Mechanical Design of Distributed Solar Sail Deployment Systems

Ni Li, Salla Kim, Jason Lin, Benjamin De La Torre, Manhong Wong, He Shen, Vimal Patel
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Abstract

Solar sailing has been increasingly considered for future space missions as an alternative method of propulsion, since it uses radiation pressure exerted by sunlight on a large mirrored surface for thrust and it does not require propellants such as chemicals or compressed gasses. For decades, single solar sail designs and deployment mechanisms have been studied and implemented in several CubeSats with the purpose of propulsion or deorbiting. Recently, a distributed four sail design has been proposed. The distributed four sails would have the potential to not only provide the spacecraft with propulsion force for space travel, but also control the attitude of the spacecraft by the coordinated motion of the four sails. Considering the large dimensions of the sails, it is necessary for the solar sails to be effectively stowed before launch and then deployed in a controlled manner in space. In this paper, the mechanical design of a deployment system that can stow and deploy four independent triangular solar sails with the ability to rotate after deployment will be presented. To demonstrate the effectiveness and the feasibility of the design, a prototype has been developed and validated through theoretical analysis and experimental tests.
分布式太阳帆展开系统的机械设计
由于太阳能帆船利用太阳光在一个大镜面上施加的辐射压力来推进,而且它不需要化学物质或压缩气体等推进剂,因此人们越来越多地考虑在未来的太空任务中作为一种替代的推进方法。几十年来,单个太阳帆的设计和部署机制已经在几个立方体卫星上进行了研究和实施,目的是推进或脱离轨道。最近,一种分布式四帆设计被提出。分布的四张帆不仅可以为航天器提供太空旅行的推进力,还可以通过四张帆的协调运动来控制航天器的姿态。考虑到太阳帆的大尺寸,有必要在发射前有效地装载太阳帆,然后在太空中以受控的方式展开。本文将介绍一种能够装载和展开四个独立的三角形太阳帆并具有展开后旋转能力的展开系统的机械设计。为了证明该设计的有效性和可行性,开发了一个原型,并通过理论分析和实验测试进行了验证。
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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