Automated System Test - FAAC 740 D Advertencias Para El Instalador

Ocultar thumbs Ver también para 740 D:
Tabla de contenido

Publicidad

Idiomas disponibles
  • MX

Idiomas disponibles

  • MEXICANO, página 34
ADVANCED PROGRAMMING
Display
Function
ENCODER:
If the encoder is used, you may select its pre-
sence.
If the encoder is present and enabled, "decele-
rations" and "partial opening" are controlled by
the encoder (see relevant paragraphs).
The encoder operates as an anti-crushing device:
If the gate strikes an obstacle during opening or
closing, the encoder immediately reverses gate
leaf movement for 2 seconds. If the encoder ope-
EC
rates again during the 2-seconds reversing time,
it stops movement (STOP) without commanding
any reversing. If no sensor is supplied, the para-
00
meter must be set on
adjust the sensitivity of the anti-crushing system,
by varying the parameter between
99
sensitivity) and
(minimum sensitivity).
01
99
From
to
= Encoder active and sensitivity
adjustment
00
= Encoder disabled
Pre-limit switch DECELERATION:
You can select gate deceleration before the
opening and closing limit-switches have been
tripped.
Time can be adjusted from
rP
If an encoder is used, the adjustment is not deter-
mined by time but by motor revs, thus obtaining
greater deceleration precision.
00
= Deceleration disabled
01
99
from
to
= Deceleration enabled
Post-limit switch DECELERATIONS:
You can select gate deceleration after the
opening and closing limit-switches have been
tripped.
Time can be adjusted from
rA
second steps.
If an encoder (optional) is used, the adjustment
is not determined by time but by motor revs, thus
obtaining greater deceleration precision.
00
= Deceleration disabled
01
20
from
to
= Deceleration enabled
PARTIAL OPENING:
You can adjust the width of leaf partial ope-
ning.
Time can be adjusted from
second steps.
If an encoder (optional) is used, the adjustment
is not determined by time but by motor revs, thus
PO
obtaining greater precision of partial opening.
E.g. for a gate with a sliding speed of 10 m /min,
10
value
corresponds to about 1.7 metres of
opening.
E.g. for a gate with a sliding speed of 12 m
10
/min, value
corresponds to about 2 metres
of opening.
WORK TIME:
We advise you to set a value of 5 to 10 seconds
over the time taken by the gate to travel from the
closing limit-switch to the opening limit-switch and
vice versa. This will protect the motor against any
overheating if a limit-switch fails.
0
59
Adjustable from
to
steps.
Subsequently, viewing changes to minutes and
t
tens of seconds (separated by a point) and time
is adjusted in 10 second steps, up to a maximum
4.1
value of
minutes.
E.g. if the display shows
and 50 sec.
the set value does not exactly match the mo-
tor's maximum operating time, because
the latter is modified according to the
performed deceleration spaces.
ASSISTANCE REQUEST (combined with next fun-
ction):
If activated, at the end of countdown (settable
with the next function i.e. "Cycle programming")
it effects 2 sec. of pre-flashing (in addition to the
AS
value already set with the PF function) at every
Open pulse (job request). Can be useful for setting
scheduled maintenance jobs.
Y
= Active
no
= Disabled
+
F +
Default
00
. If there is the encoder,
01
(maximum
00
99
to
.
00
00
20
to
sec. in 0.04-
05
01
20
to
sec. in 0.1-
05
sec. sec. in one-second
4.1
2.5
, work time is 2 min.
no
ADVANCED PROGRAMMING
Display
CYCLE PROGRAMMING:
For setting countdown of system operation cycles.
Settable (in thousands) from
cycles.
nc
The displayed value is updated as cycles pro-
ceed.
This function can be used to check use of the
board or to exploit the "Assistance request".
GATE STATUS:
St
Exit from programming and return to gate status
viewing (see Chpt 5.1.).
Note 1:
to reset the programming default settings, check if the edge
input is opened (SAFE LED OFF), and simultaneously press keys +,
- and F, holding them down for 5 seconds.
Note 2:
modification of programming parameters comes into effect
immediately, whereas definitive memory storage occurs only
when you exit programming and return to gate status viewing. If
the equipment is powered down before return to status viewing,
all modifications will be lost.
6.1. INPUTS CHECK
The table below shows the status of the LEDs in relation to to the status of
the inputs.
Note the following: Led lighted = closed contact
Led off = open contact
Check the status of the LEDs as per Table.
Operation of the signalling status LEDs
d1 = -3
= Right-hand opening movement
LEDS
LIGHTED
FCA
Limit-switch free
FCC
Limit-switch free
OPEN B
Command activated
OPEN A
Command activated
FSW OP
Safety devices disengaged Safety devices engaged
FSW CL
Safety devices disengaged Safety devices engaged
STOP
Command inactive
EDGE
Safety devices disengaged Safety devices engaged
The status of the LEDs while the gate is closed at rest are shown in
bold.
d1 = E-
= Left-hand opening movement
LEDS
LIGHTED
FCA
Limit-switch free
FCC
Limit-switch free
OPEN B
Command activated
OPEN A
Command activated
FSW OP
Safety devices disengaged Safety devices engaged
FSW CL
Safety devices disengaged Safety devices engaged
STOP
Command inactive
EDGE
Safety devices disengaged Safety devices engaged
The status of the LEDs while the gate is closed at rest are shown in
bold

7. AUTOMATED SYSTEM TEST

When you have finished programming, check if the system is operating
correctly.
Most important of all, check if the force is adequately adjusted and if the
safety devices are operating correctly.
17
+
F +
Function
00
99
to
thousand
6. START-UP
OFF
Limit-switch engaged
Limit-switch engaged
Command inactive
Command inactive
Command activated
OFF
Limit-switch engaged
Limit-switch engaged
Command inactive
Command inactive
Command activated
Default
00

Publicidad

Capítulos

Tabla de contenido
loading

Tabla de contenido