Airwell CW-AR Installation and Maintenance Manual

Marca: Airwell

Modello: CW-AR

Categoria: Condizionatori d'aria a sistema split

Tipo: Installation and Maintenance Manual

Questo manuale è adatto anche per

CW-AR 7/12

English

IOM CWAR 01-N-3GB

Part number / Code / Teil Nummer / Codice / Código : 3990657GB

Supersedes / Annule et remplace / Annulliert und ersetzt /

Annulla e sostituisce / Anula y sustituye : IOM CWAR 01-N-2GB

Français EspañolDeutsch Italiano

WATER SOURCE HEAT PUMP

POMPE A CHALEUR SUR BOUCLE D’EAU

WÄRMEPUMPE AN WASSERSCHLEIFE

POMPA DI CALORE SU CIRCUITO DI ACQUA

BOMBA DE CALOR EN CIRCUITO DE AGUA

Installation and maintenance manual

Manuel d’installation et de maintenance

Installations- und Wartungshandbuch

Manuale di installazione e di manutenzione

Manual de instalación y de mantenimiento

IOM CWAR 01-N-3

Part number / Code / Teil Nummer / Codice / Código : 3990657

Supersedes / Annule et remplace / Annulliert und ersetzt /

Annulla e sostituisce / Anula y sustituye : IOM CWAR 01-N-2

1.7

2.8 kW

2.0

3.2 kW

CW-AR

7 ÷ 12

INSTALLATION INSTRUCTION

NOTICE D’INSTALLATION

INSTALLATIONSHANDBUCH

ISTRUZIONI INSTALLAZIONE

INSTRUCCIONES DE INSTALACIÓN

CONTENTS

1. GENERAL RECOMMENDATIONS ................................................................................................................................ 3

1.1. SAFETY DIRECTIONS .................................................................................................................................................................................... 3

1.2. WARNING .................................................................................................................................................................................................... 3

1.3. EQUIPMENT SAFETY DATA ............................................................................................................................................................................ 4

2. INSPECTION AND STORAGE .....................................................................................................................................5

3. WARRANTY................................................................................................................................................................5

4. CONTENTS OF PACKAGE ..........................................................................................................................................5

5. TECHNICAL SPECIFICATIONS .................................................................................................................................... 6

5.1. OPERATING LIMITS ....................................................................................................................................................................................... 6

6. DIMENSIONS .............................................................................................................................................................7

7. HANDLING ................................................................................................................................................................7

7.1. NET WEIGHT ................................................................................................................................................................................................ 7

8. ELECTRIC SPECIFICATIONS ........................................................................................................................................7

8.1. ELECTRICAL POWER SUPPLY .......................................................................................................................................................................... 7

9. INSTALLATION ...........................................................................................................................................................8

9.1. CLEARANCE ................................................................................................................................................................................................. 8

9.2. UNIT LOCATION .......................................................................................................................................................................................... 8

9.3. UNIT INSTALLATION ..................................................................................................................................................................................... 9

10. HYDRAULIC CONNECTIONS .................................................................................................................................10

10.1. RECOMMENDATIONS FOR HYDRAULIC CONNECTIONS .......................................................................................................................... 10

10.2. RECOMMENDATIONS FOR CLEANING AND FLUSHING OUT THE SYSTEM ................................................................................................ 11

10.3. CONNECTION POSITIONS ...................................................................................................................................................................... 12

11. WIRING DIAGRAM AND LEGEND .......................................................................................................................... 12

11.1. WIRING DIAGRAM .................................................................................................................................................................................... 12

11.2. LEGEND ................................................................................................................................................................................................... 12

12. ELECTRICAL CONNECTIONS .................................................................................................................................13

12.1. ELECTRICAL POWER SUPPLY CONNECTION.............................................................................................................................................. 14

13. RCL AND µBMS CONTROL MODULES WIRING ......................................................................................................15

13.1. RCL .......................................................................................................................................................................................................... 15

13.2. µBMS ....................................................................................................................................................................................................... 17

