aeroterma-tavan-r+c-(3-10-kw)-elegant_carte-tehnica_en
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ICIMISO 9001 - Cert. n° 0545/2
Unit heatersRadiant panels
Fan coilsAir handling units
Chimneys
Air Conditioning
Ceiling Air Conditioning Elegant
ENVIRONMENTAL COMFORT
SABIANASabiana s.p.a. • via Piave, 53 • 20011 Corbetta • Milano • Italy • phone +39.02.97203.1 r.a. / +39.02.97270429 / +39.02.97270576
fax +39.02.9777282 / +39.02.9772820 • www.sabiana.it • info@sabiana.it
Air ConditioningCeiling Air Conditioning Elegant
ENVIRONMENTAL COMFORT
SABIANA
EL -
07/
03RE
VISI
ONE
A Copertina "ELEGANT" (B. & N.) 27-06-2003 15:46 Pagina 1
A i r Cond i t i on ing
ENVIRONMENTAL COMFORT
SABIANA
Copertina "ELEGANT" (B. & N.) 27-06-2003 15:46 Pagina 2
3
Introduction
The Elegant Sabiana air conditioners allow, at veryeconomical cost, to heat and cool small and mediumsize environments, like shops, show rooms,workshops, supermarkets.
The range is made up of 15 models: 10 RE models,for heating only and 5 PE models, for heating andcooling. All models are for ceiling installation and forhot/chilled water supply.
The air conditioners are supplied with a 3 speedmotor. On request motors with integrated electroniccircuit are avaible, they allow to control the air flowfrom 0 to 100%.
The intake of the air is from the bottom side of theunit and the air supply is from the 4 lateral gridswhich have individually controllable louvres for thebest distribution of the air.
The connection to the battery can be made eitherfrom the upper or from the lateral side, in accordanceto the installation with or without false ceiling.
The condensate drain is made through anelectronically controlled micro-pump, supplied onevery standard PE model.
Different remote controls of the air flow and ofthe room temperature are available and it ispossible to control up to 10 units with only 1remote control.
Beside the low installation and running cost, theElegant air conditioners offer the followingadvantages:
they take a low amount of the valuable space inthe room, there is not any ducting system and thewalls are free.
they are versatile and provide flexibility ofinstallation: also where there is no false ceiling itis possible to distribute the air evenly.
they provide easy control and are easilyinstalled.
4
CASING
The casing is made of steel onboth top and bottom sections andit is designed to give greaterstrength and quieter operation.The casing is then phosphatisedand finished with an epoxy-polyester powder coating dried at180°, in white RAL 9010.The lower casing is also thecondensate collection tray.The casing is fitted withgalvanized steel screws and so itis possible to quickly dismantle itfor inspection when needed.
PACKAGING
Every Elegant air conditioner issupplied in a robust cardboardbox with the relevant installationand maintenance manual.
CONDENSATE MICRO-PUMP
The PE model for cooling isalways supplied with an integralmicro-pump (discharge head 3m,water flow 6l/h). The pump isinstalled in the condensatecollected tray. This pump controlsthe level of the condensatecollected in the tray and eliminateit when necessary.
To prevent the pump fromblocking and malfunctions in thecondensate detection system,check that there are no significantquantities of oil in suspensionand/or dust in the room beingtreated.
ELECTRIC MOTOR
Standard motors are with closedframe, IP44 protection, F classisolation, 3 speeds, for 230V-1PH-50HZ supply. The motor isfitted on its support by the meansof anti-vibrating mounting.
HELICOIDAL FAN
The fan is with aluminium bladesstatically and dynamicallybalanced. Its rational high-capacity profile provides themaximum air volume with theminimum energy consumption.The fan hub is secured onto themotor shaft and it is protectedby a finger proof guard.
OUTLET GRIDS
The discharge of the air isobtained through 4 grids on the 4lateral sides. The grids are madeof steel, painted with epoxy-polyester powder. They are madeby a frame in which the louvresare individually adjustable. It isvery easy to take off these grids,allowing for easy maintenance ofthe battery and of the condensatetray.
