAV with composite wing configuration, a lithium-hydrogen hybrid tilt-rotor UAV is designed. The overall design, tilting rotor power system, hybrid dual power system and flight control system are introduced in detail. The UAV overcomes the shortcomings of the tilting rotor UAV with the existing composite wing configuration. It has the advantages of vertical takeoff and landing, hovering in the air, high speed cruise, enhanced endurance, increased load capacity and environmental protection.
Aiming at the shortcomings of tilt-rotor UAV with composite wing configuration, a lithium-hydrogen hybrid tilt-rotor UAV is designed. The overall design, tilting rotor power system, hybrid dual power system and flight control system are introduced in detail. The UAV overcomes the shortcomings of the tilting rotor UAV with the existing composite wing configuration. It has the advantages of vertical takeoff and landing, hovering in the air, high speed cruise, enhanced endurance, increased load capacity and environmental protection.
引文
[1]赵旭.一种倾转旋翼固定翼无人机的设计[J].电子技术与软件工程,2019,(02):81.
[2]阿玉龙,李焦明.可折叠自动跟随太阳能飞行伞的设计[J].日用电器,2018,(12):11-14.
[3]刘超慧,刘亚姗.倾转旋翼飞行器动力矢量控制系统[J].福建电脑,2018,34(08):35-36+64.
[4]沈洋洋,杨忠,张翔,李劲松.一种倾转四旋翼无人机及其过渡段姿态控制[J].兵工自动化, 2018,37(03):82-87.
[5]栗莉,綦龙,罗帅,等.雷诺数对超临界翼型气动性能的影响[J].教练机, 2017(02):39-45.
[6]张文琦,郑遂.低速通用飞机机翼低成本精细化设计[J].飞行力学,2017(08):89-93.
[7]黄坡.可倾转翼四旋翼飞行器垂直起降模式控制系统研究[D].南京:东南大学, 2014:19-22.
[8]刘丽娜,吴国新.Profili与Fluent环境下风力机翼型气动性模拟设计[J].北京信息科技大学学报(自然科学版), 2014(01):68-70.
[9]陆宜.某小型无人倾转旋翼机飞行控制系统设计与仿真[D].南京:南京航空航天大学, 2015:62-66.
[10]马保军.基于虚拟样机的倾转旋翼/机翼动特性分析[D].南京:南京航空航天大学, 2013:14-18.
[2]阿玉龙,李焦明.可折叠自动跟随太阳能飞行伞的设计[J].日用电器,2018,(12):11-14.
[3]刘超慧,刘亚姗.倾转旋翼飞行器动力矢量控制系统[J].福建电脑,2018,34(08):35-36+64.
[4]沈洋洋,杨忠,张翔,李劲松.一种倾转四旋翼无人机及其过渡段姿态控制[J].兵工自动化, 2018,37(03):82-87.
[5]栗莉,綦龙,罗帅,等.雷诺数对超临界翼型气动性能的影响[J].教练机, 2017(02):39-45.
[6]张文琦,郑遂.低速通用飞机机翼低成本精细化设计[J].飞行力学,2017(08):89-93.
[7]黄坡.可倾转翼四旋翼飞行器垂直起降模式控制系统研究[D].南京:东南大学, 2014:19-22.
[8]刘丽娜,吴国新.Profili与Fluent环境下风力机翼型气动性模拟设计[J].北京信息科技大学学报(自然科学版), 2014(01):68-70.
[9]陆宜.某小型无人倾转旋翼机飞行控制系统设计与仿真[D].南京:南京航空航天大学, 2015:62-66.
[10]马保军.基于虚拟样机的倾转旋翼/机翼动特性分析[D].南京:南京航空航天大学, 2013:14-18.