Entry level CAD/CAM: Difference between revisions
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Using a CNC requires a bit more background knowledge or learning than a laser cutter or 3d printer. You should have some knowledge of CAD and CAM concepts and have used a CAD/CAM or other package capable of generating g-code for CNC machining. | |||
== CAD programs == | |||
* [http://www.autodesk.com/products/fusion-360/overview Autodesk Fusion] (free, works on Windows or OSX) | |||
* [https://www.qcad.org/en/ QCAD] | |||
* [https://github.com/LibreCAD/LibreCAD/releases LibreCAD] | |||
* [http://sourceforge.net/projects/free-cad/ FreeCAD], still in beta | |||
* [https://inkscape.org/en/ Inkscape] | |||
== Shapeoko2 == | |||
The [[Equipment/Shapeoko2|Shapeoko2]] is the entry level LHS CNC machine. It is more often than not used for PCB Drilling and 2.5 D milling. This page outlines the skills needed to run it. To start you probably need to have produced a CAD drawing and its g-code. | |||
It is not access controlled, if you come down on a Thursday some one will show you where the on switches are for the machine and computer | |||
=== Pre-requisite competencies === | |||
In particular before coming you should learn a bit about: | |||
* The difference between CAD geometry files (i.e. DXF, IGES and STEP), and tool path files (i.e. G-Code) | |||
* Cutting materials – cutter speeds and feed rates – dependent on what you want to cut. There are many examples posted by Shapeoko users as a starting point. | |||
* Any CAM package, Fusion 360 is a good one if you are not sure. You should try generating a tool path with a particular cutter, checking the toolpath visually and by simulation if your CAM software allows it, and finally posting the G-Code to the a g-code file (i.e. .gcode extension). | |||
* The difference between CAD geometry files (i.e. DXF, IGES and STEP), and tool path files (i.e. G-Code) | |||
* Cutting materials | |||
* Any CAM package, Fusion 360 is a good one if you are not sure. You should try generating a tool path with a particular cutter, checking the toolpath visually and by simulation if your CAM software allows it, and finally posting the G-Code to the | |||
* XYZ coordinate systems (on the Shapeoko, x is left to right (+x is travelling right), y is towards / away from you (+y is travelling away from you), and z is down / up (+z is travelling up) | * XYZ coordinate systems (on the Shapeoko, x is left to right (+x is travelling right), y is towards / away from you (+y is travelling away from you), and z is down / up (+z is travelling up) | ||
* Concept of finding datum of the workpiece, for instance touching off the tool in x, y and z (z is very important) | * Concept of finding datum of the workpiece, for instance touching off the tool in x, y and z (z is very important) | ||
* Checking a CAM toolpath by simulating the cut, and also checking the extents of the tool path to make sure it is not going to run into any fixtures or the bed of the machine. | * Checking a CAM toolpath by simulating the cut, and also checking the extents of the tool path to make sure it is not going to run into any fixtures or the bed of the machine. | ||
* You will need a [[LDAP]] account to login to the machine. | |||
[[Category:CNC]] | |||
[[Category:PCB making]] | |||
Latest revision as of 19:19, 20 November 2017
Using a CNC requires a bit more background knowledge or learning than a laser cutter or 3d printer. You should have some knowledge of CAD and CAM concepts and have used a CAD/CAM or other package capable of generating g-code for CNC machining.
CAD programs
- Autodesk Fusion (free, works on Windows or OSX)
- QCAD
- LibreCAD
- FreeCAD, still in beta
- Inkscape
Shapeoko2
The Shapeoko2 is the entry level LHS CNC machine. It is more often than not used for PCB Drilling and 2.5 D milling. This page outlines the skills needed to run it. To start you probably need to have produced a CAD drawing and its g-code.
It is not access controlled, if you come down on a Thursday some one will show you where the on switches are for the machine and computer
Pre-requisite competencies
In particular before coming you should learn a bit about:
- The difference between CAD geometry files (i.e. DXF, IGES and STEP), and tool path files (i.e. G-Code)
- Cutting materials – cutter speeds and feed rates – dependent on what you want to cut. There are many examples posted by Shapeoko users as a starting point.
- Any CAM package, Fusion 360 is a good one if you are not sure. You should try generating a tool path with a particular cutter, checking the toolpath visually and by simulation if your CAM software allows it, and finally posting the G-Code to the a g-code file (i.e. .gcode extension).
- XYZ coordinate systems (on the Shapeoko, x is left to right (+x is travelling right), y is towards / away from you (+y is travelling away from you), and z is down / up (+z is travelling up)
- Concept of finding datum of the workpiece, for instance touching off the tool in x, y and z (z is very important)
- Checking a CAM toolpath by simulating the cut, and also checking the extents of the tool path to make sure it is not going to run into any fixtures or the bed of the machine.
- You will need a LDAP account to login to the machine.