iom leonardo
TRANSCRIPT
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LEONARDO EVOLUTION
INSTALLATION MANUAL
LEONARDO EVOLUTION
VERSION: 1.7
DATE: FEBRUARY 2010LANGUAGE: ENGLISH
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VERSION: 1.7 DATE: FEBRUARY 2010
UNIFLAIR SPA POLICY IS ONE OF CONTINUOUS TECHNOLGICAL INNOVATION AND THE COMPANY
THEREFORE RESERVES THE RIGHT TO AMEND ANY DATA HEREIN WITHOUT PRIOR NOTICE.
GB
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GENERAL INSTRUCTIONS 4Information contained in the manual 4Symbols 4Storage 4Storage after use 4Disposal 4Disposal of the machine 4
SAFETY 6General Instructions 6Warning for lifting and transportation 6Warnings for installation 6Intended use 6Warnings for use 6Safety during maintenance work 6
INTRODUCTION 7Presentation of the system 7
LEONARDO EVOLUTION - DIRECT EXPANSION 10Technical characteristics 10Operating description 13Name and description of the principle components 14Checks to be made on delivery 17Unloading the unit 17Characteristics of the installation area 17Positioning of the unit 17Door opening and removal of the panels 18Door opening 18
Internal protection panels 19Electrical connections 20Connection to the drains 21Connection to the gas drain 21Refrigerant connections on air cooled units 22Choosing the diameter of the discharge tube 22
R407C 23R410A 24BACKFLOW LINE DIMENSIONING (LIQUID) 27
Type of oil recommended with COPELANDcompressors 29Type of oil recommended with MANEUROPcompressors 29
Type of oil recommended with SANYO compressors 29Type of oil recommended with Scrolltech HCJ 072-HLJ083 compressors 29Connection for water cooled units 30
MANUAL START UP AND SHUT DOWN OF THE UNIT 31SETTING AND ADJ USTMENT 32
Selecting the power supply of the fans 32Setting the regulation and safety devices 35Setting the pressostatic valve (optional on chilled watercooled models only) 35Setting the air flow sensor 35Setting the dirty filter sensors 35
MAINTANENCE 36Three-monthly checks 36Six-monthly checks 36
Annual checks 36Checks to be performed every sixty months 36Cleaning and repalcing the filters 36Troubleshooting 38
LEONARDO EVOLUTION - CHILLED WATER 42Technical characteristics 42Operating description 43Name and description of the principle components 44Checks to be made on delivery 46Unloading the unit 46Characteristics of the installation area 46Positioning of the unit 46Opening of the door and removal of the panels 47Internal protection panels 48
Electrical connections 49Connection to the water drain 50Hydraulic connections 51Filling the hydraulic circuit 51Filling the primary circuit 51Filling the hydraulic circuits of the conditioners 51
MANUAL START UP AND SHUT DOWN OF THE UNIT 52SETTING AND ADJ USTMENT 53
Selecting the power supply of the fans 53Setting the regulation and safety devices 57Setting the air flow sensor 58Setting the dirty filter sensors 58
MAINTENANCE 58Three-monthly checks 58Six-monthly checks 58Annual checks 58Cleaning and replacing the filters 59Servomotor and chilled water valve 60Servomotor and hot water valve 60Troubleshooting 61
LEONARDO EVOLUTION ENERGY SAVING 63Technical characteristics 63Operating description 64Name and description of the principle parts 65
LEONARDO EVOLUTION TWIN-COOL 69Technical characteristics 69Operating description 71Name and description of the principle components 72
ACCESSORIES 77Humidifier 77
Operating principle 78Feed water 78Connections 78
Maintenance 79Electric heaters 80Temperature and humidity sensor 81Connection to fresh air intake 82
Maintenance 83
Discharge temperature threshold sensor (only onCHILLED WATER models) 83
Contents
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GENERAL INSTRUCTIONS
Information contained in the manual
The present manual describes the Leonardo Evolutionconditioning units. It supplies general information and safetyinstructions, unit transportation and installation information,as well as necessary information about how to use the units.It is an integral part of the product.The descriptions and illustrations in this manual are unbinding;
"Uniflair S.p.A." reserves the right to make any alterations itsees fit in order to improve the product without having to updatethis document.The illustrations and images in this manual are examplesonly and may differ from practical situations.
Symbols
The following graphic and linguistic symbols have been usedin this manual:
WARNING! This message may appear before
certain procedures. Failure to observe this
message may cause damage to equipment.
WARNING! This message may appear beforecertain procedures. Failure to observe this
message may cause injury to the operators and
damage the equipment.
Storage
The following conditions must be respected should the unitrequire storing for a given period of time:The packing must be kept intact.The place of storage must be dry (
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AIR FILTERS
Remove the air filters.- Materials: metallic net, synthetic fibre.
FINNED COIL
Remove the finned coils from the machine.- Materials: copper, aluminium, steel.
HUMIDIFIER
If a humidifier is installed, remove it.- Materials: polypropylene, iron materials.
ELECTRO-MECHANICAL PARTS
Find and remove valves, electro-mechanical andelectronic parts (three-way valves, sensors, etc.) fromthe machine.
RESISTANCES
Remove the resistances if they are installed.- Materials: aluminium, inseparable copper +magnesiumoxide.
PIPES AND PARTS OF THE REFRIGERATING
CIRCUITFind the connection pipes installed in the machine andseparate them from the other elements.Pipes can be caulked: in this case, before recovery, se-parate the insulating material from the metal pipe.Even the elements of the refrigerating circuit areconsidered as pipes: joints or valves.- Materials: copper, brass, cast iron, steel and plastic.
PUMP
Remove the pump from the machine.- Materials: pump.
CONDENSER
Remove the condenser, if installed.The condenser contains the elements of a machine,equipped with a small electrical panel, fans and a thermalexchange battery, usually characterized by aluminiumstructure and feet made of varnished steel.- Materials: electrical elements, aluminium, steel(varnished).
BRAZED PLATE EXCHANGER
If installed, remove the brazed plate exchanger.- Materials: INOX AISI braze welding, with an alloycontaining a large amount of silver.
FANS
Remove the fans. Disassemble the metal frame andproceed with the recycling of the metal alloy.- Materials: electro-mechanical elements, iron wrecks.
WARNING! The fans of some machine models
are integral part of the carrying structure.
Removing the fans can compromise the stability
of the frame. We recommend to pay attention
during disassembling operations.
COMPRESSORS AND LIQUID SEPARATORS
WARNING! Pay attention to oil contained in the
compressors. Avoid any loss of oi l dur ing
operations. If possible, dispose of oil and
compressors separately.
Finally remove the liquid separators and the compressorsfrom the machine base.- Materials: liquid separators and compressors
METAL BASEProceed with the recycling of the metal base.- Materials: galvanised sheet.
WARNING! Waste der iv ing f rom machine
disassembly must be disposed of and classified
accord ing to CER codes only consul t ing
authorised and specialist companies.
The following chart contains a partial list of the typical CERcodes applied to waste deriving from disassembling, so itmust be considered just as an indication.
STNEMELE SEDOC2002REC
selbaclacirtcelE 114071
slairetamcitsalP 911061
stroppuslateM 711061
teehsdesinavlaG 704071
muinimulA 204071
tencillateM 504071
erbifcitehtnyS 302051
reppoC 104071
ssarB 104071
noritsaC 504071
leetS 704071
saggnitaregirfeR 106041
yrettaB 406061
lacinahcem-ortcele,spmuP
srosserpmoc,stnemele 409071
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SAFETY
General Instructions
WARNING! Removal of, or tamperin g wit h,
safety devices is a violation of EUROPEAN
SAFETY STANDARDS.
WARNING! During ins tallation authori sed
personnel must wear individual safety devices.
Uniflair S.p.A will only consider itself responsible for the safety,reliability and performance of the machine if: repair work has only been carried out by authorisedpersonnel; the electric installation conforms to the standards currentlyin force; the devices are used in conformity with the relativeinstructions.Carefully read this instruction manual before carrying out anykind of use or maintenance work on the units.Installation, maintenance and use must be carried outrespecting all of the work safety standards.The operator responsible for the above mentioned services
must be suitably specialised and possess expert knowledgeof the devices.Uniflair S.p.A refuses all responsibility for damage to peopleor objects due to the inobservance of the safety standards.
Warning for lifting and transportation
Lifting and transportation of the units must be carried out byspecialised personnel as described in the relative paragraphs.The load must always be solidly anchored to the bearingelement of the lifting equipment and means of transport. No-one must remain near the suspended load, nor in the workingarea of the crane, forklift truck or any other lifting equipment
or means of transport. Adopt all of the cautions provided bythe relevant safety standards, in order to prevent any possibledamage to people or objects.
Warnings for installation
Any type of work on the electrical installation must only becarried out by specialised technicians who are experts inthis field.Specialised technical personnel must use appropriateequipment when checking the grounding of devices.Installation may only take place in locations where there isNO public access.
Intended useLeonardo Evolution air conditioning units have been designedand produced to carry out air conditioning, within the limitsand methods described in the present manual. The airconditioners must be used exclusively in internalenvironments.No modifications may be made to the units or their partswithout explicit written consent from Uniflair S.p.A.
Warnings for use
Only use the machinery for the purpose for which it wasdesigned and manufactured.
Environmental limits for use
The environmental conditions for the use of Leonardo airconditioners are fall within the following values:
Tmin=18C Tmax=30C
%rHmin=30% %rHmax=70%
Safety dur ing maintenance work
All repair work must be carried out by professionally qualifiedpersonnel authorised by Uniflair S.p.A.Unplug the machine form the power supply before startingany maintenance work.While drawing up this manual, we have considered all of theoperations which are part of normal maintenance operations.
N.B. Do not carry out any work which has not been specifiedin this manual.
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AIR FLOW
In the LEONARDO EVOLUTION conditioners, the air can flow upwards or downwards (UPFLOW / DOWNFLOW).
UPFLOW
Upflow units (with upwards air discharge) are designed to distribute the air through a system of ducts or by means of a falseceiling. Air intake is usually through the front of the unit, but versions are also available with air intake through the rear or thebase of the unit.
INTRODUCTION
Presentation of the system
The Leonardo Evolution precision air conditioners are designed for environments which are characterised by the presenceof highly technologically advanced equipment: telecomms and internet centres, data processing rooms and any type ofenvironment which is characterized by high concentrations of power.
The Leonardo Evolution series consists of 4 types of conditioners: Direct expansion
Chilled water Energy Saving Twin-Cool
DOWNFLOWDownflow units (with downwards air discharge) handle large volumes of air which are distributed uniformly into the environmentby means of a void under a raised access floor. The air enters the unit directly from the environment, or through a ventilatedor false ceiling.