13.3. APPLIANCE CONFIGURATION .................................................................................................................................................................. 18

13.4. RETURN AIR TEMPERATURE MEASUREMENT ............................................................................................................................................... 19

13.5. POWER FAILURE ....................................................................................................................................................................................... 19

13.6. REMOTE ON/OFF MAKE/BREAK SWITCH .................................................................................................................................................. 19

13.7. RCL ONLY ................................................................................................................................................................................................ 20

13.8. µBMS SUPERVISION MODULE ................................................................................................................................................................... 20

13.9. MODBUS ................................................................................................................................................................................................. 21

13.10. ADDRESSING PROCEDURE ..................................................................................................................................................................... 22

13.11. µBMS SUPERVISION MODULE ................................................................................................................................................................. 23

13.12. MOTORISED WATER VALVE ...................................................................................................................................................................... 23

14. COMMISSIONING .................................................................................................................................................24

14.1. PRE-START CHECK LIST ............................................................................................................................................................................. 24

14.2. STARTING ................................................................................................................................................................................................. 24

14.3. OPERATING CHECK LIST ........................................................................................................................................................................... 26

15. FINAL TASKS ..........................................................................................................................................................26

16. IN CASE OF WARRANTY - MATERIAL RETURN PROCEDURE ...................................................................................27

17. ORDERING SERVICE AND SPARE PARTS ORDER .....................................................................................................27

18. MAINTENANCE .....................................................................................................................................................28

18.1. REGULAR MAINTENANCE ......................................................................................................................................................................... 28

18.2. GENERAL INSPECTION ............................................................................................................................................................................. 28

18.3. REFRIGERATION CIRCUIT.......................................................................................................................................................................... 28

18.4. ELECTRICAL SECTION ............................................................................................................................................................................... 28

18.5. AIR FILTER ................................................................................................................................................................................................. 29

18.6. FAN MOTOR ASSEMBLY ............................................................................................................................................................................ 29

18.7. SERVICING CHECKLIST ............................................................................................................................................................................. 30

19. TROUBLE SHOOTING ............................................................................................................................................31

19.1. FAULT FINDING ........................................................................................................................................................................................ 31

19.2. ALARM CODES ......................................................................................................................................................................................... 32

1. GENERAL RECOMMENDATIONS

The purpose of this Manual is to provide users with instructions for installing, commissioning, using and maintaining

the units.

It does not contain the complete description of all the maintenance operations guaranteeing the unit’s long life and

reliability. Only the services of a qualified technician can guarantee the unit’s safe operation over a long service life.

Please read the following safety precautions very carefully before installing the unit.

1.1. SAFETY DIRECTIONS

Follow the safety rules in forces when you are working on your appliance.

The installation, commissioning and maintenance of these units should be performed by qualified personnel having

a good knowledge of standards and local regulations, as well as experience of this type of equipment.

This appliance has not been designed for use by persons (including children) with reduced physical, sensorial or

mental faculties or by persons without any experience or knowledge of heating systems, unless they act under the

safety and supervision of a responsible person or have received prior training concerning the use of the appliance.

Children should be supervised to ensure that they do not play with the appliance.

The unit should be handled using lifting and handling equipment appropriate to the unit's size and weight.

Any wiring produced on site must comply with the corresponding national electrical regulations.

Make sure that the power supply and its frequency are adapted to the required electric current of operation, taking

into account specific conditions of the location and the current required for any other appliance connected to the

same circuit.

The unit must be EARTHED to avoid any risks caused by insulation defects.

It is forbidden to start any work on the electrical components if water or high humidity is present on the installation site.

1.2. WARNING

Cutoff power supply before starting to work on the appliance.

When making the hydraulic connections, ensure that no impurities are introduced into the pipe work.

The manufacturer declines any responsibility and the warranty becomes void if these instructions

are not respected.

If you meet a problem, please call the Technical Department of your area.

If possible, assemble the compulsory or optional accessories before placing the appliance on its final location. (see

instructions provided with each accessory).

In order to become fully familiar with the appliance, we suggest to read also our Technical Instructions.

