FAAC Estate Swing E-SL 1800 User manual
E-SL 1800
CE DECLARATION OF CONFORMITY FOR MACHINES
(DIRECTIVE 2006/42/EC)
Manufacturer: FAAC S.p.A.
Address: Via Calari, 10 - 40069 Zola Predosa BOLOGNA - ITALY
Declares that: Operator mod. C720 - C721
is built to be integrated into a machine or to be assembled with other machinery to create a machine under the provisions of
Directive 98/37/EC;
conforms to the essential safety requirements of the following EEC directives:
2006/95/EC Low Voltage Directive
2004/108/EC Electromagnetic Compatibility Directive
and also declares that it is prohibited to put into service the machinery until the machine in which it will be
integrated or of which it will become a component has been identified and declared as conforming to the
conditions of Directive 2006/42/EEC and subsequent amendments.
Bologna, 01-12-2010
The Managing Director
A. Marcellan
1) ATTENTION! To ensure the safety of people, it is important
that you read all the following instructions. Incorrect installation
or incorrect use of the product could cause serious harm to
people.
2) Carefully read the instructions before beginning to install the prod-
uct.
3) Do not leave packing materials (plastic, polystyrene, etc.) within
reach of children as such materials are potential sources of danger.
4) Store these instructions for future reference.
5) This product was designed and built strictly for the use indicated
in this documentation. Any other use, not expressly indicated here,
could compromise the good condition/operation of the product and/or
be a source of danger.
6) FAAC declines all liability caused by improper use or use other
than that for which the automated system was intended.
7) Do not install the equipment in an explosive atmosphere: the
presence of inflammable gas or fumes is a serious danger to safety.
8) The mechanical parts must conform to the provisions of Stand-
ards EN 12604 and EN 12605.
For non-EU countries, to obtain an adequate level of safety, the
Standards mentioned above must be observed, in addition to nation-
al legal regulations.
9) FAAC is not responsible for failure to observe Good Technique in
the construction of the closing elements to be motorized, or for any
deformation that may occur during use.
10) The installation must conform to Standards EN 12453 and EN
12445.
For non-EU countries, to obtain an adequate level of safety, the
Standards mentioned above must be observed, in addition to nation-
al legal regulations.
11) Before attempting any job on the system, cut out electrical pow-
er. 12) The mains power supply of the automated system must be
fitted with an all-pole switch with contact opening distance of 1/8 in.
or greater. Use of a 6A thermal breaker with all-pole circuit break is
recommended.
13) Make sure that a differential switch with threshold of 0.03 A is
fitted upstream of the system.
14) Make sure that the earthing system is perfectly constructed and
connect metal parts of the closure to it.
15) The automated system is supplied with an intrinsic anti-crushing
safety device consisting of a torque control. Nevertheless, its tripping
threshold must be checked as specified in the Standards indicated at
point 10.
16) The safety devices (EN 12978 standard) protect any danger
areas against mechanical movement Risks, such as crushing, drag-
ging, and shearing.
17) Use of at least one indicator-light (e.g. FAACLIGHT ) is recom-
mended for every system, as well as a warning sign adequately se-
cured to the frame structure, in addition to the devices mentioned at
point “16”.
18) FAAC declines all liability as concerns safety and efficient opera-
tion of the automated system, if system components not produced by
FAAC are used.
19) For maintenance, strictly use original parts by FAAC.
20) Do not in any way modify the components of the automated sys-
tem.
21) The installer shall supply all information concerning manual op-
eration of the system in case of an emergency and shall hand over to
the user the warnings handbook supplied with the product.
22) Do not allow children or adults to stay near the product while it is
operating.
23) Keep remote controls or other pulse generators away from chil-
dren, to prevent the automated system from being activated involun-
tarily.
24) Transit is permitted only when the automated system is idle.
25) The user must not attempt any kind of repair or direct action
whatever and contact qualified personnel only.
26) Check at least every 6 months the efficiency of the system, par-
ticularly the efficiency of the safety devices (including, where fore-
seen, the operator thrust force) and of the release devices.
27) Anything not expressly specified in these instructions is not
permitted.
