background image

38

FA25

Set point hot start

-50.0

-58

110

230

°C

°F

Dec

int

FA26

H

ot start

 differential 

0.1

0

25.0

45

°C

°F

Dec

int

Pr2

Password

0

999

Parametri Resistenze Antigelo / Appoggio

Parameter 

Description

min

max

udm

Risoluzion

e

Ar01

Minimum anti-freeze set point 

-50.0

-58

Ar03

°C

°F

Dec

int

Ar02

Antifreeze maximum setpoint 

Ar03

110

230

°C

°F

Dec

int

Ar03

Antifreeze alarm set in chiller 

Ar01

Ar02

°C /°F

Dec/int

Ar04

Antifreeze alarm differential in chiller 

0

0

25.0

45

°C

°F

Dec

int

Ar05

Antifreeze alarm delay 

0

250

Sec

Ar06

Max. Number of interventions now antifreeze 

 

0

16

Ar07

Antifreeze alarm delay on departure in heat pump 

0

250

Sec

Ar08

Anti-freeze resistance set point in chiller 

-50.0

-58

110

230

°C

°F

Dec

int

Ar09

Antifreeze heater set point in heat pump 

-50.0

-58

110

230

°C

°F

Dec

int

Ar10

Set of external antifreeze heaters (water / water unit) 

-50.0

-58

110

230

°C

°F

Dec

int

Ar11

Anti-freeze resistance differential in chiller 

0.1

0

25.0

45

°C

°F

Dec

int

Ar12

Antifreeze heater resistance differential in heat pump 

0.1

0

25.0

45

°C

°F

Dec

int

Ar13

Activation of antifreeze heaters

0 = Activation with thermoregulator

1 = Activation with thermoregulator and defrost

0

1

Ar14

Anti-freeze resistance adjustment in chiller

0 = OFF in chiller

1 = ON in chiller

0

1

Ar15

Antifreeze heater resistance adjustment in heat pump

0 = OFF in heat pump

1 = ON in heat pump

0

1

Ar16

Thermoregulation of antifreeze heaters in chiller

0 = Rule on PB1

1 = Rule on PB2

2 = Rule on PB3

3 = Rule on PB4

0

3

Ar17

Anti-freeze resistance thermoregulation in heat pump

0 = Rule on PB1

1 = Rule on PB2

2 = Rule on PB3

3 = Rule on PB4

0

3

Evaporator water pump operation

Ar32

Condenser water pump activation in case of failure probe

0 = Off with probe failure

1 = On with probe failure

0

1

Pr2

Password

0

999

Defrost parameters

Parameter

Description

min

max

udm

Risoluzion

e

dF01

Defrost execution

0= No

1= Si

0

1

dF02

Defrost mode

0=

 Temperature / pressure

1= 

Time

2= 

External contact

0

2

dF03

Temperature start defrost pressure 

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

dF04

Defrost end pressure temperature 

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

dF05

T

Minimum waiting time before a forced defrost 

0

250

Sec

dF06

Minimum defrost duration 

0

250

Sec

dF07

Maximum defrost duration 

0

250

min

dF08

Waiting time in compressor OFF before

defrosting

0

250

Sec

dF09

Waiting time in compressor OFF after defrosting 

0

250

Sec

dF10

Minimum waiting time between 2 successive defrosts 

1

99

MIN

dF11

Set of combined defrost cycle start temperature after

count par. DF10

-50.0

-58

110

230

°C

°F

Dec

int

dF12

Set combined end defrost cycle temperature -

-50.0

-58

110

230

°C

°F

Dec

int

dF13

Forcing in ON second compressor in defrost

0 = Disabled

1 = Enabled

0

1

dF14

Enable ventilation ON during defrost / drip

0 = Disabled

1 = Defrost only enabled

2 = Defrosting, dripping enabled (dF09)

0

2

dF15

Set pressure / temperature forcing adjustment

condensation ventilation in defrost

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

dF16

Minimum defrost alarm

0 = Not enabled

1 = Enabled

0

1

dF17

Minimum alarm delay when reversing the 4-way valve

0

250

Sec

FA09

Maximum fan speed in summer 

30

100

%

FA10

Minimum fan speed temperature / pressure set in

summer

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA11

Set maximum temperature / pressure fan speed in

summer

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA12

Fan proportional band in summer

0.0

0

0.0

0

25.0

45

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA13

CUT-OFF summer differential 

0.0

0

0.0

0

25.0

45

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA14

Over ride CUT-OFF summer 

0.0

0

0.0

0

25.0

45

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA15

CUT-OFF delay time 

 