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Identifying prefix of the Leonardo family
Air dischargeU =Upflow (upwards discharge)D =Downflow (downwards discharge)
Operating typology
C =Chilled water unitsA =Air cooled direct expansion unitsW =Water cooled direct expansion unitsT = Air cooled twin cool unitsD =Water cooled twin cool unitsE =Energy saving units
Fan typologyV =Radial Electronically Commutated fansR =Radial fans
MODELS
The code which distinguishes the models is composed of 4 characters:
IDENTIFICATON PLATE
The units can be identified by the identification plate which is placed in the electrical panel of the machine. The model andany eventual accessories which are installed are indicated by an "X" in the corresponding boxThe plate carries the following data:
Model and series number of the machine.
Type of power supply.
Power absorbed by the unit and the single components.
Current absorbed by the unit and the single components.
The set points of the cooling circuit pressostatic valve and safety valve.
Type of refrigerant.
Loading or pre-loading of each cooling circuit.
Indicative cooling capacity
Number of compressors installed
Number of cooling circuits
Power supply voltage
A =400 V / 3Ph (+N) / 50 Hz
B =230 V / 1 Ph / 50 Hz
TDAV1422A(H) TDEV1422A(H) SERIAL No.
TUAV1422A(H) TUEV1422A(H)
TDWV1422A(H) TDDV1422A(H) TDTV1422A(H)
TUWV1422A(H) TUDV1422A(H) TUTV1422A(H)
TENS. 400V/3Ph+N/50Hz AUX. 24 VOLTN O. TENS. (V) OA (A) [/1] FLA (A) [/1] LRA (A) [ /1] P (kW ) [TOT]
COMPRESSOR 2 400/3 10,7 14,0 98 11,2
FAN 2 400/3 4,7 5,6 0 5,42
HUMIDIFIER 1 400/3 9,1 0,0 0 6,29
HEATERS STD 3 400/3 7,2 0,0 0 15
ENHANCED HEATERS 3 400/3 8,7 0,0 0 18
UNIT (STD HEATERS) (*) 41,7 26,02
UNIT (ENHANCED HEATERS) (*) 46,0 29,02
UNIT (STD HEATERS+CAL max) (*) 41,7+10,5x1Ph 28,36
+ * +. max , x ,
Icu=15kA (CEI EN 60947-2) / (*) in operating conditions at 400V
TSR STOP: 310 C MAN. RESET
TSRA STOP: 328 C MAN. RESET
AP1-2 STOP: 26,5 bar MAN. RESET
SAFETY VALVE OPENS AT: 30 bar
CHARGE: R407C kg/circ. R22 kg/circ.
PRECHARGE: DRY NITROGEN N2
FAC-SIM
ILE
FAC-SIM
ILE
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SYMBOLS APPLIED TO THE MACHINES
LOBMYS GNINAEM
egatlovhgiH
segdeprahS
strapgnivoM
LOBMYS GNINAEM
erachtiweldnah:ELIGARF
yrdaniderotsebtsumtinudegakcapeht:SNOITIDNOCPMADNIEROTSTONODecalp
tinudegakcapehtfoytivargfoertnecehtswohs:YTIVARGFOERTNEC
secruostaehmorfyawaderotsebtsumtinueht:TAEHMORFYAWAPEEK
tinudegakcapehtfonoitisoptcerrocehtsetacidni:PUEDISSIHT
ehtnihtiwecalpaniderotsebtsumtinudegakcapeht:STIMILERUTAREPMETstimilerutarepmetdetacidni
skoohgnisustinudegakcapehttfiltonod:SKOOHESUTONOD
dekcatsebtontsumstinudegakcapeht:KCATSTONOD
SYMBOLS APPLIED TO THE PACKAGES
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LEONARDO EVOLUTION - DIRECT EXPANSION
Technical characteristics
AIR COOLED DIRECT EXPANSION UNITS WITH BACKWARD CURVED BLADE FANS
RAUT-RADTledoM A115 A116 A127 A227 A129 A229 A1201 A2201
thgieH mm 0691 0691 0691 0691 0691 0691 0691 0691
htdiW mm 0101 0101 0131 0131 0131 0131 0131 0131
htpeD mm 057 057 568 568 568 568 568 568
thgieW gk 082 013 034 744 034 744 034 744
stiucrictnaregirferforebmuN 1 1 1 2 1 2 1 2
srosserpmocforebmuN 1 1 2 2 2 2 2 2
egatlovylppusrewoP V zH05/N+hp3/V004
RAUT-RADTledoM A1211 A2211 A1231 A2231 A2241 A2261 A2281
thgieH mm 0691 0691 0691 0691 0691 0691 0691
htdiW mm 1271 1271 1271 1271 2712 2712 2712
htpeD mm 568 568 568 568 568 568 568
thgieW gk 845 955 575 585 896 417 417
stiucrictnaregirferforebmuN 1 2 1 2 2 2 2
srosserpmocforebmuN 2 2 2 2 2 2 2egatlovylppusrewoP V zH05/N+hp3/V004
RADTledoM 2222 2422 2252 2452 2482 2433
thgieH mm 5712 5712 5712 5712 5712 5712
htdiW mm 0852 0852 0852 0852 0852 0852
htpeD mm 568 568 568 568 568 568
thgieW gk 019 019 819 039 0401 8901
stiucrictnaregirferforebmuN 2 2 2 2 2 2
srosserpmocforebmuN 2 4 2 4 4 4
egatlovylppusrewoP V zH05/N+hp3/V004
RAUTledoM 2222 2422 2252 2452 2482 2433
thgieH mm 0691 0691 0691 0691 0691 0691
htdiW mm 0852 0852 0852 0852 0852 0852
htpeD mm 568 568 568 568 568 568
thgieW gk 019 019 819 039 0401 8901
stiucrictnaregirferforebmuN 2 2 2 2 2 2
srosserpmocforebmuN 2 4 2 4 4 4
egatlovylppusrewoP V zH05/N+hp3/V004
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VAUT-VADTledoM 115 116 127 227 129 229 1201 2201
thgieH mm 0691 0691 0691 0691 0691 0691 0691 0691
htdiW mm 0101 0101 0131 0131 0131 0131 0131 0131
htpeD mm 057 057 568 568 568 568 568 568
thgieW gk 082 082 034 744 034 744 034 744
stiucrictnaregirferforebmuN 1 1 1 2 1 2 1 2
srosserpmocforebmuN 1 1 2 2 2 2 2 2
egatlovylppusrewoP V zH05/N+hp3/V004
AIR COOLED DIRECT EXPANSION UNITS WITH EC BACKWARD CURVED BLADE FANS
VAUT-VADTledoM 1211 2211 1231 2231 2241 2261 2281
thgieH mm 0691 0691 0691 0691 0691 0691 0691
htdiW mm 0271 0271 0271 0271 1712 1712 1712
htpeD mm 568 568 568 568 568 568 568
thgieW gk 845 955 575 585 896 417 417
stiucrictnaregirferforebmuN 1 2 1 2 2 2 2
srosserpmocforebmuN 2 2 2 2 2 2 2
egatlovylppusrewoP V zH05/N+hp3/V004
VADTledoM 2222 2422 2252 2452 2482 2433
thgieH mm 5712 5712 5712 5712 5712 5712
htdiW mm 0852 0852 0852 0852 0852 0852
htpeD mm 568 568 568 568 568 568
thgieW gk 019 019 819 039 0401 8901
stiucrictnaregirferforebmuN 2 2 2 2 2 2
srosserpmocforebmuN 2 4 2 4 4 4
egatlovylppusrewoP V zH05/N+hp3/V004
VAUTledoM 2222 2422 2252 2452 2482 2433
thgieH mm 0691 0691 0691 0691 0691 0691
htdiW mm 0852 0852 0852 0852 0852 0852
htpeD mm 568 568 568 568 568 568
thgieW gk 019 019 819 039 0401 8901
stiucrictnaregirferforebmuN 2 2 2 2 2 2
srosserpmocforebmuN 2 4 2 4 4 4
egatlovylppusrewoP V zH05/N+hp3/V004
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CHILLED WATER DIRECT EXPANSION UNITS WITH BACKWARD CURVED BLADE FANS
RWUT-RWDTledoM 116 129 1231 2261 2281
thgieH mm 0691 0691 0691 0691 0691
htdiW mm 0101 0131 0271 1712 1712
htpeD mm 057 568 568 568 568
thgieW gk 013 034 575 417 417
stiucrictnaregirferforebmuN 1 1 1 2 2
srosserpmocforebmuN 1 2 2 2 2
egatlovylppusrewoP V zH05/N+hp3/V004
RWDTledoM 2422 2452 2482 2433
thgieH mm 5712 5712 5712 5712
htdiW mm 0852 0852 0852 0852
htpeD mm 568 568 568 568
thgieW gk 699 0201 0211 0411
stiucrictnaregirferforebmuN 2 2 2 2
srosserpmocforebmuN 4 4 4 4
egtalovylppusrewoP V zH05/N+hp3/V004
RWUTledoM 2422 2452 2482 2433
thgieH mm 0691 0691 0691 0691
htdiW mm 0852 0852 0852 0852
htpeD mm 568 568 568 568
thgieW gk 699 0201 0211 0411
stiucrictnaregirferforebmuN 2 2 2 2
srosserpmocforebmuN 4 4 4 4
egtalovylppusrewoP V zH05/N+hp3/V004
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AIR COOLED DIRECT EXPANSION UNITS (DXA)
The air cooled DX units extract heat from the room and transfer it tothe outside using air cooled refrigerant heat exchangers (condensers).The room unit and external condenser form an autonomous sealed circuitonce installed. The UNIFLAIR remote condensers used with LEONARDOunits include a precise electronic system to regulate the fan speed toensure trouble-free operation throughout the year under a wide range ofexternal air temperatures. Special attention has been paid to the acousticdesign of the condensers to minimise noise levels. A wide range of
combinations is available to meet different site requirements.
WATER COOLED DIRECT EXPANSION UNITS (DXW)
In the DX water cooled units, the heat extracted from the room istransferred to water via a stainless steel brazed plate exchanger withinthe unit.The cooling water may be fed from the mains supply, a cooling tower ora well (open circuit), or recycled in a closed loop cooled by externalcoolers.In the latter case, an anti-freeze mixture of water and ethylene glycol is
normally used.The water cooled units have the advantage that the refrigerant circuitsare charged and sealed in the factory. This makes installation extremelysimple, eliminating the need for any site-installed refrigerant pipework.