The information contained in these Instructions are subject to modification without advance notice.

POWER SUPPLY MUST BE

SWITCHED OFF

BEFORE STARTING WORK IN

THE ELECTRIC

CONTROL BOX

1.3. EQUIPMENT SAFETY DATA

Safety Data R407C

Toxicity Low

In contact with skin Liquid splashes or sprays may cause freeze burns. Unlikely to be hazardous by skin absorption.

However, R407C may be slightly irritant and, if liquid, it has a strong degreasing effect. Flush contaminated skin

areas with running water. If it comes into contact with fabrics, the liquid refrigerant will cause them to freeze and

adhere to the skin. Carefully remove the contaminated clothing since it might adhere to the skin and cause freeze

burns. Contact a doctor if the affected skin areas are reddened or irritated.

In contact with eyes Vapours have no effect. Liquid splashes or sprays may cause freeze burns. In these cases rinse your eyes with

running water or with a solution for eye lavages for at least 10 minutes. Immediately contact a doctor.

Ingestion Very unlikely to occur. If this should be the case, it may cause freeze burns. Never induce vomiting.

Keep the patient awake. Make him rinse his mouth with running water and make him drink about 1/4 of a litre.

Immediately contact a doctor.

Inhalation R407C: High concentration levels of its vapours in the air can produce an anaesthetic effect, including the loss of

consciousness. Particularly severe exposures may cause heart arrhythmia and sometimes prove to be also fatal.

At high concentrations there is a danger of asphyxia due to a reduced oxygen content in the atmosphere. In these

cases take the patient to the open air, in a cool place and keep him at rest. Administer oxygen, if required. Apply

artificial respiration if breathing has ceased or if it has become irregular. In case of heart failure immediately apply

cardiac massage. Immediately contact a doctor.

Further Medical Advice A symptomatic and supportive therapy is generally suitable. A heart sensitisation has been observed in some cases,

as a result of exposures to particularly high concentrations. In the presence of catecholamines (such as for example

adrenaline) in the blood flow, it has increased the irregularity of the cardiac rhythm and then caused the heart fai-

lure.

Long-term exposure R407C: A lifetime study which has been conducted on the effects inhalation may have on rats at 50,000 ppm has

shown the onset of benign tumours of the testicle. These remarks suggest that there is no danger for human beings

if they are exposed to concentrations below the occupational limits or equal to them.

Occupational exposure

limits

R407C: Recommended limits: 1,000 ppm v/v

8 hours TWA.

Stability R407C: Not specified.

Conditions to avoid Use in the presence of exposed flames, red heat surfaces and high humidity levels.

Hazardous reactions Possibility of violent reactions with sodium, potassium, barium and other alkaline substances.

Incompatible materials: magnesium and all the alloys containing over 2% of magnesium.

Hazardous decomposi-

tion products

R407 C: Halogen acids deriving from thermal decomposition and hydrolysis.

General precautions Avoid the inhalation of high concentrations of vapours. The concentration in the atmosphere shall be kept at the

minimum value and anyway below the occupational limits. Since vapours are heavier than air and they tend to sta-

gnate and to build up in closed areas, any opening for ventilation shall be made at the lowest level.

Breathing protection In case of doubt about the actual concentration, wear breathing apparatus. It should be self-contained and appro-

ved by the bodies for safety protection.

Storage Preservation Refrigerant containers shall be stored in a cool place, away from fire risk, direct sunlight and all heat sources, such

as radiators. The maximum temperature shall never exceed 45°C in the storage place.

Protection clothes Wear boots, safety gloves and glasses or masks for facial protection.

Behaviour in case of

leaks or escapes

Never forget to wear protection clothes and breathing apparatus. Isolate the source of the leakage, provided that

this operation may be performed in safety conditions. Any small quantity of refrigerant which may have escaped

in its liquid state may evaporate provided that the room is well ventilated.In case of a large leakage, ventilate the

room immediately. Stop the leakage with sand, earth or any suitable absorbing material. Prevent the liquid refrige-

rant from flowing into drains, sewers, foundations or absorbing wells since its vapours may create an asphyxiating

atmosphere.