WARNINGS FOR THE INSTALLER
GENERAL SAFETY OBLIGATIONS
1
1 GENERAL REMARKS 3
2 DESCRIPTION AND TECHNICAL SPECIFICATIONS 3
3 DIMENSIONS 4
4 ELECTRIC EQUIPMENT (standard system) 4
5 INSTALLATION OF AUTOMATED SYSTEM 4
5.1 PRELIMINARY CHECKS 4
5.2 MASONRY FOR FOUNDATION PLATE 5
5.3 MECHANICAL INSTALLATION 6
5.4 INSTALLING THE RACK 7
5.4.1 STEEL RACK TO WELD (Fig.11) 7
5.4.3 NYLON RACK TO SCREW (Fig. 13) 7
5.4.2 STEEL RACK TO SCREW (Fig. 12) 7
6 OPERATIONAL START-UP 8
6.1 ELECTRONIC BOARD CONNECTION 8
6.1.1 EARTHING 8
6.1.2 ELECTRONIC EQUIPMENT 8
6.2 POSITIONING OF LIMIT SWITCHES 9
7 TESTING THE AUTOMATED SYSTEM 9
8 OPERATOR RELEASE/LOCK 9
9 MAINTENANCE 10
10 REPAIR 10
11 ACCESSORIES 10
11.1 BATTERY KIT 10
11.2 RADIO MODULE 10
CONTENTS
2
C720-C721 / E-SL1800
We thank you for choosing our products. We are certain that they will fully meet your needs with respect to the performance that have been
designed for.
These products have been designed and built to control vehicle access. AVOID ANY DIFFERENT USE.
Read this manual provided with the product carefully because it provides important information on safety,
installation, use and maintenance.
1 GENERAL REMARKS
These instructions apply to the following models:
C720 - C721 / E-SL 1800
The above-mentioned models are electromechanical operators designed for sliding gates with different features and technical
specifications.
A practical and functional mechanical lock that acts directly on the motor ensures the gate is locked when the operator is not
working and, therefore, no electric lock needs to be installed.
A convenient manual release device allows the gate to be maneuvered in the event of a power cut, if emergency batteries are
not installed or if the operator is not in service.
These operators, in addition to having different features and technical specifications, also differ as to the following compo-
nents: motor (larger in the C721), transformer (larger in the C721), pinion (different materials), release lever (different colors).
These assembly instructions apply to both models, unless otherwise specified.
2 Description and Technical Specifications
1. Cover casing
2. Motor lock
3. Link cover
4. Motor release handle
5. Transformer
6. Foundation plate
7. Cable passage holes
8. Pinion and pinion cover
9. Electronic board
Model C720 / E-SL 1800 C721
Power Supply 120V—50 Hz 230V—50 Hz
Max. Absorbed power (W) 170 290
Thrust pinion (N) 320 530
Max. Torque (Nm) 18 30
Type of pinion Z28 module 4 Z28 module 4
Gate max. recommended length (m) 15 15
Max. leaf weight (Kg) 400 800
Gate spped (m/min) Min 8 / Max 18 Min 8 / Max 18
Limit switch type Magnetic Magnetic
Clutch Electronic Electronic
Operating Temperature (°C) -20 + 55 -20 + 55
Gearmotor weight (kg) 6 10
Protection class IP44 IP44
Gearmotor dimensions See Fig. 02 See Fig. 02
Use frequency Residential Residential
3
Dimensions
The dimensions and electrical preparations (standard system) are the same for operator C720 / E-SL 1800 and for operator
C721.
5 INSTALLATION OF AUTOMATED SYSTEM
5.1 PRELIMINARY CHECKS
To ensure safety and an efficiently operating automated system, make sure the following conditions are observed:
The gate structure must be suitable for automation. The following are necessary in particular: wheel diameter must be in pro-
portion to the weight of the gate to be automated, an upper guide must be provided, plus mechanical limit switches to pre-
vent the gate derailing.
The gate slide track must be linear and horizontal.
Manual movement of the gate must be easy throughout its travel.
The soil must permit sufficient stability for the foundation plinth.
There must be no pipes or electric cables in the plinth excavation area.
If the gearmotor is exposed to passing vehicles, install, if possible, adequate means of protection against accidental impact.
Check if an efficient earthing is available for connection to the gearmotor.
If the elements checked do not meet the above requirements, arrange to ensure their compliance
4
5.2 MASONRY FOR FOUNDATION PLATE
1. Assemble the foundation plate as shown in Fig. 4.
2. The foundation plate must be located as shown in
Fig. 5 (right closing) or Fig. 6 (left closing) to en-
sure the rack and pinion mesh correctly.
3. Prepare a foundation plinth as shown in Fig. 7 and wall in the founda-
tion plate, supplying one or more sheaths for routing electric cables
through the hole in the foundation plate.
Using a spirit level, check if the plate is perfectly level.
Wait for the cement to set.
4. Lay the electric cables for connection to the accessories and power
supply as shown in Fig. 3.
To facilitate the connections in the control unit, pull out the
leads by at least 30 cm from the hole on the plate.
5
5.3 MECHANICAL INSTALLATION
1. Remove the cover casing by loosening the two suitable side bolts and lifting it (Fig. 8).
2. Position the operator on the foundation plate using the nuts and washers provided as shown in Fig. 9. During this operation,
pass the cables though openings in the motor casing (see Fig. 9 re. 1).