HEAT EXCHANGER
The heat exchanger of the ElegantSABIANA has a circular shape andis constructed of copper tubes withaluminium fins and steel headers.The supply and return connectionshave a female threading, 1” diameter,and they allow the connection eithervertically from above or horizontallyfrom a side.The battery is supplied in two versions:with 1 row and with 2 rows.
5
Installation
Installation without false ceiling Installation with false ceiling
“RE” Modelonly heating
WARNING
In cooling systems- always install the unit with a small inclination
towards the hydraulic connections side,in order to allow a good suctionof the condensate micro-pump.
- you are recommended to shut off the watersupply to the coil using the 2/3-way valves,electrically connected to the control withthermostat, to avoid condensation formingon the outside of the unit.
“PE” Modelheating and cooling
1 ROW BATTERY(only heating)
Weight Kg
Watercontent l
2 ROW BATTERY(heating and cooling)
Weight Kg
Watercontent l
Dim
ensi
on
mm
Dim
ensi
on
mm
Female
6
Dimension, weight, water content
Maximun working pressure: 10 bar Battery test pressure: 22 bar
Air temperature: +20°CWater temperature: 70/60°C
Air temperature: +27°C d.b./ +19°C w.b./ 46% R.H.Water temperature: 7/12°C
HEATING
COOLING
High speed
MaximumHeight
m.
SurfaceR=m
Low speed
MaximumHeight
m.
SurfaceR=m
7
Main technical figures
MOD.
Heating
CoolingAir flow
Noise pressurelevelat 4 m.
Electric motor
IP44
Emission
High speed
Med speed
Low speed
Total emission
High speed
Med speed
Low speed
High speed
Med speed
Low speed
High speed
Med speed
Low speed
230V - 1Ph 50Hz
kW
kW
kW
kW
kW
kW
m3/h
m3/h
m3/h
dB(A)
dB(A)
dB(A)
W
A
µF
RE11
RE21
RE31
RE41
RE51 RE 12
PE 12
RE 22
PE 22
RE 32
PE 32
RE 42
PE 42
RE 52
PE 52
8.3 10.3 11.9 14.0 15.6
7.3 9.1 10.6 12.0 13.7
6.6 8.1 9.5 10.8 12.2
- - - - -
- - - - -
- - - - -
1750 2350 3200 4500 5300
1350 1850 2500 3000 4300
1100 1450 2100 2400 3400
49 52 53 56 58
43 48 48 49 53
37 41 42 43 49
102 196 221 275 400
0.5 1.0 1.1 1.3 1.7
2.5 2.5 4 5 8
13.9
11.9
10.1
17.7
15.2
12.8
20.8
17.9
15.7
24.3
20.3
18.3
27.1
23.4
20.3
1650
1250
1000
2200
1700
1300
3000
2300
1900
4300
2800
2200
5000
3900
3100
49
43
37
52
48
41
53
48
42
56
49
43
58
53
49
102
0.5
2.5
196
1.0
2.5
221
1.1
4
275
1.3
5
400
1.7
8
Tot. Sens.
4.93 4.20
4.24 3.48
3.72 2.98
Tot. Sens.
6.82 5.66
5.92 4.76
5.06 3.96
Tot. Sens.
8.20 7.04
7.16 5.92
6.45 5.22
Tot. Sens.
9.59 8.98
7.80 6.81
6.87 5.80
Tot. Sens.
10.26 9.88
9.17 8.44
8.21 7.28
8
1 row battery, heating emission
(RE model)
Entering air temperature + 20°C
Waterflow
l/h
Water temperature °CE.W.T. 50 L.W.T. 40
Emission
kW
L.A.T.
°C
∆pwater
kPa
Waterflow
l/h
Water temperature °CE.W.T. 70 L.W.T. 60
Emission
kW
L.A.T.
°C
∆pwater
kPa
Waterflow
l/h
Water temperature °CE.W.T. 85 L.W.T. 75
Emission
kW
L.A.T.
