SystemAir SYSCROLL AIR CO/HP 40-75, SYSCROLL AIR RE 40-75 Installation And Maintenance Manual

Air Cooled Water Chillers and Heat Pumps
Refroidisseurs de liquide à condensation par air et pompes à chaleur air-eau
Luftgekühlte Flüssigkeitskühler und Wärmepumpen
Refrigeratori d’Acqua e Pompe di Calore Raffreddati ad Aria
Enfriadores de Agua y Bomba de Calor Condensadas con Aire

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

SYSCROLL AIR CO/HP 40-75

SYSCROLL AIR RE 40-75

ISO 9001:2008 certified management system

40

75 kW

40

75 kW

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ItalianoDeutsch

FrançaisEnglish

Part number / Code / Code / Codice / Código: 364354/F
Supersedes / Annule et remplace / Annulliert und ersetzt / Annulla e sostituisce /
Anula y sustituye:

342597/E

Notified Body / Organisme Notifié / Benannte Zertifizierungsstelle /
Organismo Notificato / Organismo Notificado N°. 1115 ”

1

English

Table of Contents

1 - FOREWORD

1.1 Introduction ..........................................................................2

1.2 Warranty ..............................................................................2

1.3 Emergency stop / Normal stop .............................................2

1.4 An introduction to this manual ..............................................2

2 - SAFETY

2.1 Foreword ..............................................................................3

2.2 Definitions ............................................................................ 4

2.3 Access to the unit ...............................................................4

2.4 General precautions..............................................................4

2.5 Precautions against residual risks .........................................4

2.6 Precautions during maintenance operations ..........................5

2.7 Safety labels ................................................................. 6 & 7

2.8 Safety regulations ........................................................ 8 to 10

3 - TRANSPORT, HANDLING AND STORAGE

3.1 Inspection ..........................................................................11

3.2 Handling ............................................................................11

3.3 Anchoring ..........................................................................12

3.4 Storage ..............................................................................12

4 - INSTALLATION

4.1 Installation site ................................................................... 13

4.2 External water circuit ................................................. 13 to 16

4.3 Water connections .............................................................17

4.4 Defrost water drainage (SyScroll Air HP only) ....................17

4.5 Water buffer tank ............................................................... 17

4.6 Power supply .....................................................................18

4.7 Electrical connections.........................................................19

5 - START-UP

5.1 Preliminary checks .............................................................22

5.2 Start-up .............................................................................22

5.3 Checking the operation .......................................................22

5.4 Delivery to the customer .....................................................22

6 - SYSCROLL AIR CO/HP CONTROL

6.1 Control of SyScroll Air CO/HP Units .................................... 23

6.2 Keypad functions ...................................................... 23 & 24

6.3 Folder structure ..................................................................24

6.4 Menù structure ...................................................................24

6.5 Alarm list ...........................................................................25

7 - SYSCROLL AIR RE CONTROL

7.1 Control system ................................................................... 26

7.2 Display ...............................................................................27

7.3 Keyboard ...........................................................................27

7.4 Alarms ...............................................................................28

8 - PRODUCT DESCRIPTION

8.1 General information ............................................................29

8.2 Accessories .............................................................. 30 & 31

8.3 Refrigeration circuits .................................................32 to 34

9 - TECHNICAL DATA

9.1 Hydraulic features ..................................................... 35 & 36

9.2 Physical data.............................................................37 to 46

9.3 Electrical data ............................................................ 47 & 48

9.4 Position of shock adsorbers

and weight distribution on supports ....................................49

9.5 Dimensional Drawings ...............................................50 to 53

9.6 Space requirements ...........................................................54

10 - MAINTENANCE

10.1 General requirements ....................................................... 55

10.2 Planned maintenance ........................................................55

10.3 Refrigerant charge .............................................................56

10.4 Compressor ......................................................................56

10.5 Condenser ....................................................................... 56

10.6 Fans .................................................................................56

10.7 Dehydrating filter ...............................................................56

10.8 Sight glass ........................................................................ 57

10.9 Thermostatic expansion valve............................................57

10.10 Evaporator ........................................................................57

11 - TROUBLESHOOTING .......................................... 58

12 - SPARE PARTS

12.1 Spare part list.....................................................................59

12.2 Oil for compressors ............................................................59

12.3 Wiring diagrams .................................................................59

13 - DISMANTLING, DEMOLITION AND SCRAPPING

13.1 Generalities ........................................................................60

2

1 - Foreword

1.1 Introduction

Units, manufactured to state-of-the-ar t design and implementation
standards, ensure top performance, reliability and fitness to any type
of air-conditioning systems.

These units are designed for cooling water or glycoled water (and for
water heating in heat pump models) and are unfit for any purposes
other than those specified in this manual.

This manual includes all the information required for a proper
installation of the units, as well as the relevant operating and
maintenance instructions.

It is therefore recommended to read this manual carefully before
installation or any operation on the machine. The chiller installation
and maintenance must be carried out by skilled personnel only
(where possible, by one of Authorised Service Centers).

The manufacturer may not be held liable for any damage to people or
property caused by improper installation, start-up and/or improper
use of the unit and/or failure to implement the procedures and
instructions included in this manual.

1.2 Warranty

These units are delivered complete, tested and ready for being
operated. Any form of warranty will become null and void in the event
that the appliance is modified without manufacturer’s preliminary
written authorisation.

This warranty shall apply providing that the installation instructions
have been complied with (either issued by manufacturer, or deriving
from the current practice), and the Form 1 (“Start-up”) has been
filled-in and mailed to manufacturer (attn. After-Sales Service).

In order for this warranty to be valid, the following conditions shall
be met:

Q The machine must be operated only by skilled personnel from

Authorised After-Sales Service.