Disposal The best procedure involves recovery and recycle. If this is not possible, the refrigerant shall be given to a plant

which is well equipped to destroy and neutralise any acid and toxic by-product which may derive from its disposal.

Combustibility features R407C: Non flammable in the atmosphere.

Containers If they are exposed to the fire, they shall be constantly cooled down by water sprays.

Containers may explode if they are overheated.

Behaviour in case of

fire

In case of fire wear protection clothes and self-contained breathing apparatus.

2. INSPECTION AND STORAGE

At the time of receiving the equipment carefully cross check all the elements against the shipping documents in order

to ensure that all the crates and boxes have been received. Inspect all the units for any visible or hidden damage.

In the event of shipping damage, write precise details of the damage on the shipper’s delivery note

and send immediately a registered letter to the shipper within 48 hours, clearly stating the damage

caused. Forward a copy of this letter to the manufacturer or his representative.

Never store or transport the unit upside down. It must be stored indoors, completely protected from rain, snow etc.

The unit must not be damaged by changes in the weather (high and low temperatures). Excessively high temperatures

(above 60 °C) can harm certain plastic materials and cause permanent damage. Moreover, the performance of

certain electrical or electronic components can be impaired.

The appliances are delivered fully assembled, factory tested and ready to operate.

Any modification to the units without the manufacturer’s prior approval, shall automatically render the warranty

null and void.

The following conditions must be respected in order to maintain the validity of the warranty:

² Commissioning shall be performed by specialised technicians from technical services approved by

the manufacturer.

² Maintenance shall be performed by technicians trained for this purpose.

² Only Original Equipment spare parts shall be used.

² All the operations listed in the present manual shall be performed within the required time limits.

THE WARRANTY SHALL BE NULL AND VOID IN THE EVENT

OF NON-COMPLIANCE WITH ANY OF THE ABOVE CONDITIONS.

3. WARRANTY

4. CONTENTS OF PACKAGE

Package contents:

1 appliance

1 installation manual

5. TECHNICAL SPECIFICATIONS

5.1. OPERATING LIMITS

5.1.1. ENVIRONMENT

This equipment is designed EXCLUSIVELY for INDOOR installation.

In general, sheltered locations such as garages, roof space, etc, do not provide sufficient protection against extreme

temperatures and/or humidity and may be harmful to the unit’s performance, reliability and service life.

Cooling Heating

Air inlet

temperature

Minimum 21 °C DB / 15 °C WB 15 °C

Normal * 27 °C DB / 19 °C WB 20 °C

Maximum 32 °C DB / 23 °C WB 27 °C

Water inlet

temperature

Minimum 11 °C 12 °C

Normal * 30 °C 20 °C

Maximum 50 °C 30 °C

5.1.2. TEMPERATURE LIMITS

DB: dry bulb

WB: bulbe humide

* Conditions in

accordance with the

standard:

EN 14511-2

5.1.3. FLOW LIMITS

5.1.3.1. MODEL 7

5.1.3.2. MODEL 9

5.1.3.3. MODEL 12

The temperature limits correspond to the nominal appliance water flow.

100

150

200

250

300

350

400

450

500

550

600

650

Water flow (l/h)

Water inlet temperature (°C)

12 14 16 18 20 22 24 26 28 30 32

100

150

200

250

300

350

400

450

500

550

600

650

Water flow (l/h)

Water inlet temperature (°C)

12 14 16 18 20 22 24 26 28 30 32 34 36

100

150

200

250

300

350

400

450

500

550

600

650

Water flow (l/h)

Water inlet temperature (°C)

12 14 16 18 20 22 24 26 28 30 32

100

150

200

250

300

350

400

450

500

550

600

650

Water flow (l/h)

Water inlet temperature (°C)

12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52

100

150

200

250

300

350

400

450

500

550

600

650

Water flow (l/h)

Water inlet temperature (°C)

12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52

100

150

200

250

300

350

400

450

500

550

600

650

Water flow (l/h)

Water inlet temperature (°C)

12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52

SEE APPENDIX

6. DIMENSIONS

7. HANDLING

7.1. NET WEIGHT

MODELS

7 9 12

STANDARD SURBAISSE STANDARD SURBAISSE STANDARD SURBAISSE

WEIGTH

WITH CASING kg 70 73 75

WITHOUT CASING kg 55 58 60

The appliance may be handled with a pallet truck or a forklift truck.