°C
∆pwater
kPa
361
318
292
438
395
352
507
456
413
585
510
464
645
568
516
4.2
3.7
3.4
5.1
4.6
4.1
5.9
5.3
4.8
6.8
5.9
5.4
7.5
6.6
6.0
26
27
28
26
27
28
25
26
26
25
26
27
24
25
25
5
4
3
2
1
1
3
2
2
2
2
1
3
3
2
714
628
568
885
782
696
1023
911
817
1202
1028
929
1341
1178
1050
8.3
7.3
6.6
10.3
9.1
8.1
11.9
10.6
9.5
14.0
12.0
10.8
15.6
13.7
12.2
32
34
36
32
34
35
31
32
33
30
31
33
29
30
31
17
13
10
7
5
5
11
8
7
9
7
6
13
10
8
989
860
774
1221
1085
954
1419
1264
1226
1678
1439
1298
1857
1634
1462
11.5
10.0
9.0
14.2
12.6
11.1
16.5
14.7
13.1
19.5
16.7
15.1
21.6
19.0
17.0
37
39
41
37
39
41
35
37
37
34
36
38
32
34
35
29
23
18
13
10
8
19
15
12
17
12
10
24
18
14
RE11
Low
Med
High
1100
1350
1750
RE21
Low
Med
High
1450
1850
2350
RE31
Low
Med
High
2100
2500
3200
RE41
Low
Med
High
2400
3000
4500
RE51
Low
Med
High
3400
4300
5300
Mod. Speed
Air
flow
m3/h
+ 14
+ 16
+ 18
+ 20
+ 22
+ 24
+ 26
1.24
1.16
1.08
1.00
0.92
0.84
0.76
1.13
1.09
1.04
1.00
0.95
0.91
0.86
1.10
1.06
1.03
1.00
0.96
0.93
0.90
Entering air
temperature
°C
Water temperature °C
50/40 70/60 85/75
Correction factorsfor different conditions
9
Entering air temperature + 20°C
2 row battery, heating emission
(RE model)
Waterflow
l/h
Water temperature °CE.W.T. 50 L.W.T. 40
Emission
kW
L.A.T.
°C
∆pwater
kPa
Waterflow
l/h
Water temperature °CE.W.T. 70 L.W.T. 60
Emission
kW
L.A.T.
°C
∆pwater
kPa
Waterflow
l/h
Water temperature °CE.W.T. 85 L.W.T. 75
Emission
kW
L.A.T.
°C
∆pwater
kPa
605
520
435
791
688
567
920
678
714
1036
876
782
1152
998
886
7.0
6.1
5.1
9.2
8.0
6.6
10.7
9.4
8.3
12.1
10.2
9.1
13.4
11.6
10.3
31
32
33
31
33
34
30
31
32
29
30
32
28
29
30
1
1
1
4
3
2
6
4
4
2
1
1
3
2
1
1195
1023
868
1522
1307
1100
1789
1540
1350
2087
1745
1574
2330
2012
1746
13.9
11.9
10.1
17.7
15.2
12.8
20.8
17.9
15.7
24.3
20.3
18.3
27.1
23.4
20.3
42
45
47
42
45
47
40
42
43
38
41
44
36
38
40
6
4
3
12
9
7
18
13
10
7
5
4
10
7
6
1780
1505
1290
2080
1789
1505
2450
2124
1850
2902
2404
2124
3233
2803
2434
20.7
17.5
15.0
24.2
20.8
17.5
28.5
24.7
21.5
33.8
28.0
24.7
37.6
32.6
28.3
53
56
59
50
53
57
48
50
52
46
49
52
43
45
48
12
8
7
21
15
12
31
24
19
13
9
7
18
13
10
RE12
Low
Med
High
1000
1250
1650
RE22
Low
Med
High
1300
1700
2200
RE32
Low
Med
High
1900
2300
3000
RE42
Low
Med
High
2200
2800
4300
RE52
Low
Med
High
3100
