精密可展开结构运动耦合闩锁机构的策略与论证

K. Takagi, Hiroaki Tanaka, K. Ishimura
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引用次数: 2

摘要

本文提出了一种利用运动耦合提高可展开结构展开可重复性的新策略。在该策略中,控制了施加在联轴器上的压紧顺序和压紧载荷以满足必要的条件。在前人研究的基础上,导出了锁存完成条件的基本理论,揭示了运动联轴器的配合完成条件。建立了一个由两个圆板和三部分二度约束球(带凹槽球)组成的实验模型,该模型采用张力弹簧加压加载机构。实验模型中的形状重复性是通过测量在每次安装中两个板在改变压紧顺序和施加载荷时的相对位移来评估的。通过这些实验,评估了压紧顺序和施加的载荷对形状重复性的影响,验证了压紧载荷调整策略的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Strategy and Demonstration of Latch Mechanisms with Kinematic Coupling for Precise Deployable Structures
This paper proposes a new strategy for improving deployment repeatability in deployable structures using kinematic couplings. In this strategy, the order of the pressing and the pressing load applied to the coupling are controlled to meet the necessary conditions. The basic theory for latch completion conditions is derived based on our previous study, which revealed the mating completion conditions of kinematic couplings. An experimental model that consists of two circular plates and three parts of two–degrees of restraint (2–DOR) (balls with grooves) with pressing load mechanisms using tension springs is developed. The shape repeatability in the experimental model is evaluated by measuring the relative displacements of two plates in each installation while changing the pressing order and load applied. The effects pressing order and load applied on shape repeatability are evaluated through these experiments, and the effectiveness of the strategy for pressing load adjustment is demonstrated.
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