10
DOOR Series -
English
8_
POSITIONING THE BRAKE BUMPER
The brake bumpers must be adjusted in such a way that, both during the closing and opening manoeuvres, they will stop the carriages
before the moving leaf hits the wall, frame or any other obstacle. They are also used by the microprocessor to acquire the limit switch
positions if there is a power failure and the battery is not connected.
While adjusting the brake bumper for the opening manoeuvre keep in mind that, except for the first manoeuvre after a power failure,
during normal operation the moving leaf stops 5 mm before it strikes the bumper.
9_ ADJUSTING THE BELT TENSION
To adjust the tension of the belt, loosen screw A in the idle pulley lightly, then
screw (to tighten) or unscrew (to loosen) hex screw B.
Once the desired tightness has been obtained, tighten screw A firmly.
fig. 15
10_ MOTHER BOARD
10.1_ DESCRIPTION OF PARTS
DL1 (ENC1) - DL2 (ENC2): display the signals coming from the encoder sensor.
DL3 (WD): if the LED flashes quickly it means that the main MP1 microprocessor is operating correctly. If the LED is off or flashes
slowly it means that the electronic board is malfunctioning.
DL4 (12V): it displays the presence of 12 Vac voltage on the M5 terminal board.
DL5 (24V): it displays the presence of 24 Vac voltage on the M5 terminal board.
J1, J2 CONNECTORS: connection of supply transformer.
J3 CONNECTOR:
DOORPHOTO1 photocells management card (paragraph 12).
J4 CONNECTOR:
DOORBATT battery charge card (paragraph 14).
J5 CONNECTOR:
ENCODER connection.
J6 CONNECTOR:
MOTOR connection.
J7 CONNECTOR:
connection of MAIN LOCK1 ELECTRIC BLOCK (paragraph 7).
J8 CONNECTOR (operation 2):
DOORIM module activation (paragraph 18).
F1 FUSE:
5A, protection of 230 Vac power supply line.
F2 FUSE:
10A, protection of motor power supply line.
F3 FUSE:
4A, protection of logic card 12V power supply.
fig. 16
minidip sR
minidip sQ
motor
lock Q
encoder
battery
p‹•š•†ˆ’’ R „†šŒœ„šˆ‡
p‹•š•†ˆ’’ S „†šŒœ„šˆ‡
•–ˆ”Œ”Š
™–ˆˆ‡
switch
start
photocell control
battery charger
wd
buzzer
T
U
V
W
X
Y
QP QQ QR QS QT QU
photocell
capN rx
capN tx
encQ encR
QR
v
da
to
P
co
mm
on
st
ar
t
in
te
rl
oc
k
em
er
ge
nc
y
ra
da
r
ex
tN
co
mm
on
la
tN
se
ns
or
ph
ot
oc
el
l
au
x Q
ra
da
r
in
tN
pe
de
st
ri
an
co
mm
on
J QSP kŠ ‰•˜ žŒ”Š “•‡ˆ’
minidip sQ
minidip sR
d••˜ ’•†‘ˆ‡ Œ” ”ŒŠ‹š ‰›”†šŒ•”
e“ˆ˜Šˆ”† •–ˆ”™ Œ” ”ŒŠ‹š ‰›”†šŒ•”
a”šŒ–„”Œ† Œ” ‡„ ‰›”†šŒ•”™
c•”šŒ”›•›™ † †’ˆ HŽ›™š ‰•˜ šˆ™šI
f›’’ •–ˆ” „‰šˆ˜ Q¹ Œ” žŒ”šˆ˜
Q
R
S
T
U
V
W
X
Y
QP
sˆ’‰ „‡Ž›™šŒ”Š –„›™ˆ šŒ“ˆ
sšˆ– … ™šˆ– ‰›”†šŒ•”
J o”ˆ žŒ”Š š•ž„˜‡™ dx
p‹•š•†ˆ’’ fkSX “•‡›’ˆ Œ”™ˆ˜šˆ‡
i““ˆ‡Œ„šˆ †’•™Œ”Š
i”ŒšŒ„’ ™ˆšM›– „†šŒœ„šˆ‡
QV QW QX
QRv RTv
RSPv
QRv RTv
P
f
n
ph
ot
oc
el
l Q
ph
ot
oc
el
l R
ph
ot
oc
el
l S
M
K
Q R
Q
R
switch
sensitivity
QPa
fR
Ua
fQ
Ta
fS
K
M
tmQ
tmR
tmS
tmT
tmU
tmV
tmW
Q
R
S
T
U
V
W
X
Y
QP
lock R
Q
R
S
g
o–ˆ”Œ”Š žŒš‹ ‡„“„Šˆ‡ …„ššˆ˜
r„‡„˜ „†šŒœ„šˆ‡ Œ” „ –•žˆ˜ ‰„Œ’›˜ˆ
J fŒ˜ˆ ‡••˜ ‰›”†šŒ•”
o–ˆ˜„šŒ•” žŒš‹ smb ™ˆ’ˆ†š•˜
c•”š˜•’ •‰ S˜‡ fkSX –‹•š•†ˆ’’
p˜•Š˜„““Œ”Š œŒ„ ™ˆ’ˆ†š•˜ psQ
b„”‘ ‰›”†šŒ•” H„’ž„ ™ …’•†‘™I
flashing
green led ]
…„ššˆ˜ †‹„˜ŠŒ”Š
fixed green led ]
…„ššˆ˜ †‹„˜Šˆ‡
•–ˆ”Œ”Š
–•žˆ˜
†’•™Œ”Š
–•žˆ˜
…˜„‘Œ”Š •”
•–ˆ”Œ”Š
žŒ”šˆ˜
•–ˆ”Œ”Š
‹•’‡
šŒ“ˆ
†’•™Œ”Š
™–ˆˆ‡
Jdip ™žŒš†‹ˆ™ š• ™ˆš –˜Œ•˜ š• initial setup
frS frR frQ vcc gnd
ftS ftR ftQ
K