3900
5000
Mod. Speed
Air
flow
m3/h
+ 14
+ 16
+ 18
+ 20
+ 22
+ 24
+ 26
1.24
1.16
1.08
1.00
0.92
0.84
0.76
1.13
1.09
1.04
1.00
0.95
0.91
0.86
1.10
1.06
1.03
1.00
0.96
0.93
0.90
Enteringair
temperature
°C
Water temperature °C
50/40 70/60 85/75
Correction factorsfor different conditions
10
Cooling emission (PE model)
Entering air temperature + 28°C; relative humidity 55%
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
1274
1091
956
1736
1503
1281
2087
1819
1636
2499
2027
1780
2673
2388
2135
7.41
6.35
5.56
10.10
8.74
7.45
12.14
10.58
9.52
14.53
11.79
10.35
15.54
13.89
12.42
4.76
3.98
3.43
6.40
5.43
4.54
7.89
6.70
5.93
9.96
7.68
6.60
10.89
9.40
8.18
19.2
18.3
17.6
19.1
18.3
17.4
20
19.1
18.5
20.9
19.6
18.9
21.4
20.7
20
16
12
10
32
25
19
45
36
30
20
14
11
23
19
15
1072
920
808
1469
1275
1089
1765
1540
1388
2090
1701
1497
2235
1998
1790
6.24
5.35
4.70
8.55
7.42
6.33
10.27
8.96
8.07
12.16
9.89
8.71
13.00
11.63
10.41
4.31
3.60
3.09
5.81
4.91
4.10
7.19
6.08
5.37
9.10
6.98
5.97
9.98
8.58
7.44
20
19.2
18.6
20
19.2
18.4
20.7
20
19.4
21.6
20.4
19.7
21.9
21.3
20.7
12
9
7
24
19
14
33
26
22
15
10
8
16
14
11
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
751
648
571
1044
910
781
1253
1097
992
1447
1184
1047
1546
1386
1245
4.37
3.77
3.32
6.08
5.29
4.54
7.29
6.38
5.77
8.42
6.89
6.09
8.99
8.06
7.24
3.65
3.02
2.59
4.92
4.14
3.44
6.13
5.15
4.54
7.82
5.92
5.04
8.61
7.35
6.33
21.3
20.6
20.1
21.2
20.6
19.9
21.8
21.2
20.7
22.5
21.6
21
22.8
22.3
21.8
6
5
4
13
10
8
18
14
12
8
6
5
9
7
6
554
461
402
755
649
559
936
782
709
1160
893
765
1267
1095
952
3.22
2.68
2.34
4.39
3.78
3.25
5.45
4.55
4.12
6.75
5.20
4.45
7.37
6.37
5.54
3.22
2.68
2.26
4.39
3.63
3.00
5.45
4.54
3.98
6.75
5.20
4.45
7.37
6.37
5.54
22.1
21.5
21.1
21.9
21.5
21
22.5
22
21.6
23.2
22.3
21.8
23.5
23
22.6
4
3
2
7
6
5
11
8
7
5
4
3
6
5
4
Water temperature 10/15 °C Water temperature 12/17 °C
Mod. Speed
Air
flow
m3/h
Water
flow
l/h
Water temperature 5/10 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Emission
kWWater
flow
l/h
Water temperature 7/12 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Emission
kW
A sensible heat figure higher than a total heat figure shows that the cooling is obtained without dehumidification,therefore the emission to refer to is the sensible one.