CHILLED WATER DIRECT EXPANSION UNITS WITH EC BACKWARD CURVED BLADE FANS
VWUT-VWDTledoM 116 129 1231 2261 2281
thgieH mm 0691 0691 0691 0691 0691
htdiW mm 0101 0131 0271 1712 1712
htpeD mm 057 568 568 568 568
thgieW gk 082 034 575 417 417
stiucrictnaregirferforebmuN 1 1 1 2 2
srosserpmocforebmuN 1 2 2 2 2
egatlovylppusrewoP V zH05/N+hp3/V004
Operating description
VWDTledoM 2422 2452 2482 2433
thgieH mm 5712 5712 5712 5712
htdiW mm 0852 0852 0852 0852
htpeD mm 568 568 568 568
thgieW gk 699 0201 0211 0411
stiucrictnaregirferforebmuN 2 2 2 2
srosserpmocforebmuN 4 4 4 4
egtalovylppusrewoP V zH05/N+hp3/V004
VWUTledoM 2422 2452 2482 2433
thgieH mm 0691 0691 0691 0691
htdiW mm 0852 0852 0852 0852
htpeD mm 568 568 568 568
thgieW gk 699 0201 0211 0411
stiucrictnaregirferforebmuN 2 2 2 2
srosserpmocforebmuN 4 4 4 4
egtalovylppusrewoP V zH05/N+hp3/V004
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Name and description of the principle components
A
B
C
A User terminalB Electrical panel doorC Cover panelsD Electrical panelE FiltersF Fans
G Cooling circuitH Brazed plate heat exchanger(present in chilled watermodels)
H
E
D
F
G
DE
F
G
MODELS TD./ TU. 511 1822
MODELS TD./ TU. 2222 3342
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Description of the components
A - User terminalAllows the unit to be turned on or off and the configurationand visualization of the condition of the machine. A1 LCD Display A2 ALARM key: visualization and reset of alarms;
when the alarm is activated, it flashes red. A3 PRG key: access to the configuration menu A4 ESC key : exit from the screens
A5 UP key : scroll through the menu A6 ENTER key : confirm A7 DOWN key: scroll through the menu
A2
A3
A4
A5
A6
A7
A1
B - Electrical panel doorAllows access to the electrical panel of the machine.C - Cover panelsAllow access to the internal components of the machine.D - Electrical panel
D1 Magnetothermic
- auxiliary- heater (optional)
- humidifier (optional)- fans- compressors
D2 Interface board D3 Dirty filter sensor D4 Air flow sensor D5 Main switch D6 Terminal board D7A Input/output electrical supply cables D7B Input/output electrical auxiliary cables D7C Input/output condensing unit supply (optional) - Only on units with air cooling D7D Entrance/exit signal cables (RS485 and/or LAN)
D8 Phase sequence relay D9 Maximum pressure manostat (only for mod. TD.
2222 3342)
D5
D1
D2
D3
D6
D7A
D4
D8
D7BD7C
D7D
MODELS TD./ TU. 511 1822
MODELS TD./ TU. 2222 3342
FE
F1
E - FiltersFilter the air released into the environment
F - FansAllow the diffusion of air into the room F1 ATR Transformer: allows the setting of the fan rotation
speed
D2 D1
D7A D7C D7BD7D
D3D4 D9
D5 D6D8
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H H1
G1
G2
G3
G4 G5
G6 G7G8
G10
G11
G9
G - Cooling circuit G1 Compressor G2 High pressure switch G3 Schrader Valve G4 Safety Valve G5 Shut -off valve G6 Circuit Exit G7 Circuit entrance G8 Liquid receiver
G9 Dehydration filter G10 Flow sight glass G11 Electronic thermostatic valve
G12
G12 Evaporating coil
H - Brazed plate heat exchanger (present on water cooledunits)
H1 Input/output hydraulic circuit
I I - Room temperature and humidity sensor
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Checks to be made on delivery
WARNING! Dispose of the packaging in
appropriate collection points.
The Leonardo Evolution units are packaged in wooden cratesor anchored to a pallet and covered in cardboard.Check that the delivery is complete and inform the carrier ofany damage to the unit which may be attributed too carelessor inappropriate transportation. In particular, check any
eventual damage to the panel in which the user terminal ismounted.Lifting and moving the unit must be carried out by amechanical lifter, supplied with a sling made up of textilebelts, which, fixed under the machine, limits excessive stresson the upper edges.The following must be contained within the packaging: The Leonardo Evolution unit; Leonardo Use and Installation Manual; Leonardo unit electrical diagrams; Leonardo unit cooling circuit diagrams; Leonardo unit installation diagrams; List of spare parts;
CE declaration with a list of the European standards towhich the machine must conform;
guarantee conditions
Unloading the unit
To unload the unit from the pallet, carry out the following pro-cedure: move the pallet as near as possible to where the unit is
to be installed; not tilt or turn the unit upsidedown; use a ramp to avoid any damage to the unit during
unloading;
remove the blocking screws which fix the unit to thepallet;
carefully push the unit along the ramp until it reachesthe floor.
Characteristics of the installation area
WARNING! The unit must be ins talled internally
and protected from adverse conditions .
The unit is predisposed for installation on raised access flooringusing mounting frames or appropriate floor stands suppliedon request from Uniflair. However, the upflow units (upwardsair flow) with air intake through the rear or front can also beinstalled on floors which are not raised.
The area of installation must have the following characteristics: to facilitate maintenance, leave a clearance (distanceD) of at least 700mm free in front of the unit. Check thatthe air intake and discharge connections are not blockedin any way, not even partially;
a horizontal and even floor; the electrical energy distribution system has been
produced in respect of CEI standards, suitable for thecharacteristics of the unit;
a cold water distribution implant (if a humidifier is to beinstalled);
implant for connection to the condensing unit; external air outlet (if a fresh air intake is to be installed); if or the refrigerating gas drain see paragraph "Connection
to gas drain"; drainage system.
WARNING! The preparation of the installation
area must be carried out as indicated in the
installation drawing attached to the machine
documentation.
Positioning of the unit
WARNING! If the surface where the unit is placed
is not even and horizontal, there is a risk of an
over f low from the condensat ion t ray. A
maximumheight difference of 5mm between the
ends of the unit is allowed.
Installation on raised access flooring
Installation on raised access flooring occurs by means of amounting frame. The frame enables the installation of theunit before the raised floor is installed, increased absorptionof noise and vibrations and the facilitation of connecting ipesand cables.The upflow models (upwards air flow) with rear or frontal airintake may be installed without using the mounting frame.
D
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Installation of the mounting frame
To install the unit on raised flooring using the mounting fra-me, carry out the following procedures: a flexible seal at least 5 mm thick should be fitted
between the raised floor panels and the mounting framewhich should also be isolated from the metallic floorstructure;
position the unit of the mounting frame and fix it usingthe M8 screw inserts found on the base of the unit.
Installation on flooring which is not raised
Installation on flooring which is not raised can occur withoutusing bases, but only on upflow models(upwards air flow) with rear or frontal air intake. Installation onthis type of floor does not require any additional operation
besides that of normal positioning.Installation of the floor stand
To install the unit on the floor stand, carry out the followingprocedures: position the unit on the floor stand; fix the unit to the floor stand using the M8 screw inserts
found on the base of the unit.
basamento
condizionatore
zoccolounit
Door opening and removal of the panels
Door opening
To open the door of the unit, carry out the following procedu-re: push the button and pull the handle lightly outwards; turn the handle downwards until the door opens.
Removal of the front and side panelsTo remove the front and side panels, carry out the followingprocedure: firmly hold the panel;
lift and incline the panel outwards until it is completelyremoved.
Q.E.
NOTE: After having removed the side panels, the non-removable protective panel, blocks accessibility to the insideof the machine.Removal of the rear panels
To remove the rear panels, carry out the following procedure: unscrew, using a star screwdriver, the screws which fix
the panel at the top of the machine;
firmly hold the panel; lift and incline the panel outwards until it is completely
removed.
Fixing screws
Flexible seal Flexible seal
Mountingframe
Raisedfloor
Air conditioning unit
Base of unit
Floor stand
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Internal protection panels
The technical compartment, the electric heaters and theautotransformer fans are protected by internal protectionpanels for safety reasons and to allow the opening of theexternal panels without triggering the unit's safety alarms. Inthe figures below, the different types of internal protectionpanels are shown on various types of machines.
Before removing the internal protection panels,disconnect the power supply by turning the main isolatingswitch D5 to position "O", then wait until the fans stop andthe electrical heaters cool down.
MODELS TD. 511 1822
MODELS TU. 511 1822
MODELS TD. 2222 3342
MODELS TU. 2222 3342
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Electrical connections
WARNING! Electrical connection of the machine
to the power supply must ONLY be carried out
by a qualified electrician.
WARNING! Electrical lines must be established
in ful l respect of CEI standards.
WARNING! Before establishing the electrical
connection , make sure that the power supply is
off. Also ensure that i t is not possible to
reconnect the power during the operation.
WARNING! The power supp ly vo ltage must be
10%
To carry out the electrical connections of the machine to thepower supply, carry out the following procedures: use suitable equipment to check the efficiency of the
grounding system; check that the voltage and network frequency correspond
to those of the machine (see identification label); open the door of the electrical panel;
remove the plastic screen of the electrical panel using astar screwdriver;
D5
D7A
D7B
pass the cables inside using the power supply cable inletD7A which connects to the main switch D5;
refer to the wiring diagram and connect the cable to themain switch D5.
2222 - 2242 - 2522 - 2542 - 2842 - 3342
POWER SUPPLY CABLE(at customers at care)
POWER SUPPLY CABLE(at customers at care)
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Connection to the drains
The condensed water drains from the tray through a siphonedflexible tube fitted in the unit.If the conditioner is fitted with a humidifier, the condensatedrain tray and the humidifier drain connection must beconnected to the drains of the building.Direct connection to the drains of the building
Connect the drainage tube of the unit to the drains of thebuilding using a rubber or plastic tube with an internal diameterof 25 mm.The external drainage tube must be siphoned in order to avoidunpleasant odours. Maintain a minimum slope of 1%downstream of the siphon.
Once the connections have been made, pour water into thecondensate drain until the siphon inside the unit is full.
The external drainage tube must be siphoned to avoidunpleasant odours and an overflow of the water from the trayof the humidifier. Maintain a minimum slope of 1% downstreamof the siphon.
Once the connections have been made, pour water into the
condensate collection tray of the Leonardo unit and in thecondensate collection tray of the humidifier until both siphonsare full.
Connection to the gas drain
The cooling circuit is equipped with a safety valve for thedischarge of the refrigerant gas.The intervention of the valve pressurises the discharge of therefrigerant fluid, possibly also to high temperatures; in thecase of installation in a closed environment, where there isthe risk of causing damage to people nearby, a conveyingtube must be used from the discharge to outside the room;this must be done in such a way that the operation of the
valve is not affected: it must not create a full flow, a counter-pressure higher than 10% of the pressure of the calibration.Where it is not possible to install a conveying tube it is goodpractice to create adequate aeration of the environment, andindicate, through specific signs, the presence of the drain.Also check that the discharge of the valve does not takeplace behind the electrical boards or electrical equipment.