Fig. 8 and Fig. 9 refer to operator C720 /E-SL1800
3. Adjust the height of the gearmotor and the distance from the gate with reference to the dimensions in Fig. 10.
Operation required for correct fastening of the rack and to keep open the option of new adjustments.
4. Secure the gearmotor to the plate by tightening the fastening nuts.
5. Prepare the gearmotor for manual operating mode as described in
paragraph 8.
6
5.4 INSTALLING THE RACK
5.4.1 STEEL RACK TO WELD (Fig.11)
1. Place the three threaded pawls on the rack ele-
ment, positioning them at the top of the slot. In this
way, the slot play will enable any adjustments to be
made.
2. Manually take the leaf into its closing position.
3. Lay the first piece of rack level on the pinion and
weld the threaded pawl on the gate as shown in
Fig. 14.
4. Move the gate manually, checking if the rack is
resting on the pinion, and weld the second and third
pawls.
5. Bring another rack element near to the previous
one, using a piece of rack (as shown in Fig. 15), to
synchronize the teeth of the two elements.
6. Move the gate manually and weld the three thread-
ed pawls, thus proceeding until the gate is fully cov-
5.4.2 STEEL RACK TO SCREW (Fig. 12)
1. Manually take the leaf into its closing position.
2. Lay the first piece of rack level on the pinion and place the
spacer between the rack and the gate, positioning it at the top
of the slot. In this way, the slot play will enable any adjustments
to be made.
3. Mark the drilling point on the gate. Drill a 1/4 in. hole and apply
thread with a 3/8 in. male tap. Screw the bolt.
4. Move the gate manually, checking if the rack is resting on the
pinion, and repeat the operations at point 3.
5. Bring another rack element near to the previous one, using a
piece of rack (as shown in figure 15) to synchronize the teeth of
the two elements.
6. Move the gate manually and carry out the securing operations
as or the first element, thus proceeding until the gate is fully
covered.
5.4.3 NYLON RACK TO SCREW (Fig. 13)
1. Manually take the leaf into its closing position.
2. Lay the first piece of the rack level on the pinion and mark the
drilling point on the gate; drill 1/4 in. and screw in the self-
tapping screw provided with its reinforcing plate.
3. Move the gate manually, checking if the rack is resting on the
pinion, and repeat the operations at point 2.
4. Couple another rack element and fit to the previous element.
5. Move the gate manually and carry out the securing operations
as for the first element, thus proceeding until the gate is fully
covered.
7
Important notes on rack installation:
Make sure that, during the gate travel, all the rack
elements do not exit the pinion.
Do not, on any account, weld the rack elements ei-
ther to the spacers or to each other.
When the rack has been installed, to ensure it mesh-
es correctly with the pinion, we advise you to lower
the gearmotor position by about 1/16 - 1/8 in. by ad-
justing the nuts (Fig.16 re. 1).
Do not use grease or other lubricants between rack
and pinion (Fig. 16)
Manually check if the gate regularly reaches the me-
chanical limit switches and make sure there is no
friction during gate travel.
6 OPERATIONAL START-UP
6.1 ELECTRONIC BOARD CONNECTION
Before attempting any work on the control
board (connections, programming, mainte-
nance), always turn off power.
Observe points 10, 11, 12, 13, 14 of the
GENERAL SAFETY OBLIGATIONS.
Follow the instructions in Fig. 3 to arrange
the cables in the ducts and make the electrical connections
with the selected accessories.
Always separate power cables from control and safety ca-
bles (push-button, receiver, photocells, etc.).
Use separate sheaths in order to avoid any electrical inter-
ference.
Fig. 17 refers to operator C720 /E-SL 1800
6.1.2 ELECTRONIC EQUIPMENT
The electronic control equipment in the gearmotors is fastened
to a mount (Fig. 18 re. 1) with a clear cover (Fig. 18 re. 2).
The board programming buttons are positioned on the cover
(Fig.18 re. 3) and this makes it possible to program the board
without having to remove the cover.
To connect and program the control unit correctly, ob-
serve the specific instructions.
8
6.2 POSITIONING OF LIMIT SWITCHES
To ensure correct positioning of the limit switch magnets, the control unit must be installed and correctly connected with all con-
trol and safety accessories .
The operator is equipped with a magnetic limit switch sensor built directly into the electronic control board.
The gate is stopped, during opening or closure, at the moment when the polarized magnet secured to the upper part of the rack
activates the sensor.
Assemble both magnets as shown in Fig. 19.
Prepare the operator for manual operating mode as described in chapter 8 and power the system.
To position the limit switch on the rack, refer to the electronic equipment instructions.
To avoid damage to the operator and/or interruptions in the operation of the automated system, approximately 1 5/8 in.
must be left from the mechanical limit switches.
7 TESTING THE AUTOMATED SYSTEM
Once the operator has been installed, carry out a thorough oper-
ational check of all accessories and connected safety devices.