Q Maintenance must be performed only by skilled personnel - from

one of Authorised After-Sales Centers.

Q Use only original spare parts.

Q Carry out all the planned maintenance provided for by this manual

in a timely and proper way.

Failure to comply with any of these conditions will automatically void
the warranty.

1.3 Emergency stop / Normal stop

The emergency stop of the unit can be enabled using the master
switch on the control panel (move down the lever).

For a normal stop, press the relevant push-buttons.

To restart the appliance, follow the procedure detailed in this manual.

1.4 An introduction to the manual

For safety reasons, it is imperative to follow the instructions given
in this manual. In case of any damage caused by non-compliance
with these instructions, the warranty will immediately become null
and void.

Conventions used throughout the manual:

DANGER

The DANGER sign recalls your attention to
a certain procedure or practice which, if not
followed, may result in serious damage to
people and property.

WARNING

The WARNING sign precedes those procedures
that, if not followed, may result in serious
damage to the appliance.

NOTE

The NOTE contain important observations.

USEFUL TIPS

The USEFUL TIPS provide valuable information
that optimises the efficiency of the appliance.

This manual and its contents, as well as the documentation which
accompanies the unit, are and remain the property of manufacturer,
which reserves any and all rights thereon. This manual may not
be copied, in whole or in part, without manufacturer’s written
authorization.

3

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2 - Safety

2.1 Foreword

These units must be installed in conformity with the
provisions of Machinery Directive 2006/42/EC, Pressure
Vessels Directive 97/23/EC, Electromagnetic Interference
Directive 2004/108/EC, as well as with other regulations
applicable in the country of installation. If these provisions
are not complied with, the unit must not be operated.

DANGER

The unit must be grounded, and no
installation and/or maintenance operations
may be carried out before deenergising the
electrical panel of the unit.

Failure to respect the safety measures mentioned above may result
in electrocution hazard and fire in the presence of any short-circuits.

DANGER

Inside the heat exchangers, the compressors
and the refrigeration lines, this unit contains
liquid and gaseous refr i g e rant under
pressure. The release of this refrigerant may
be dangerous and cause injuries.

DANGER

The units are not designed to be operated with
natural refrigerants, such as hydrocarbons.
Manufacturer may not be held liable for any
problems deriving from the replacement
of original refrigerant or the introduction of
hydrocarbons.

Units are designed and manufactured according to the requirements
of European Standard PED 97/23/EC (pressure vessels).

Q The used refrigerants are included in group II (non-hazardous

fluids).

Q The maximum working pressure values are mentioned on the

unit’s data plate.

Q Suitable safety devices (pressure switches and safety valves)

have been provided, to prevent any anomalous overpressure
inside the plant.

Q The vents of the safety valves are positioned and oriented in such

a way as to reduce the risk of contact with the operator, in the
event that the valve is operated. Anyway, the installer will convey
the discharge of the valves far from the unit.

Q Dedicated guards (removable panels with tools) and danger signs

indicate the presence of hot pipes or components (high surface
temperature).

DANGER

The guards of the fans (only for units provided
with air heat exchangers) must be always
mounted and must never be removed before
de-energising the appliance.

DANGER

It is the User’s responsibility to ensure that
the unit is fit for the conditions of intended use
and that both installation and maintenance are
carried out by experienced personnel, capable
of respe cting all t he recommendations
provided by this manual.

It is important that the unit is adequately
supported, as detailed in this manual. Non­compliance with these recommendations may
create hazardous situations for the personnel.

DANGER

The unit must rest on a base which meets the
characteristics specified in this manual; a
base with inadequate characteristics is likely
to become a source of serious injury to the
personnel.

WARNING

Th e unit has n ot been desi gn to w ithst and
loads and/or stress that may be transmitted by
adjacent units, piping and/or structures.

Each external load or stress transmitted to the
unit may break or cause breakdowns in the
unit’s structure, as well as serious dangers to
people. In these cases, any form of warranty will
automatically become null and void.

WARNING

The packaging material must not be disposed of
in the surrounding environment or burnt.

4

2 - Safety

2.2 Definitions

OWNER: means the legal representative of the company, body or

individual who owns the plant where unit has been installed; he/she
has the responsibility of making sure that all the safety regulations
specified in this manual are complied with, along with the national
laws in force.

INSTALLER: means the legal representative of the company who has
been given by the owner the job of positioning and performing the
hydraulic, electric and other connections of unit to the plant: he/she
is responsible for handling and properly installing the appliance, as
specified in this manual and according to the national regulations in
force.

OPERATOR: means a person authorised by the owner to do on unit
all the regulation and control operations expressly described in this
manual, that must be strictly complied with, without exceeding the
scope of the tasks entrusted to him.

ENGINEER: means a person authorised directly by manufacturer or,
in all EC countries, excluding Italy, under his full responsibility, by
the distributor of product, to perform any routine and extraordinary
maintenance operations, as well as any regulation, control, servicing
operations and the replacement of pieces, as may be necessary
during the life of the unit.

2.3 Access to the unit

The unit must be placed in an area which can be accessed also
by OPERATORS and ENGINEERS; otherwise the unit must be
surrounded by a fence at not less than 2 meters from the external
surface of the machine.

OPERATORS and ENGINEERS must enter the fenced area only
after wearing suitable clothing (safety shoes, gloves, helmet etc.).
The INSTALLER personnel or any other visitor must always be
accompanied by an OPERATOR.

For no reason shall any unauthorised personnel be left alone in
contact with the unit.

2.4 General precautions

The OPERATOR must simply use the controls of the unit; he must not
open any panel, other than the one providing access to the control
module.

The INSTALLER must simply work on the connections between plant
and machine; he must not open any panels of the machine and he
must not enable any control.

