
P Pitch Distance between grooves when grooves of the same figure are
machined at regular intervals. (When "P__" is not specified and
Number of grooves more than one groove is specified, P/S alarm
will occur)
H Cutting method
0 = A tool cuts into the center of a groove at first, and expands its
cutting area to left and right part from there. (Bi-direction)
1 = A tool cuts into the work end face side of a groove at first, and
expands its cutting area toward chuck side. (Uni-direction)
( When "H_" is not specified, Cutting method is accordance with
the parameter 9764<#5:G1W>.
<G1W>=0:bi-direction,=1:uni-direction)
Note) Details of Uni-direction
Since the cutting points “Zn” are calculated as follows, there is the
case that the cutting width is not constant near the point of the center
of groove and the start point of the groove.
Tool moves from point Z1 as follows.
Z2 ÆZ2ÆZ3Æ…Zn-1ÆZnÆZcÆZl1ÆZl2Æ…ÆZn-1ÆZln
And the each points are calculated as follows.
Z1 = Ze – E – d
Z2 = Z1 – d
Z3 = Z2 – d
:
Zn-1 = Zn-2 – d
Zn = Zn-1 – d
Zc = Zs+W/2-E/2
Zl1 = Zc – d
Zl2 = Zl1– d
Ovl = amount of overlapped tool(%)
E = tool width
d = cutting width
“d” is calculated as E(1-Ovl/100)
Zs = Entered point Z of groove
Ze = Entered point Z of groove
W = Width of groove = Ze - Zs
n of Zn is calculated as follows
W’ = W/2 – E/2
W’/d = n - - - r
●
●
● ●
●●
●
●
●
●
E
d
dd
d
dd
d
Z1Z2Zn-1
Zc
Zl1Zl2
Zln-1
Zln
+X
+Z
……
……
Ovl
Zn
Zs
Ze
W
W/2
d
d
Fig.4.1.5