Page 1 – Tweco Dynamics Automation User Manual

Corners

The cutting arc normally trails the torch tip orifice. When the torch makes an abrupt

change in direction this trailing arc cannot change direction as quickly at the bottom of the cut

as at the top of the cut. This results in undercutting of sharp corners. 2 techniques can be used

to minimize this effect.

1. Use cut-outs – Overcut past the corner of the shape, then return and cross over the cut line to

achieve a square corner. Triangular or looped overcuts are commonly used.

2. Use the CNC corner slowdown function to hold torch height as it enters and leaves

the corner. As the speed decreases, the arc voltage will increase, driving the torch

down, so corner slowdown will lock out the height controller during the corner cut,

keeping the torch at the programmed height, regardless of arc voltage variations.

Piercing

Piercing causes the molten metal to form a puddle on top of the plate. On thicker plate,

pierce height is calculated to keep the torch away from the plate so that the molten metal does

not adhere to the consumable parts and shorten parts life. Hold pierce height as the cutting

table starts movement to allow the torch to clear the pierce puddle before moving to cut height.

Using the Inova height controller, this is done using the Set Pierce Time function on the edit

screen.

Lead-in and lead-out

Lead-in and lead-out should be calculated to allow the torch to move to cut height

before starting the final piece contour of the cut and to move away from the final piece before

beginning end of cut current ramp down.

Lead-out

Overcut
Corner

Pierce

Lead-in

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