ENGLISH
90
GB
The state of configuration as a reserve can be seen as follows: on the Mul
-
ti-pump System page, the top of the icon is coloured; on the AD and main
pages, the communication icon representing the address of the device
appears with the number on a coloured background. There may be more
than one device configured as reserve in a pumping system.
Even though the devices configured as reserve do not participate in nor
-
mal pumping, they are nevertheless kept efficient by the anti-stagnation
algorithm. The anti-stagnation algorithm changes the starting priority once
every 23 hours and allows the accumulation of at least one continuous
minute of supply of flow from each device. The aim of this algorithm is
to avoid the deterioration of the water inside the impeller and to keep the
moving parts efficient; it is useful for all devices and especially for those
configured as reserve, which do not work in normal conditions.
7.6.10.1 - Examples of configuration for multipump systems
Example 1:
A pump set composed of 2 devices (N=2 detected automatically) of which
1 set active (NA=1), one simultaneous (NC=1 or NC=NA since NA=1) and
one as reserve (IC=reserve on one of the two devices).
The result obtained is the following: the device not configured as a reserve
will start and work by itself (even though it does not manage to bear the
hydraulic load and the pressure achieved is too low). If it has a fault, the
reserve device steps in.
Example 2:
A pump set composed of 2 devices (N=2 detected automatically) in which
all the devices are active and simultaneous (factory settings NA=N and
NC=NA) and one as reserve (IC=reserve on one of the two devices).
The result obtained is the following: the device that is not configured as
reserve always starts first, if the pressure detected is too low the second
device, configured as reserve, also starts. In this way we always try to pre
-
serve the use of one device in particular (the one configured as reserve),
but this may be useful in case of necessity when a greater hydraulic load
occurs.
Example 3:
A pump set composed of 4 devices (N=4 detected automatically) of which
3 set active (NA=3), 2 simultaneous (NC=2) and 1 as reserve (IC=reserve
on two devices),
The result obtained is the following: at the most 2 devices will start at the
same time. The operation of the 2 that can work simultaneously will take
place in rotation among 3 devices so as to respect the maximum exchange
time of each (ET). If one of the active devices develops a fault no reserve
starts up because more than 2 devices cannot start at one time (NC=2)
and there are still 2 active devices present. The reserve intervenes as soon
as another of the 2 develops a fault.
7.6.11 - ET: Max. switching time
Sets the maximum continuous working time of a device in a set. It is signif
-
icant only on pump sets with interconnected devices. The time can be set
between 1 min and 9 hours; the factory setting is 2 hours.
When the ET of a device has elapsed the system starting order is reas
-
signed so as to give minimum priority to the device on which the time has
elapsed. The aim of this strategy is to use less the device that has already
worked and to balance the working time between the various machines
that make up the set. If the hydraulic load still requires the intervention of
the device, even though it has been put last in starting order, it will start to
guarantee pressure boosting of the system.
The starting priority is reassigned in two conditions based on the ET time:
1. Exchange during pumping: when the pump remains on without
interruption until the absolute maximum pumping time has been
exceeded.
2. Exchange to standby: when the pump is on standby but 50% of
the ET time has been exceeded.
If ET has been set at 0 there will be exchange to standby. Whenever a
pump in the set stops, a different pump will start first next time it is restart
-
ed.
If the parameter ET (Max. switching time) is set at 0, there will
be exchange at each restart, irrespective of the pump’s actual
work time.
Summary of Contents for E.sybox 50
Page 6: ......
Page 59: ...ITALIANO IT 56...
Page 62: ......
Page 116: ......
Page 172: ......
Page 228: ......
Page 284: ......
Page 285: ...RU 282 IEC 364 CEI 64 2 1000 3 1 2 e sybox e sybox 30 50 e sybox...
Page 286: ...RU 283 6 1 A 2 2 3 1 2 3 4 5 6 B 10 3 C 4 4 2 1 IN 2 3 1 A B C D E F A B E F 1...
Page 287: ...RU 284 OUT D 1 OUT C 4 4 1 2 F 1 2 2 3 IN C 2 4 5 4 4 5 4 5 5 1 1 SP 3 0 RP 0 3 5 6 7...