U7
U4
SAFETY VALVEOUTLET
Connection to the humidifier (optional) and to the drains
of the building
WARNING! The water disc harged from the
humidifier is at a very high temperature. The
dra inage tube has to wi thstand h igh
temperatures (at least 100C) and must be kept
away from electrical cables.
Connect the drainage tube of the unit to the collection tray(U4) of the humidifier.
Connect the drainage tube of the humidifier (U7) to the drainsof the building using a rubber or plastic tube, which is resistantto high temperatures (minimum 100 C) with an internaldiameter of 22 mm.
To connect the auxiliary connections to the terminal board,carry out the following procedures: pass the cables through the power supply cable inlet
D7B;
D5
D7A
D
7B
refer to the wiring diagram and carry out the connectionto the terminal board.
DIGITAL CONFIGURABLE INPUTS
Terminal board 51-20
- User
- ON - OFF Remote
- Flooding sensor (SAS)
Terminal board 52-20
- User
- ON-OFF Remote
- Fire-smoke (SFF)
Terminal board 50-20
- User- ON-OFF Remote
- Tools (ATA-BTA-AUA-BUA)
20
20
20
20
50
51
52
Drain
%Siphon
Minimum slope
Drain
%Siphon
Minimum slope
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Refrigerant connections on air cooled units
Installation guide
WARNING! The pipes mus t always be protected from the sun.
C1/100
B
A
C
1/100
A
MAX.5 m
B
A
1/100 B
MAX.
5 m MAX.
15 m
C
Choosing the diameter of the discharge tube
The discharge line must be sized in such a way that it guarantees the flow of oil, in particular when operating at partial load,avoiding the return of the condensate refrigerant to the head of the compressor and prevent excessive vibration and noise
due to the pulsations of hot gas, vibrations of the compressor, or both.Even if it would be preferable to have low losses of the load along the line, an oversized discharge line is necessary toreduce the speed of the refrigerant so that it does not provoke a reduction in its speed and therefore reduce the flow of oil.Moreover, when the machine uses more compressors for the cooling circuit, the discharge line must transport the oil at alloperating levels.The minimum diameters needed to guarantee the flow of oil can be found in Graphics 1 -2 for the horizontal and vertical linesrespectively.In the installation of machines which have more compressors per circuit, the vertical discharge line, sized in order toguarantee the flow of oil at minimum load, may cause excessive loss of load when operating at its maximum level; in thiscase it is possible to use pipes with a larger diameter together with an oil separator.The loss of load along the discharge line causes an increase in the condensing temperature and therefore a decrease in thecooling capacity of the conditioner. Please note that each percentage point of decrease in the cooling capacity correspondsto a decrease of 1C of the maximum operating temperature. Normally the systems are sized in such a way that the loss
of load from the discharge line does not cause a decrease in the efficiency of the machine of more than -3%.The responsibility of establishing the refrigerant line between the condensing unit and the external unit lies
with the installer.
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0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
16,0
18,0
0 10 2 0 3 0 40 5 0
Resa frigorifera/circuito [KW]
DP/L[Kpa/m]
12 mm
14
18 mm
20 mm
22 mm
35 mm
24 mm
28
16 mm
0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
16,0
18,0
0 10 20 3 0 40 5 0
Resa frigorifera/circuito [KW]
DP/L[Kpa/m]
12 mm
14 mm
16 mm
18 mm
20 mm
22 mm
24
Tubazioni di mandata - linea orizzontaleGrafic
DP/L :Perdita di carico per metro calcolata per R407C (Temperatura di condensazione 50C dew point)
Tubazioni di mandata - linea verticaleGrafic
Discharge tube - horizontal line (External diameter)
Discharge tube - vertical line (External diameter)
Cooling capacity / circuit [KW]DP/L :Load loss per meter calculated by R407C (Condensing temperature 50C dew point)
Graphic 2
Cooling capacity / circuit [KW]
R407CGraphic 1
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R410A
Graphic 1Discharge tube - horizontal line
DP/L[kPa/m]
0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
16,0
18,0
0 10 20 30 40 50
Cooling capacity/circuit [kW ]
12 mm 14 mm
16 mm
18 mm
20 mm
22 mm
24 mm
28 mm
Graphic 3
0,0 5,0 10,0 15,0 20,0 25,0 30,0 35,0 40,0
Lunghezza Equivalente [m]
DP/L=3
DP/L=1
DP/L=2
DP/L=4
DP/L=5
DP/L=6
DP/L=7
DP/L=8
DP/L=10DP/L=12DP/L=14,5-Non consentito
1 -Ideale
2 -Consentito
Not allowed
Allowed
Ideal
Equivalent lenght
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Discharge tube - vertical line
Graphic 2
0 10 20 30 40 50
0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
16,0
18,0
DP/L[kPa/m]
Cooling capacity/circ uit [kW]
12 mm 14 mm
16 mm
18 mm
20 mm
22 mm
24 mm
DP/L : Pressure drop per metre based on R410A
Graphic 3
-5 0 5 10 15 20 25 30 35 40
Equivalent line [m]
3 - Non c onsentito - Unacceptable
2 - Consentito - Ac ceptable
1 - Ideale - Recommended
DP/L =14 DP/L =12 DP/L = 10 DP/L =8
DP/L =7
DP/L =6
DP/L =5
DP/L =4
DP/L =3
DP/L =2
DP/L =1
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Conforming to the Standards EN 14276-1 and EN 14276-2 the minimum recommended thickness for the gas supply pipewhere bends are made for the air cooled units with R410A refrigerant, must be equal to the values present in the attachedtable below. The value R' refers to the minimum allowed radius of the bend.
retemaidlanretxE dnebehtfosuidaR ssenkcihT
)mm(eD ]mm[r ]mm[t
82 001 2,1
22 66 1
81 72 1
61 62 121 02 1
De r
t
Cooling ca pacity/circuit atpartial load operation (50)%
Cooling ca pacity/circuit atfull load operation (100)%
Equivalent length
No
Chart 3
Line s izing
T ype of line
Chart 2
Vertical line
Chart1
Horizontal line
Cooling ca pacity/circuit atfull load operation (100)%
DP/L (100%)Allowed diameters
T ande m unit
Allowed diameters
Not allowed diameterIdeal diameterAllowed dia meter but no recomended
Acceptable
Ideal
Unacceptable
Ye s
only R407C
Line sizing R407C
EXAMPLE - Choosing the diameter of the discharge tube
with R407C refrigerant
Conditioner selected: TDAR0721ACooling capacity per circuit: 24 KwDischarge line: verticalEquivalent length of the line: 20 m1) Graphic 2:Operating at 100% (2 compressors - cooling capacity percircuit =24KW):possible diameters:20mm DP/L=1,8 Kpa/m18mm DP/L=3,0 Kpa/m16mm DP/L=6,0 Kpa/m
14mm DP/L=11,5 Kpa/mOperating at 50% (1 compressor - cooling capacity percircuit =12 KW): possible diameters:16mm DP/L=1,7 Kpa/m14mm DP/L=3,4 Kpa/m2) Graphic 3:Operating at 100% (2 compressors)Diameter 16mm 6,0 Kpa/m Allowed Diameter 14mm11,5 Kpa/m Not allowedThe advised diameter is 16 mm
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BACKFLOW LINE DIMENSIONING (LIQUID)To avoid gas development inside the line and to ensure anadequate pressure is reached inside the laminating unit, theliquid line must be correctly dimensioned. Generally, thesystems are dimensioned so that pressure loss along theline causes a variation of the saturation temperature between0,5 K and 1 K
During the installation of the cooling unit, a solenoid
valve should be fitted on the liquid line between theinner unit and the external condenser, to avoid
malfunctioning and to protect the compressor from
unwanted liquid migration during start- up.
Liquid line external diameters
Refrigerant R407C and R410A
Remote air cooled condenser R410A
*AUT-*ADT
LEDOM 1150 1160 1270 2270 1290 2290 1201
/rebmuN)2()1(ledomdetsegguS
x11660PACx11660PACx11080PACx21330PACx11101PAC
x21630PAC
x11031PAC
*AUT-*ADT
LEDOM 2201 1211 2211 1131 2231 2241 2261 2281
/rebmuN)2()1(ledomdetsegguS
x21150PAC
x11031PAC
x21150PAC
x11031PAC
x12081PAC
x21660PAC
x12081PAC
x21080PAC
x12002PAC
x21080PAC
x12003PAC
x21101PAC
(1) With fan speed control(2) External temperature =35C
Remote air cooled condenser R407C
*AUT-*ADT
LEDOM 1150 1160 1270 2270 1290 2290 1201
/rebmuN)2()1(ledomdetsegguS
x11660LACx11660LACx11080LACx21330LACx11101LAC
x21630LAC
x11031LAC
*TUT-*AUT-*TDT-*ADT
LEDOM1150 1160 1290-1270 2290-2270 2241-2231 2222 2252 - -
1231-1201 2211-2201 2281-2261 2422 2452 2482 2433
A014R+C704Rx1mm61x1mm61
x1mm61
x2mm61
x2mm61
x2mm81x2mm81x2mm22x2mm22
*AUT-*ADT
LEDOM 2222 2422 2252 2452 2482 2433
/rebmuN)2()1(ledomdetsegguS
x12002PACx12002PACx12003PACx22003PACx12004PAC
x22005PAC
*TUT-*AUT-*TDT-*ADT
LEDOM 2201 1211 2211 1131 2231 2241 2261 2281
/rebmuN)2()1(ledomdetsegguS
x21150LAC
x11031LAC
x21150LAC
x11031LAC
x12081LAC
x21660LAC
x12081LAC
x21080LAC
x12002LAC
x21080LAC
x12003LAC
x21101LAC
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Installation
WARNING! The laying of the lines and the
refrigerant connections must be carried out by
a qualified refrigerant circuit technician.
The refrigeration circuit must be connected to the condensingunit with copper pipes.The diameter of the pipes must be chosen according to thelength of the refrigerant line itself (preferably less than 30 m)therefore it is possible that the internal diameter of the rotalockvalves supplied by Uniflair will not coincide with the diameterof the pipes, see note at page bottom. To connect therefrigeration circuit to the condensing unit, carry out thefollowing procedure: check that the diameter of the rotalock valves coincides
with the diameter of the connecting pipe;
INLET
OUTLET
weld the rotalock valve to the inlet and outlet pipes of thecondensing unit;
using the teflon gaskets screw the rotalock valves to theinlet and outlet pipes of the refrigeration circuit of theconditioner.
