结构研究

Structure Study
经过一系列等比例模型实验,我们初步了解了硅胶节点的结构特性。于是我们开始用QQ糖和牙签做一些结构模型测试结构的可能性和组装的顺序。我们认为建造的第一步是预制零件,将零件组装成单元,再将单元组成更大的部分。第二个问题是灵活和稳定之间的平衡。既然节点已经很灵活,结构系统就要足够稳定。支撑结构就起到很重要的作用。


















罟坶结构是一个使用标准化节点的参数化结构。罟坶结构系统中有三个主要结构成员。穹顶层是用标准化节点连接不同长度的纸筒预组装完成的。底部基础使用的是固定在地面的,被弯折到固定角度的铝管。在场地上的搭建过程,加入支撑结构使整个结构站立起来。

为了解决因结构自重导致的下沉和不稳定的问题,我们使用Kangaroo的反重力模拟功能确定最终结构形态。在确定平面形状和节点数量之后,计算机将给我们一个优化的结构形态和所有纸管的长度。












































 After the full-scale prototype test, we basically knew the structural performance of the silicon joint. We started to make some models to study the potential structure system and assembly sequence by using Gummy Bear and toothpicks. We think the first step of the construction is the prefabrication of the regular components and assemble them to units and then a larger piece. The second thought is the balance between the flexibility and stability. Since the joint is flexible, the structure system must be stable enough to make the whole thing stand. The secondary supporting structure - bracing element - plays an important role on the stage.

Gume structure is a parametric system using prefabricated standard joints. There are 3 structural members in the system. The main cover sheet of the canopy is pre-assembled by standard joints linking the tubes in different lengths together. The foundation of the structure is fixed aluminum pipe bent in fixed angles. To make the canopy stand, the bracing members are added on in the construction on site.

To resolve the problem of subsidence and instability made by the self-weight of the structure, we use the anti-gravity simulation in Kangaroo to find the final form. After we finalized the shape of the plan and the number of the joint, the computer will give us an optimized form and the length of the tubes.  
  1. Managing Director
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