Page 291: ...RU 288 10 E 270 200 2 1 1 F IN 7 F OUT 7 1 GAS 1 3 1 BSP 25 8 2 1 2 30 25 mm 25 mm 8...
Page 293: ...RU 290 2 2 1 IN 9 OUT 9 D OUT 2 9 2 1 GAS 8 2 2 2 90 10 4 4 10...
Page 294: ...RU 291 2 2 3 3_ 5 F 1 1 5 11 x4 x4 1 5 F 1 3 _ 5 3 8 8 e sybox 7 e sybox30 50 3 1...
Page 301: ...RU 298 6 128x240 POWER COMM ALARM 12 6 MODE 1 SET 12 3 EEprom SET 6 SET MODE 5 5 6...
Page 302: ...RU 299 5 5 5 2 2 7 8 1 2 6 1 MODE SET MODE 7 2 2...
Page 304: ...RU 301 FF AY AE AF I1 1 I2 2 I3 3 I4 4 O1 1 O2 2 FW RF PW...
Page 305: ...RU 302 6 2 14 MODE 8 8 15 14 13...
Page 306: ...RU 303 2 298 9 GO SB DIS F1 F3 F4 P1 1 P2 2 P3 3 P4 4 EE EEprom 9 6 3 14...
Page 307: ...RU 304 GO SB 15 15 10 6 4 PW 6 5 RF PW 7 7 1 MODE MODE 7 1 1 7 1 2 RS 7 1 3 VP 7 1 4 VF...
Page 308: ...RU 305 7 1 9 11 SB F 8 F SB 7 1 10 2 11 7 1 5 PO PO 7 1 6 C1 A C1 7 1 7 7 1 8 PI 5 16...
Page 324: ...RU 321 6 7 9 9 1 6 1 2 1 2 3 18 4 5...
Page 325: ...RU 322 9 2 DAB 19 9 3 DAB 20 19 3 4 5 6 18...
Page 331: ...RU 328 1 3 C 1 1 1 4 D E 9 3 F 10 3 10 2 1 2 3 4 5 1 E 2 5 26 24 25...
Page 332: ...RU 329 6 10 3 1 27 2 F 10 1 27 3 27 4 27 5 6 2 D F 27 7 27 27 1 2 3 4 5 6...
Page 336: ...RU 333 12 10 4 3 2 SP RP 6 7 8 9 1 2 3 1 1 2 3 1 2 1 2 10 3 1 2 SP RP 1 2...
Page 337: ...RU 334 BL 1 2 3 RM 1 2 3 RM BP1 1 1 OC 1 2 1 2 PB 1 2 1 2 13 14...
Page 340: ......
Page 394: ......
Page 448: ......
Page 501: ...ROM N RO 498...
Page 504: ......
Page 505: ...GR 502 IEC 364 CEI 64 2 1000 Kg m3 1mm2 s i e sybox e sybox 30 50 e sybox H...
Page 506: ...GR 503 1 6 1 2 2 3 1 2 3 4 5 6 10 3 C 4 4 2 1 OUT 2 3 A B C D E F 1 A B E F...
Page 513: ...GR 510 2 2 1 C 9 C OUT 9 D OUT2 9 2 1 GAS e 8 2 2 2 90 10 4 4 10...
Page 514: ...GR 511 2 2 3 3_ 5 F 1 1 5 1 5 11 x4 x4 F 1 3_ 5 3 8 bar 8 e sybox 7 e sybox 30 50 3 1...
Page 522: ...GR 519 Setpoint 2 5 5 5 2 2 7 8 1 2 6 1 MODE SET Setpoint MODE 7 ONOMA TOY MENOY 2...
Page 540: ...GR 537 F4 KIWA Ix Ix 10 F4 11 C F4 12 F4 8 C F3 9 7 6 15 5 KIWA 18 Ix 1 7 6 2 1 F4 F4 2 18 17...
Page 545: ...GR 542 9 2 DAP 19 9 3 DAB 19 6 O ring 7 18 3 4 5 6...
Page 551: ...GR 548 C 1 1 1 4 D 9 3 24 25 F 10 3 10 2 1 2 3 4 5 1 2 5 6 26...