Press-fit the plastic covers of the operator fastening bolts, ensur-
ing that the arrow is facing the gate (Fig. 20 re. 1), insert the cov-
er casing (Fig. 20 re. 2) and fasten it by the two suitable side
bolts (Fig. 20 re. 3).
Give the Customer the "User Guide" and explain the correct oper-
ation and use of the gearmotor, highlighting potential high-risk
areas of the automated system.
8 OPERATOR RELEASE/LOCK
During the release/lock manoeuvre, take care to prevent an in-
voluntary pulse from operating the gate.
Proceed as follows to release the gearmotor:
1. Turn the release clockwise as shown in Fig. 21 re. 1. The release
lever will move slightly away from the operator body (Fig. 21 re.
2)
2. Fully lower the release lever to the mechanical stop Fig. 21 re. 3.
3. Carry out the opening or closing manoeuvre manually.
9
Proceed as follows to lock the gearmotor:
1. Fully raise the release lever to the mechanical stop,
Fig. 22 re. 1.
2. Turn the release anticlockwise as shown in Fig. 22 re.
2.
To maintain the operator intact, avoid pulsing the gate
to operate before resetting the lock system.
9 MAINTENANCE
It is advisable to check the efficiency of the system at least every
6 months, particularly the efficiency of the safety devices
(including the motor thrust force, which must comply with current
standards) and of the release devices.
10 REPAIR
Contact an authorized Repair Centre for repairs.
11 ACCESSORIES
11.1 BATTERY KIT
Install the battery kit as shown in Fig. 24, inserting it in its seat
and securing with screw re. 1. Connect it to the appropriate con-
nector on the board (see relevant instructions).
Refer to the specific instructions for all information on the battery
kit.
Lowering the release lever, both the motor lock, which is
retracted (Fig. 23 re. 1), and the safety micro switch forcing
the automation to STOP (Fig. 23 re. 2) are operated.
11.2 RADIO MODULE
Install the radio module as shown in Fig. 25.
10
C720– C721 / E-SL 1800 User Guide
Read the instructions carefully before using the product and keep for any
future needs.
GENERAL SAFETY REGULATIONS
The C720 / 1800 and C721 automated systems, if correctly installed and used,
guarantee a high level of safety.
Obeying some simple rules can also prevent accidental problems:
Do not allow children or adults to stay near the automated system, particularly
avoid it while it is operating.
Keep radiocontrols or other pulse generators away from children, to prevent the
automated system from being activated involuntarily.
Do not allow children to play with the automated system.
Do not forcibly restrain the gate's movement.
Prevent branches or shrubs from interfering with gate movement.
Keep the illuminated signalling systems efficient and very visible.
Do not attempt to operate the gate by hand until it has been released.
In the event of malfunction, release the gate to allow access and wait for quali-
fied technical personnel to repair it.
Once manual operating mode has been set, turn off the power supply to the sys-
tem before restoring normal operation.
Do not in any way modify the components of the automated system.
The user must not attempt any kind of repair or direct action whatever and con-
tact qualified personnel only.
Ensure the efficiency of the automated device, the safety devices and the earth
connection are checked at least every six months by qualified personnel.
DESCRIPTION
The C720 / 1800 and C721 automated systems are ideal for controlling vehicle
access areas with average transit frequency.
The C720 / 1800 and C721 automated systems for sliding gates are electrome-
chanical operators that transmit the motion to the sliding leaf using a rack and
pinion.
The operation of the sliding gate is managed by an electronic control device
housed inside the operator or in a watertight outdoor container.
When the device receives an opening command via a radiocontrol or any other
suitable device with the gate closed, it operates the motor until the gate reaches
its open position.
If automatic operation has been selected, the gate re-closes by itself after the
selected pause time.
If semi-automatic operating mode has been selected, a second pulse must be
sent to re-close the gate.
An opening pulse issued during the re-closing stage always causes
a reversal of motion.
A stop pulse (if applicable) always stops motion.
The warning light indicates the current gate movement.
For the detailed behaviour of the sliding gate during the various
operating modes, consult the installing technician.
The automated systems contain obstacle detection and/or safety
devices (photocells, edges) that prevent the gate closing when
an obstacle is located in the scanned area.
The system ensures the gate is mechanically locked when
the motor is not operating and no lock therefore needs to be
installed.
Manual opening is therefore only possible if the appropriate
release system is operated.
The gearmotor is equipped with a device with electronic an-
ticrushing system that offers the necessary safety if the gate
should strike an obstacle during its motion by causing it to
reverse direction immediately.
A handy manual release makes it possible to move the gate
in the event of a power cut (if no back-up batteries are in-
stalled) or malfunction.
MANUAL OPERATION
During the release/lock manoeuvre, take care to prevent an
involuntary pulse from operating the gate.
