ALARMS FOR GROUP ASSEMBLY:
The alarms for assembled devices, are similar to those of the individual one with the specific particularities of the operation
with 2 communicated devices. Depending on the system´s reaction there are 4 types of alarm:
1 .-
COMMUNICATION FAILURE
SPEEDMATIC.
2 .-
DRY RUNNING
: if there is a dry running alarm in a single pump, the other one assumes the role of "main device", if
there is an over-demand during next working cycles, the system will try to restore the device in failure. If the device is
restored in these conditions then it will be also restored the alternated operating mode. If there is lack of water on both
devices, the system will activate the ART system in the MASTER unit.
3 .-
MINIMAL LEVEL IN THE TANK
automatically restored when the level sensor detects water again.
4 .-
REST OF ALARMS
to restore the disabled device only in case of over demand, after 4 successive attempts without success the device is
turned off, it should be restored manually. In case of alarms in both devices the system performs 4 restore attempts, if it
does not succeed the system is disabled.
To restore manually a device disabled by an alarm push
device with the alarm.
REGISTER OF OPERATION DATA AND ALARMS.
By using simultaneously
of
ENTER
we can advance through the sequence, once finished the sequence we come back to the main display . This is all
the sequence:
MENU+p
P LINE
INPUT P
00,0 bar
00,0 bar
ENTER
n
REGISTER HOURS. Counter of total time that the pump has been operating.
n
REGISTER STARTS. Number of cycles of operation, a cycle is a start and a stop.
n
REGISTER SWITCH. Number of connections to the electric supply.
n
MAX PRESSURE. Maximum pressure reached by the installation. It allows the detection of water hammer.
n
ALARM COUNT. SHORTCIRC. Number of short circuit alarms.
n
ALARM COUNT I MAX. Number of overcurrent alarms.
n
ALARM COUNT. TEMP. Number of alarms by excessive temperature.
n
ALARM COUNT DRY RUN. Number of dry-running alarms.
All the records are saved even if the device has been disconnected from the electric supply.
AUTOMATIC MODE VISUALIZATION
With the device in automatic mode by pressing
P.LINE
SET P
00,0 bar
00,0 bar
Normal
"CE" STAMENT OF COMPLIANCE.
COELBO CONTROL SYSTEM, S.L
following European standards:
Product's name:
SPEEDMATIC
Type:
1314, 1314 MASTER, 1307 and 1307 MASTER.
As per the European Standards:
UNE EN 60730-1:1998+A11:1998+A2:1998+A14:1998+A15:1998+A16:1998+A17:2001+ERRATUM A1:2001+A18:2003
UNE EN 60730-2-6:1997+A1:1998+A2:1999+CORR A1:2001+CORR A2:01
UNE EN 61000-6-2:2002
UNE-EN 61000-6-4:2002
UNE-EN 61000-3-2:2001
UNE-EN 61000-3-3:1997+CORR:1999+A1:2002
: not any alarm is activated. Both devices continue operating independently as a single
: the alarm "dry running" is activated and the device remains in failure. It will be
: If the alarm has occurred in a single device, the other will act as "main device". The system will try
p
MENU
+
during 3" is acceded to
FUNCTION REGISTER
ENTER
HOURS
26h
Register of operation data
ALARM COUNT.
ENTER
DRY RUN
0
Register of alarms
p
there are a succession of different types of display.
Hz
SET P LINE
p
50
2,4 bar 2,2
Service
. We state, on our's own responsibility, that all materials herewith related comply with the
2006/95/EC Low Voltage Directive on Electrical Safety
2004/108/CE Electromagnetic Compatibility.
2002/95/CE RoHS Directive
AUTOMATIC ON / OFF
REGISTER OF OPERATION DATA AND ALARMS
FUNCTION REGISTER
ENTER
STARTS
32
ALARM COUNT
ENTER
TEMP.
0
FL
PUMP
p
1
14,0 A
Current/temperature
-12-
in MASTER device and then
FUNCTION REGISTER
ENTER
SWITCH
25
ALARM COUNT
ENTER
I MAX.
0
TEMP
ALT
CONT RP2
p
60ºC
10
State display
F. Roldán Cazorla
Director General
ENTER
in the
, by mean
MAX. PRESSURE
0,0 bar
ENTER
ALARM COUNT
SHORTCIRC.
0
TEC
0
0
1