ATTAC CHI ROTALOCK
(1) With fan speed control(2) External temperature =35C
Dry coolers*EUT-*DUT-*WUT-*EDT-*DDT-*WDT
LEDOM 1150 1160 1270 2270 1290 2290 1201
/rebmuNledomdetsegguS
x10051LAR
x10051LAR
x10051LAR
x10051LAR
x10051LAR
x10051LAR
x10051LAR
roodtuoxaMerutarepmet
C5,14 C0,04 C5,04 C5,04 C0,04 C5,24 C5,14
*EUT-*DUT-*WUT-*EDT-*DDT-*WDT
LEDOM 2201 1211 2211 1131 2231 2241 2261 2281
/rebmuNledomdetsegguS
x10051LAR
x10051LAR
x10051LAR
x10032LAR
x10032LAR
x10032LAR
x10063LAR
x10063LAR
roodtuoxaMerutarepmet
C5,14 C8,14 C2,24 C5,34 C6,44 C5,34 C2,44 C4,34
Note: the units with R410A refrigerant all have welded connections
*AUT-*ADT *TUT-*TDT
LEDOM 2222 2422 2252 2452 2482 2433 2422 2452 2482
/rebmuN)2()1(ledomdetsegguS
x12002LAC
x12002LAC
x12003LAC
x12003LAC
x12004LAC
x12005LAC
x12002LAC
x12003LAC
x12004LAC
*EUT-*DUT-*WUT-*EDT-*DDT-*WDT
LEDOM 2422 2452 2482 2433
/rebmuNledomdetsegguS
x10032LAR
x10063LAR
x10063LAR
x10063LAR
roodtuoxaM
erutarepmet
C04 C24 C14 C93
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Evacuation of the refrigeration circuit and charging of refrigerant
WARNING! The charging and maintenance of the refrigeration circuit must only be carried out by a
qualified hydraulic technician.
The refrigeration circuit is pre-charged with nitrogen.To load the refrigerant, carry out the following procedure:
R22
open any shut-off valves present in the machine to ensurethat all of the components will be evacuated;
connect a pump to empty the schrader connectionsefficiently, or to the 1/4" SAE connections present onthe intake and delivery sides of the compressors;
connect the refrigerant cylinder to the loadingconnections;
create a vacuum within the lines while maintaining thepressure below 100 Pa absolute (0,7 mm Hg) for a longtime in order to evacuate the air as well as any traces ofhumidity. It is preferable that the vacuum is reachedslowly and maintained for a long period of time;
wait for a build up period of 100 seconds and check thatthe pressure has not exceeded 200 Pa absolute.
Generally, in the case of suspicion of strong hydration ofthe circuit or an extremely extensive system, it will benecessary to break the vacuum with anhydrous nitrogenand then repeat the evacuation procedure as described;
break the vacuum by performing a preload from the R22coolant cylinder;
after having started the compressor, slowly complete theloading phase until the pressure within the lines has beenstabilised and the gaseous bubbles have disappearedfrom the flow sight glass;
the loading process must be controlled in environmentalconditions with a delivery pressure of approximately 18bar (equivalent to a saturated temperature of 48 C); in
the case of units with ON/OFF condensation controls,avoid switching the condenser fan on and off, which maypartially obstruct the intake surface. It is wise to checkthat the sub-cooling of the liquid at the entry of thethermostatic valve is between 3 and 5 C below thecondensation temperature read on the scale of thepressure gauge and that the overheating of the vapour atthe exit of the evaporator is equal to 5-8 C.
R407C - R410A
open any shut-off valves present in the machine to ensurethat all of the components will be evacuated;
connect a pump to empty the schrader connectionsefficiently, or to the 1/4" SAE connections present onthe intake and delivery sides of the compressors;
connect the refrigerant cylinder to the loadingconnections;
create a vacuum within the lines whilst maintaining thepressure below 10 Pa absolute (0,07 mm Hg) for a longtime in order to evacuate the air as well as any trace ofhumidity. It is preferable that the vacuum is reachedslowly and maintained for a long period of time;
wait for a build up period of 100 seconds and check thatthe pressure has not exceeded 200 Pa absolute.Generally, in the case of suspicion of strong hydration ofthe circuit or an extremely extensive system, it will benecessary to break the vacuum with anhydrous nitrogenand then repeat the evacuation procedure as described;
break the vacuum by performing a preload in liquid phasefrom the R407C and R410A coolant cylinder;
after having started the compressor, slowly complete theloading phase until the pressure within the lines has beenstabilised and the gaseous bubbles have disappearedfrom the flow sight glass;
the loading process must be controlled in environmentalconditions with a delivery pressure of approximately 18bar (equivalent to a dew temperature of 48 C and a bubble
temperature of 43 C); in the case of units with ON/OFFcondensation controls, avoid switching the condenserfan on and off, which may partially obstruct the intakesurface. It is wise to check that the sub-cooling of theliquid at the entry of the thermostatic valve is between 3and 5 C below the condensation temperature read onthe scale of the pressure gauge and that the overheatingof the vapour at the exit of the evaporator is equal toapproximately 5-8 C.
Type of oil recommended with COPELAND compressors
Type of oil recommended with MANEUROP compressors
Type of o il recommended with SANYO compressors
Type of oil recommended with Scrolltech HCJ 072-HLJ 083 compressors
)liolareniM(22R SG3osinuS 23FWocaxeT MKshcuF
)EOP(C704R cc22citcrALAEliboM S23LRETARAKMEICI
)liolareniM(22R 23OSI/lareniM-P061poruenaM
)EOP(C704R ZS061poruenaM
)EOP(A014R ZS061poruenaM
)liolareniM(22R T65-YAS
)EVP(C704R S86VF
)EVP(A014R S86VF
)EVP(A014R D8CVFEVPenhpaD
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Connection for water cooled units
WARNING! The laying of the lines and hydraulic
connections must only be carried out by a
qualified plumber.
WARNING! The chilled water must contain a
percentage of ethylene glycol (of the passive
type, which is therefore not corros ive) according
to the minimal external temperature predicted
(see the table below).
If the water temperature falls to below the dew point of the airconditioner, isolate the piping with closed cell material (e.g.:Armaflex or equivalent) to avoid condensation; the isolationmust allow the accessibility of the valves and the three piecejoints. Seal the piping holes through the base of the conditionerto avoid a bypass of air.
WARNING! The water cooled pressure must not
be above 6 bar.
locylgenelyhtefoegatnecreP %01 %02 %03 %04 %05
erutarepmetgnizeerF C4- C01- C71- C52- C73-
If the temperature of the chilled water is not checked it mayfall to under 25C, therefore it is necessary to use apressostatic valve (available as an optional) for eachcondenser; in this case the pressure of the supply must notbe less then 200 kPa (2 bar).
WARNING! Do not use chilled water with an
evaporating tower because the condensers will
quickly become encrusted with limescale.
The condenser must be connected to the chilled waterdistribution network, paying attention to the direction of thewater inlet and outlet.The condensers are supplied by water pumped in a closedcircuit and chilled by external refrigerators; check that thesection of piping and the characteristics of the circulationpump are suitable: an insufficient flow of water can have anegative effect on the capacity of the conditioner.The chilled water temperature must be checked to ensurethat it does not fall to below 25C, preferably according tothe plan indicated in the figure.The microprocessor control system is predisposed for
measuring the temperature of the water using probes (A)and modulating the servomotor of the valve (B) or by drivingthe fans (C) of the external refrigerators.
11501160
1270129012011211123111411241
22702290220122112231224122612281
222224222252245224822433
telniresnednocretaW "1 "4/1.1 "4/1.1x2 "4/1.1x2
resnednocretaWteltuo
"1 "4/1.1 "4/1.1x2 "4/1.1x2
Table of condenser fitt ing dimensions
Once the connections have been made to the hydraulic circuit,the system can be filled.
B
C
A
25 C
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MANUAL START UP AND SHUT DOWN OFTHE UNIT
WARNING! Check that the refrigerant circuit has
been filled.
To start up the unit, carry out the following procedure: open the door of the electrical panel and the front
panels; position the automatic switch of the auxiliary circuit to
"I" (on);
position all of the automatic switches on the electricalboard to "I" (on);
fuel the unit by positioning the main switchto "I" (on);
D5
check that both of the led RSF sequence phases (D8)are lit up; the green led indicates that the power is on,the yellow led indicates that the phase sequence iscorrect. In the event of incorrect phase sequence, invert2 of the 3 phases of power supply following theinstructions indicated in the paragraph "electricalconnections" and return to the start up procedure;
D8
L1 L2
LED
LED
L3
12 14 11
WARNING! Dur ing pro longed breaks a
spontaneous migration of the refrigerant may
occur in the casing of the compressor, which may
cause foaming of the oil and consequent damage
by the lack of lubrification. It is recommended
that the main switch is not turned off during
weekly breaks.
wait at least 12 hours before start up so that the oil inthe compressors warms up sufficiently;
open the shut off valves (I5) of the refrigerating circuits;
A2
A3
A4
A5
A6
A7
A1
check that the remote condensers are powered (on aircooled models);
check that the external dry coolers are powered andcheck the presence of the water flow for condensation(on water cooled models);
check that the tracts of siphoned corrugated pipe, bothinternal and external to the conditioner, have been filledwith water in the installation phase;
close the door and the front panels; wait for the oil in the compressors to heat (12 hours forcompressors equipped with heaters);
press the ENTER key (A6) of the user terminal; a slidingbar and a ventilator icon will appear on the display;
if an alarm is indicated, consult the user interface manualUG40;
I5
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Selecting the power supply of the fans
WARNING! Before establishing the electrical
connection , make sure that the power supply is
off. Also ensure that i t is not possible toreconnect the power during the operation.
WARNING! In the case of a uni t wi th duc ts, the
load loss from the exhaust duct must be less than
100 Pa.
In the following table the voltage levels for each model workingin the standard version are given.
HOW TO ADJUST FAN SPEED
In the TD*R and TU*R units, the speed of the fan rotation canbe varied by using the ATR transformer (F1).
OFF
To shut down the unit carry out the following procedure:
WARNING! Dur ing pro longed breaks a
spontaneous migration of the refrigerant may
occur in the casing of the compressor, which may
cause foaming of the oil and consequent damage
because of the lack of lubr i f icat ion. I t is
recommended that the main switch is not turned
off during weekly breaks.
on the first screen of the user terminal, press keys A5
or A7 until the SWITCH OFF UNIT screen appears; press the ENTER key to confirm; the following icons will appear
Press the ENTER to confirm
SETTING AND ADJUSTMENT To obtain the required prevalence of the implant, it is possibleto vary the voltage by selecting one of the following levels:Models 0511-0611
140V -160V -180V -190 - 200V -210V -220V -230VModels 0721-1822
230V - 250V - 260V - 270V - 280V - 290V - 300V - 310V -320V - 340V - 360V - 380V - 400V.Models 2222 - 2242 - 2522 - 2542 - 2842 - 3342 : 150V -180V - 200V - 230V - 240V - 260V - 280V - 300V - 320V -340V - 360V - 380V - 400V.In the following table the maximum pressure available(expressed in Pa) for each voltage level of the transformer isindicated. The values are given for the maximum air flow(expressed in m3/h).