Proceed as follows to release the gearmotor:
Turn the release clockwise as shown in Fig. 1 re. 1. The re-
lease lever will move slightly away from the operator body
(Fig. 1 re. 2)
Fully lower the release lever to the mechanical stop Fig. 1 re.
3.
Carry out the opening or closing manoeuvre manually.
RESTORING NORMAL OPERATION
Proceed as follows to lock the gearmotor:
Fully raise the release lever to the mechanical stop, Fig. 2 re.
1.
Turn the release anticlockwise as shown in Fig. 2 re. 2.
To maintain the operator intact, avoid pulsing the gate to
operate before resetting the release system.
MAINTENANCE
It is advisable to check the efficiency of the system at least
every 6 months, particularly the efficiency of the safety devic-
es (including the motor thrust force, which must comply with
current standards) and of the release devices.
REPAIRS
Contact an authorized Repair Centre for repairs.
AVAILABLE ACCESSORIES
Refer to the catalogue for the available accessories.
RELEASE
BA
TTER
Y
E
E
7
72
2
0
< BUS
2EASY
F
< OPEN
A
<
GND
< OPEN B / CLOSE / SAFE
< STOP / SAFE
< FSW
OP
<
GND
< FSW
CL
<
+24
RADIO XF
-
+
SETUP
USB
OUT
-
+
1
ENGLISH
CONTENTS
1
W
ARNINGS
..................................................................................................................................................... 2
2
LAYOUT AND
COMPONENTS
........................................................................................................................... 2
2.1
C
O
M
P
ON
E
N
T
DESCRIPTION
......................................................................................................................................
3
2.2
DESCRIPTION OF
TE
R
M
I
N
A
L
BLOCK J
13
....................................................................................................................
3
3
TECHNICAL SPECIFICATIONS ..........................................................................................................................
3
4
ELECTRIC
CONNECTIONS
............................................................................................................................... 4
4.1
BUS-2EASY PH
O
T
O
C
E
LL
S
............................................................................................................................................
5
4.1.1
ADDRESSING BUS-2EASY PHOTOCELLS
..........................................................................................................................5
4.1.2
STORING BUS-2EASY ACCESSORIES
.............................................................................................................................5
4.2
TR
A
D
I
T
I
ON
A
L
PHOTOCELLS
.......................................................................................................................................
5
5
PROGRAMMING ............................................................................................................................................
7
5.1 1st
LEVEL
PROGRAMMING
........................................................................................................................................
7
5.2 2nd
LEVEL
PR
OG
RA
MM
I
NG
........................................................................................................................................
9
6
STORING RADIO CODE ................................................................................................................................
11
6.1
S
T
O
R
I
NG
DS RADIOCONTROLS
............................................................................................................................... 11
6.2
S
T
O
R
I
NG
SLH RADIOCONTROLS
............................................................................................................................. 12
6.3
S
T
O
R
I
NG
LC/RC RADIOCONTROLS (ONLY FOR
S
O
M
E
M
AR
K
ET
S)
............................................................................ 12
6.3.1
STORING LC/RC RADIOCONTROLS REMOTELY
...........................................................................................................12
6.4
RADIOCONTROLS
DELETION PROCEDURE
.............................................................................................................. 12
7
OPERATIONAL START-UP ...............................................................................................................................
13
7.1
C
H
E
C
K
I
NG
THE LEDS
................................................................................................................................................ 13
7.2
P
O
S
I
T
I
ON
I
NG
LI
M
I
T
SWITCHES
................................................................................................................................ 14
7.3
S
E
TU
P
....................................................................................................................................................................... 15
8
TESTING THE AUTOMATED SYSTEM ................................................................................................................
15
9
ALARM AND ERROR SIGNALS .......................................................................................................................
15
9.1
ALARMS
................................................................................................................................................................... 15
9.2
ERRORS
.................................................................................................................................................................. 15
10
FUNCTION LOGICS ....................................................................................................................................
16
EC
DECLARATION
OF
CONFORMITY
Manufacturer:
FAAC
S
.
p
.
A
.
Address: Via Calari, 10 - 40069 Zola
P
redosa
BOLOGNA
-
IT
AL
Y
Declares that: Electronic device E720
•
conforms to the essential safety requirements of the following
EEC
directives
2006/95/EC
L
ow Voltage Directive
2004/108/EC Electromagnetic Compatibility
Directive
Additional
note:
This
product has undergone testing in a
typical
standard configuration (all products built by
FAAC
S
.
p
.
A
.
)
Bologna, 01-05-2010
The
Managing Director
A.
Marcellan
W
ARNINGS
•
Attention!
T
o
ensure
the
safety
of people, it
is
important
that you read all the
following
instructions.
•
Incorrect installation
or
incorrect use
of the product could cause
serious
harm to people
.
•
Carefully read the instructions before beginning to install the product and
k
eep
for future
reference.
