Drive Mechanism; Concept Of Drive System Movement Quantity - Mitsubishi MELSEC-F Training Manual

Positioning Control
3.3

Drive mechanism

The drive mechanism converts the rotation motion of the servo motor into the reciprocating or
vertical motion through a speed reducer, timing belt, ball screw, etc. to move the machine.
3.3.1

Concept of drive system movement quantity

1) Representative positioning system using AC servo motor
*2 In the structure design, parameters (such as ∆
advance.
Encoder
Servo
motor
N
0
P
f
Servo
amplifier
f
0
Position
controller
a) The servo motor stops with the precision (±∆ ) which is within ±1 pulse against the
command pulse.
b) The movement quantity of the work piece is
"Output pulses from position controller × ∆ ".
The moving part speed is
"Command pulse frequency from position controller × ∆ ".
c) Either "mm", "inch", "degree" or "pulse" can be selected as the positioning command
unit. Accordingly, when data such as the movement quantity per pulse, positioning speed
or the positioning address in accordance with the positioning command unit are set, the
pulse trains calculated inside the positioning controller are output for the target address,
and positioning is performed.
Moving part
Speed
reducer
1
n
P
B
,
: Movement quantity per pulse (mm/pulse)
: Moving part speed during quick feed (mm/min)
V
0
: Number of rotations of motor during quick feed (r/min)
N
0
: Lead of ball screw (mm/rev)
P
B
1
: Speed reduction ratio
n
P : Feedback pulse number (pulse/rev)
f
f : Command pulse frequency during quick feed (pulse/s)
0
,
S : Movement quantity per rotation of motor (mm/rev)
Components of Positioning Control and Their Roles 3
and V
V
0
) should be determined in
0
3-9