1OPERATION_.pdf - 第140页
3.3 Differential Repetitive Pattern Function for Mixed Programs 3.3 Differential Repetitive Pattern Function for Mixed Programs By creating several placement data in one pattern program data , components for different pa…
Fig
.
3.4
•
Refer
to
“
2.18
.
2
Repetitive
Placement
Data
(
when
P
.
E
.
C
.
recognition
function
is
not
implemented
on
each
repetitive
pattern
)
’
’
and
“
2.18
.
3
Repetitive
Placement
Data
(
when
P
.
E
.
C
recognition
function
is
implemented
instruction
manual
(
SECTION
H
PROGRAMMING
MANUAL
)
for
detailed
information
on
how
to
create
pattern
program
data
in
which
the
equivalent
repetitive
pattern
function
can
be
used
.
each
repetitive
pattern
)
”
in
the
on
3
一
2
QRO
^
-
001
ACP
01
EOP
3
-
2
3.2
Equivalent
Repetitive
Pattern
Function
3.2
Equivalent
Repetitive
Pattern
Function
Pattern
program
data
for
unit
P
.
C
.
B
.
’
s
(
same
repetitive
patterns
)
can
easily
be
created
through
a
combination
of
coordinate
data
of
repetitive
placement
patterns
and
each
placement
pattern
origin
.
•
The
equivalent
repetitive
pattern
function
can
be
used
when
four
pieces
of
unit
P
.
C
.
B
.
'
s
are
arranged
,
forming
constant
patterns
as
shown
below
and
the
same
types
of
components
are
placed
on
each
unit
P
.
C
.
B
.
P
.
C
.
B
.
Positioning
Reference
X
Direction
Pattern
Origin
Pattern
Origin
CU
a
n
n
Pattern
Origin
Pattern
Origin
a
□
i
n
n
uola
A
3.3
Differential
Repetitive
Pattern
Function
for
Mixed
Programs
3.3
Differential
Repetitive
Pattern
Function
for
Mixed
Programs
By
creating
several
placement
data
in
one
pattern
program
data
,
components
for
different
patterns
can
easily
be
placed
on
unit
P
.
C
.
B
/
s
of
a
multi
-
unit
P
.
C
.
B
.
•
Because
several
placement
data
can
be
set
in
one
pattern
program
,
the
related
operation
and
component
data
can
be
used
commonly
.
•
Each
placement
data
pattern
,
making
it
possible
efficiently
.
be
set
independently
for
a
repetitive
create
pattern
program
data
can
to
•
When
components
are
placed
mixedly
on
model
patterns
A
,
B
,
and
C
as
shown
below
,
the
differential
repetitive
pattern
function
can
be
used
for
mixed
program
.
〈
Pattern
Sample
>
O
O
O
o
Model
A
(
1
)
Model
A
(
2
)
Model
A
(
3
)
O
O
O
A
Model
B
(
l
)
A
Model
C
A
Model
B
(
2
)
A
A
Model
B
(
3
)
◊
A
Fig
.
3.5
•
Refer
to
“
2.18
.
4
Placement
Data
for
Unit
P
.
C
.
B
.
Repetitive
Patterns
(
Application
for
Un
)
”
in
the
instruction
manual
(
SECTION
PROGRAMMING
MANUAL
)
for
detailed
information
on
how
to
create
pattern
program
data
in
which
the
differential
repetitive
pattern
function
can
be
used
.
n
3
一
3
9
^
0
^
-
001
ACP
01
EOP
3
-
3
3.4
Priority
Sorting
Function
3.4
Priority
Sorting
Function
By
entering
a
numeral
code
“
0
9
”
in
the
text
boxes
of
the
label
“
C
”
in
the
placement
(
P
)
data
,
component
placement
sequence
is
changed
,
making
it
possible
to
place
components
in
the
order
of
“
0
9
”
(
the
smaller
the
numeral
,
the
faster
the
X
/
Y
table
moves
.
)
.
That
is
,
component
for
which
smaller
numeral
code
is
set
as
the
X
/
Y
table
deceleration
can
be
placed
first
among
all
the
other
components
.
This
function
can
avoid
deterioration
of
productivity
caused
by
loss
time
of
X
/
Y
table
movement
.
a
•
Component
placement
sequence
can
also
be
changed
according
to
component
placement
speed
,
pick
-
up
speed
,
and
component
allocation
on
a
feeder
carriage
for
better
productivity
.
P
0
(
P
.
C
.
B
.
Positioning
Reference
)
X
©
Poi
.
Pp
31
Poi
2
Model
PI
^
P
02
PO
!
Model
P
3
Model
P
4
Po
33
^
P
03
Model
P
2
Y
Fig
.
3.6
3
一
4
QRO
^
-
nm
ACP
01
EOP
3
-
4