When you approach or work on the unit, follow the precautions listed
below:

Q do not wear loose clothing or jewellery or any other accessory tat

may be caught in moving parts

Q wear suitable personal protective equipment (gloves, goggles

etc.) when you have to work in the presence of free flames
(welding operations) or with compressed air

Q if the unit is placed in a closed room, wear ear protection devices

Q cut off connecting pipes, drain them in order to balance the

pressure to the atmospheric value before disconnecting them,

disassemble connections, filters, joints or other line items

Q do not use your hands to check for any pressure drops

Q use tools in a good state of repair; be sure to have understood the

instructions before using them

Q be sure to have removed all tools, electrical cables and any other

objects before closing and starting the unit again

2.5 Precautions against residual risks

Prevention of residual risks caused by the control
system

Q be sure to have perfectly understood the operating instructions

before carrying out any operation on the control panel

Q when you have to work on the control panel, keep always the

operating instructions within reach

Q start the unit only after you have checked its perfect connection

to the plant

Q promptly inform the ENGINEER about any alarm involving the unit

Q do not reset manual restoration alarms unless you have identified

and removed their cause

Prevention of residual mechanical risks

Q install the unit according to the instructions provided in this

manual

Q carry out all the periodical maintenance operations prescribed by

this manual

Q wear a protective helmet before accessing the interior of the unit

Q before opening any panelling of the machine, make sure that it is

secured to it by hinges

Q do not touch air condensation coils without wearing protective

gloves

Q do not remove the guards from moving elements while the unit is

running

Q check the correct position of the moving elements’ guards before

restarting the unit

Prevention of residual electrical risks

Q connect the unit to the mains according to the instructions

provided in this manual

Q periodically carry out all the maintenance operations specified by

this manual

Q disconnect the unit from the mains by the external disconnecting

switch before opening the electrical board

Q check the proper grounding of the unit before start-up

Q check all the electrical connections, the connecting cables, and in

particular the insulation; replace worn or damaged cables

5

English

2 - Safety

Q periodically check the board’s internal wiring

Q do not use cables having an inadequate section or flying

connections, even for limited periods of time or in an emergency

Prevention of other residual risks

Q make sure that the connections to the unit conform to the

instructions provided in this manual and on the unit’s panelling

Q if you have to disassemble a piece, make sure that it has been

properly mounted again before restarting the unit

Q do not touch the delivery pipes from the compressor, the

compressor and any other piping or component inside the
machine before wearing protective gloves

Q keep a fire extinguisher fir for electrical appliances near the

machine

Q on the units installed indoor, connect the safety valve of the

refrigeration circuit to a piping network that can channel any
overflowing refrigerant outside

Q remove and leak of fluid inside and outside the unit

Q collect the waste liquids and dry any oil spillage

Q periodically clean the compressor compartment, to remove any

fouling

Q do not store flammable liquids near the unit

Q do not disperse the refrigerant and the lubricating oil into the

environment

Q weld only empty pipes; do not approach flames or other sources

of heat to refrigerant pipes

Q do not bend/hit pipes containing fluids under pressure

2.6 Precautions during maintenance operations

Maintenance operations can be carried out by authorised technicians
only.

Before performing any maintenance operations:

Q disconnect the unit from the mains with the external disconnecting

switch

Q place a warning sign “do not turn on - maintenance in progress”

on the external disconnecting switch

Q make sure that on-off remote controls are inhibited

Q wear suitable personal protective equipment (helmet, safety

gloves, goggles and shoes etc.)

To carry out any measurements or checks which require the
activation of the machine:

Q work with the electrical board open only for the necessary time

Q close the electrical board as soon as the measurement or check

has been completed

Q for outdoor units, do not carry out any operations in the presence

of dangerous climatic conditions (rain, snow, mist etc.)

The following precautions must be always adopted:

Q do not scatter the fluids of the refrigeration circuit in the

surrounding environment

Q when replacing an eprom or electronic cards, use always suitable

devices (extractor, antistatic bracelet, etc.)

Q to replace a compressor, the evaporator, the condensing coils or

any other weighty element, make sure that the lifting equipment is
consistent with the weight to be lifted

Q in air units with independent compressor compartment, do not

access the fan compartment unless you have disconnected the
machine by the disconnecting switch on the board and you have
placed a warning sign “do not turn on - maintenance in progress”

Q contact manufacturer for any modifications to the refrigeration,

hydraulic or wiring diagram of the unit, as well as to its control
logics

Q contact manufacturer if it is necessary to perform very difficult

disassembly and assembly operations

Q use only original spare parts purchased directly from manufacturer

or the official retailers of the companies on the recommended
spare parts list

Q contact manufacturer if it is necessary to handle the unit one year

after its positioning on site or if you wish to dismantle it.

6

2 - Safety

2.7 Safety labels

Use of filter and flow switch - Adjacent to fittings

E’OBBLIGATORIO L’USO DI FILTRO E FLUSSOSTATO ACQUA

THE USE OF FILTER AND FLOW SWITCH IS MANDATORY

EL USO DEL FILTRO Y DEL INTERRUPTOR DE FLUJO ES OBLIGATORIO

L’UTILISATION DU FILTRE ET DU FLUXOSTAT EST OBLIGATOIRE

DER GEBRAUCH VON FILTER UND STRÖMUNGSWÄCHTER IST

VORGESCHRIEBEN

Lifting point - Base

ACCESSORI inclusi

ACCESSORY enclosed

ZUBEHOR eingeschlossan

ACCESSOIRE ci-inclus

ACCESSORIOS incluidos

Product code A
Model B
Notified body C
Serial number D
Year of construction E
Refrigerant type F
Refrigerant charge G
High pressure H
Low pressure I
Main supply L
Start up current M
Full load current N
Power input O
Water operation pressure P
Mass Q
IP class R

