Owner's manual
Using Hemisphere Milling Cycles
Chapter 24
24-10
If the programmed Z depth of the pocket has not been reached, another
plunge takes place simultaneously along the X and Z axes to the next Lā
level. Another 360 degree circular path is cut. This process is repeated
until the programmed Z depth of the concave hemisphere is reached, at
which time the tool is moved at rapid feedrate along the Z axis back to the
initial Z level. The tool is then moved at rapid feedrate along the X and Y
axes to its pre-cycle position. This completes the finishing cycle.
Use the G88.6 convex milling finishing cycle to finish a convex pocket in
a workpiece. This cycle is typically used to remove the finish allowance
that was l eft on the sides of the convex hemisphere during the G88.5
roughing cycle.
The G88.6 block used to finish a convex pocket has this format:
G88.6 X__Y__Z__R__Q1_P__H__L__E__F__;
Where : Is :
XY
The coordinates thatspecify the centeroftheconvexhemisphere intheselected
plane.
Z
The coordinate (along the plungingaxis)thatspecifies the bottomofthe
hemisphericalpocket.
R
Radiusofthe convexhemisphere.
Q1
Codespecifying aconvexhemisphere.
P
Direction offinishing cut.
H
Finishallowance.
L
Finishingcuspheight.
E
Plungefeedrate.
F
Finishingfeedrate.
If Q1 is programmed, the control makes a finish pass around the sides of a
convex hemisphere. The control makes multiple circular finish cuts at
each level of the convex hemisphere. The depth of the pocket and the
diameter of each level increases until the outer diameter of the convex
hemisphere is reached.
Prior to each finish plunge, the control computes a delta finish cut
thickness, Dā, and a delta plunge depth, Lā. These computations are based
on the c usp height (L parameter) and the hemisphere radius (R parameter)
programmed in the G88.6 block, and the tool radius programmed prior to
the G88.6 block.
24.2.2
Convex Hemisphere
Finishing Using G88.6