Description And Technical Characteristics; Maximum Use Curve - FAAC 595 I Guía Para El Usuario

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The 595 I/S automated system is a hydraulic unit formed of a
motor pump and a piston-rack assembly, which ensures optimal
automation of up-and-over garage doors for residential and
condo applications.
It is mounted on the door by means of
accessories.
The system has an adjustable anti-crushing safety system, a
device that stops and locks the door in any position, and a
convenient manual release device to be used in the event of a
power failure or malfunction.
The 595 I/S automated system has been designed and
manufactured for the automation of counterbalanced up-and-over
doors. Figures A, B and C page 4 show the most commonly
used types of up-and-over doors. No other use of the system is
allowed.


DESCRIPTION AND TECHNICAL CHARACTERISTICS

16
4
3
5
6
7
8
9
10
11 12
a external release device (optional)
b side support for operator fastening
c upper flange
d oil filler plug
e oil tank
f internal release knob
g distribution flange
h torque adjustment screws
i central body for operator fastening
j cylinder
k lower flange
l drive shaft
m side support for operator fastening
n backplate
o bleed screw
p 596 MPS control unit
595 I/S AUTOMATED SYSTEM
15
2
1
14
13
Fig. 1
Table 1
Technical specifications of 595 I operator
Power supply
Absorbed power (W)
Duty cycle %
Oil type
Oil quantity (l)
Motor winding thermal cutout
Anti-crushing system
Operating ambient temperature
Protection class
Weight (Kg)
Pump flow rate (l/min.)
Angular velocity (rpm)
Max. door weight (Kg/m
Max torque (Nm)
Max. door height (m)
Max. door width (m)
Technical characteristics of electric motor
Speed (rpm)
Power (W)
Current drawn (A)
Power supply

. MAXIMUM USE CURVE

The curve allows the maximum working time (T) to be obtained
as a function of the use frequency (F).
For example, the 595 I/S operators can operate uninterruptedly
at an use frequency of 50%.
To ensure good operation, keep to the field of operation lying
below the curve.
IMPORTANT: THE CURVE IS OBTAINED AT A TEMPERATURE
OF 24 °C.
EXPOSURE TO DIRECT SUN RAYS MAY REDUCE USE FREQUENCY
DOWN TO 20%.
Calculating use frequency
The use frequency is the percentage of effective working time
(opening + closing) with respect to the total cycle time (opening
+ closing + pause times).
It is calculated using the following formula:
%F =
Ta + Tc + Tp + Ti
where:
Ta = opening time
Tc
= closing time
Tp = pause time
Ti
= interval between
one complete cycle
and the next.
3
~
230V
(+6 -10 %) 50Hz
220
50
FAAC HP OIL
1
120°
bypass valves fitted as std
-20 ÷ +55 °C
IP 31
10
0.75
1.54
)
15
2
400
2.70 with 1 operator
3.5 with 1 operator
1400
200
1.2
230V~ (+6 -10 %) 50Hz
Ta + Tc
X 100
Percentuale
% Duty cycle
% Fréquence
% Benutzungs-
di lav. %
d'utilisation
frequenz
100
90
80
70
60
50
40
30
20
10
0
1
2
3
4
5
6
7
8
9
Tempo (h)
Time (h)
Temps (h)
Zeit (Std.)
% Frecuencia
de utilización
10 11 12
10
Tiempo (h)

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595 s

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