Eden Project_SU Soap Bubble+Rhino Grasshopper

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CAD&LOGIC 3 Student: Ernest Shtepani Professor: Daniel Dendra


Cad Logic 3 winter semester 09-10 Work done by: Ernest Shtepani Professor : Daniel Dendra

In this booklet is described the process of the second stage of work for the subject of Cad logic in this semester -Eden Project -Strategy for Generating in 3d dimensions the Project using some innovative tools of software. -Sketch Up 7 Innovative Plugging “Soap Bubble� -Generation with Sketch Up And Exportation to Rhino. -Grasshopper, compatibility of sketch Up. -Generation of Hexagons version 1 -Generation of Hexagons version 2 -Generation of Hexagons steel-frame.


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Starting from dividing the process into several steps such as unities and elements. The project Is made up from hemispheres forming 2 buildings, which are almost identical. -Once finished with the 2 main volumes with 5 bubbles each the next step would be Page 2


Choise of the software Soap Bubble is a innovative Sketch Up 7 plug-in which allows visualization of once difficult to generate tensile and organic structures, such as pneumatic Structures, tensile structures, shapes as those of zeppelins, balloons, circus tents, and many more. Inspired by this plug-in I thought of using it to create the bubbles in the Eden Park.


Step-1 Generating Eden Bubbles in Sketch Up. Using the tool Soap Bubble we can generate a volume from each 2 curves which form a closed frame. The pressure we give indicates the height of the bubble that could be positive or negative.


Importing sketch up model to Rhino.


The model is exported as a mesh. In order to apply components it need to be rebuild as a surface


Grasshopper definition Mesh to Surface

With the program keeping as reference the sketch up bubbles we transform the mesh into a Surface


Create a sphere from the mesh points


Cut the sphere to hemisphere

Now we have the exact shape


-Step 2-Generation of Hexagons version 1 First Grasshopper definition generated the hexagons. With this method the size of hexagons changes to the poles of the sphere.


The 3d model version 1.


The 3d model version 1.


Generation of Hexagons version 2

In this Grasshopper definition we can have hexagons of the same size based on the geodesic triangulation method


The 3d model version 2.


The 3d model version 2.


The 3d model version 2.


Examples of Hexagonal Mesh


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