8. ELECTRIC SPECIFICATIONS

A variance of ±10% is acceptable in relation to the operating voltage marked on the appliance’s Maker’s Plate.

Operating voltages:

² 230V / 1 ph / 50 Hz (207 Volts minimum; 253 Volts maximum.)

Comments: the stated voltages represent the accepted range. However, certain components may be subject to

premature wear on appliances operating continuously, for extensive periods, on abnormally low or high voltages.

8.1. ELECTRICAL POWER SUPPLY

MODELS Fuse aM Full load current

(max)

230V

07 6A aM 4A

09 6A aM 5A

12 8A aM 6A

9. INSTALLATION

The unit is not designed to withstand weights or stresses from adjacent equipment, pipe work or

constructions. Any foreign weight or stress on the unit structure could lead to a malfunction or a

collapse with dangerous consequences for personnel and property. In such an event, the warranty

shall be null and void.

9.1. CLEARANCE

The unit base shall be arranged as indicated in the manual. There could be a risk of personal injury

or damage to property in the event of the unit being incorrectly supported.

9.2. UNIT LOCATION

70mm

The unit must be installed on a firm level foundation, of adequate strength to support its full operating weight.

1. Install the unit in a location allowing easy removal of the filter and the access panels

to the electrical box/compressor and fan by leaving sufficient free space for servicing

personnel to perform maintenance and repairs. Leave sufficient space for the water

and electricity connections.

2. The unit must be pitched slightly towards condensate drain outlet to provide positive drainage of

condensates.

3. We recommend the installation of a siphon on the condensate outflow to avoid unpleasant odours

travelling back up the pipe.

4. All electrical and ductwork connections to the unit must be made via flexible connections to prevent

transmission of vibration.

5. In addition to the service clearances noted on the dimension sheet it is essential that provision is

made for adequate and safe service access.

The units are designed to be installed in a controlled environment. Each unit should be located on the installation

plans. Inspect the carton for specific tagging numbers and references (models, size, left hand or right hand). The

supply, return and condensation piping should be located accordingly making sure the piping will fit into the confines

of the fan coil chassis and cabinet.

9.3. UNIT INSTALLATION

Models with a frontal air intake are equipped with four height-adjustable feet to

facilitate levelling the appliance. We recommend that the appliances are installed

at a slight angle to favour condensate run-off.

We recommend the use of an angle bracket to attach the

appliance to the wall.

9.3.1. CABINET REMOVAL

When removing cabinet do not pull or lift it up by the discharge grilles, to avoid

any damages on articulated fasteners of the access doors.

9.3.2. ATTACHMENT TO THE GROUND

No tools are required to remove the casing. You just have to lift it up slightly to release

the olive-shaped attachment studs from the buttonholes. Then pull the casing towards

the front.

171 330 330 171

8.40

278.50

284

10. HYDRAULIC CONNECTIONS

10.1. RECOMMENDATIONS FOR HYDRAULIC CONNECTIONS

1. It is recommended that all units are connected to a water supply and return pipe system of the

Tickelman Loop type. The Tickelman Loop system is self-balancing and thus only requires manual

balancing if a large number of units with different flow and pressure loss characteristics are connected

to a single hydraulic loop. A very simple way of checking the hydraulic balance is to measure the

temperature difference between the water connections. To ensure a correct water flow, the difference

must be in the region of 3 to 7 °C in Cooling mode and 2 to 5°C in Heating mode.

A system with two parallel pipes can also operate in a perfectly adequate manner, but it is more

difficult to achieve, and to maintain, balance.

