een them. I made so drawing to explain the shape I wannt to givve to my object.
I don't really nead 3D because my object will be print in a laser cut. So I just nead the drawing of the pieces.
I give you the GH and the rhino. For the moment someone help me to build one clip. But there are bugs on it when I change parameters.
Rhino file: TESTPAUL.3dm
Base GH file: TestPaulGH.gh
V2 GH file: TestPaulGHRev1.gh
…
ively and creatively solve today’s product development challenges.
Our Rhino3D Foundations for Industrial Design class provides an in-depth look at 2D and 3D tools and methods with Rhino3D, a NURBs surface modeling software. In this class, we will systematically work through Rhino3D’s core features, using them to model the various components of a consumer product. Over the course of 3 days, we’ll cover some foundational topics, including Rhino interface and navigation, Rhino3D object types and properties, creating and editing 2D and 3D geometry, procedural modeling, automation, transforming geometry, Rhino modeling best practices, freeform vs. precision modeling, and exporting geometry.
You’ll take away the following:
Navigate the Rhino modeling environment
Create, edit, and modify curves, surfaces, and solids
Precision model using coordinate input and object snaps
Use transformation and universal deformation tools
Apply best practices for layer management and model annotation
Download the course one-pager. Need more information? Connect with us.
This class is ideal for:
Industrial designers who are new to Rhino3D and want to learn its concepts and technical features in an instructor-led environment.
For groups of 10 or more, contact Mode Lab at hello@modelab.is
Interested in additional training options?
https://www.modelab.is/upcoming-computational-design-events…
rent actors to work together in real time on an architectural project.
DixieVR was born from the idea that virtual reality could become a fantastic tool for architecture and architects, not only for virtual tours but for the conception at its very core. Inspired by the efficiency of sandbox games, DixieVR will allow you to build a fully parametric 3D model from scratch in a very intuitive way and to simulate various factors like natural and artificial light, gravity, and more. DixieVR is also multi-user oriented : several people, architects or not, are able to work together in real time on the same 3D model and in the same shared immersive environment !
The project started in the Digital Knowledge department of Paris-Malaquais Architecture School.
The DixieVR Softwares can be found here : dixievr.github.io
// Interoperability
DixieVR deals with .dix files. For more information about this file format, please refer to the Interoperability documentation of DixieVR.
You can use this DixieIO plugin for Grasshopper/Rhinoceros for exchanging data between DixieVR (PC) & DixieViewer (Android).
You can import or export objects at any time inside a DixieVR scene. The Software also come with a library of premade objects that you might find useful. Adding your own premade objects to this library might be a good habit.
If you are hosting a scene, you also have the choice to open a .dix file directly from the main menu, this will load the last scene in which the geometry has been saved.
// Plugin
The DixieVR Plugin can be found in the Extra tab, come with 3 components and a example definition:
Dixie2Gh : Import DixieVR geometry to Grasshopper/Rhinoceros reading a .dix file (up to 1000 beams and/or 750 faces).
G2D_Polylines : Export Grasshopper/Rhinoceros Polylines to DixieVR writing a .dix file (up to 1000 line segments).
G2D_Mesh : Export Grasshopper/Rhinoceros Mesh to DixieVR writing a .dix file (up to 750 triangulated faces).
To install:
In Grasshopper, choose File > Special Folders > Components folder. Place the DixieIO_01.gha file there.
Right-click the file > Properties > make sure there is no "blocked" text.
Restart Rhinoceros or Unload Grasshopper.
// Contact - DixieVR
vr.dixie@gmail.com dixievr.github.io
- Oswald Pfeiffer oswaldpfeiffer.com
- Mathieu Venot mathieuvenot.com…
automatic filling process of additional information to 3D geometry (for interoperability purposes).
Searching information I found this discussion:
http://www.grasshopper3d.com/forum/topics/surfacetrim-workflow?id=2985220:Topic:4592&page=1#comments
...where Vicente Soler suggests a simple method which calls a command from Rhino into GH. I discovered, talking with Vicente that now the language to use is RhinoCommons but I didn't still reached a solution, being a dummie for scripting.
Does anybody can help me with this problem?
Here's the code that I'm trying to implement (it is written in RhinoScript actually):
Private Sub RunScript(ByVal x As Object, ByVal y As Object, ByVal z As Object, ByVal idObject As Object, ByRef A As Object) Dim sIfcType, strObject Dim strIfcColumn, strIfcBeam sIfcType = Rhino.GetUserText(idObject, "TypeObjetIFC") If ((sIfcType = "IfcBeam") Or (sIfcType = "IfcColumn")) Then 'MsgBox "median = " & y & ", min = " & x& ", max =" & z Rhino.SetUserText(idObject, "Longueur", z) Rhino.SetUserText(idObject, "Largeur", x) Rhino.SetUserText(idObject, "Hauteur", y) End If End Sub
I just would like to add extra-information to a selected list of 3D geometries by managing the UserText data.
Thanking you in advance for your attention I'll wait for an your answer about this theme.
Sincerely,
Matteo…
automatic filling process of additional information to 3D geometry (for interoperability purposes).
Searching information I found this discussion:
http://www.grasshopper3d.com/forum/topics/surfacetrim-workflow?id=2985220:Topic:4592&page=1#comments
...where Vicente Soler suggests a simple method which calls a command from Rhino into GH. I discovered, talking with Vicente that now the language to use is RhinoCommons but I didn't still reached a solution, being a dummie for scripting.