0

250

Sec

FA16

Speed night function summer 

30

100

%

FA17

Minimum fan speed in winter 

30

100

%

FA18

Maximum fan speed in winter 

30

100

%

FA19

Minimum fan speed temperature / pressure set in

winter

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA20

Set maximum temperature / pressure fan speed in

winter

-50.0

-58

0.0

0

110

230

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA21

Proportional fan band in winter 

0.0

0

0.0

0

25.0

45

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA22

Winter CUT-OFF differential 

0.0

0

0.0

0

25.0

45

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA23

Over ride CUT-OFF winter

0.0

0

0.0

0

25.0

45

50.0

725

°C

°F

Bar

Psi

Dec

int

Dec

int

FA24

Speed night function winter 

30

100

%

Hot Start function

Parameter 

Description

min

max

udm

Risoluzion

e

Ar18

Evaporator water pump / antifreeze heaters adjustment

in OFF-stand-by

0 = Disabled

1 = Activated

2 = Water pump adjustment / antifreeze heater on

PB4 probe configured as room probe

3 = Water pump adjustment / antifreeze heater on

PB4 probe configured as room probe with set separated

0

3

Ar19

Activation of the water pump / antifreeze heater in the event 

of probe failure

0 = Off with probe failure

1 = On with probe failure

0

1

Funzione Boiler

Parameter 

Description 

min

max

udm

Risolu

t

ion

Ar20

Boiler function

0 = Integration control

1 = Heating control

0

1

Ar21

Outdoor air set point to activate boiler resistors 

-50.0

-58

110

230

°C

°F

Dec

int

Ar22

Boiler resistance differential 

0.1

0

25.0

45

°C

°F

Dec

int

Ar23

Boiler function activation delay time 

0

250

Min 

Ar24

Resistance activation time delay No. 2 boiler 

0

250

Min

Ar25

Compressor deactivation outside air set 

-50.0

-58

110

230

°C

°F

Dec

Int

Ar26

Compressor activation external air differential 

0.1

0

25.0

45

°C

°F

Dec

int

Allarme antigelo in pompa di calore

Ar27

Antifreeze alarm set in operation heat 

Ar01

Ar02

°C /°F

Dec/int

Ar28

Antifreeze alarm differential in heat pump 

0

0

25.0

45

°C

°F

Dec

int

Evaporator / condenser water pump operation on room sensor

Ar29

Evaporator / condenser water pump activation set up

room probe

-50.0

-58

110

230

°C

°F

Dec

int

Ar30

Evaporator water pump activation differential /

condenser on room probe

0.1

0

25.0

45

°C

°F

Dec

int

Condenser water pump operation

Ar31

Condenser / heating water pump adjustment

antifreeze in OFF-stand-by

0 = Disabled

1 = Activated

2 = Water pump adjustment / antifreeze heater on

PB4 probe configured as room probe

3 = Water pump adjustment / antifreeze heater on

PB4 probe configured as room probe with separate sets

0

3

Evaporator water pump operation

Summary of Contents for HUB RADIATOR PACK CF 3.0

Page 1: ...ATION HUB RADIATOR PACK CF Factory made high efficiency integrated hybrid system patented heat pump with direct exchange refrigerant water to produce DHW heating and air conditioning HUB RADIATOR PACK...

Page 2: ...2...

Page 3: ...3 5 1 4 5 1 5 5 1 6 5 1 7 5 2 6 2 1 6 2 2 6 2 3 6 3 7 3 1 7 3 2 8 3 3 8 3 4 8 3 5 8 3 6 Pump Down 8 3 7 9 4 INSTALLATION OF INDOOR UNITS 10 4 1 Choosing the place of installation 10 4 2 Technical data...

Page 4: ...tructions 27 9 5 General system checks 27 10 START UP 27 10 1 First start up checks 27 10 2 Starting up 27 11 REPAIR COMPONENTS REPLACEMENTS 27 11 1 Refrigerant circuit 27 11 2 Drying and vacuum of th...

Page 5: ...be installed at wall or recessed the indoor unit is supplied complete with all the appropriate ones internal copper exchangers R410A refrigerant gas connections DHW connections air vent valve safety v...

Page 6: ...2 x 0 75 mm 2 x 2 20 A curv D Table 2 Tightening torque Torque Tightening min max N m 1 4 14 18 3 8 33 42 5 8 63 77 Table 3 Refrigerant charge m Max Add refrigerant quantity g m HR 3 0 5 15 5 20 HR 7...

Page 7: ...not compromise the product operation and or personal safety e of assets Make sure that the space at the back of the unit is greater than 30 cm The front must have more than 60 cm of space Ensure that...

