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6.
EXAMPLE APPLICATIONS FOR AUTOMATION WITH ONE SWINGING DOOR WING
GB
When the LOGICM control panel is used in
automation applications with one swinging
door wing, one of the following operating
modes may be selected.
- (Fig. 6.1) Door wing stops against mechanical end stops
and in the event of obstacle detection.
Set an operating time of 2-3 s longer than the effective time
taken by the door wing (TM<MAX) and bridge terminals 0-11-
12 with jumpers. In this configuration, the door wing will come
to a stop against mechanical opening and closing end stops
and in the event of obstacle detection.
- (Fig. 6.2) Door wing stops against limit switches and in
the event of obstacle detection.
The NC contacts of the opening and closing limit switches are
connected in series with the motor phases. Set an operation
time TM<MAX and bridge terminals 0-11-12 with jumpers.
In this configuration, the door wing stops against the opening
and closing limit switches and in the event of obstacle detec-
tion.
- (Fig. 6.3) Door wing stops against limit switches and re-
verses motion in the event of obstacle detection.
Set an operating time TM=MAX and connect the opening and
closing limit switch NC contacts to terminals 0-11-12. In this
configuration, the door wing stops when the limit switches are
activated.
In the event of obstacle detection while opening, the door wing
stops, performing a disengagement operation, whereas during
a closing operation, the door wing reopens.
- (Fig. 6.4) Door wing stops against mechanical end stops
and reverses motion in the event of obstacle detection.
Set an operating time of 2-3 s longer than the effective time
taken by the door wing (TM<MAX) and position the proximity
limit switches 2-3 s ahead of the mechanical end stop.
In this configuration, the door wing stops against its respective
mechanical closing and opening end stop.
In the event of obstacle detection before the activation of the
proximity limit switch while opening, the door wing stops, per-
forming a disengagement operation; after the proximity limit
switch is activated, the door wing stops against the obstacle.
In the event of obstacle detection during closing and before the
activation of the proximity limit switch, the door wing reopens;
after the proximity limit switch is activated, the door wing stops
against the obstacle.
- (Fig. 6.5) The door wing stops against the limit switch when
opening and against the mechanical end stop when closing,
and reverses motion in the event of obstacle detection.
Set an operating time of 2-3 s longer than the effective time
taken by the door wing (TM<MAX), position the proximity limit
switches 2-3 s ahead of the mechanical end stop and connect
the opening limit switch NC in series to the opening phase of
the motor.
In this configuration, the door wing stops against the mechani-
cal end stop when closing, and when the relative limit switch is
activated when opening.
When an obstacle is detected during opening, the door wing
stops, performing a disengagement operation.
In the event of obstacle detection during closing and before the
activation of the proximity limit switch, the door wing reopens;
after the proximity limit switch is activated, the door wing stops
against the obstacle.
LOGICM - IP1854
OM
OM=OFF
R1<MAX
15 14 13 12 11 0 0 1 1 2 3 4 5 6 7 8 9 20 41
OM
Limit switch
(230 V - 5A)
OM=OFF
U W V X Z Y
15 14 13 12 11 0 0 1 1 2 3 4 5 6 7 8 9 20 41
M1
1~
OM
OM=OFF
15 14 13 12 11 0 0 1 1 2 3 4 5 6 7 8 9 20 41
Opening limit switch
Closing limit switch
OM
OM=OFF
15 14 13 12 11 0 0 1 1 2 3 4 5 6 7 8 9 20 41
Opening
proximity switch
Closing
proximity switch
OM
Opening
limit switch
(230 V - 5A)
OM=OFF
R1<MAX
U W V X Z Y
15 14 13 12 11 0 0 1 1 2 3 4 5 6 7 8 9 20 41
Closing
proximity switch
M1
1~
18
TM<MAX
R1<MAX
TM<MAX
R1<MAX
TM=MAX
R1<MAX
TM<MAX
TM<MAX
Fig. 6.1
Fig. 6.2
Fig. 6.3
Fig. 6.4
Fig. 6.5
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