•
The
symbol
highlights
notes
that
are
important
for
personal
safety
and
the
protection
of
the
automated
system.
•
The
symbol
calls your attention
to
notes
on product
specifications
or operation.
2
ENGLISH
E720
1 WARNINGS
Before attempting any work on the electronic device
(connections,
maintenance), always turn off
power
.
Install,
upstream of the
system,
a differential thermal breaker with adequate tripping threshold.
Connect the earth lead to the appropriate terminal.
Always separate power cables from control
and
safety cables
(push-button,
receiver,
photocells,
etc.).
To
avoid any electric noise, use separate sheaths or
a shielded cable
(with
earthed shield).
2
LAYOUT AND
COMPONENTS
/ SAFE
/ SAFE
SENSOR
LIMIT
SWIT
CH
Fig.
1
3
3
TECHNICAL SPECIFICATIONS
Power
supply
120 V~ 50 Hz
Power
consumption
from mains
stand-by
10
W
Motor max.
load
6
A
Accessory
power supply
24
Vdc
Accessory
max. current
24 Vdc max. 500
mA
BUS-2EASY
max. 500
mA
Environmental
temperature
(-20 - +55) °C
Flasher
load
24 Vdc - 15
W
Output
load
24 Vdc - 100 mA (1)
Pr
otection
fuses
F1
=
T1A
- 250V
F
unction
logics
Semiautomatic, Semiautomatic “step“,
Automatic, Automatic
“step”, Auto-
matic
with timer
function, Automatic
Safety devices,
Automatic
Safety
devices
“step“,
Automatic
with reverse on
pause,
Semiautomatic
“b”, Mixed logic
“
b
C
”,
Dead-man
.
Work
time
P
rogrammable
(from 0 to 10
min
.)
P
ause
time
OPEN
A /
OPEN B
P
rogrammable
(from 0 to 10
min
.)
Motor power
Adjustable over 50 levels
Opening-closing
motor
speed
Adjustable over 10 levels
Connector Inputs/
Outputs
P
ower
supply, Battery, Motor,
Module
XF433/868,
Motor lock electric release bat
-
teries, Motor
L
ock
,
USB
Inputs/Outputs in
terminal
block
BUS
-2EA
SY
,
OPEN
A,
OPEN B/CL
OSE/SAFE
,
ST
OP/SAFE
,
GND,
Opening
and
closing
photocells, +24
V, Mains power supply
,
Flasher, Electric release
motor lock,
OUT
Programmi
ng
1st and 2nd level with 3 keys (+, -,
F)
and
display
.
2.2
DESCRIPTION
OF
TERMINAL BLOCK
J13
INPUT
No
DESCRIPTION
1
OPEN
A
Device with N.O.
contact
that causes total
opening
of the
gate
2-6
GND
Accessory power
supply
negative
3
OPEN B
/
CLOSE
/
SAFE
Device with N.O.
contact
that causes partial
opening
of the gate or reclosing
of
the gate
according
to
the
selected function
logic
4
STOP
/
SAFE
Device with N.C.
contact
that halts the
gate
5
FSW
OP
Device with N.C
contact
that
reverses
the
motion
during gate
opening
7
FSW
CL
Device with N.C
contact
that
reverses
the
motion
during gate closing
8
+24 V
Accessory power supply
positive
ENGLISH
2.1
COMPONENT
DESCRIPTION
LCD
SIGNALLING AND PROGRAMMING
DISPLA
Y
SW1
PROGRAMMING
PUSH-BUTT
ON
"
F
".
SW2
PROGRAMMING
PUSH-BUTT
ON
"
-
".
SW3
PROGRAMMING
PUSH-BUTT
ON
"
+
".
SW4
“
SETUP
”
PUSH-BUTT
ON
L
eds
INPUTS
ST
A
TUS
CONTROL
LED
J1
MAIN POWER
SUPPLY
CONNECTOR
J2
TRANSFORMER PRIMARY WINDING
CONNECTOR
J3
TRANSFORMER SECONDARY WINDING
CONNECTOR
J4
EMERGENCY
BATTERY
CONNECTOR
(ACCESSORY)
J5
MO
T
OR
CONNECTOR
J6
FLASHER OUTPUT
CONNECTOR
J9
MO
T
OR
L
OCK
AND
MO
T
OR
RELEA
SE
CONTACT
CONNECTOR
J10
OUT OUTPUT
CONNECTOR
J11
USB
CONNECTOR FOR PC
CONNECTION
J12
BUS-2EASY DEVICE
CONNECTION CONNECTOR
J13
INPUT
CONNECTOR IN CONNECTOR
BL
OCK
J14
RADIO
RECEIVER
MODULE CONNECTOR FOR
OMNIDEC
LCD1
SIGNALLING AND PROGRAMMING
DISPLA
Y
F1
PROTECTION
FUSE
(1) The output load must be considered
as already included in the max. current
available for the accessories
4
ENGLISH
4
ELECTRIC
CONNECTIONS
STOP/ SAFE
OPEN B
CLOSE
SAFE
/
S
AFE
/
SAFE
T
o
connect
the
photo-
cells and safety
devices
,
consult paragraph 4.2
MOTOR
RELEA
SE
CONT
A
C
T
(Locks
the motor when
the
motor release handle
is
operated)
Fig.