Page 8: ...at each tube both the gas side tubes and the liquid between internal group and external group has been connected in the correct way and that all the wiring necessary for the testing have been carried...

Page 9: ...pressure gauge using the refrigerant gas Completely close the liquid valve Turn on the machine in cooling mode When the pressure of the pressure gauge goes from 0 to 0 5 kg 2G cm between 14 2 and 7 1...

Page 10: ...as connection 19 Gas connection R410A 5 8 4 1 CHOICE OF INSTALLATION SITE OF THE HYBRID SYSTEM When determining where to install the internal unit of the system hybrid HUB RADIATOR PACK CF take the fo...

Page 11: ...that the support surface is regular Use the bracket as a template and mark the position of the holes from to achieve x 3 Wilo Yonos Pico 25 18 60 4 5 7 5 4 75 4 6 3 4 3 4 1 2 1 2 230V 1 50Hz 1447 720...

Page 12: ...pipes the weight of which must not burden on the appliance properly insulate the pipes to find the right ones heat losses H Connect a special safety drain in correspondence of the 1 2 female threaded...

Page 13: ...or exclude them safety devices In the event of repeated shutdowns of the boiler it is necessary have the air intake flue gas exhaust ducts checked which may be blocked or inadequate for the disposal o...

Page 14: ...tion that the total path of the fumes from the exit point of the same from the terminal to their outlet from the external perimeter of the balcony including the height of the eventual balustrade of pr...

Page 15: ...temperatura di spegnimento dopo accensione bruciatore 0 20 0 DO NOT MODIFY THIS VALUE P61 Selezione allarme temperatura scarico fumi 20 150 105 P62 Not used P63 Not used P64 Not used P65 Anti legionel...

Page 16: ...0 1 1 DO NOT MODIFY P20 Selection of the minimum value of the DHW 35 50 35 P21 Low temperature zone selection 0 1 0 0 High temperature 1 Low temperature P22 Not used P23 Selection of pump activation t...

Page 17: ...bustion regulation CO2 4 7 3 CHECK AND ADJUSTMENT OF THE GAS VALVE PREMISE The boiler by means of the BEST function is suitable automatically combustion according to the conditions of installation the...

Page 18: ...s specified below Control operations general check of the integrity of the boiler check the tightness of the gas circuit of the boiler and the gas supply network to the boiler control of the boiler su...

Page 19: ...s network and the electricity grid The materials of which the boiler is made are all recyclable Once dismantled the boiler must be disposed of in compliance of the legislation in force in the country...

Page 20: ...o use the boiler only it is necessary to set IC to ON and set DC to EMERGENCY Simultaneously put the CD control in STAND BY by pressing the SUN button Booster terminal board Technical water probe Boos...

Page 21: ...the integration boiler it is necessary to set IC to ON and set DC to INTEGRATION In this way the control unit will decide when the help of the boiler is needed which will work in support of the heat...

Page 22: ...12 3 03 2 91 10 3 45 3 37 3 29 3 20 3 10 2 98 11 3 55 3 46 3 37 3 28 3 18 3 06 12 3 64 3 55 3 45 3 36 3 25 3 13 13 3 75 3 64 3 54 3 44 3 33 3 20 14 3 85 3 74 3 63 3 52 3 41 3 28 15 3 95 3 83 3 72 3 6...

Page 23: ...ting C 30 35 40 45 50 55 1 074 10 2 96 2 59 2 25 1 91 1 59 1 27 HR 3 0 9 3 04 2 67 2 32 1 98 1 65 1 33 8 3 14 2 75 2 39 2 05 1 71 1 39 7 3 23 2 84 2 47 2 12 1 78 1 46 6 3 32 2 92 2 54 2 19 1 84 1 52 5...

Page 24: ...cold water filter 19 Secondary plate heat exchanger 20 Domestic hot water temperature sensor 21 Automatic by pass integrated on plate heat exchanger 22 Motorized 3 way valve S Condensate drain G Gas i...

Page 25: ...an speed x100 TMax operating temperature in heating mode Total expansion vessel capacity 6 5 TECHNICAL FEATURES BOILER HUB RADIATOR PACK CF TECHNICAL FEATURES kW bar bar bar bar l min V Hz A W IP Kg m...

Page 26: ...d mode with the active boiler for DHW production and external booster in active heat pump to produce chilled water up to 4 C per power the hydronic terminals IC ON OFF O I CD 2 0 0 1 2 3 4 5 H m 4 6 8...

Page 27: ...UP Before proceeding with the commissioning of the appliance you need to make sure that the safety conditions and all the provisions listed in this manual has been complied with the fixing to the sup...