2. Steel, copper or P.V.C. pressure pipes may be used.

3. It is advisable to make the unit’s water supply and return conveyance lines

with short lengths of high-pressure hose, as they form excellent shock

absorbers for unit operating noise and hydraulic pressure surges.

One of the hose ends must be fitted with a rotating connector to facilitate removal

for maintenance. Rigid pipes can be connected directly to the unit, but

this is not recommended due to their inability to absorb vibrations and noise.

Rigid pipes must be equipped with removable connectors to facilitate future removal of the unit from

its location.

Main return

pipe work

Hoses

Spherical

dome valve

Main water supply

pipe work

Main condensate

drainage pipe work

4. Certain flexible hose threaded connectors are supplied with sealing paste. If this is not the case, use

Teflon tape to create a tight seal.

5. Each unit must be equipped with isolation valves on the water inlet and outlet pipes. The return

isolation valve is used for both cutting off the water supply and balancing the installation’s water flow.

As it is used to establish the balance of the flows, it must be equipped with a lockable position

end stop. This end stop ensures that, after the valve is closed, it can only be re-opened as far as

the position required to maintain a balanced water flow.

6. Never connect a unit to the water supply and return lines without completely cleaning

and flushing out the hydraulic loop beforehand. After performing these operations, the units must

be connected, with all valves completely open, ready for the system to be filled with water.

COMMENT: In order to limit clogging the plate heat exchanger and to optimise unit operation,

it is advisable to equip the system with a sieve filter (Ø 0.8 mm) on the unit water inlet pipe

work. This filter should be installed between two isolation valves and should remain accessible

to the user for periodic checks.

7. Use steel, copper or P.V.C. pipes for the condensates drainage pipe. Each unit is supplied with a

connector for condensates drainage.

8. No point of the condensates drainage pipe work should be located above the level of one of the

units’ condensate drainage outlet connection.

9. The circuits’ high points must be bled of air.

10. Comply with current regulations in terms of dielectric isolation of the connectors and the pipe work.

10.2. RECOMMENDATIONS FOR CLEANING AND FLUSHING OUT THE SYSTEM

1. Before commissioning an appliance for the first time, the

water loop must be cleaned and rinsed out to remove

any dirt and manufacturing debris.

If the appliances are equipped with isolation valves

(either electric or pressostatic), the water supply and

return conveyance circuits to and from each machine

must be connected to each other. This will avoid any

dirt being introduced into the units.

Flushing water through the units is acceptable if they

are not equipped with water flow control devices.

2. The system must be filled from the mains water supply.

All air bleeds must be open during filling. Close the

air bleeds once the system is filled.

The installer must start the main circulation

pump with the water top-up tap on the pressure

reduction valve in the open position. Check

the air bleeds by increasing order of height

to ensure water flows freely throughout the entire system.

Power supply to the cooling tower must be shut down, and the water loop

temperature regulation thermostat must be set at 27 °C.

As the water circulates through the system, the installer must seek out and repair any possible pipe

work leaks. The drain cocks, on the lowest points on the circuit, must be open for flushing out

and chasing out any impurities. Ensure that the mains water valves are adjusted to allow water to

enter at the same speed as it exits. Check the pump inlet pressure gauge and manually adjust the

compensating valve to maintain the same pressure before and after the opening of the drain taps.

Flushing must be performed for at least two hours, or longer if necessary, until clear and clean water

is obtained at the drain taps.

3. Stop the additional heating and the water circulation pump. Open all the bleed points and the drain

taps to empty the system completely. The short-circuited water supplies and returns must now be

connected to the units’ inlet and outlet connections. It is recommended to use Teflon tape on the pipe

connector threads. Do not use sealing paste on the hoses’ rotating connecters.

4. Formerly, sodium tri-phosphate used to be recommended as a cleaning agent for

flushing. However, nowadays numerous countries forbid the introduction of phosphates into their

wastewater networks. Therefore, it is now recommended that the system is flushed out with

hot water (30 °C).

5. Fill the system again with clean water. Test the water acidity level (litmus paper), and treat as

required to obtain a slightly alkaline water quality (pH 7.5 to 8.5).