Does anybody can help me with this problem?
Here's the code that I'm trying to implement (it is written in RhinoScript actually):
Private Sub RunScript(ByVal x As Object, ByVal y As Object, ByVal z As Object, ByVal idObject As Object, ByRef A As Object) Dim sIfcType, strObject Dim strIfcColumn, strIfcBeam sIfcType = Rhino.GetUserText(idObject, "TypeObjetIFC") If ((sIfcType = "IfcBeam") Or (sIfcType = "IfcColumn")) Then 'MsgBox "median = " & y & ", min = " & x& ", max =" & z Rhino.SetUserText(idObject, "Longueur", z) Rhino.SetUserText(idObject, "Largeur", x) Rhino.SetUserText(idObject, "Hauteur", y) End If End Sub
I just would like to add extra-information to a selected list of 3D geometries by managing the UserText data.
Thanking you in advance for your attention I'll wait for an your answer about this theme.
Sincerely,
Matteo
…
make quad mesh usable with Kangaroo and with limited inputs parameters in order to simulate funicular structures like "Vaulted Willow" or "Pleated Inflation" from Marc Fornes and the Verymany.
Here is a first attempt script.
As inputs there are :
Lines_in, just lines, no duplicates, on XY plane could have Z values, but the algorithm works on a , on XY plane could have Z values, but the algorithm works on a flat representation.
Tolerance is used to glue lines when points are closer than tolerance
Width is the half width of the “roads” going through the network
Angle is the shape of the ends of the roads, 0° means flat end, 180° a totally rounded end
Deviation is the shift generating spikes or enabling to generate pleated geometry
N_u is the number of subdivision along the “roads”, image above with 3 subdivisions on the roads
N_u is the number of subdivision across the “roads”
Zbool if false everything is flat, if true the mesh is in 3d, best with angle = 180° or -180°
For the outputs there is the topology of the network (like Sandbox)
As outputs geometry are put on datatree, each branch represent a path on the road, above 3 paths, which are brep output.
Adding a diagonal there are now 4 paths so 4 branches
The mesh M goes with F which are fixed points, anchor in Kangaroo.
U and V are lines in datatree, there will be used as spring in Kangaroo, U above
This script could be used to draw sort of roads, like in here https://codequotidien.wordpress.com/2013/03/22/hemfunction/
But the primary purpose is to do that.
…
greatly appreciate it!!
You can write the number of the question and write your answer next to it, example:
1) a
2) c
3) a) Washington University in St. Louis
4) 2 weeks (1week+1week shipping)
5) 130
6) b
7) b
The survey questions are as follows:
1)
Did you 3D print before?
5)
How much did it cost (in dollars)?
a.
Yes, for a school project
a.
Between 20 & 50
b.
Yes, for a personal project
b.
Between 50 & 80
c.
Between 80 & 120
2)
Print size
d.
Please specify if otherwise: _____ dollars
a.
Between 2 & 6 cubic inches
b.
Between 6 & 12 cubic inches
6)
Do you think the price was expensive?
c.
Between 12 & 20 cubic inches
a.
Not at all
d.
Please specify if otherwise: ____cubic inches
b.
A little bit expensive
c.
Very expensive
3)
Where did you print your object?
a.
School
7)
Were you satisfied with the printed object?
b.
Outside school: _________________
a.
Yes, it was a great print without problems
b.
Not bad, some issues
4)
How long did it take to print?
c.
I was not satisfied, very bad quality
a.
___ days
b.
___ weeks
Thank you very much to all!!
PS: If you did many 3D prints, you can post multiple answers.
Wassef…
Mostafa R. A. Khalifa -
PhD candidate - UNICAM - ItalyAssistant: Nagham Albitawi
Architect - Amman - Jordan
deadline registration May, 31, 2013
http://grasshopperworkshopamman.blogspot.com/ introduction: This workshop will introduce basic and advanced notions of Grasshopper and the methodology of parametric design and algorithmic modeling and its usage in Architecture, design, landscape, and urban scale. It is intended for professionals and students with a minimum experience in 3D Modeling.
…
rection: there's no visible demand. Explanation: a lot of AEC oriented people (Smart Geo daydreamers) they think - potentially - about GH but they are rejecting it for more than obvious reasons: our job is 1% about the smart thing and 99% about the structured aspect of the smart (or stupid thing).
Back to that "hangar" : The primary role of this GH definition provided herein (and hopefully some future updates) is NOT to outline some academic solution (via some abstract collection of pipes/lines/points/surfaces) ...but to place in 3d space - properly structured - all the real-life (hmm, he he) bits that can compose the actual project. Of course if the bits could be parametrically driven assemblies ...well...you get the gist of the message.
All in all: I think that Engineers who are GH skeptics could see GH with a totally new perspective if, say, a collection of similar examples/test cases could be available for demo/evaluation/whatever > Ah! at last : this appears to be a real thing > what software did it? > say it again - Grass Components you said? > what sort of name is this? ... etc etc etc.
But since a similar development is quite expensive (and requires a team of several gurus), maybe this is rather a future potential task for the GH/Rhino people if they think that the AEC market segment could be beneficial for their products. Combine a similar capability with tools like yours and/or Evolute (planar quads are "a-la-mode" these days).
PS: forget trivial stuff > what about Stefanie? (plan B : better something than nothing)…