YASKAWA VS-626M5 Instruction Manual page 284

Appendix
15.3.1 Load Drive Capacity
15
Machine-tool Main Axis Drive
J
The motive force required for the main axis drive, such as a lathe or machining center, is determined using
the cutting motive force. The cutting process requires fixed output characteristics, and the fixed output
control range requires a ratio of 1: 10 to 30. The methods of calculating the required motive force shown
are examples of lathe cutting processing, machining center milling processing, and drill processing. (To
accurately calculate the required force, the condition of the cutting oil, the material of the cutting tools,
the shape, and the hardness of the material being cut all affect the cutting resistance, so these must also
be considered.)
As shown in Fig. 15.14, when using a lathe cutting processing, the object to be cut is rotated, and the blade
is pressed against it to perform the cutting operation, so the motive force PLC required to cut can be ex-
pressed using the following equation.
K dLV
S
P
=
C 60 × 1000 × η
V = πDNs
(m/min)
1000
: Cutting resistance (N/mm2)
K
S
d: Cutting depth (mm)
L: Length of blade actually performing cutting (i.e., amount of feed per rotation) (mm)
D: Diameter of object being processed (mm)
N : Main axis speed (min
S
: Machine efficiency 0.7 to 0.85
η
C
S : Cutting efficiency (i.e., cutting amount per 1 kW per minute) (CC/kW/min.)
C
Fig 15.14 Example of Lathe Cutting Process
As shown in Fig. 15.15, if using milling processing, the blade is mounted to the main axis and rotated to
cut the object being processed, so the motive force P
mula.
K
δWf
S
P
=
F
60 × 1000
2
K : Cutting resistance (N/mm2)
S
Cutting depth (mm)
δ:
W: Cutting width (mm)
f: Feed speed (mm/min.)
S : Cutting efficiency (i.e., cutting amount per 1 kW per minute) (CC/kW/min.)
F
: Machine efficiency 0.7 to 0.85
η
F
f
(a) Side Milling
Fig 15.15 Example of Milling Processing
= dLV
(kW)
S
⋅ η
C C C
−1
)
d
L
F
δWf
= (kW)
1000 S
× η 2
η
F
F F
(b) Front Milling
15 -12
required can be expressed using the following for-
f