F1
tinunoisnapxetceridgnisnednocretawdnariA:RW*T-RA*T
C704R:tnaregirfeR
aP02 4UE 5UEtsoP
gnitaeh
tsoP
gnitaeh
5UE+
egatlovylppusrewoP]V[ ]V[ ]V[ ]V[
A1160-A1150 081 081 081 091
-A2270-A1270A1201-A2290A1290
A2201-062 062 062 072
-A2211-A1211A2231-A1231
062 062 062 072
-A2261-A2241A2281
072 072 072 082
A2422-A2222 032 032 042 042
A2452-A2252 042 042 062 062
A2433-A2482 062 062 062 082
tinunoisnapxetceridgnisnednocretawdnariA:RW*T-RA*T
A014R:tnaregirfeR
aP02 4UE 5UEtsoP
gnitaeh
tsoP
gnitaeh
5UE+
A1160-A1150 081 081 081 091
-A2270-A1270
A1201-A2290A1290A2201-
062 062 062 072
-A2211-A1211A2231-A1231
052 062 062 072
-A2261-A2241A2281
072 072 072 082
-A2422-A2222
A2452-A2252
032 042 042 042
A2482 042 042 042 062
A2433 042 062 062 062
ledoMRW*T-RA*T
1160-1150
RW*T-RA*T
1160-1150
m[wolfriA 3 ]h/ 0475 0475
tnaregirfeR C704R A014RylppusrewoP
egatlov
]V[ ]aP[ ]aP[
041 - -
061 02 02
081 44 44
091 17 17
002 101 101
012 731 731
022 671 671
032 691 691
SEIRES RW*T-RA*T RW*T-RA*T
ledoM
2270-1270
2290-1290
2201-1201
2211-1211
2231-1231
2241
2261
2281
2270-1270
2290-1290
2201-1201
2211-1211
2231-1231
2241
2261
2281
tnaregirfeR C704R A014R
m[wolfriA 3 ]h/ 0818 01711 00651 0818 05611 0475
ylppusrewoP
egatlov
]V[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[
032 - - - - - -
052 - - - - 02 -
062 81 02 - 02 52 -
072 42 83 02 73 55 02
082 94 56 63 26 38 63
092 67 79 56 98 311 56
003 101 521 421 411 241 421
013 721 451 521 341 371 521
023 251 481 351 661 002 351
043 871 822 691 402 542 691
063 922 782 652 552 503 652
083 233 643 513 703 363 513
004 963 334 304 983 754 304
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After having selected the voltage level, carry out theconnection in the following way: with the unit turned off, open the front panels and the
door of the electrical panel and the internal protectionpanels;
select the supply voltage by positioning the main switchto "0" (D5);
Follow the diagrams displayed below and refer to thewiring diagram enclosed to connect the two electric wiresfound on the fan, or on the connector block, to thecorresponding terminals on the autotransformer
?
@
&?
>
ATR1 ATR2
! !
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
! !
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
! !
?
@
>
ATR1 ATR2
?
@
>
ATR1 ATR2
&!?
&?
&?
&?
&?
&!?
&?
&?
&?
&?
&!?
&?
MODELSda 721 a 1822
MODELSda 2222 a 3342
MODELS0511-0611
SEIRES RW*T-RA*T RW*T-RA*T
ledoM 2422-2222 2452-2252 2482 2433 2422-2222 2452-2252 2482 2433
tnaregirfeR C704R A014R
m[wolfriA 3 ]h/ 00022 00032 00532 00532 00022 00032 00532 00532
ylppusrewoP
egatlov
]V[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[
051 - - - - - - - -
081 - - - - - - - -
002 - - - - - - - -
032 - - - - 02 - - -
042 02 - - - 45 02 - -
062 321 02 02 - 541 111 02 -
082 171 031 56 02 391 551 88 02
003 312 071 201 66 632 791 921 89
023 152 802 531 101 572 532 361 431
043 582 042 661 331 903 562 591 561
063 413 862 591 261 833 592 222 591
083 723 492 542 781 263 023 592 812
004 543 003 772 452 963 723 503 982
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MODELS WITH A PHASE CONTROL VOLTAGE REGULATOR
To reach the head required by the system for conditioners with fans carrying a CE marking, the input voltage percentage canbe adjusted from the user terminal (A).To select the voltage percentage to be applied, carry outthe following procedures: on the user terminal press the PRG button; using the UP or DOWN key select SERVICE MENU and confirm using the ENTER key; enter the password (see the envelope attached to the manual); using the UP or DOWN key select HARDWARE SETTING and confirm using the ENTER key;
using the UP or DOWN key select EVAPORATING FAN and confirm using the ENTER key; set the amount and confirm using the ENTER key.In the following table the maximum pressure available (expressed in Pa) for each voltage level of the transformer isindicated. The values are given for the maximum air flow (expressed in m3/h).
tinunoisnapxetceridgnisnednocretawdnariA:VW*T-VA*T
C704R:tnaregirfeRaP02
aP02 4UE 5UEtsoP
gnitaeh
tsoP
gnitaeh
5UE+
egatlovylppusrewoP
]%[ ]%[ ]%[ ]%[
A1160-A1150 95 06 06 16
A1290-A2270-A1270A2201-A1201-A2290 96 07 07 17
-A1231-A2211-A1211
A223136 56 56 76
A2281-A2261-A2241 17 27 37 47
A2422-A2222 46 56 56 66
A2452-A2252 66 86 86 96
A2482 86 96 96 07
A2433 96 07 17 27
tinunoisnapxetceridgnisnednocretawdnariA:VW*T-VA*T
A014R:tnaregirfeRaP02
aP02 4UE 5UEtsoP
gnitaeh
tsoP
gnitaeh
5UE+
egatlovylppusrewoP
]%[ ]%[ ]%[ ]%[
A1160-A1150 85 95 95 06
A1290-A2270-A1270A2201-A1201-A2290 86 96 96 07
-A1231-A2211-A1211A2231
16 36 26 46
A2281-A2261-A2241 07 17 17 27
A2422-A2222 26 36 36 46
A2452-A2252 56 66 66 76
A2482 66 76 76 96
A2433 76 96 96 96
ledoMVW*T-VA*T
1160-1150
VW*T-VA*T
1160-1150
m[wolfriA 3 ]h/ 0475 0475
tnaregirfeR C704R A014R
egatlovylppusrewoP]%[ ]aP[ ]aP[
05 - -
55 - -
95 02 -
06 55 02
56 351 521
07 532 812
57 333 892
08 593 583
58 384 554
09 545 525
59 826 395
001 286 066
SEIRES RW*T-RA*T RW*T-RA*T
ledoM
2270-1270
2290-1290
2201-1201
2211-1211
2231-1231
2241
2261
2281
2270-1270
2290-1290
2201-1201
2211-1211
2231-1231
2241
2261
2281
tnaregirfeR C704R A014R
m[wolfriA 3 ]h/ 0228 01711 00651 0228 02321 0475
ylppusrewoP
egatlov
]%[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[
05 - - - - - -
55 - - - - - -
06 - - - - - -
56 - 54 - - 07 -07 04 021 01 36 541 01
57 031 002 78 041 512 78
08 022 282 281 732 003 281
58 523 463 072 833 583 072
09 214 054 073 024 574 073
59 215 555 574 335 775 574
001 746 786 406 766 707 406
SEIRES RW*T-RA*T RW*T-RA*T
ledoM 2422-2222 2452-2252 2482 2433 2422-2222 2452-2252 2482 2433
tnaregirfeR C704R A014R
m[wolfriA 3 ]h/ 00022 00032 00532 00532 00022 00032 00532 00532
ylppusrewoP
egatlov
]%[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[ ]aP[
55 - - - - - - - -
06 - - - - - - - -
56 01 - - - 02 - - -
07 08 03 - - 09 05 52 -
57 061 511 79 56 071 041 021 89
08 842 091 181 061 062 032 702 58158 533 092 072 842 153 023 503 482
09 034 083 073 053 044 014 004 873
59 045 094 564 044 555 025 294 074
001 407 076 156 826 827 796 086 266
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Maximum and minimum water temperatures
The maximum and minimum water temperatures for chilledwater circuits and for hot water re-heat circuits are: 5C 90C.The accepted maximum amount of ethylene glycol is 50%.
Setting the pressostatic valve (optional on
chilled water cooled models only)
The pressostatic valve, by controlling the water flow, preventsthe condensing pressure falling too low and at the same timeminimises water consumption. When necessary, set thepressostatic valve by turning the regulation knob (the pressureincreases when turning it clockwise) until the condensationpressure stabilizes to recommended* checking the pressurewith a gauge fitted to the pressure tapping of the compressordischarge valve.
Setting the air flow sensor
The FS differential pressure switch intervenes if the fan (orone of the fans) stops working.The factory set point of the FS differential pressure switch isat 0.5 mbar (= 50Pa).As the difference in pressure between the suction anddischarge of the fans depends on the air flow, it may benecessary to calibrate the instruments after installation,checking that the contact closes when the fans are in
operation.To set the FS pressure switch, carry out the following proce-dure: simulate a fan fault by stopping a fan; check that the
pressure switch intervenes; if the pressure switch does not intervene, gradually
increase the setting until the pressure switch switchesoff:- using an adjustment screw, set the differential pressureswitch on a scale (from 0.5 to 4.0 mbar - from 50 to 400Pa).
Setting the dirty fi lter sensors
The PFS differential pressure switch is set according to theloss of load dependent on the dirt inside the filters and the airflow.The PFS differential pressure switch must be set at 3 mbar(=300 Pa).To set the PFS pressure switch, carry out the following pro-cedure: gradually cover the surface of the air filter and check
that the pressure switch intervenes when the filter is about
50-60 % covered; if the pressure switch does not intervene, gradually lowerthe setting, if it cuts in too soon, increase the setting:- using a star screw driver turn the regulation screws ofthe pressure switch to the desired value.
Setting the regulation and safety devices
After starting up the unit, set the following set points (seethe microprocessor control manual): Room temperature (cooling and heating set point); Relative room humidity (humidification and
dehumidification set point); Dirty filter differential pressure switch: see paragraph
"Setting the dirty filter sensor".The settings of the safety devices must not be modified.
