{\rtf1\ansi\ansicpg1252\deff0\deflang2057{\fonttbl{\f0\fnil\fcharset0 Arial Narrow;}{\f1\fnil\fcharset238 Arial Narrow;}{\f2\fswiss\fcharset0 Helvetica-Bold;}{\f3\fswiss\fcharset0 Helvetica;}{\f4\fnil MS Sans Serif;}} {\colortbl ;\red255\green0\blue0;\red0\green0\blue0;} \viewkind4\uc1\pard\qc\cf1\b\f0\fs24 Turn Helix Milling\f1 \par \pard\cf0\f2\fs22 Programming example \par \b0\f3\fs20 N10 G17 ; X/Y plane, Z standing vertically on it \par N20 G00 X25 Y25 Z 2 \par N30 G1 X50 Y100 F300 ; Approach starting point \par N40 G3 X50 Y50 Z-13 I0 J-25 TURN= 3 ; Helix \par M30 \par \par \b\f2\fs22 Functionality \par \b0\f3\fs20 With helix interpolation, two movements are overlaid: \par - circular movement in plane G17 \par - linear movement of the axis standing vertically on this plane. \par The number of additional full-circlepasses is programmed with TURN=. These are added to the actual circle programming.\b\f2\fs22 \par \cf2\b0\f1\fs20 \par \cf0\f4\fs16 \par }