11
Entering air temperature + 27°C; relative humidity 55%
Cooling emission (PE model)
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
1161
994
871
1586
1373
1170
1909
1662
1496
2276
1845
1621
2435
2175
1944
6.75
5.78
5.06
9.23
7.99
6.81
11.10
9.67
8.70
13.24
10.73
9.43
14.16
12.65
11.31
4.54
3.79
3.27
6.12
5.18
4.33
7.55
6.40
5.66
9.54
7.34
6.29
10.43
8.99
7.82
18.7
17.8
17.1
18.6
17.8
16.9
19.4
18.6
18
20.3
19
18.3
20.7
20
19.3
13
10
8
27
21
16
39
31
25
17
12
10
19
16
13
960
824
723
1320
1146
979
1587
1385
1248
1868
1520
1339
1999
1787
1600
5.58
4.79
4.21
7.68
6.67
5.69
9.23
8.06
7.26
10.87
8.84
7.79
11.63
10.39
9.31
4.09
3.41
2.93
5.52
4.66
3.89
6.84
5.78
5.10
8.67
6.62
5.66
9.51
8.16
7.06
19.5
18.7
18.1
19.4
18.7
17.9
20.1
19.4
18.9
20.9
19.8
19.2
21.2
20.6
20.1
10
7
6
20
15
12
28
22
18
12
9
7
14
11
9
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
640
552
487
896
781
671
1076
942
852
1259
1006
890
1375
1188
1057
3.72
3.21
2.83
5.21
4.54
3.90
6.26
5.48
4.95
7.32
5.85
5.18
8.00
6.91
6.15
3.42
2.83
2.42
4.62
3.88
3.22
5.78
4.84
4.26
7.32
5.56
4.72
8.00
6.91
5.95
20.7
20.1
19.6
20.6
20.1
19.5
21.2
20.6
20.2
21.8
21
20.5
22.1
21.6
21.2
5
4
3
10
8
6
14
11
9
6
4
4
7
6
5
506
422
362
691
583
486
857
725
640
1056
815
698
1153
997
868
2.94
2.45
2.11
4.02
3.39
2.82
4.98
4.21
3.72
6.14
4.74
4.06
6.71
5.80
5.05
2.94
2.45
2.11
4.02
3.39
2.82
4.98
4.21
3.72
6.14
4.74
4.06
6.71
5.80
5.05
21.6
21
20.6
21.5
20.9
20.4
22
21.4
21.1
22.7
21.9
21.4
22.9
22.5
22.1
3
3
2
6
5
4
9
7
6
5
3
2
5
4
3
Water temperature 10/15 °C Water temperature 12/17 °C
Mod. Speed
Air
flow
m3/h
Water
flow
l/h
Water temperature 5/10 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Elission
kWWater
flow
l/h
Water temperature 7/12 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Elission
kW
A sensible heat figure higher than a total heat figure shows that the cooling is obtained without dehumidification,therefore the emission to refer to is the sensible one.
12
Cooling emission (PE model)
Entering air temperature + 26°C; relative humidity 55%
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
1051
900
788
1440
1247
1063
1735
1510
1359
2058
1668
1466
2202
1966
1758
6.11
5.23
4.59
8.38
7.25
6.18
10.09
8.78
7.90
11.97
9.70
8.53
12.81
11.44
10.22
4.32
3.60
3.10
5.83
4.93
4.12
7.20
6.10
5.39
9.10
6.98
5.98
9.97
8.58
7.44
18.1
17.3
16.6
18
17.2
16.4
18.7
18
17.4
19.6
18.5
17.8
20
19.3
18.7
11
9
7
23
18
14
33
26
22
14
10
8
16
13
11
850
730
642
1175
1020
872
1413
1233
1112
1653
1345
1185
1768
1580
1415
4.94
4.25
3.73
6.83
5.93
5.07
8.22
7.17
6.47
9.61
7.82
6.89
10.28
9.19
8.23
3.87
3.22
2.76
5.22
4.40
3.67
6.48
5.47
4.82
8.22
6.27
5.35
9.03
7.74
6.69
18.9
18.2
17.6
18.8
18.2
17.5
19.5
18.8
18.3
20.2
19.2
18.6
20.5
20
19.5
8
6
5
16
13
10
23
18
15
10
7
6
11
9
8
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
553
459
405
751
655
563
934
791
715
1155
890
763
1261
1090
948
3.21
2.67
2.36
4.37
3.81
3.28
5.44
4.60
4.16
6.72
5.18
4.44
7.33
6.34
5.52
3.21
2.64
2.25
4.32
3.62
3.00
5.44
4.52
3.97
6.72
5.18
4.44
7.33
6.34
5.52
20.1
19.6
19.2
20.1
19.6
19
20.5
20.1
19.7
21.3
20.4
19.9
21.6
21.1
20.6
4
3
2
7
6
5
11
8
7
5
4
3
6
5
4
458
382
328
627
530
441
777
658
581
952
736
631
1039
899
783
2.66
2.22
1.91
3.65
3.08
2.57
4.52
3.83
3.38
5.54
4.28
3.67
6.04
5.23
4.56
2.66
2.22
1.91
3.65
3.08
2.57
4.52
3.83
3.38
5.54
4.28
3.67
6.04
5.23
4.56
21.1
20.6
20.2
21
20.5
20
21.4
21
20.6
22.1
21.4
21
22.3
21.9
21.6
3
2
2
5
4
3
8
6
5
4
3
2
5
4
3
Water temperature 10/15 °C Water temperature 12/17 °C
Mod. Speed
Air
flow
m3/h
Water
flow
l/h
Water temperature 5/10 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Emission
kWWater
flow
l/h
Water temperature 7/12 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Emission
kW
A sensible heat figure higher than a total heat figure shows that the cooling is obtained without dehumidification,therefore the emission to refer to is the sensible one.
