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Cardin Elettronica BLi1000 Serie Manual Del Usuario página 14

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INSTRUCTIONS FOR USE
• This device has been created to be integrated into the structure of specially made
hinged gates. The geared motor is fitted with screw type attachments that allow it
to be fitted inside metal profiles.
• The drive shaft can accommodate transmission brackets and adjustable articulated
joints. The device is extremely compact and allows it to be integrated either into the
gate's upright or into the gate support column.
Note: If you build the motor into the gate support column, the movement generated
by the propulsion unit will have to be transmitted to the gate leaf by a pinion or pulley
that is protected by an external case.
• The propulsion unit can be fitted either to the upper part or to the lower part of the
upright using the geared motor in both senses of rotation.
• When building the motor into the gate leaf the axis of rotation must correspond to
that of the gate hinge.
ASSEMBLY PROCEDURE
The unit may be positioned either to the right or to the left of the passageway:
• Respect the following limits:
- maximum gate weight per leaf is 200 kg;
- maximum gate length is 2,0 m;
The builder must make sure that the closing system respects the technical indications
supplied by the standards and laws in force:
- Opening and closing direction mechanical stops;
- Safety margins;
- Correct risk analysis at possible crushing points etc.
See: www.cardin.it - archive - installation and certification guide.
MANUAL RELEASE MECHANISM
RELEASE SYSTEM ACCESS
Manual release
system activated via
a 5 mm hexagonal
socket (Allen key 5)
side B
side A 90°
ELECTRICAL CONNECTION
Electronic control unit for two dc motor with an incorporated encoder and radio
receiver card, which allows the memorisation of 300 user codes. The "rolling code"
type decoder uses 433.92 MHz (S449) series transmitters.
The motor rotation speed is electronically controlled, starting slowly and increasing
in speed; the speed is reduced as it nears the travel limit so as to enable a controlled
smooth stop.
Programming is carried out using the buttons P1, P2, P3, and allows you to set the
system, the current sensor and the entire travel distance of the gates. The intervention
of the anticrush/antidrag sensor during the closing and opening stages causes travel
direction inversion.
All manuals and user guides at all-guides.com
The geared motor is fitted with an
Allen key operated manual release
system.
The geared motor can be released
by rotating the hexagonal socket
clockwise through 90° for side A and
anticlockwise through 90° for side B,
making sure that you do not force it.
An access slot will have to be built
into the column for the release
mechanism.
side B 90°
20,5 mm
20,5 mm
IMPORTANT REMARKS
Attention! There is no 230 Vac contact on any part of the electronic card:
only low voltage safety current is available. In conformity with the electrical
safety standards it is forbidden to connect binding posts 9 and 10 directly
to a circuit that receives power greater than 30 Vac/dc.
Warning! For the correct operation of the programmer the incorporated
batteries must be in good condition: the programmer will lose the position
of the gate in case of blackouts when the batteries are flat, the alarm will
sound and repositioning will take place. Check the good working order of
the batteries every six months (see page 19 "Battery check").
• After having installed the device, and before powering up the programmer,
release the door (manual release mechanism) and move it manually, checking
that it moves smoothly and has no unusual points of resistance.
• The controlled load output (binding post 15) is aimed at reducing battery power
consumption (if they are installed) during blackouts; photocells and other safety
devices should be connected to this output.
• When a command is received, via radio or via wire, the electronic programmer
routes voltage to the CTRL 24 Vdc output. It then evaluates the state of the
safety devices and if they are at rest it will activate the motor.
• Connecting devices to the controlled output contact also allows you to carry
out the autotest function (enabled using "TEST FI" and "TEST FS" in the
"OPTIONS" menu) and check that the safety devices are functioning correctly.
• The presence of the electrical current sensor does not dispense with the
obligation to install photoelectric cells and other safety devices foreseen by
the safety standards in force.
• Before connecting the appliance make sure that the voltage and frequency
rated on the data plate conform to those of the mains supply.
• For the 230 Vac power supply only use a 2 x 1.5 mm
• The cable may only be replaced by qualified technicians.
• An all pole trip switch with at least 3 mm between the contacts must be
installed between the unit and the mains supply.
• Don't use cables with aluminium conductors; don't solder the ends of cables
which are to be inserted into the binding posts; use cables marked T min 85°C
and resistant to atmospheric agents.
• The terminal wires must be positioned in such a way that both the wire and
the insulating sheath are tightly fastened (a plastic jubilee clip is sufficient).
230 Vac POWER SUPPLY CONNECTION
• Connect the control and security device wires.
• Run the mains power supply to the separate
two-way terminal board that is already
connected to the transformer.
MOTOR/ENCODER CONNECTION
• you must scrupulously respect the motor connection sequence between the motors
and the programmer. The order of the binding post connections 1 to 6 is identical
on both;
Motor 1
1- 2 - power supply motor 1
3-4-5-6 - encoder signal input 1
To change the motor's rotating direction invert
cables 1 and 2
Motor 2
1- 2 - power supply motor 2
3-4-5-6 - encoder signal input 2
To change the motor's rotating direction invert
cables 1 and 2
Preparing the motor connection wires
• Cut the 6-wire cable to the required length according to the installation specifica-
tions; you must remember that in order to avoid current dispersion the maximum
length of the cable must not exceed 20 metres.
• connect the wires of motor "M1" and encoder "1" to the main board on the electronic
programmer;
• run the end of the cable to the terminal board on the motor and connect it to the
terminal block through a cable clamp "PC".
• insert the wires into the binding posts rigorously respecting the order of the colours
indicated in figure 4 and tighten down the cable clamp "PC";
• repeat the operation for the second motor and the second encoder.
14
+
cable.
2
N
L
M1
ENCODER 1
Bl Gr Gy Yw
2
3
4
5
6
1
PC

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