Profiles, pockets, engravings, re-machining, drilling operations. I use it mostly for furniture facade millings and drillings
*Testing trajectories in NC Correctorโข๏ธ
โ ๏ธ Warning
This is a work-in-progress and not the finished product.
Feel free to leave suggestions or report bugs in
the issues section.
First of all you need to choose cutting material from database, or from referenced geometry and set LCS (Local Coordinate System). In this demo i chose 19mm MDF, rectangled shape from curve.
You can select multiple pieces of material and place them wherever you need, machining will be carried out relative to the established initial coordinate system.
Then you need to create geometry in specially named layer. Operation will be performed according layer name. There are some layer naming rules, but i didn't implement documentation yet ๐ Hope it will be soon
In this example layer named D10_19MM_SN
means that cutting instrument would be D10
(cylinder 10mm diameter bit), cutting depth will be 19MM
and SN
means that bit will be cutting outside profile.
You can combine curves and nest them within each other.
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General
Inclined plunge cutting (engage in material under the certain angle)
Conventional/climb/mixed cutting direction
Optional nested geometry detection (geometry in geometry)
Circular interpolation (G2/G3 codes)
Different types of sorting including sorting by selection -
Profile machining operation
Inside, outside, along profile -
Pocketing operation
Effective cleaning of leftovers -
Re-Machining
Cleaning corners after pocketing operation using smaller diameter bit -
V-Carving operation
Corner sharpening movement using cone bit -
Drilling operation
This image is needed for the machine operator to give them a task. The image shows the geometry for processing, a list and order of the required operations, and automatically calculated processing time for each operation.
- NEW! Some sort of simulation using slider