Identification of the refrigerant - External door

Identification of the unit Outside, on the right-hand front column

Pump operation - Outside, on the right-hand front column

LAS BOMBAS MONTADAS EN ESTA UNIDAD NO PUEDEN TRABAJAR SIN AGUA

DIE PUMPEN DIESES GERÄTES DÜRFEN NICHT OHNE WASSER BETRIEBEN WERDEN

THE PUMPS ON BOARD OF THIS UNIT CAN NOT WORK WITHOUT WATER
LES POMPES A BORD DE CETTE UNITE NE PEUVENT PAS FONCTIONNER SANS EAU
LE POMPE ABORDO DI QUESTA UNITÀ NON POSSONO FUNZIONARE SENZA ACQUA

Circuit drain - Outside, on the right-hand front column

USARE SOLO

R 410A

E

RECUPERARE FLUIDO - NON DISPERDERE NELL’AMBIENTE - REGOLAMENTO CEE N° 3093/94

RECOVER - DO NOT VENT - EEC REGULATION N° 3093/94

SPECIAL ESTER OIL

USE ONLY

ATTENTION! Don’t leave the unit with water inside hydraulic circuit during
winter or when it is in stand by.
ATTENZIONE! Non lasciare l’unità con acqua nel circuito idraulico durante
l’inverno o quando non è funzionante.
ATTENTION! Ne laissez pas l’unitè avec de l’eau dans le circuit hydraulique
pendant l’hiver ou quand elle ne travaille pas.
WARNUNG! Lassen Sie nicht das Wasser in die Schaltung während des
Winters oder wenn es nicht funktionient.
¡ATENCÍON! No deje el agua en el circuito hidráulico durante el invierno o
cuando no esta trabajando.

7

English

2 - Safety

Grounding connection on the

electrical board,

adjacent to the connection

Read the instruction on the

electrical board

On voltage - Adjacent to the

master switch

Fan Danger

Fitting identification - Adjacent to fittings

Sequence phase control on the electrical board

ATTENZIONE

QUESTO COMPRESSORE RICHIEDE UN CORRETTO
SENSO DI ROTAZIONE
RISPETARRE LA CORRETTA SEQUENZA DELLE FASI

THIS COMPRESSOR REQUIRES PROPER DIRECTION
OF ROTATION
CHECK PROPER ELECTRICAL PHASING

KOMPRESSOREN BENÖTIGEN KORREKTES DREHFELD
ELEKTRISCHE ANSCHLÜSSE AUF DREHFELD ÜBERPRÜFEN

CES COMPRESSEURS NECESSITENT UN BON SENS
DE ROTATION
VERIFIER LE CABLAGE DES PHASES

ESTOS COMPRESORES DEBEN FUNCIONAR EN EL
SENTIDO DE ROTACIÓN CORRECTO
COMPROBAR EL CABLEADO DE LAS FASES

CAUTION

ACHTUNG

ATTENTION

ATENCIÓN

Electrical warning

Adjacent to the master switch

ATTENZIONE !

Prima di

aprire togliere

tensione

CAUTION !

Disconnect

electrical

supply before

opening

ACHTUNG !

Vor offnen des

gehauses

hauptschalter

ausschalten

ATENCION !

Cor tar la

corrente antes

de abrir

el aparato

ATTENTION !

Enlever

l’alimentation

electrique

avant d’ouvrir

Start-up warning - Outside the door

of the electrical board

ATTENZIONE

INSERIRE LE RESISTENZE DI RISCALDAMENTO OLIO ALMENO 12
ORE PRIMA DI OGNI AVVIAMENTO (SE PREVISTE)
PRIMA DELLA MESSA IN TENSIONE ASSICURARSI CHE LE VITI DEI
CIRCUITI ELETTRICI SIANO SERRATE COMPLETAMENTE

WARNING

ENERGIZE THE CRANCKCASE HEATER FOR AT LEAST 12 HOURS
BEFORE EACH STARTING (IF FITTED)
BEFORE TIGHTENING-UP, TO TIGHTEN ALL TERMINAL SCREWS
ESPECIALLY THOSE IN MAIN CIRCUIT

WARNUNG

OLSUMPFHEIZUNG (FALLS VORHANDEN) 12 STUNDEN VOR DEM
START EINSCHALTEN
VOR INBETRIEBNAHME ALLE SCHRAUBENVERBINDUNGEN
NACHZIEHEN, BESONDERS DIE ELEKTRISCHEN ANSCHLUSSE

ATTENTION

ALIMENTER ELECTRIQUEMENT LA RESISTANCE DE CARTER AU
MOINS 12 HEURES AVANT CHAQUE DEMARRAGE (SI MONTE SUR
LE PRODUIT)
AVANT DE DEMARRER LA MACHINE, VERIFIER LE SERRAGE DE
TOUTES LES BORNES A VIS, SPECIALEMENT DANS LE BOITIER
ELECTRIQUE

ATENTION

ATENCIÓN ALIMENTAR ELÉCTRICAMENTE LA RESISTENCIA DE
CARTER AL MENOS 12 HORAS ANTES DE CADA PUESTA EN
MARCHA (SI ESTA EQUIPADA EN LA UNIDAD)
ANTES DE LA PUESTA EN MARCHA, COMPROBAR QUE LOS
BORNES ESTAN BIEN APRETADOS, ESPECIALMENTE EN EL
CUADRO ELÉCTRICO

035B00057-000 MADE IN ITALY

Final Test Certificate - Inside the external door

8

2 - Safety

REFRIGERANT DATA SAFETY DATA: R410A

Toxicity Low.

