Original-Prusa-i3
gcodepreview
Original-Prusa-i3 | gcodepreview | |
---|---|---|
60 | 25 | |
1,549 | 11 | |
0.0% | - | |
0.0 | 7.8 | |
over 1 year ago | 8 days ago | |
OpenSCAD | OpenSCAD | |
GNU General Public License v3.0 only | GNU Lesser General Public License v3.0 only |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
Original-Prusa-i3
-
How do I become a 3D printer power user? (the which CAD question)
I've been effective with OpenSCAD and FreeCAD.
OpenSCAD is good for enclosures: https://github.com/sbambach/MarksEnclosureHelper
and mechanical systems: https://github.com/prusa3d/Original-Prusa-i3
Don't think of it as a programming language; that will hurt you. Think of it as a specification language. That helped me.
-
My first Prusa mk3s+, also my first printer and questions!
Being the printer already assembled and working, I am looking at pg. 12 of the printer manual downloadable from prusa3d.com, chapter 6.3.1 Calibration flow and wizard, showing two different scenario... one for kit and one for assembled printers. Am I correct assuming I can just go through the latter? Also it's not very clear to me if that's the process I have to go through each time I turn the machine on, before attempting any print.
-
If you're experiencing false positives on the filament runout sensor on your Mk3, here's how to fix it.
TLDR: replace the adapter-printer if it's worn.
-
do you think it is worth it to buy MK3S+ at this price?
They’re usually bought at https://prusa3d.com
-
I thought Gridfinity was OpenSource. How can this person mark this as their own creation?
On top of that, people simply don't know what they're doing. For example, the Prusa MK3S+ STL files are licensed under GPLv2, which does not make sense because there is no source (the source files are GPLv3 for some reason). But if you look at the remixes, the majority are licensed under some Creative Commons license end even the Public Domain. All those remixes are mis-licensed because only the GPL is compatible with the GPL.
-
good bye prusa slicer
you are right, but many people have asked for this.... reddit, github.. even on prusa3d.com but they dont care...
-
XL 3D files are live
The BOM (of sorts) of the MK3S exists here.
-
MK4 Printable Parts are now available
No corresponding source for the parts is available? I don't seen an MK4 branch in there, unless they ditched openscad entirely (even then at least STEP files should be provided if it's still Open Hardware).
-
3d Printing and Captured Nuts...
Original-Prusa-i3/extruder-body.stl at MK3S · prusa3d/Original-Prusa-i3 · GitHub
-
Need help identifying model of used MK3(S I think) for the purpose of firmware updating
From prusa3d.com:
gcodepreview
-
Digital Wood Joints
I've been working on this sort of thing for a while.
For a Japanese spin on this see Tsugite:
http://ma-la.com/Tsugite_UIST20.pdf
which I worked through at:
https://community.carbide3d.com/t/a-study-of-joinery/28492
Traditional joints (box, dovetails, or obscure variations such as Knapp (cove and pin)) require a vertical fixture and 3 setups (at a minimum) --- cut parts to length and machine internal features, mount four board and cut joints in 2 corners, flip boards (with correct orientation) and cut other two corners.
Rabbet joints are simpler --- so simple that they were covered in a video as "The Simple Box":
https://www.youtube.com/watch?v=V93xDM3lXsM
(ob. discl., I work for Carbide 3D)
There have been a number of programs developed for joinery. A current commercial option is:
http://www.g-forcecnc.com/jointcam.html
(but it requires a vertical fixture)
One commercial option became freely available:
https://fabrikisto.com/tailmaker-software/
and ingeniously has an option where a 30 degree V endmill is used, but to cut boards held at a 15 degree angle, affording a 90 degree cut with a great deal of control and flexibility --- this can multiply setups to 9.
A variation I've been experimenting with is full-blind box joints:
https://community.carbide3d.com/t/full-blind-box-joints-in-c...
They're reasonably easily drawn up, though they do have some rather specific tooling requirements (a narrow 90 degree V endmill, a square tool of that or smaller diameter, and to make things easier, a large V endmill)
One test project was so tight that after putting it together for a dry-fit before gluing I was unable to get it apart:
https://cutrocket.com/p/63781eaf9822f/
I've been working on a programming system to make this sort of thing a bit easier:
https://github.com/WillAdams/gcodepreview
and have some sketched out joints which I've not been able to make using existing CAM tools which I hope I'll be able to do using this system (if anyone could recommend books on conic sections, I'd be grateful --- that's where I got bogged down last time).