At this stage, the recommended percentage of anti-freeze can be added. Use commercial quality anti-

freeze specifically intended for air conditioning systems. Do not use automobile radiator anti-freeze.

6. On the main electrical cabinet, adjust the heater set temperature point at 20 °C and the cooling tower

set temperature at 30 °C. Connect the power supply to all motors and start the circulation pumps.

When the normal flow level has been reached through all components, including the cooler (irrespective of the

season) and when the air is bled form the system and the loop temperature has stabilised, each appliance is ready

to be checked, tested and started for balancing the air and water flows.

Rubber

hose

Return conveyance

Supply conveyance

Main circuits

INTERCONNECTED

CONVEYANCES

230 Single phase models:

Connection to the terminals N, L and

of the regulation board.

² - L : phase

² - N : neutral

² - : P-E ground

Factory-configured water connections are available in 4 different positions:

² right side

² left side

² rear panel

² underneath (option not available when the air filter is fitted underneath the appliance)

10.3. CONNECTION POSITIONS

11. WIRING DIAGRAM AND LEGEND

N 786

11.1. WIRING DIAGRAM

SEE APPENDIX

SE 4273 models 07/09/012 cooling only or heatpump 230V 50Hz +/- 10%

11.2. LEGEND

11.2.1. POWER SUPPLY

All the electrical installations and wiring associated with this equipment must comply with local installations

regulations.

11.2.2. WIRING DIAGRAM KEY DESCRIPTIONS

FFG : Fuse carrier

11.2.2.1. COOLING

M1 : Refrigeration compressor

F1 : External safety compressor

LP : Automatic reset Low Pressure pressostat

HP : Automatic reset High Pressure pressostat

C1 : M1 compressor condenser

RV : 4 way valve for cycle inversion

11.2.2.2. FAN MOTOR AND THEIR EQUIPMENT

MV : Treated air fan motor

TV : Auto-transformer

FV : MV motor internal safety device

C : MV motor condenser

11.2.2.3. WATER CIRCUIT

Y1 : Water circuit by-pass valve (not supplied)

FS : Flow switch

11.2.2.4. CONTROL AND REGULATION

ICT : Anti-freezing protection sensors

RT : Air temperature sensor

LWT : Outlet water temperature sensor

SM : Remote ON/OFF switch, 100 m maximum (Not supplied -Please consult us for longer distances)

CLK : CLOCK input remote ON/OFF

11.2.2.5. REMOTE MANAGEMENT AND PROGRAMMING MODULE KIT (<100m)

µBMS : Supervision module

RCL : Room terminal

QG : Power circuit-breaker

11.2.2.6. FAULT REPORTING OPTION

KA2 : Remote fault reporting relay (3 A max / 230 V)

11.2.2.7. OPTION

12. ELECTRICAL CONNECTIONS

WARNING

Before carrying out any work on the equipment,

make sure that the electrical power supply is

disconnected and that there is no possibility

of the unit being started inadvertently.

Non-compliance with the above instructions

can lead to injury or death by electrocution.

The electrical installation must be performed by a fully qualified electrician, and in accordance with local electrical

standards and the wiring diagram corresponding to the unit model.

Any modification performed without our prior authorisation may result in the unit’s warranty being declared null

and void.

The power supply cable section must be sufficient to provide the appropriate voltage to the unit’s power supply

terminals, both at start-up and under full load operating conditions.

The power supply cable shall be selected in accordance with the following criteria:

1. Power supply cable length.

2. Maximum unit starting current draw – the cables shall supply the appropriate voltage to the unit

terminals for starting.

3. Power supply cables’ installation mode.

4. Cables’ capacity to transport the total system current draw.

Short circuit protection shall be provided. This protection shall comprise fuses or circuit breakers with high breaking

capacity, mounted on the distribution board.

If the local control includes an remote ambient temperature sensor and/or a set temperature adjustment module,

these shall be connected with shielded cable and shall not pass through the same conduits as the power supply

cables as the voltages induced may create reliability faults in the unit’s operation.