Contact with skin

If sprayed, the refrigerant is likely to cause frost burns. If absorbed by the skin, the danger is very limited;
it may cause a slight irritation, and the liquid is degreasing. Unfreeze the affected skin with water.

Remove the contaminated clothes with great care - in the presence of frost burns, the clothes may stick
to the skin. Wash with plenty of warm water the affected skin.

In the presence of symptoms such as irritation or blisters, obtain medical attention.

Contact with eyes

Vapours do not cause harmful effects. The spraying of refrigerant may cause frost burns.

Wash immediately with a proper solution or with tap water for at least 10 minutes, and then obtain
medical attention.

Ingestion

Very unlikely - should something happen, it will cause frost burns.

Do not induce vomiting. Only if the patient is conscious, wash out mouth with water and give some
250 ml of water to drink. Then, obtain medical attention.

Inhalation

R410A: remarkable concentrations in the air may have an anaesthetic effect, up to fainting.

The exposure to considerable amounts may cause irregular heartbeat, up to the sudden death of the
patient. Very high concentrations may result in the risk of asphyxia, due to the reduction in the oxygen
percentage in the atmosphere. Remove the patient to fresh air and keep warm and at rest.

If necessary, give oxygen. In case of breathing difficulties or arrest, proceed with artificial respiration.

In case of cardiac arrest, proceed with cardiac massage. Then, obtain medical attention.

Recommendations

Semiotics or support therapy is recommended. Cardiac sensitisation has been observed that, in
the presence of circulating catecholamines such as adrenalin, may cause cardiac arrhythmia and
accordingly, in case of exposure to high concentrations, cardiac arrest.

Prolonged exposure

R410A: a study on the effects of exposure to 50,000 ppm during the whole life of rats has identified the
development of benign testicle tumour.

This situation should therefore be negligible for personnel exposed to concentrations equal to or lower
than professional levels.

Professional levels R410A: Recommended threshold: 1000 ppm v/v - 8 hours TWA.

Stability R410A: Not specified.

Conditions to avoid Do not use in the presence of flames, burning surfaces and excess humidity.

Hazardous reactions

May react with sodium, potassium, barium and other alkaline metals.

Incompatible substances: magnesium and alloys with magnesium concentrations > 2%.

Hazardous decomposition
products

R410A: Halogen acids produced by thermal decomposition and hydrolysis.

2.8 Safety regulations

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2 - Safety

REFRIGERANT DATA SAFETY DATA: R410A

General precautions

Do not inhale concentrated vapours. Their concentration in the atmosphere should not exceed the
minimum preset values and should be maintained below the professional threshold. Being more weighty
than the air, the vapour concentrates on the bottom, in narrow areas. Therefore, the exhaust system must
work at low level.

Respiratory system protection

If you are in doubt about the concentration in the atmosphere, it is recommended to wear a respirator
approved by an accident-prevention

Authority, of the independent or oxygen type.

Storage

Cylinders must be stored in a dry and fresh place, free from any fire hazard, far from direct sunlight or
other sources of heat, radiators etc.

Keep a temperature below 50 °C.

Protective clothing Wear overalls, protective gloves and goggles or a mask.

Accidental release measures

It is important to wear protective clothing and a respirator.

Stop the source of the leak, if you can do this without danger. Negligible leaks can be left evaporating
under the sun, providing that the room is well ventilated.

Considerable leaks: ventilate the room. Reduce the leak with sand, earth or other absorbing substances.

Make sure that the liquid does is not channelled into gutters, sewers or pits where the vapours are likely
to create a stuffy atmosphere.

Disposal

The best method is recovery and recycling. If this method is not practicable, dispose according to an
approved procedure, that shall ensure the absorption and neutralization of acids and toxic agents.

Fire fighting information R410A: Not flammable in the atmosphere.

Cylinders The cylinders, if exposed to fire, shall be cooled by water jets; otherwise, if heated, they may explode.

Protective fire fighting equipment In case of fire, wear an independent respirator and protective clothing.

2.8 Safety regulations (continued)

10

2 - Safety

LUBRICANT OIL DATA SAFETY DATA: POLYESTER OIL (POE)

Classification Not harmful.

Contact with skin

May cause slight irritation. Does not require first aid measures. It is recommended to follow usual
personal hygiene measures, including washing the exposed skin with soap and water several times a day.

It is also recommended to wash your overalls at least once a week.

Contact with eyes Wash thoroughly with a suitable solution or tap water.

Ingestion Seek medical advice immediately.

Inhalation Seek medical advice immediately.

Conditions to avoid

Strong oxidising substances, caustic or acid solutions, excess heat.

May corrode some types of paint or rubber.

Protection of the
respiratory system

Use in well ventilated rooms.

Protective clothing

Always wear protective goggles or a mask. Wearing protective gloves is not mandatory, but is
recommended in case of prolonged exposure to refrigerant oil.

Accidental release measures

It is important to wear protective clothing and, especially, goggles.

Stop the source of the leak. Reduce the leak with absorbing substances (sand, sawdust or any other
absorbing material available on the market).

Disposal

The refrigerant oil and its waste will be disposed of in an approved incinerator, in conformity with the
provisions and the local regulations applicable to oil waste.

Fire fighting information

In the presence of hot liquid or flames, use dry powder, carbon dioxide or foam. If the leak is not burning,
use a water jet to remove any vapours and to protect the personnel responsible for stopping the leak.

Cylinders The cylinders exposed to a fire will be cooled with water jets in case of fire.

Fire fighting protective equipment In case of fire, wear an independent respirator.