13
Entering air temperature + 27°C; relative humidity 46%
Cooling emission (PE model)
Low
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
1048
898
787
1437
1244
1060
1731
1507
1356
2054
1665
1462
2198
1962
1754
6.10
5.22
4.57
8.36
7.24
6.17
10.07
8.77
7.88
11.95
9.68
8.51
12.80
11.41
10.20
4.65
3.87
3.32
6.26
5.28
4.40
7.76
6.55
5.78
9.86
7.53
6.43
10.82
9.28
8.04
18.4
17.6
16.9
18.4
17.6
16.7
19.1
18.4
17.8
20
18.8
18.1
20.4
19.8
19.1
11
9
7
23
18
14
33
26
21
14
10
8
16
13
11
848
728
640
1172
1017
869
1409
1230
1109
1649
1341
1181
1764
1576
1412
4.93
4.24
3.72
6.82
5.92
5.06
8.20
7.16
6.45
9.59
7.80
6.87
10.26
9.17
8.21
4.20
3.48
2.98
5.66
4.76
3.96
7.04
5.92
5.22
8.98
6.81
5.80
9.88
8.44
7.28
19.3
18.5
17.9
19.2
18.5
17.8
19.9
19.2
18.7
20.7
19.6
19
21
20.4
19.9
8
6
5
16
13
10
23
18
15
10
7
6
11
9
8
PE12
Low
Med
High
1000
1250
1650
PE22
Low
Med
High
1300
1700
2200
PE32
Low
Med
High
1900
2300
3000
PE42
Low
Med
High
2200
2800
4300
PE52
Low
Med
High
3100
3900
5000
601
500
429
818
690
574
1014
857
756
1259
969
830
1375
1188
1033
3.50
2.91
2.50
4.76
4.01
3.34
5.90
4.98
4.40
7.32
5.64
4.83
8.00
6.91
6.01
3.50
2.91
2.50
4.76
4.01
3.34
5.90
4.98
4.40
7.32
5.64
4.83
8.00
6.91
6.01
20.6
19.9
19.4
20.4
19.8
19.2
21
20.4
20
21.8
20.9
20.3
22.1
21.6
21.1
4
3
3
9
6
5
13
10
8
6
4
3
7
6
4
506
422
362
691
584
486
857
725
640
1057
815
698
1153
997
868
2.94
2.45
2.11
4.02
3.39
2.82
4.98
4.22
3.72
6.15
4.74
4.06
6.71
5.80
5.05
2.94
2.45
2.11
4.02
3.39
2.82
4.98
4.22
3.72
6.15
4.74
4.06
6.71
5.80
5.05
21.6
21
20.6
21.5
20.9
20.4
22
21.4
21.1
22.7
21.9
21.4
22.9
22.5
22.1
3
3
2
6
5
4
9
7
6
5
3
2
5
4
3
Water temperature 10/15 °C Water temperature 12/17 °C
Mod. Speed
Air
flow
m3/h
Water
flow
l/h
Water temperature 5/10 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Emission
kWWater
flow
l/h
Water temperature 7/12 °C
L.A.T.
°C
∆p
water
kPaTotal Sensible
Emission
kW
A sensible heat figure higher than a total heat figure shows that the cooling is obtained without dehumidification,therefore the emission to refer to is the sensible one.
