These instructions apply to the following models:
FALCON 14 - FALCON 14C - FALCON 20- FALCON 20C - FALCON 15 -
FALCON 15 C - FALCON 20 3PH
The FALCON automated system for sliding gates is an electro-mechanical
operator transmitting motion to the sliding leaf via a rack and pinion or
chain appropriately coupled to the gate.
The non-reversing system ensures the gate is mechanically locked when the
motor is not operating and, therefore, no lock needs to be installed.
The gearmotor does not have a mechanical clutch and, therefore,
requires a control equipment with adjustable electronic clutch ensuring the
necessary anti-crushing safety.
A handy manual release with customised key makes it possible to move
the gate in the event of a power cut or fault.
In the "C" version of the gearmotor, the electronic control equipment is
housed inside the operator.
The FALCON automated system was designed and manufactured to
control access of vehicles. Avoid any other use whatever.
1. DESCRIPTION AND TECHNICAL SPECIFICATIONS
1) Foundation plate
2) Gearmotor
3) Equipment housing
("C" versions)
4) Control board
("C" versions)
M
O
D
L E
F
A
L
C
O
N
P
o
w
r e
u s
p
p
y l
+ (
6
%
-
1
0
%
A
b
s
o
b r
e
d
p
o
w
e
( r
W
)
A
b
s
o
b r
e
d
c
r u
e r
n
( t
A
)
E
e l
c
r t
c i
m
o
o t
( r
p r
m
)
h T
u r
t s
c
a
p
a
c
t i
r o
µ (
) F
h T
u r
t s
o
n
p
n i
o i
n
d (
a
N
)
o T
q r
u
e
(
N
m
)
W
n i
d
n i
g
h t
r e
m
l a
p
o r
e t
t c
o i
n
L
e
f a
m
a
x
w
e
g i
t h
K (
g
)
y T
p
e
f o
p
n i
o i
n
G
a
e t
s
p
e
e
d
(
m
/
m
i
) n
G
a
e t
m
a
. x
e l
n
g
h t
(
m
)
y T
p
e
o
i l f
m
i
s t
i w
c t
h
C
u l
c t
h
U
s
e
f
e r
q
u
e
n
c
y
s (
e
e
g
a r
p
) h
O
p
r e
t a
n i
g
a
m
b
e i
t n
e t
m
p
e
a r
G
e
r a
m
t o
r o
w
e
g i
t h
K (
g
)
P
o r
e t
t c
o i
n
c
a l
s s
G
e
r a
m
t o
r o
o
v
e
a r
l l
i d
m
e
n
s
o i
x L
D
x
H
(
m
m
)
AUTOMATED SYSTEM FALCON
5) Mechanical stop limit
6) Pinion
7) Key-operated release
8) Slots and securing nuts
9) Side guards
10) Motor cover
1
4
2
0
1
4
C
2
0
C
1
)
2
3
0
V
~
5
0
H
z
1
1
6
5
0
8
0
0
7
2
8 .
3
5 .
1
4
0
0
1
1
6
2
0
1
1
0
1
5
0
1
3
5
4
5
° (
C
)
1
4
0
1
4
0
0
2
0
0
0
1
1 Z
6
m
o
d
u
1
0
2
0
m
e
c
h
a
n
e
e l
t c
o r
n
c i
(
e s
e
e
3 S
-
4
0
%
u t
e r
° (
C
)
2 -
0
÷
+
5
1
4
P I
4
4
n
s
e s
e
i f
. g
2. DIMENSIONS
Dimensions in mm
3. MAXIMUM USE CURVE
The curve makes it possible to
establish maximum work time
(T) according to use frequency
(F).
With reference to IEC 34-1
standard,
gearmotor operating at S3
service, can function at a use
frequency of 40%.
To ensure efficient operation,
operate in the work range
below the curve.
Important: The curve is
obtained at a temperature of
20°C. Exposure to the direct
sun rays can reduce use
frequency down to 20%.
Calculation of use frequency
The percentage of effective
work time (opening + closing)
compared to total time of cycle
(opening + closing + pause
times).
Fig. 1
Calculation formula:
1
5
2
0
3
P
h
5
C
4
0
0
V
~
5
V
~
where:
5
0
H
z
Ta
=
1
0
8
4
0
Tc
=
Tp
=
6
7 .
2
2 .
Ti
=
7
0
0
1
4
0
0
6
0
-
4. ELECTRIC EQUIPMENT (standard system)
3
0
1
8
5
3
8
6
0
-
5
0
0
2
0
0
0
e l
4
1
1
1
0
c i
l a
q
u
p i
m
e
n
) t
3 S
-
5
0
%
5
1) Operator with equipment
1
5
2) Photocells
3) Key-operated push-button
4) Flashing lamp
2
5) Radio receiver
5
Use frequency graph
Percentuale
% Duty cycle
di lav. %
the
FALCON
100
90
80
70
60
50
40
30
20
10
0
1
2
Tempo (h)
Time (h)
Ta + Tc
% F =
Ta + Tc + Tp + Ti
opening time
closing time
pause time
time of interval between two complete cycles
ENGLISH
168
225
Fig. 2
% Fréquence
% Benutzungs-
% Frecuencia
d'utilisation
frequenz
de utilización
3
4
5
6
7
8
9
10 11 12
10
Temps (h)
Zeit (Std.)
Tiempo (h)
X 100
Fig. 3