Aerodynamics Force Analysis for Designing a Flapping Butterfly Robot Wing

机译：设计拍打蝴蝶机器人机翼的空气动力分析

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Flyable robots are always amazed human because its behavior. Designing a flapping wing robot is complex since wing aerodyanamics and aeroelastics have to be considered. In this research, wing section aerodynamics forces are explained. Several aerodynamic equations are derived and estimated in order to obtain lift and thrust forces that acted on each butterfly wing section. Average lift force over one flapping cycle is used to design the prototype butterfly robot wing structure and motion. Wing structure is designed based on the real butterfly wing dimension. Wing was made by a reinforced laminar plastic sheet in order to achieve wing's rigidity and properties of thin airfoil. Separated servo driven flapping mechanism is selected in this research due to its flexibility and performance. Finally, prototype butterfly wing is designed.

机译：飞行机器人总是让人惊讶，因为它的行为。设计襟翼机翼机器人很复杂，因为必须考虑机翼空气动力学和气动弹性。在这项研究中，对机翼截面的空气动力进行了解释。为了获得作用在每个蝴蝶机翼部分的升力和推力，推导并估算了几个空气动力学方程。使用一个扑动周期的平均升力来设计原型蝴蝶机器人机翼的结构和运动。机翼结构是根据实际的蝴蝶机翼尺寸设计的。机翼由强化层流塑料板制成，以实现机翼的刚度和薄型机翼的性能。由于其灵活性和性能，本研究选择了分离式伺服驱动的拍打机构。最后，设计了原型蝴蝶翼。

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《International Conference on Electronics, Information, and Communication》|2020年|1-4|共4页
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Kanjanapan Sukvichai; Kan Yajai;
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aerodynamics; aerospace components; aerospace control; mobile robots; plastics; prototypes; rigidity; sheet materials;

机译：空气动力学;航空航天部件;航空航天控制;移动机器人;塑料;原型;刚度;板材;

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1. Design of a Flapping Wings Butterfly Robot based on Aerodynamics Force [J] . Kanjanapan Sukvichai, Kan Yajai Advances in Science, Technology and Engineering Systems . 2020,第4期

机译：基于空气动力力的拍打翼机器人的设计
2. A trapezoidal wing equivalent to a Janatella leucodesma's wing in terms of aerodynamic performance in the flapping flight of a butterfly model [J] . Suzuki Kosuke, Yoshino Masato Bioinspiration & biomimetics . 2019,第3期

机译：在拍摄飞行飞行飞行中的空气动力学性能方面相当于Janatella Leucodesma的翼等梯形翼的梯形翼
3. Experimental and numerical investigation of wing-wing interaction and its effect on aerodynamic force of a robotic dragonfly during hovering and forward flight [J] . Swain Prafulla Kumar, Dora Siva Prasad Archive of Applied Mechanics . 2021,第5期

机译：悬停和向前飞行期间机器人蜻蜓的翼翼相互作用的实验与数值研究及其对机器人蜻蜓的空气动力
4. Vortex Ring Formed over the Wings of a Flapping Butterfly and a Small Flapping Robot [C] . Masaki Fuchiwaki, Taichi Kuroki, Kazuhiro Tanaka, 41st AIAA fluid dynamics conference and exhibit 2011 . 2011

机译：拍打蝴蝶和小型拍打机器人翅膀上形成的涡流环
5. Characterization of Flapping Wing Aerodynamics and Flight Dynamics Analysis using Computational Methods. [D] . Rege, Alok Ashok. 2015

机译：扑翼的空气动力学特性和使用计算方法的飞行动力学分析。
6. Aerodynamic evaluation of wing shape and wing orientation in four butterfly species using numerical simulations and a low-speed wind tunnel and its implications for the design of flying micro-robots [O] . Alejandro Ortega Ancel, Rodney Eastwood, Daniel Vogt, 2017

机译：利用数值模拟和低速风洞对四种蝶类的翼形和翼向进行空气动力学评估及其对飞行微型机器人设计的启示
7. Aerodynamic evaluation of wing shape and wing orientation in four butterfly species using numerical simulations and a low-speed wind tunnel, and its implications for the design of flying micro-robots [O] . Alejandro Ortega Ancel, Rodney Eastwood, Daniel Vogt, 2017

机译：使用数值模拟和低速风洞的四种蝶形物种翼形和翼定向的空气动力学评估，以及对飞行微机器人设计的影响
8. ANALYTICAL AND EXPERIMENTAL INVESTIGATION OF AERODYNAMIC FORCES AND MOMENTS ON LOW-ASPECT-RATIO WINGS UNDERGOING FLAPPING OSCILLATIONS [R] . DonaldS. Woolston, Sherman A. Clevenson, Sumner A. Leadbetter 1958

机译：闪烁振荡下低纵横比翼的气动力和力矩的分析与实验研究

Aerodynamics Force Analysis for Designing a Flapping Butterfly Robot Wing

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