R22 - R407C
R410A
edoC noitpircseD gninepO ledoM tes-eR
2PA-1PAerusserphgiH
hctiws
rab5.62
rab5.72
2281-1150
2433-2222
launaMteseR
RSTycnegremetsriFtatsomrehtytefas
C013)gninepo(
llAlaunaM
teseR
ARSTycnegremednoceS
tatsomrehtytefasC823
)gninepo(llA
launaMteseR
SV evlavytefaS rab03 llA -
edoC noitpircseD gninepO ledoM tes-eR
2PA-1PAerusserphgiH
hctiwsrab5,04)gninepo(
llAlaunaM
teseR
RSTycnegremetsriFtatsomrehtytefas
C013)gninepo(
llAlaunaM
teseR
ARSTycnegremednoceS
tatsomrehtytefasC823
)gninepo(llA
launaMteseR
SV evlavytefaS rab54 llA -
* R22-R407c : pressure 17 bar =temperature 45CR410A : pressure 26 bar =temperature 45C
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MAINTANENCE
Three-monthly checks
Carry out the following checks every three months: check the power supply; check the alarm status; check the working pressures and temperatures; check the correct operation of the local/remote controls; check the air filters, cleaning and replacing them if
necessary; check the efficiency of the condensing drain; check the steam cylinder is clean, replacing it if
necessary; check and clean if necessary the condensing coil.
Six-monthly checks
Carry out the following checks every six months: repeat these checks on a three-monthly basis; check and clean if necessary the cooling coil; check the operation of the humidifier (if present).
Annual checks
Carry out the following checks every year: repeat these checks on a six-monthly basis; check the varnish and the nuts and bolts; check the hinges, rabbets and gaskets; check the cables and wiring; tighten the terminal blocks; check and reset if necessary the safety device settings
(pressure switches, thermostats, protection devices); check the operation of the post heating electrical heaters check the fittings, operation and absorption of the
evaporating fan/s; check the fittings, operation and absorption of the
compressor/s; check and if necessary replace the seal of the refrigerant
circuit/s and tighten the joints and connections of theunit;
check and top up if necessary the refrigerant gas and/oroil;
check and if necessary reset the regulation devicessetting;
check and if necessary replace the seal of the hydrauliccircuits/s and tighten the unit couplings;
check the fittings and operation of the condensing fan/s; check and reset if necessary the condensing speed
setting.
Checks to be performed every sixty months
Check and if necessary replace the gas filters; check and if necessary replace the compressor oil.
Cleaning and repalcing the filters
Models TD. 2222 3342
To clean and replace the filters carry out the followingprocedures: remove the front cover of the filters by turning
anticlockwise the panels screws;
remember the direction of the air flow indicated on thelabel of each filter and draw the filters;
clean them using a blast of compressed air or replacethem;
clean them using a blast of compressed air or replacethem; mount the front cover of the filters.
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OTHER MODELS
To clean and replace the filters carry out the followingprocedures: open the front panels of the machine; remove the filter blocking supports;
remove the filters checking the direction of the air flowindicated on the label of each filter;
clean them using a blast of compressed air or replacethem;
reposition the filters in the unit checking the direction ofthe air flow which was previously noted;
reposition the filter blocking supports.
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MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
MOOREHTOOTSIERUTAREPMET
HGIH
lenaplortnocehtnosgnittesretemarapehT)A.tcerroctonera
launamnoitcurtsnilenaplortnoceeS
.tnesbarowolsiwolfriaehT)B ."WOLFRIATNESBA/FOKCAL"eeS
.gnikrowtonsirosneserutarepmetehT)ClortnocehtdnasnoitcennoclacirtceleehtkcehC
.noitarugifnoc.detcepxenahtrehgihsidaollamrehtehT)D .daollamrehts'moorehtkcehC
.gnikrowtonsievlavyaw-eerhtehT)E
rotomovresehtfosnoitcennoclacirtceleehtkcehC.evlav
lortnoclaunamehtfosnaemybevlavehtnepO.bonk
.etnanoiznufnoneivertaalovlaV)Eehttahtkcehc;ylppusretawdellihcehtkcehC
.nepoerasevlavffo-tuhs.wolfretawdellihctneiciffusninasierehT)F .noitnufretawdellihcehtkcehC
.hgihootsierutarepmetretawdellihcehT)GT'NOD/T'NSEOD)S(ROSSERPMOCEHT"eeS
."KROWlortnocetipsedgnikrowton)s(rosserpmocehT)H
llacT'NOD/T'NSEOD)S(ROSSERPMOCEHT"eeS
."KROW
ERUTAREPMETMOOR
WOLOOT
toneralortnocehtnosgnittesretemarapehT)Atcerroc
.launamlortnocrossecorporcimehteeS
cirttcleehtotylppusrewoptneiciffusnisierehT)Bgnikrowtonerasretaehehtrosretaeh
sitnemelegnitaehehtfoMIehttahtkcehC)1.demra
ehtfotiucricgnideefcirtceleehtkcehC)2.sretaeh
dnaesuacehtevomer,mralaretaehasierehtfI)3.tatsomrehtytefasehttes-er
.gnikrowtonsiliocretawtohehT)C.erutarepmetdnayticapacretawtohehtkcehC)1ees(evlavnoitalugerehtfonoitcnufehtkcehC)2
.)rotomovresdnaevlav
gnirudgnikrowtonsiliocsagtohehT)D.taeh-erhtiwnoitacifidimuhed
.noitcnufevlavyaw3sagtohehtkcehC)1gnivresrosserpmocehtfonoitcnufehtkcehC)2
)S(ROSSERPMOCEHT"eeS.taeh-ereht."KROWT'NOD/T'NSEOD
tiucricretawdellihcehtfoevlavyaweerhtehT)E.nepodekcolbsi
dnabonklortnoclaunamehtgnisuevlavehtesolC.rotomovresehtecalper
MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
TONSEODTINUEHTTRATS
.lenaplacirtceles'tinuehtotylppusrewopoN)AehtnohctiwsniamtinuehtdnanosirewopehttahtkcehC
.desolcsilenaplacirtcele
.stiucricyrailixuaehtotrewopoN)B
XUAehtnorekaerbtiucriccitamotuaMIehttahtkcehC)1.tessitiucric
.draobniamehtnoesufehtkcehC)2
.tinuehttratstonseodlenaplortnocehT)CdetacolyltcerrocerasrotcennoclenaplortnocehttahtkcehC
.stekcosriehtni
Troubleshooting
Troubleshooting is made easier by the indications on the control panel display: when an alarm signal is displayed, consultthe control panel instruction manual. If necessary, call the nearest Service Centre describing the nature of the fault and itspossible cause displayed on the control.
TEMPERATURE CONTROL
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MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
OOTYTIDIMUHMOORHGIH
lenaplortnocehtnosgnittesretemarapehT)A.tcerroctonera
.launamnoitcurtsnilenaplortnoceeS
.detcepxenehtrehgihsidaoltnetalehT)Bdnasnoitidnocriahserf,daoltnetalehtkcehC
.noitartlifnirialanretxe;emulov
gnirudnoitcnuftonseodrosserpmocehT)C.noitacifidimuhed
T'NOD/T'NSEOD)S(ROSSERPMOCEHT"eeS."KROW
ehtrofdlocyltneiciffustonsiretawdellihcehT)Ddnagnivasygreneni(noitcnufnoitacifidimuhed
.)stinuloocniwt
litnuerutarepmetretawdellihcehtrewoL.liocehtfoecafrusehtnotneserpsietasnednoc
OOTYTIDIMUHMOORWOL
lenaplortnocehtnosgnittesretemarapehT)A.tcerroctonera
lortnocees(sgnittesytidimuhmoorehtkcehC.)launamnoitcurtsnilenap
.detcepxenahtrewolsidaoltnetalehT)B .taehtnetalfoytitnauqehtkcehC
.krowt'nseodreifidimuhehT)C
.erusserpylppusretawehtkcehC)1
metsyslortnoclaunamehtfonoitcnufehtkcehC)2lenapees(puorgnoitcudorpmaetsehtfodna
.)launamnoitcurtsni
.krowtonseodmetsyslortnocehT)Dkcehc;launamnoitcurtsnilenaplortnocehteeS
krowsrosnesro/dnalenaplortnocehttaht.ylreporp
MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
RIAWOLROTNESBAWOLF
.snafehtotrewoponsierehT)A snafehtotylppusrewopehtkcehC
mralaretlifytrid(deggolcerasretlifriaehT)B.)delbane
naelcdnaegdirtracehtfotuotsudehtekahS)1sitifiretlifehtecalpeR.renaelcmuucavahtiw
.dekcolbyletelpmoc
retlifytridehtfognittestcerrocehtkcehC)2.SFPhctiwserusserp
.detcurtsbosiwolfriaehT)Cneveton,detcurtsbotonsiwolfriaehttahtkcehC
.yllaitrap
.senevretninoitcetorplamreht'snafehT)D.sgnidniwrotomnafehtfoecnatsiserehtkcehC
.noitprosbadnaegatlovehterusaemnehttes-eR
devrucdrawkcabhtiwstinuR*UT,R*DTnI()EsisnafehtotylppusrewopehT.)snafedalb
.tneiciffusni
.snafehtotegatlovylppusrewopehtegnahC.)tnemtsujdadnagnitteS'.hpargarapeeS(
.hgihootsierusserptuptuonoitubirtsidriaehT)Fgniliec,stcud(noitubirtsiderusserpriaehtkcehC
.)sellirg,munelproolfro
MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
YTEFASRETAEHCIRTCELESENEVRETNITATSOMREHT
.wolfriatneiciffusnisierehT)A ."WOLFRIATNESBA/FOKCAL"eeS
detpurretnisieriwnoitcennoctatsomrehtehT)BytefasehtneewtebnoitcennocehtkcehC
.metsyslortnocehtdnatatsomreht
.ytluafsitatsomrehtehT)C .tatsomrehtehtecalpeR
HUMIDITY CONTROL
FANS
ELECTRIC HEATER
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MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
ROSSERPMOCHGIHERUSSERPEGRAHCSID
ehtnisagroriaelbasnednoc-nonsierehT)A;ssalgthgiswolfehtniselbbubhtiw,tiucrictnaregirfer
.gnilooc-busevissecxe.egrahcerdnatiucrictnaregirferehtetaucavE
siregnahcxetaehetomerehtotwolfriaehT)B.mrawootrotneiciffusni
ehtninoitceridnoitatordnanoitareponafehtkcehC)1.regnahcxetaehetomer
yrassecenfidnaytridsiregnahcxeehtfieesotkcehC)2
,tsud,sdees,repap,sevael(lairetamgnitcurtsboynaevomer;hsurbaroriadesserpmocfotsalbahtiw).cte
wolfriaehtnisnoitcurtsborofkcehctinulanretxeehtnI)3.riagniloocehtfonoitalucricerehtnidna