The position of the electrical connections depends on the type of appliance and the chosen options. The electrical

connections can be made either on the connection box on the right hand side or on the top of the appliance, or

on a remote terminal box located on the left hand side of the appliance.

1. Open the electrical box

2. Connect the power supply cable in relation to the type of appliance:

 On the STORM board and the mains protection fuse holder

 on the terminal block

N L

12.1. ELECTRICAL POWER SUPPLY CONNECTION

13. RCL AND µBMS CONTROL MODULES WIRING

13.1. RCL

Unscrew the lower screw on the RCL control.

Separate the RCL control from its support bracket with the help

of a flat bladed screwdriver

Checking the support bracket :

Ensure that the wall surface is completely flat at the point where you wish to install the RCL control, as it is important

that the support bracket is not twisted on installation, because any bending could lead to the control not clipping

together properly and result in operating difficulties.

Fitting the support bracket :

² Present the support bracket to the desired location and align it with a spirit level.

² Mark the screw locations.

² Make a hole or install appropriate plugs according to the material (wood, concrete, plasterboard etc.).

² Screw the support bracket to the wall, preferably with round head screws matching the following

characteristics :

- Minimum length : 15 mm,

- Maximum head diameter : 7 mm,

- Maximum thread diameter : 3.5 mm,

- Head protrusion : 3.5 mm.

Lower screw

LED

The RCL control module must be connected in accordance with the diagram

below.

Use twisted pair telephone wire with a section of between 0.12 and 0.5 mm²

for wiring the control modules.

Take care to comply with the terminal connection reference numbers.

Support

bracket

RCL

1 2 3 4

Set the DIP switches marked J1 and J2 in accordance with your configuration nd the modes that are accessible.

Clip the RCL control onto the support bracket.

Replace the lower screw in such a way that the RCL control is held firmly in place on the support bracket

RCL control recommended

setting

Accessible modes PLUG

Dip J1 Dip J2

0 1 0 1 Off Cool Heat Auto Fan

X X X X X ST

X X X X X RC - RH - SH

X X X X X X X RC - RH - SH

Dips switches J1 and J2 for

parameterisation

Lower screw

13.2. µBMS

The µBMS control module must be connected in accordance with the diagram below.

Use screened twisted pair telephone wire with a section of between 0.12 and 0.5

mm²for wiring the control modules.

Refer to the following chapter for detail of the appliances’ addressing.

RCL

A- B+

12V

GND

The use of the µBMS recall command is not compatible with the modbus communication.

The same terminals and addressing DIPs are used in both connection cases.

13.3. APPLIANCE CONFIGURATION

13.3.1. FACTORY CONFIGURATION

13.3.2. CLIENT SETTINGS

Type J1 J2 Description

RC OFF OFF

Cooling and thermodynamic Heating

SH OFF ON

Thermodynamic Cooling + thermodynamic

Heating or electric heating depending on

appliance return water temperature

ST ON OFF

Cooling only

RH ON ON

Cool + heat by electric heat

Jumper Configuration

OFF

the fan is controlled via the compressor and the ICT

sensor in Heating mode.

the fan operates continuously in Heating mode,

except in OFF mode.

OFF

No anti-stratification mode

Anti-stratification mode active. Fan cycling

OFF

ambient temperature is measured at the RCL.

ambient temperature is measured with the Return

sensor (RT) located on the appliance.

Jumper Configuration

OFF

Normal mode

Forced mode dry contact (remote ON/OFF)

La pagina sta caricando ...

Airwell CW-AR Installation and Maintenance Manual

Marca: Airwell

Modello: CW-AR

Categoria: Condizionatori d'aria a sistema split

Tipo: Installation and Maintenance Manual

Questo manuale è adatto anche per

CW-AR 7/12

Scarica il pdf

rapporto

in altre lingue

English: Airwell CW-AR

Airwell CW-AR Installation and Maintenance Manual

Questo manuale è adatto anche per

Airwell CW-AR Installation and Maintenance Manual

in altre lingue

Altri documenti