Model1
2 - 34 - 5
AGrey
GreenGreen
BVioletVioletRed
COrangeOrangeViolet
DRedRed
Arancio
20° °C
The thermostat controls the fan, ON-OFF.
TMO-T electronic room thermostat
- ON-OFF switch.- 3 speed switch.- Winter/Summer switch.- Room thermostat.
The thermostat controls the valve.The fan runs continuously at the selected speed.
The thermostat controls the valve. The fan runs continuously at the selected speed.
Respect the electric wirings below (RE model with TMO-T)
Respect the electric wirings below (PE model with TMO-T)
TMO-TCode 9060161
14
Electronic controls and electric wirings
Model1
2 - 34 - 5
AGrey
GreenGreen
BVioletVioletRed
COrangeOrangeViolet
DRedRed
Arancio
Slave speed switch
Up to 10 units can be controlledby one central control, model TMO-T (code 9060161).
On each unit the slave speed switch (code 9041045)must be fitted on board.
MO-3V remote manual speed switch
- ON-OFF switch.- 3 speed switch.
MO-3VCode 9060160
Electric wiring (RE with MO-3V)
3 speed switch
15
Speed switchCode 9041045
Mod.
A
B
C
D
E
F
G
MFC
US
CM
EL
1
Grey
Violet
Orange
Red
2 - 3
Green
Violet
Orange
Red
4 - 5
Green
Red
Violet
Orange
Blue
Brown
Yellow / Green
Fan-Coil Terminal Board
Safety switch
Condensate Micro-pump
Water valve
Wiring diagram (Slave with TMO-T)
RE RE - PE
Model1
2 - 34 - 5
AGrey
GreenGreen
BVioletVioletRed
COrangeOrangeViolet
DRedRed
Arancio
16
Electric wiring with TMO-DI
Automatic electronic thermostat TMO-DI
- Manual or automatic speed switch.- Manual or centralized Summer/Winter switch.- Electronic thermostat for fan control(ON-OFF).- Electronic thermostat for valve control (ON-OFF).- It allows to control the low temperature cut-out
thermostat TME.
TMO-DI Code 9060163
Electric wiring of slave switches (code 9060138) for TMO-DI
Fan motor with 0/100% speed control
On demand, a special motoris available for the progressive controlof the fan speed from 0 to 100%in order to obtainthe desired performance.
17
Accessories
Condensate alarm sensor
This alarm sensor has to be installedby the mechanical engeneer and itstops the water supply in case themicro-pump is not working.The sensor has to be fitted at theinternal vertical part of the lowercasing, close to the connections andat 10 mm. from the bottom.In case of need the control stops thefan and the valve and the alarm led isswitched on.The use of the valve is suggested inorder to stop the water supply.
3 Washer for screw M8
Screw M8 x 16
Eye bolt female M8
2
1
18
Accessories
3 way valve + connection kit
Composed by:- one 3-way valve 3/4” KVS 4,7- one actuator- pipe connections
Hanging brackets
Composed by4 eye bolts and screws
Cover panel
To be fitted onthe fan guard
A i r Cond i t i on ing
ENVIRONMENTAL COMFORT
SABIANA
Copertina "ELEGANT" (B. & N.) 27-06-2003 15:46 Pagina 2
ICIMISO 9001 - Cert. n° 0545/2
Unit heatersRadiant panels
Fan coilsAir handling units
Chimneys
Air Conditioning
Ceiling Air Conditioning Elegant
ENVIRONMENTAL COMFORT
SABIANASabiana s.p.a. • via Piave, 53 • 20011 Corbetta • Milano • Italy • phone +39.02.97203.1 r.a. / +39.02.97270429 / +39.02.97270576
fax +39.02.9777282 / +39.02.9772820 • www.sabiana.it • info@sabiana.it
Air ConditioningCeiling Air Conditioning Elegant
ENVIRONMENTAL COMFORT
SABIANA
EL -
07/
03RE
VISI
ONE
A
Copertina "ELEGANT" (B. & N.) 27-06-2003 15:46 Pagina 1
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