Page 28: ...inants that have been must be eliminated introduced to clean the circuit or to effect the operations carried out WARNING Do not inhale the refrigerant vapors coming from burned compressors as it can b...

Page 29: ...as to obtain a temperature of system delivery that increases in a way proportional to decreasing air temperature external To proceed with this function set the value of the parameter ST08 and ST03 at...

Page 30: ...ler Boiler differential boiler Boiler activation delay time boiler SET POINT external air compressor deactivation Compressor activation external air differential PARAMETERS OF ALARMS FUNCTIONS Probe f...

Page 31: ...bled but not active the icon is off ___________________________________________________ On during access to the functions menui ___________________________________________________ Lit if the resistanc...

Page 32: ...ws exit from parameter programming 2 contemporary pressure prolonged keys allows entry into manual defrost ___________________________________________________ Remote terminal Regarding the use of the...

Page 33: ...ure falls below 90 C P1 probe alarm PB1 probe alarm PB2 probe alarm PB3 faulty probe or resistive value out of range faulty probe or resistive value out of range probe alarm PB4 faulty probe or resist...

Page 34: ...al probe 3 Substitution of tract 1 Replacement of the outdoor unit probe 2 Connection cable replacement external probe 3 Substitution of tract 1 Thermostat replacement 2 External booster recharge 3 co...

Page 35: ...int ST21 Set massimo ambiente in chiller ST18 110 230 C F Dec int ST22 Set point ambiente in p d c ST24 ST25 C F dec int ST23 Differenziale ambiente in p d c 0 0 0 25 0 45 C F Dec int ST24 Set minimo...

Page 36: ...pen contact 0 1 CF16 Polarity ID5 0 Active close contact 1 Active open contact 0 1 ventilatore di mandata 13 Allarme termica pompa acqua condensatore 14 Flussostato condensatore CF09 CONFIGURATION ID2...

Page 37: ...sent 1 Continuous operation in ON OFF output 2 Operation on compressor request 3 Continuous output operation 4 20mA 4 Operation on request of the compressor 4 20mA 0 4 CO12 Compressor 0 Enabled 1 OFF...

Page 38: ...6 Minimum defrost alarm 0 Not enabled 1 Enabled 0 1 dF17 Minimum alarm delay when reversing the 4 way valve 0 250 Sec FA09 Maximum fan speed in summer 30 100 FA10 Minimum fan speed temperature pressur...

Page 39: ...utput relay polarity 0 Output without voltage in normal conditions with voltage in the presence of an alarm 1 Output with voltage in normal conditions without voltage in the presence of an alarm 0 1 A...

Page 40: ...CE dei prodotti comporta il controllo costante of production with the aim of guaranteeing the conformity of the appliances with the safety and performance characteristics of the verified samples The...

Page 41: ..._________ Raffrescamento estivo Produzione ACS Riscaldamento Distanza tra unit interna ed esterna max 15 m Dislivello tra unit interna ed esterna max 5 m Le tubazioni delle linee frigorifere 1 4 3 8 p...

Page 42: ..._________________________________________________________ Attenzione la mancata effettuazione del primo avviamento per cause non dipendenti dall unit comporter una seconda visita la quale sar a voi di...

Page 43: ..._____________ ___________ ________________ BOOSTER POSIZIONATO A TERRA A MURO A FINESTRA SU STAFFE ANTIVIBRANTI MENSOLE A TETTO ALTRO SU BASI A SOSPENSIONE A RINGHIERA INSTALLAZIONE CON PONTEGGIO SI N...

Page 44: ...AICO SPENTO FUNZIONAMENTO IN POMPA DI CALORE BOOSTER 1 TEMPERATURA DI EVAPORAZIONE U E C Pb3 _______ TEMPERATURA ACQUA TECNICA C Pb1 _______ NB TEMPERTATURA DI INIZIO CONDENSAZIONE C _______ Attendere...

Page 45: ...ence must be made to the natural or legal person who has purchased the Product regardless of whether the seller is A2B ACCORRONI E G or other person marketing branded products A2B ACCORRONI E G This w...

Page 46: ...rroni mediante ogni opportuna operazione di trattamento manuale ed informatico per finalit funzionali all adempimento degli obblighi derivanti dal contratto di fornitura di beni servizi da parte di Ac...

Page 47: ...provisions of the law on the subject of deduction for the energy requalification costs of the existing building heritage the A2B Accorroni E G Ltd DECLARES that the product complies with the European...

Page 48: ...corroni E G s r l Via d Ancona 37 60027 Osimo An Tel 071 723991 web site www accorroni it e mail a2b accorroni it A2B Accorroni E G S r l reserve the right to make changes without prior notice TECHNIC...

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