nihtiwsiriagniloocehtfoerutarepmetehttahtkcehC)4.stimildennalpeht
rotneiciffusnisiresnednocehtotwolfretawehT)C.mrawoot
dnaerusserp,wolfretawresnednocehtkcehC)1.metsysretawtiucricdesolcehtnierutarepmet
citatsosserpehtfonoitcnufdnagnittesehtkcehC)2.evlavnoitaluger
eht;tiucricehtnitnaregirferhcumootsierehT)DtnaregirferehT.dedoolfyllaitrapsiresnednocteltuoresnednocehttahgihootsigniloocbus
.tiucricehtmorftnaregirferemosevomeR
desolcyllaitraperasevlavegrahcsidehT)E .sevlavehtfogninepoehtkcehC
PA ERUSSERPHGIH SENEVRETNIHCTIWSegrahcsidrosserpmochgih(
)erusserp
tonsimetsyslortnocerusserpgnisnednocehT)A.yltneiciffegninoitcnuf
ehtfodnaresnednocehtfonoitcnufnafehtkcehC)1
.snafytluafehtecalperrotes-er;noitcetorpevitalerdeepsnafehtfonoitcnufdnagnittesehtkcehC)2
.resnednocetomerehtforotaluger
hgihootsierusserpegrahcsidmetsysehT)B ."ERUSSERPEGRAHCSIDROSSERPMOCHGIH"eeS
ROSSERPMOCWOLERUSSERPEGRAHCSID
tonsimetsyslortnocerusserpgnisnednocehT)A.)launamlenaplortnocees(yltneiciffegninoitcnuf
nafresnednocehtfonoitcnufdnagnittesehtkcehC.rotalugerdeepsrohctiwserusserp
ootrohgihootsiresnednocehtotwolfretawehT)B.dloc
;erutarepmetdnawolfretawresnednocehtkcehC)1
gnitalugererusserpehtfonoitcnufdnagnittesehtkcehC)2.)dettiffi(evlav
retawehtlortnocotevlavgnitalugererusserpatiF)3.erusserpgnisnednocehtotgnidroccaerusserp
.wolootsierusserpnoitcusehT)C."ERUSSERPNOITCUSROSSERPMOCWOL"eeS
ROSSERPMOCHGIHERUSSERPNOITCUS
.hgihootsidaollamrehtehT)Arevofoesacnikcehc;daollamrehts'moorehtkcehC
fosnoitidnocdnawolfriaehtkcehc,noitacifidimuhed .noitartlifnirialanretxeehtkcehc,rialanretxe
.hgihootsierusserpegrahcsidehT)B."ERUSSERPEGRAHCSIDROSSERPMOCHGIH"eeS
.tiucricehtnitnaregirferfoegrahcrevonasierehT)C.tiucricehtmorftnaregirferemosevomeR
ehtottnaregirferdiuqilfonruterasierehT)Dekatnirosserpmoc
sievlavcitatsomrehtehtfognittestaehrepusehttahtkcehC.tcerroc
REFRIGERANT CIRCUIT
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MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
NOITCUSROSSERPMOCWOLgnizeerfelbissopdna(ERUSSERP
)liocehtfo
.wolootsierutarepmetmoorehT)A ."WOLOOTERUTAREPMETMOOR"eeS
.tnesbasirowolootsiwolfriaehT)B ."WOLFRIAWOL"eeS
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.gninepoevlavehtkcehC
.detcurtsbosiretliftnaregirferehT)D .retliftnaregirferehtkcehC
rodetarbilacyltcerrocnisievlavcitatsomrehtehT)E.evitcefed
citatsomrehtehtfognittestaehrepusehtkcehC
stitsoltonsahblubrosnesehttahtkcehc;evlav.detalusnidnadexif,denoitisopllewsidnaegrahc
.egrahctnaregirfertneiciffusninasierehT)Ftadiuqiltnaregirferehtfognilooc-busehtkcehC
ynaeraerehtfieesotkcehc;teltuoresnednoceht.tinuehtegrahc-erdnaskael
MELBORP ESUACELBISSOP NOITCAEVITCERROC/KCEHC
)S(ROSSERPMOCEHTKROWT'NOD/T'NSEOD
.denevretnisahnoitcetorptiucrictrohsehT)A
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rotomrosserpmocehtfoytiunitnocdnaecnatsiser.sgnidniw
.gnikrowtonsirotcatnocehT)B .liocrotcatnocehtdnastcatnocehtkcehC
S'ROSSERPMOCEHTNOITCETORPLANRETNI
SENEVRETNI
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tnerrucdnaegatlovehterusaem,gnittes-erretfA.sesahpeerhtehtfonoitprosba
.dedaolrevosirotomehT)BdennalpehtnihtiwsetarepoerusserptinuehttahtkcehC
.stimil
.wolootrohgihootsiegatlovylppusrewopehT)Cdna%01-nihtiwsiegatlovehttahtkcehC
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YSIONSIROSSERPMOCEHT.degamadsirosserpmocehT)A
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.rosserpmoc.rosserpmocehtotnruterdiuqilsierehT)B .evlavcitatsomrehtehtfonoitcnufdnagnittesehtkcehC
COMPRESSORS
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LEONARDO EVOLUTION - CHILLED WATER
Technical characteristics
CHILLED WATER UNITS WITH BACKWARD CURVED BLADE FANS
RCUT-RCDTledoM A0021 A0071 A0002 A0052
thgieH mm 0691 0691 0691 0691
htdiW mm 0131 1271 2712 2712
htpeD mm 568 568 568 568
thgieW gk 413 593 344 854
)*(wolfretawdellihC h/l 0157 0669 05911 09051
)**(wolfretawdellihC h/l 0735 0436 0428 05601egatlovylppuscirtcelE V zH05/N+hp3/V004
RCUT-RCDTledoM B006 B007 A006 A007 A0001
thgieH mm 0691 0691 0691 0691 0691
htdiW mm 0101 0101 0101 0101 0131
htpeD mm 057 057 057 057 568
thgieW gk 012 022 012 022 603)*(wolfretawdellihC h/l 0804 6464 0804 6464 0585
)**(wolfretawdellihC h/l 0382 0423 0382 0423 0844
egatlovylppuscirtcelE V zH05/N+hp3/V004 zH05/N+hp3/V004
(*) Based on 24C@50% air temperature, ESP=20Pa, chi lled water 7/12C, ethy lene glycol 0%
(**) Based on 24C@50% air temperatu re, ESP=20Pa, chil led water 10/15C, ethy lene glycol 0%
RCUT-RCDTledoM 0072 0043 0004 )RCDTylno(0034
thgieH mm 0691 0691 0691 0712
htdiW mm 0712 0852 0852 0852
htpeD mm 568 568 568 568
)1()noisrevetelpmoC(thgieW gk 205 027 047 028
)*(wolfretawdellihC h/l 45861 97291 85612 64182
)**(wolfretawdellihC h/l 71821 71641 95061 31802
egatlovylppuscirtcelE V zH05/N+hp3/V004
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CW CHILLED WATER UNITS
The CW uses the availability of chilled water to control the room conditions.This version of LEONARDO has a relatively simple construction andgives outstanding reliability.
The microprocessor controls the modulating action of the 3 way (or op-tional 2 way) chilled water valve to give accurate control.Careful sizing of the heat exchanger coils allows a high sensible to totalcooling ratio under most operating conditions.
Operating description
(*) Based on 24C@50% air temperature, ESP=20Pa, chill ed water 7/12C, ethy lene glycol 0%
(**) Based on 24C@50% air temperature, ESP=20Pa, chi lled water 10/15C, ethylene glycol 0%
VCUT-VCDTledoM A0052 0072 0043 0004 )VCDTylno(0034
thgieH mm 0691 0691 0691 0691 0712
htdiW mm 2712 0712 0852 0852 0852
htpeD mm 568 568 568 568 568
)1()noisrevetelpmoC(thgieW gk 854 205 027 047 028
)*(wolfretawdellihC h/l 03251 78861 00091 08612 06092
)**(wolfretawdellihC h/l 04701 36031 57641 95061 02212
egatlovylppuscirtcelE V zH05/N+hp3/V004
VCUT-VCDTledoM 006 007 A0001 A0021 A0071 A0002
thgieH mm 0691 0691 0691 0691 0691 0691
htdiW mm 0101 0101 0131 0131 1271 2712
htpeD mm 057 057 568 568 568 568
thgieW gk 082 082 603 413 593 344
)*(wolfretawdellihC h/l 0814 0964 0575 0727 0129 05911
)**(wolfretawdellihC h/l 0603 0833 0244 0994 0606 0428
egatlovylppuscirtcelE V zH05/N+hp3/V004
CHILLED WATER UNITS WITH EC BACKWARD CURVED BLADE FANS
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Name and description of the principle components
A
D
B
C
E
F
G
Description of the components
A - User terminalAllows the unit to be turned on or off and the configurationand visualization of the condition of the machine. A1 LCD Display A2 ALARM key: visualisation and re-set of alarms; when
the alarm is activated, it flashes red. A3 PRG key : access to the configuration menu
A4 ESC key : exit from the screens A5 UP key : scroll through the menu A6 ENTER key : confirm A7 DOWN key: scroll through the menu
A User terminalB Electrical panel doorC Cover panelsD Electrical panelE FiltersF Fans
G Chilled water valve
A2
A3
A4
A5
A6
A7
A1
B - Electrical panel doorAllows access to the electrical panel of the machine
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G - Chilled water valve G1 Servomotor G2 Manual control knob G3 Valve stem
H - Cooling coil
C - Cover panelsAllow access to the internal components of the machine.
E - FiltersFilter the air released into the environment
D5
D1
D2
D3
D6
D4
F - FansAllow the diffusion of air into the room F1 ATR Transformer: allows the setting of the fan rotation
speed of the TD*R and TU*R units.
D - Electric panel D1 Magnetothermic
- auxiliary- heater (optional)- humidifier (optional)- fans
D2 Interface board D3 Dirty filter sensor D4 Air flow sensor D5 Main switch D6 Terminal board D7A Input/output electrical supply cables D7B Input/output electrical auxiliary cables D7C Input/output signal cables (RS485 and/or LAN)
E
H1
FF1
G1
G2
G
G3
D7A
D7B
D7C
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Checks to be made on delivery
WARNING! Dispose of the packaging in
appropriate collection points.
The Leonardo Evolution units are packaged in wooden cratesor anchored to a pallet and covered in cardboard.Check that the delivery is complete and inform the carrier ofany damage to the unit which may be attributed too carelessor inappropriate transportation. Check, in particular, any
eventual damage to the panel in which the user terminal ismounted.Lifting and moving the unit must be carried out by amechanical lifter.The following must be container within the packaging: The Leonardo Evolution unit; Leonardo Use and Installation Manual; Leonardo unit electrical diagrams; Leonardo unit cooling circuit diagrams; Leonardo unit installation diagrams; List of spare parts; CE declaration with a list of the European standards to
which the machine must conform;
guarantee conditions
Unloading the unit
To unload the unit from the pallet, carry out the following pro-cedure: move the pallet as near as possible to where the unit is