Aerodynamic Analysis of a Wall-Climbing Robot with Dual-propeller

Yi Wei, Qingfang Zhang, Xueshan Gao, Peng Liang, Mingkang Li, Kejie Li
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Abstract

A wall-climbing robot is a mobile robot that operates on a vertical wall. A wall-climbing robot with dual-propeller is proposed in this paper, in which the aerodynamics of the propeller is an important research part. Therefore, the aerodynamics of the propeller is simulated by ANSYS Fluent and experimentally analyzed in this paper. First, the aerodynamic simulation analysis of the single rotor and the double rotor is carried out in this paper, and then the tensile test experiment of the single propeller is carried out by using the pulling machine. Finally, an experimental platform for the whole machine was built, and the tensile test experiment was carried out on the double propellers. It is concluded that the aerodynamic forces generated by the two rotors are not linearly superimposed due to the airflow interference, and the rotational speed of the rotors and the distance between the rotor platforms all affect the magnitude of the force.
双螺旋桨爬壁机器人气动特性分析
爬墙机器人是一种在垂直墙壁上工作的移动机器人。提出了一种双螺旋桨爬壁机器人,其中螺旋桨的空气动力学是研究的一个重要部分。因此,本文采用ANSYS Fluent软件对螺旋桨的空气动力学进行了仿真,并进行了实验分析。本文首先对单桨和双桨进行了气动仿真分析,然后利用拉拔机对单桨进行了拉伸试验实验。最后搭建了整机实验平台,对双螺旋桨进行了拉伸试验。结果表明,由于气流的干扰,两转子产生的气动力不是线性叠加的,转子的转速和转子平台之间的距离都会影响气动力的大小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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