Solved: Re: Honeycomb hollow dome

Anonymous · ‎01-28-2017

Hi there,

Quick design challenge/help!

I've been trying to make a dome like this one :

The overall shape is quite easy to make with profile/revolve tool but when it comes to apply a honeycomb pattern I can't figure out how to make it!

I've found a great reference on internet:

- This guy made a cone with a hexagonal pattern but even with the explanation I can't see how he mades it.

http://fab.cba.mit.edu/classes/863.15/section.Harvard/people/Negri/week03.htm

This is where I am so far but I'm stuck there! Should be another way to do it.

Here I can't align or create a second pattern perfectly aligned to the 1st one and create the honeycomb.

Any help would be much appreciated. Thanks

etfrench · ‎02-02-2017

This thread may help: http://forums.autodesk.com/t5/design-validate-document/multiple-spheres-on-a-larger-sphere/td-p/6822...

ETFrench

etfrench · ‎02-02-2017

The following image based on the referenced thread will show how to determine the size of each hexagon:

Create a plane (and sketch) between each of the points. Draw the correct size hexagon on each sketch.

Click to go to your post.

ETFrench

Anonymous · ‎02-03-2017

Thank you @etfrench for your help! I think that's the only way to do it properly!!

TrippyLighting · ‎02-28-2017

I had seen that thread with the honeycomb dome but never got around to it. Very elegant solution!

Anonymous · ‎04-21-2020

Hi there, may I ask why you choose that point in the bottom left to project from and what angles between the projected lines? many thanks

Charles

davebYYPCU · ‎04-21-2020

That’s where the inner arc centre point is. Connect the dots, use Measure tool to get the angle.

Might help....

etfrench · ‎04-21-2020

The order of drawing this is:

Draw the desired profile (#1). (This determines the lower left point.)
Draw an arc (#2) which is further from the equator and closer to the pole of the desired profile (#1). ~~(This determines the lower left point.)~~
Draw a circle coincident to the lowest point of the desired profile(#1) and tangent to arc #2.
Continue drawing circles coincident to the desired profile at the intersection of the previous circle and tangent to arc #2.
Draw construction lines from the arc #2 centerpoint to the intersections of step #4. These give you the points along the profile (#1) to draw the hexagons.

No calculations were made. Use dimensions and constraints to adjust sizes.

ETFrench

etfrench · ‎04-21-2020

p.s. The distance between the profile #1 and arc #2 at the equator determines the size of the largest hexagon. The distance at the pole determines the size of the smallest hexagon.

ETFrench

Lesaventuresdekazador · ‎07-27-2020

Salut, personnelement je post ici car je n'est pas trouver de solution qui me convienne vraiment. J'utilise une solution de proportion avec un produit en croix. Je trace mon premier octogone en bas. Ensuite je trace deux segment de la hauteur de mon octogone. Cela me donne dans cet exemple un segment de 101,6 mm et le deuxieme de 100.202 mm. Ma hauteur d'octogone est de 16mm. Le calcul se fait donc comme ceci : 100,202mm x 100% / 101.6mm = 98,62% ========> 16mm x 98.62% / 100% = 15,77 mm. J'ai donc ma prochaine hauteur d'octogone.

Hi, I personally post here because I can't find a solution that really suits me. I use a proportion solution with a cross product. I draw my first octagon at the bottom. Then I draw two segments of the height of my octagon. This gives me in this example a segment of 101.6 mm and the second of 100.202 mm. My octagon height is 16mm. The calculation is therefore done like this: 100.202mm x 100% / 101.6mm = 98.62% ========> 16mm x 98.62% / 100% = 15.77 mm. So I have my next octagon height.

etfrench · ‎07-27-2020

Deepl.com translator:

Pouvez-vous joindre votre fichier Fusion 360 au fil de discussion ? (Dans le menu Fichier, sélectionnez Exporter, puis Archiver le fichier *.f3d)

Je ne comprends pas comment votre solution va s'appliquer à une sphère.

Can you attach your Fusion 360 file to the thread? (On the file menu, select Export, then Archive file *.f3d)

I don't understand how your solution will map to a sphere.

ETFrench

Lesaventuresdekazador · ‎07-28-2020

Infact it is not a Dome, but a spline. This is what gives me problem. For the holes no problem. But even after 20 hours of work I cannot achieve the mesh I want. Here is the mesh in question :

Anonymous · ‎07-28-2020

May I suggest we create an adaptive family component together in Revit! ?

Lesaventuresdekazador · ‎07-28-2020

Any suggestion is good to take. Module I do not know this module

Lesaventuresdekazador · ‎07-28-2020

Finally my proportion technique works well. It's just particularly complex and long to implement because in the end I only make a multitude of assembled octagon. What was particularly difficult for me was to make the pointed interior and exterior part of the octagon. Without it it was simple. However, I forgot to calculate the perimeter of my circle in order to have a perfect fit but it's really not visible for what I'm doing, only mathematically.

Anonymous · ‎08-21-2020

thanks everyone

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Honeycomb hollow dome

Honeycomb hollow dome

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