2
A: Photocells that
operate
during CLOSING
B
:
Photocells that
operate
during OPENING
C: Photocells that
operate
during
OPENING
and CLOSING
Fig.
3
Fig.
4
RX
TX
DL1
ON
DS1
1 2 3 4
ON
1 2 3 4
DL2
DS1
DL1
=
Align-
ment
DL2
=
BUS
-
2EA
SY/P
ower
supply
status
DS1
=
Dip-
switches
for
Before
connecting
the photocells, it
is
advisable to select
the type of operation on the basis of the area of
move-
ment that they need to
protect:
Safety devices during closing: operate only during
the
automated
system closing movement and are there-
fore suitable for protecting the closing area from
the
risk
of
impact
.
Safety devices during opening: operate only during
the
automated
system opening movement and are
therefore suitable for protecting the opening area
from
the
risk
of
impact
.
Safety devices during
opening/closing:
operate during
both the
automated
system
opening and closing
move-
RX
-
T
X
DL2
BUS BUS
programming
BUS BUS ments and are therefore suitable
for
protecting the entire
movement area from the
risk
of
impact
.
120 V~
5
Fixed
ON
Normal activity (led on even without
photo-
cells). No registered photocell
engaged
.
Slow
flasher
At
least one registered photocell
engaged
or not
aligned
.
Off
(flash
every
2.5 secs)
BUS-2EASY
line
short
-circuited
.
Off
BUS-2EASY
line
deactivated
.
Dip1
Dip2
Dip3
Dip4
R
e
.
T
ype
OFF
OFF
OFF
OFF
B
OPENING
Max. 6
pairs
OFF
OFF
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
ON
ON
ON
ON
OFF
OFF
OFF
A
CLOSING
Max. 7
pairs
ON
OFF
OFF
ON
ON
OFF
ON
OFF
ON
OFF
ON
ON
ON
ON
OFF
OFF
ON
ON
OFF
ON
ON
ON
ON
OFF
OFF
ON
OFF
OFF
C
OPENING
and
CLOSING
Max.
2
pairs
OFF
ON
OFF
ON
ON
ON
ON
ON
/
OPEN PULSE
ENGLISH
4.1
BUS-2EASY
PHOTOCELLS
This
board
is
equipped
with a
BUS-2EASY
circuit that
can
be used to
easily
connect a high number of
auxiliary
BUS
-
2EASY
devices to the safety device (e.g. up to 16
pairs
of
photocells), appropriately
programmed,
using only two
cables without polarity.
Before
connecting
the photocells, it
is
advisable to select
the type of operation
(Fig.
3) on the basis of the area
of
movement the cells must protect and to position the
dip
switches on both the transmitter and receiver (see
Fig.
4)
as in
T
ab
. 1.
4.1.1
ADDRESSING BUS-2EASY
PHOTOCELLS
It
is
important to give both the transmitter
and the receiver the same address.
F
ollow the
instructions
in the following table to check
that
the
BUS-2EASY
connection
status is
efficient
.
T
ab.
2 -
Description
of
BUS-2EASY
led
Ensure
that there are not two or more pho-
tocell pairs with the same address.
If
no
BUS-2EASY
accessory
is
used,
leave the
BUS-2EASY
connector (J12 - fig. 1)
free.
T
ab.
1 -
Addressing
BUS-2EASY
photocells
4.2
TRADITIONAL
PHOTOCELLS
Connection of 1 pair of closing
photocells
with
FAIL-SAFE
safety device
activated
Set
in second level of programming
o 1
=
0 1
OUT
/
S
A
F
E
/
S
A
F
E
Other safety
devices
OUT
OUT
Connection of 1 pair of closing
photocells
with
FAIL-SAFE
and
STOP
safety device
deactivated
Other safety
devices
/
S
A
F
E
/
S
A
F
E
4.1.2
STORING BUS-2EASY
ACCESSORIES
It
is
possible to add
BUS-2EASY
photocells to the
system
at
any time, simply by following the procedure
below:
1. Install and
programme
the accessories with the re-
quired address (see par. 4.1.1).
2. Cut off power to the
board
.
3. Connect both cables of the
BUS-2EASY
accessories
to
the red terminal block J12 (polarity irrelevant).
4.
P
ower the
board
.
5. Quickly press the
SETUP
push-button
(SW4)
once
to
register the accessories. Check the operation of
the
installed
BUS-2EASY
devices
.
