NC-Pyros is a robust, proven and fast generator of NC code for a wide range of cutting machines.
NC-Pyros reliably creates NC-Code for any type of NC cutting machine, oxy-fuel, plasma, laser, water-jet, or router. The integration with the product model automatically feeds back important information, such as estimated cutting time, processing date, and operator name, completing report data and simplifying any recalls.
Correcting drawing errors
automatically, or warning of potential errors, saves many man hours and
wasted plate material. Lead collision detection checks collisions of
leads with parts, displays the leads that are at fault and offers the
option to edit the lead to avoid the collision. Duplicate elements are
automatically removed. Short elements are automatically detected and
short gaps are closed.
Tool paths for cutting are generally
supposed to be closed. NC-Pyros detects and warns of open shapes that
cannot be automatically closed.
Customised arc handling lets you
set the maximum radius, minimum arc length, and define how to split
circles and arcs that cross quadrant lines. NC-Pyros automatically
corrects arcs to ensure cutting works flawlessly.
NC-Pyros
provides support for any type of controller with Essi or G-Code code
format and any type of burner, be it plasma, gas, laser, water, or
other. Several pre-configured post-processor controller files are also
supplied, including Anca, Burny, Linde, Koike, Esab, Fanuc, MG, and
Eltec controllers. These files can be adjusted to accommodate any
special considerations.
Buge marking can be used on
advanced controllers that have a built-in text feature. Marking may be
performed with punch, scribe, powder, or ink tools. NC-Pyros also has a
built-in text marking processor that converts CAD drawing text to lines.
The
NC path may be output to a DXF file and automatically laid over the
original nest drawing for validation. It is also possible to simulate
the entire cutting path for validation including fully adjustable
simulation speed.
NC-Pyros completes the passage of parts from initial design all the way through to final cutting prior to assembly.