2.8 Safety regulations (continued)

11

English

3 - Transport, Handling and Storage

SyScroll units are supplied fully assembled and tested (except for
accessories supplied loose in the units – absorbers, filter, etc.). They
are ready to be installed and started on the field.

R410A units are only charged with liquid refrigerant and with oil in the
quantity required for operation.

WARNING

The low pressure side of the refrigerating circuit
on R410A units shall be ch ar ged by means
of the service valve arranged on the thermal
expansion valve before the device is operated.

3.1 Inspection

The unit shall be immediately inspected upon receipt to find out any
damage since it has been delivered ex works and transported at the
customer’s risk. It is also necessary to make sure that all the parcels
specified on the delivery note have been delivered.

Any damage you may find out shall be immediately reported in writing
to the carrier. Even if the damage is only on the surface, please notify
our local representative too.

The manufacturer disclaims all responsibility for the shipment even if
it has provided for its organisation.

3.2 Handling

SyScroll units are designed to be lifted from above, by means of
cables and eyebolts. A spacer shall be arranged between the cables
in order to prevent them from damaging the unit (see the figure
aside).

Before handling the devices, make sure the site you have chosen for
the installation can withstand its weight and support its mechanical
impact.

Avoid touching sharp parts (such as the fins of batteries, for example)
while handling the unit.

WARNING

The unit shall never be placed on rollers.

Act as follows to lift and handle the unit:

Q

Insert and secure the eyebolts into the frame holes which have
been marked on purpose.

Q

Connect the cables to the eyebolts.

Q

Insert the spacer between the cables.

Q

Provide for hooking at the centre of gravity of the device.

Q

Cables shall have such a length that the angle they form with the
horizon when under tension is not less than 45°.

WARNING

While lifting and handling the unit, pay attention.
Other wise, you might damage the finned block
of the coils arranged on both sides of the unit.
The sides of the unit sh all be pr otected by
cardboard or plywood sheets.

Space requirements request to handling

Protect cabinet during lifting

12

3 - Transport, Handling and Storage

WARNING

Until the unit is ready for operatio n, do not
rem ove the plas tic enve lope and the coi l
protections which are intended to prevent dirt,
dust and any foreign matter from penetrating
into the unit through the inlets of fans or from
damaging the external surfaces.

3.3 Anchoring

It is not essential to secure the unit to the foundations, unless in areas
where there is a serious risk of earth-quake, or if the appliance is
installed on the top of a steel frame.

3.4 Storage

If the unit is to be stored before the installation for some time, take
at least the following precautions to prevent damage, corrosion and/
or deterioration:

Q

Make sure all openings, such as for example water connections,
are well plugged and sealed.

Q

Never store the units in a room where temperature is above
50 °C (R410A units) or where the units are directly exposed to
the sunlight.

Q

Minimum storage temperature is -25 °C.

Q

It is recommended to leave the finned coils covered to protect
them against any risk of corrosion, especially if building works
are still in progress.

Q

Store the units in areas where minimum activity is likely to take
place in order to avoid any risk of accidental damage.

Q

Never use steam to clean the unit.

Q

Remove all the keys required to have access to the control panel
and give them to the person in charge of the field.

It is also recommended to provide for visual inspections at regular
intervals.

13

English

4 - Installation

4.1 Installation Site

DANGER

Before installing the unit, make sure that
the building structure and/or the supporting
surface can withstand the weight of the
device. The weights of the units are detailed
by Chapter 9 of this manual.

These units have been designed to be installed on the floor, in the
open air. As a standard, they are equipped with rubber vibration­damping supports which shall be arranged in the middle, beneath
the supporting plates.

When the unit is to be installed on the ground, provide for a concrete
bedplate which shall assure a uniform distribution of the weights. No
special subbase is generally required.

When selecting the installation site, never forget to consider as
follows:

Q

The longitudinal axis of the unit shall be parallel to the direction of

the prevailing winds so as to assure a uniform air distribution on
finned exchangers.

Q

The unit shall never be installed in the proximity of chimneys for

the discharge of boiler flue gases.

Q

The unit shall never be installed downwind of sources of grease

contaminated air, such as for example the outlets of large­kitchen extractors. Otherwise, grease might build up on the fins
of refrigerant / air exchangers or condensers, act as a fixing
agent for any sor t of atmospheric impurity and rapidly cause the
exchangers to clog.

Q

The unit shall never be installed in areas exposed to heavy

snowfalls.

Q

The unit shall never be installed in areas exposed to flooding or

beneath drip stones, etc.

Q

The unit shall never be installed in narrow inner cour t yards or in

any other restricted space where the noise may be reflected by
the walls or where the air expelled by the fans may shor t-circuit
on the refrigerant/air heat exchangers or condensers.

Q

The installation site shall be characterised by the presence of

the space required for air circulation and for the performance of
maintenance operations (see chapter 9 for further details).

4.2 External Water Circuit

WARNING

The external water circuit shall guarantee a
constant water flow rate through the circulating
refrigerant/water heat exchanger (evaporator)
under steady operating conditions and in case
of a load variation.

The circuit shall be composed by the following elements:

Q

A circulation pump which can ensure the necessary flow rate and

head.

Q

The total content of the primary water circuit shall never be

lower than 2.5 lt/kW in terms of refrigerating capacity. If the total
water volume in the primary circuit should be unable to reach
such a value, an additional heat-insulated storage tank should be
installed. This tank is intended to avoid any repetitive start of the
compressor.

Q

A membrane expansion tank complete with a safety valve and a

drain which shall be visible.

NOTE

The expansion tank shall be dimensioned in
such a way that it can absorb a 2% expansion
of the total volume of the water in the plant
(exchanger, pipelines, uses and storage tank,
if available). The expansion tank shall never
be insulated when the circulating fluid is not
flowing through it.