-
PicoGK is a compact and robust geometry kernel for Computational Engineering
While I certainly appreciate the virtues of a Domain Specific Language, and that OpenSCAD has been wildly successful because of its limitations, the limitations are downright infuriating at times.
An interesting potential alternative (which hopefully won't result in a fork) is adding Python:
https://pythonscad.org/
which I've had some success with:
https://github.com/WillAdams/gcodepreview
ImplicitCAD is interesting --- and the (new?) ability to open files from GitHub is _amazing_ (OpenSCAD recently gained that same facility, _and_ it supports the customizer: https://seasick.github.io/openscad-web-gui/?https://raw.gith... ), but it's a heavy lift given the need to work out how to edit files, preview them, and so forth.
-
Flattening Bézier Curves and Arcs
Do you have a need to?
Do you have a project which might be able to make use of this? What sort of work do you do?
I am bookmarking this for re-reading later because I hope it will help me to understand how to implement Bézier curves in a tool I've been working on for controlling a CNC machine/creating files for cutting on a CNC:
https://github.com/WillAdams/gcodepreview
(but first I have to get arcs working)
- OpenSCAD Survey - What should be improved ?
- OpenSCAD Survey - what programming language do you want to be added to app?
-
FullControl: Unconstrained gcode design for 3D printers
Interesting.
I've long been frustrated by traditional CAD/CAM, so finally worked up:
https://github.com/WillAdams/gcodepreview
which allows me to use:
http://pythonscad.org/
and:
https://github.com/derkork/openscad-graph-editor
to create joinery:
https://forum.makerforums.info/t/openscad-and-python-looking...
which would otherwise be tedious to draw up:
https://community.carbide3d.com/t/creating-drawers/19475/26
-
Visual Node Graph with ImGui
The problem here is that a fundamental question has not been answered, and as far as I can tell, has not been addressed by any of these visual environments:
What does an algorithm look like?
Herman Hesse alluded to this in his novel _The Glass Bead Game_, but despite decades of discussion and work, no one has made a convincing pysical representation of that system.
I love the concept, and have made some moderately complex attempts, e.g.,:
https://www.blockscad3d.com/community/projects/1430644
https://github.com/WillAdams/gcodepreview
it always devolves to screen size being out-paced by problem complexity --- one gets something of an inkling of this at:
https://scriptsofanotherdimension.tumblr.com/
Alternately, one can just break a project down into modules, but then the top-level view becomes the wall of text representation (albeit w/ nice lines or captured into pretty boxes) which one is ostensibly trying to escape.
I'd love to see someone succeed in this, and I've been using:
https://github.com/derkork/openscad-graph-editor
quite a bit, and put a bit of money towards:
http://nodezator.com/
-
Suggest for buying a small CNC
or perhaps Solvespace --- certainly FreeCAD, and if you're inclined to do programming, OpenSCAD --- see: https://github.com/WillAdams/gcodepreview for an approach which uses RapCAD
- Buy a used Bobs Evolution 4?
- Script release ETA
What are some alternatives?
FYSETC-Prusa-MK3S-clone - FYSETC Kit - Prusa MK3S clone Kit
openscad-graph-editor - OpenSCAD Graph Editor
Ender-3 - The Creality3D Ender-3, a fully Open Source 3D printer perfect for new users on a budget.
manifold - Geometry library for topological robustness
prusa_i3_bear_upgrade - Stronger frame for Prusa i3 MK2(s), MK2.5 and MK3
RapCAD - Rapid prototyping CAD IDE for RepRap and RepStrap 3D printing machines.
Voron - This repository contain files related to modifications or experimentations I performed on parts of 3D Printers designed by the Voron team
Pythonocc-nodes-for-Ryven - Pythonocc nodes for Ryven
snappy-reprap - The world's most 3D printable 3D printer. (Guinness Book of World Records 2017 & 2018)
jsketcher - Parametric 2D and 3D modeler written in pure javascript
OctoPrint - OctoPrint is the snappy web interface for your 3D printer!
meshmill - The world's greatest open source 3D CAM software. (Maybe one day.)