6.
The
board has stored the
BUS-2EASY accessories
.
Fig.
5
If the
FAIL-SAFE
safety device
is
not
used,
connect the power
supply
of the transmit-
ters to terminals 6 and 8 of J13.
If the
FAIL-SAFE
safety device
is uses,
con-
nect the power supply of the transmitters
to
OUT
after setting it as appropriate (see
2nd level programming and
Fig.
16).
If the
FAIL-SAFE
safety
device
is used,
even the
unused
safety inputs must
be
connected
via
a
shunt
lead to the
negative of
OUT (see Fig.
16).
6
ENGLISH
Connection of a pair of opening
photocells
Connection of a pair of closing photocells and a pair
of
opening/closing
photocells
Other safety
devices
/ SAFE
/ SAFE / SAFE
/
SAFE
Fig.
6
Connection of a pair of closing photocells and a pair
of
opening
photocells
Fig.
9
/
SAFE
/ SAFE
Connection of a pair of closing photocells, a pair of
open-
ing photocells and a pair of opening/closing
photocells
/
SAFE
/ SAFE
Fig.
7
Connection of two pairs of closing
photocells
/SAFE
/ SAFE
Fig.
10
Connection of no safety and stop
device
/
SAFE
/SAFE
Fig.
11
Fig.
8
7
ENGLISH
5 PROGRAMMING
It
is
necessary to access
PROGRAMMING
mode in order
to program
automated
system
operation
.
P
rogramming
is
divided in two parts: 1st
LEVEL
and 2
nd
LEVEL
.
The status of the automated system
is
normally
shown
on the
display.
When push-
button
F is
pressed or when
F
and
+ are
pressed
simultaneously,
this gives access
to 1st or 2nd level programming.
To
restore the default settings, simply
re-
load the desired default
in
the
first
passage
of the 1st level programming.
The change of the programming
para–
meters becomes effective,
while
final stor-
age
will
not take place
until
programming
mode
has
been exited and the
input
status
is
again displayed. If power supply to the
device
is
cut before going back to the
input
status
display, all the changes
made
will
be lost.
It
is
possible to return to the input status
display
and
store
all the parameters modi-
fied to that moment from any point of the
1st and 2nd level programming by pressing
keys F
and - simultaneously.
5.1 1st
LEVEL
PROGRAMMING
T
o
access 1st level
programming,
press
push-button
F
.
When the board
is
turned on, the software
version
of the board as two figures sepa-
rated by a decimal point appears on the
LCD1 display.
•
If you
press key
F
again (and hold it down), the display
shows
the name of the
function
.
•
If you release the
key,
the display
shows
the value of the function that can be modified with
keys
+
and -.
•
If you
press
F
again (and hold it down), the display
shows
the name of the next function,
etc
.
•
When you reach the last function,
press
push-button
F
to exit the program and store the parameters.
The
display
shows
again the
status
of the
automated
system.
1
st
LEVEL
PROGRAMMING
Display
F
unction
Default
1
dF
DEF
AUL
T
:
1
Configures the parameters with
DEFAUL
T
values.
CU
If push-button
F
is
released, the value
CU
appears,
this
means that the standard
modified configuration has been selected by means of push-buttons and display. If
you
wish
to maintain
this
programming,
press
push-button
F
again,
otherwise press
+
and select default
1
.
1
LO
FUNCTION
L
OGICS:
E
Semiautomatic
.
EP
Semiautomatic “Step”.
A
Automatic
.
A 1
Automatic1.
AP
Automatic “Step”.
At Automatic with timer
function
.
S
Automatic “Safety
devices
”.
SP
Automatic Safety Devices "Step”.
SA
Automatic with
reverse
during
pause
.
b
Semiautomatic “
b”.
bC
Mixed
(
AP
pulse/ CH
dead-man).
C
Dead-man
.
E
PA
PAUSE TIME
A:
P
ause time with a
TOTAL
opening
command.
This
has effect only if the
automatic
logic was
selected. Adjustable from 0 to 59 secs. in one-second steps.
Subsequently, display changes to minutes and tens of seconds (separated by a point)
and
time
is
adjusted in 10-second steps, up to the maximum value of
9.5
minutes
.
E
.
g
. if the display
shows
2.5
, pause time
is
2 min. and 50 secs.
20
Pb
PAUSE TIME B:
P
ause time
with
a
PARTIAL
opening
command.
This
has effect only if the
automatic
logic was
selected. Adjustable from 0 to 59 secs. in one-second steps.
Subsequently, display changes to minutes and tens of seconds (separated by a point)
and
time
is
adjusted in 10-second steps, up to the maximum value of
9.5
minutes
.
E
.
g
. if the display
shows
2.5
, pause time
is
2 min. and 50 secs.
20
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