A differential pressure switch is mounted as a standard. It will stop
the unit whenever it senses a load loss through the heat exchanger
which may result in a flow rate problem.

In addition:

Q

Install on/off valves (accessory) on the lines at the inlet and outlet

of the manifolds of the exchangers (evaporator).

Q

Arrange a by-pass complete with an on/off valve between the

manifolds of the heat exchangers.

Q

Arrange air vent valves at the high points of the water lines.

Q

Arrange drain points complete with plugs, clocks, etc. in the

proximity of the low points of the water lines.

Q

Insulate the water lines to prevent the heat from blowing back into

the unit.

14

External water circuit - Basic Unit

4 - Installation

1

B

A

10

5

G

G

9

11

11

12

12

13

INLET

OUTLET

FS

I

8

E

D

8

COMPONENTS

1 Plate heat exchanger
5 Water filter
8 Pressure point/drain valve

9 Water outlet
10 Water inlet
11 Globe valve
12 Flexible pipes
13 By-pass valve

SAFETY/CONTROL DEVICES

A Inlet water temperature sensor
B Outlet water temperature sensor
D Vent valve (105 mbar)
E Water safety valve (3 bar)

FS Flow switch

G Thermometer

I Hydrometer

Unit side

External water circuit - 1 Pump

8

D

2

E

8

I

FS

OUTLET

INLET

13

12

12

11

11

9

G

G

5

10

A

B

1

7

D

COMPONENTS

1 Plate heat exchanger

2 Pump

5 Water filter

7 Pressure expansion tank

8 Pressure point/drain valve

9 Water outlet
10 Water inlet
11 Globe valve
12 Flexible pipes
13 By-pass valve

SAFETY/CONTROL DEVICES

A Inlet water temperature sensor
B Outlet water temperature sensor
D Vent valve (105 mbar)
E Water safety valve (3 bar)

FS Flow switch

G Thermometer

I Hydrometer

Unit side

15

English

External water circuit - 2 Pump

4 - Installation

D

7

1

B

A

10

5

G

G

9

11

11

12

12

13

INLET

OUTLET

FS

I

8

E

D

8

2

2

6

6

11 11

1111

COMPONENTS

1 Plate heat exchanger

2 Pump

5 Water filter

6 Non-return valve

7 Pressure expansion tank

8 Pressure point/drain valve

9 Water outlet
10 Water inlet
11 Globe valve
12 Flexible pipes
13 By-pass valve

SAFETY/CONTROL DEVICES

A Inlet water temperature sensor
B Outlet water temperature sensor
D Vent valve (105 mbar)
E Water safety valve (3 bar)

FS Flow switch

G Thermometer

I Hydrometer

Unit side

External water circuit - 1 Pump + tank

2

8

D

E

8

I

FS

OUTLET

INLET

13

12

12

11

11

9

G

G

5

10

A

B

1

7

D

3

Y

4

1111

COMPONENTS

1 Plate heat exchanger
2 Pump
3 Draining valve
4 Water buffer tank
5 Water filter
7 Pressure expansion tank
8 Pressure point/drain valve

9 Water outlet
10 Water inlet
11 Globe valve
12 Flexible pipes
13 By-pass valve

SAFETY/CONTROL DEVICES

A Inlet water temperature sensor
B Outlet water temperature sensor
D Vent valve (105 mbar)
E Water safety valve (3 bar)

FS Flow switch

G Thermometer

I Hydrometer

Unit side

Y Water drain

16

4 - Installation

External water circuit - 2 Pump + tank

4

Y

3

D

7

1

B

A

10

5

G

G

9

11

11

12

12

13

INLET

OUTLET

FS

I

8

E

D

8

2

2

11 11

1111

6

6

COMPONENTS

1 Plate heat exchanger

2 Pump

3 Draining valve

4 Water buffer tank

5 Water filter

6 Non-return valve

7 Pressure expansion tank

8 Pressure point/drain valve

9 Water outlet
10 Water inlet
11 Globe valve
12 Flexible pipes
13 By-pass valve

SAFETY/CONTROL DEVICES

A Inlet water temperature sensor
B Outlet water temperature sensor
D Vent valve (105 mbar)

E Water safety valve (3 bar)

FS Flow switch

G Thermometer

I Hydrometer

Unit side

Y Water drain

17

English

4 - Installation

WARNING

Before filling the installation, remove any
impurity, such as sand, crushed stones and
welding scales, coating drops and any other
material which might damage the evaporator.

It is advisable to flush with disposable water bypassing the exchanger
to avoid clogging.

NOTE

The water used to fill the circuit shall be treated
in such as way that the pH will have the correct
value.

When two or several units are connected in parallel, to balance the
load losses of the various circuits, it is recommended to execute a
“reverse return” connection (see the diagram below).

UNIT 1

UNIT 2

Legend

S On/Off valves
VG Balancing valves

4.3 Water connections

The flow switch and the filter water, although not included in the
supply, must always be fitted such as plant components.
Their installation is mandatory for warranty.

WARNING

The attachments at the water inlet and outlet
shall be connected in compliance with the
instructions which can be found on the labels in
the proximity of the attachments.

Connect the water lines of the plants with the attachments of the unit
whose diameters and positions are shown in Chapter 9.

4.4 Defrost water drainage
(only for SyScroll Air HP units)

When heat pump units work in heating mode, during defrosting
cycles, they may discharge water from the base. This is why the
units should be installed at least 200 mm above the floor level, so
as to allow the free drainage of waste water, without the risk of
producing ice banks.

The heat pump units must be installed in positions where the
defrosting water cannot create any damage.

4.5 Water buffer tank

The accumulation tank which has been designed to be mounted
on SyScroll units is complete with all the hydraulic and electrical
components required for the correct operation of the system.