Page 552: ...GR 549 10 3 1 27 2 F 10 1 27 3 27 4 27 5 6 2 O Ring D F 27 7 27 27 1 2 3 4 5 6...
Page 556: ...GR 553 10 4 3 2 SP RP 1 2 3 4 1 2 3 1 1 2 3 1 2 1 2 10 3 1 2 SP RP 1 2...
Page 557: ...GR 554 BL 1 2 3 setpoint RM 1 2 3 RM setpoint BP1 1 1 OC 1 2 1 2 PB 1 2 1 2 13 14...
Page 560: ......
Page 616: ......
Page 669: ...T RK E TR 666...
Page 672: ......
Page 728: ......
Page 781: ...ESKY CZ 778...
Page 784: ......
Page 838: ......
Page 839: ...BG 836 1000 1 e sybox e sybox 30 50 e sybox IEC 364...
Page 841: ...BG 838 1 1 4 4 5 SP 3 0 bar RP 0 3 bar 5 6 7 5 6 7 1 2 2 SP RP 6 7 3 1...
Page 846: ...BG 843 270 B 200 A 10 D 2 2 1 C IN 9 C OUT 1 9 D OUT 2 9 1 GAS 8 2 2 2 0 90 10 4 4 4 10...
Page 847: ...BG 844 2 2 3 F 1 1 5 1 5 F 3 3_ 5 11 x4 x4 3 8 8 e sybox 7 e sybox30 50 3 1 A...
Page 854: ...BG 851 5 5 wireless wireless 8 2 1 2 6 1 MODE SET MODE 7 2 2 5 5 5 2 2 7...
Page 856: ...BG 853 FF Log AY AE AF I1 1 I2 2 I3 3 I4 4 O1 1 O2 Funzione uscita 2 FW RF PW...
Page 858: ...BG 855 2 76 9 GO SB DIS F1 F3 F4 P1 1 P2 2 P3 3 P4 4 E EE EEprom 9 6 3 rpm psi kW 14...
Page 874: ...BG 871 1 2 1 2 3 O 18 4 5 t O 6 7 18 3 4 5 6...
Page 875: ...BG 872 9 2 DAB 19 9 3 DAB 19 20 9 4 9 4 1 wireless 4 r 9 4 2 20...
Page 881: ...BG 878 27 7 27 27 1 2 3 4 5 6 10 4 1 27 2 3 4 10 5 1 2...
Page 884: ...BG 881 1 2 3 1 1 2 3 1 2 1 2 10 3 1 2 12 off t off 10 4 3 2 SP RP 1 2 3 4...
Page 885: ...BG 882 13 14 SP RP 1 2 BL 1 2 3 RM 1 2 3 RM BP1 1 1 OC 1 2 1 2 PB 1 2 1 2...
Page 886: ...BG 883...
Page 889: ......
Page 890: ...887 1mm2 s kg m 1000...
Page 891: ...888 A 1 2 3 4 5 6 B 4 C 1 1 B C D E F B E F 3 2...
Page 892: ...889 IN OUT D C 4 E 2 F 1 1 bar 0 SP 3 bar 3 RP 0 5 6 7 1 2 2 5 4 4...
Page 897: ...894 270 B 200 A 10 D 2 2 1 OUT 1 IN C 9 OUT 2 D GAS 2 2 2 90 4 4 10...
Page 898: ...895 2 2 3 1 5 3 8 7 8 3 1 A 3 2 11 x4 x4...
Page 899: ...896 SP RP 10 1 2 7 3 0 0 3 27 3 3 10 10 5 1 8 5 5 T2 4 3 2 1 E18 E19 E20 E21 Reset 15 PD FA...
Page 906: ...903...
Page 907: ...904 AY FF AE I1 1 I2 2 I3 3 I4 4 O1 1 O2 2 FW RF Reset PW Password...
Page 923: ...920 1 2 3 4 5 6 7 18 3 4 5 6...
Page 924: ...921 2 9 3 9 19 4 9 1 4 9 4 1 2 3 2 4 9 3 4 9 20...
Page 928: ...925 2 3 B 2 C 24 D 25 E 26 F 2 10 1 2 23 24 25 26...
Page 929: ...926 3 4 5 6 3 10 1 F 2 3 4 5 6 7 27 1 2 3 4 5 6...