These systems are carefully assembled and tested at works. They
are ready for operation after having correctly realised all electrical
and hydraulic connections.

4.5.1 Supplied Material

The kits will be supplied with pipelines ready for installation. An
antifreeze resistance with wiring, an automatic water filling valve, a
3 bar safety valve, a drain valve and a vent valve have already been
assembled.

Hydrokit is shipped with a film to protect it from atmospheric agents.
Packaging has been designed in order to stack it up.

4.5.2 Antifreeze Electric Heater

The antifreeze resistance of the tank (TEH) shall be wired with the
panel as it is shown by the diagram attached to the unit.

4.5.3 Water Filter

The kit will use the water filter of the unit.

18

4.6 Power supply

DANGER

Before carrying out any operations on the
electrical system, make sure that the unit is
deenergized.

DANGER

It is important that the appliance is grounded.

WARNING

The company in charge of the installation shall
conform to the standards applicable to outdoor
electrical connections.

The manufacturer may not be held liable for any damage
and/or injury caused by failure to comply with these

precautions.

The unit conforms to EN 60204-1.

4 - Installation

The following connections shall be provided:

Q

A 3-phase and grounding connection for the power supply circuit.

Q

The electrical distribution system shall meet the power absorbed

by the appliance.

Q

The disconnecting and magnetothermal switches must be sized

to control the starting current of the unit.

Q

The power supply lines and the insulation devices must be

designed in such a way that every line independent.

Q

It is recommended to install differential switches, to prevent any

damage caused by phase drops.

Q

The fans and compressors are supplied through contactors

controlled from the control panel.

Q

Each motor is provided with an internal safety thermal device and

external fuses.

Q

The power supply cables must be inserted into dedicated

openings on the front of the unit, and the will enter the electrical
board through holes drilled on the bottom of the board.

19

English

4 - Installation

4.7 Electrical connections

The unit must be installed on site according to the usual
procedures and standards applicable in the place of
installation. The unit must not be operated if its installation
has not been carried out according to the instructions
provided in this manual.

The power supply lines must consist of insulated copper
conductors, dimensioned for the maximum absorbed

current.

Connection to terminals must be performed according to the diagram
of connections (User’s Terminal Box) provided in this manual and
according to the wiring diagram which accompanies the unit.

WARNING

Before connecting the power supply lines, check
that the available voltage value does not exceed
the range specified in the Electric Data (Chapter

9).

For 3-phase systems, check also that the unbalance between the
phases does not exceed 2%. To perform this check, measure the
differences between the voltage of each phase couple and their mean
value during operation. The maximum % value of these differences
(unbalance) must not exceed 2% of the mean voltage.

If the unbalance is unacceptable, contact the Energy Distributor to
solve this problem.

WARNING

Sup p lying the u n it th r ough a line w hose
unbalance exceeds the permissible value will
automatically void the warranty.

20

SyScroll Air CO/HP Version - Electrical Connections

4 - Installation

21

English

4 - Installation

SyScroll Air RE - Electrical Connections

22

5 - Start-up

WARNING

The unit must be started for the first time by
personnel suitably trained by one of Authorised
Service Centre. Failure to meet this requirement
will immediately void the warranty.

NOTE

The op erat ions ca rrie d o ut b y au tho rise d
pers onnel are limit ed to the start -up of the
unit, and do not include any other operation
on the plant, such as, for example, electrical
and hydraulic connections etc. All the other
operations before start-up, including oil pre­heating for at least 12 hours, must be performed
by the Installer.

5.1 Preliminary check

The checks listed below shall be performed before star ting the unit
and before the arrival of the personnel authorised.

Q

Check the section of power supply and grounding cables; make

sure that terminals are tightened and check the correct operation
of contactors, with the main switch open.

Q

Check that any voltage and phase variation in the power supply

does not exceed the prefixed thresholds.

Q

Connect the contacts of the flow switch and the thermal relay of

the pump and of the other devices (if any), to terminals 1-2 and
3-4, respectively.

Q

Check that the components of the external water circuit (pump,

user equipment, filters, power supply tank and reservoir, if any)
have been installed properly, and according to the manufacturer’s
instructions.

Q

Check the filling of the hydraulic circuits, and make sure that

the fluid circulation is correct, without any trace of leaks and air
bubbles. If you use ethylene glycol as antifreeze, check that its
percentage is correct (do not exceed 35% glycol percentage).

Q

Check that the direction of rotation of the pumps is correct, and

that fluids have been circulating for at least 12 hours for both
pumps. Then, clean the filters on the suction side of the pumps.

Q

Adjust the liquid distribution network in such a way that the flow

rate is within the specified range.

Q

Check that the water quality is up to the specifications.

Q

Check that oil heaters, if any, have been turned on at least 12 hours

before.

5.2 Start-up

Start-up sequence:

Q

Turn on the Main switch (at least 12 hours before).

Q

Check that the oil in the compressor has reached the requested

temperature (the minimum temperature outside the pan must be
approx. 40°C) and that the auxiliary control circuit is energised.

Q

Check the operation of all the external equipment, and make sure

that the control devices of the plant are properly calibrated.

Q

Start the pump and check that the water flow is correct.

Q

Set the desired fluid temperature on the control board.

Q

Start the appliance (see Chapter 6).

Q

Check the correct direction of rotation of compressors. Scroll

compressors cannot compress the refrigerant when they rotate in
the opposite direction. To make sure that they are rotating in the
correct direction, simply check that, just after the start-up of the
compressor, the pressure drops on the LP side and rises on the
HP side. Furthermore, if a scroll compressor rotate in the opposite
direction, there is a considerable rise in the sound level of the unit,
as well as in a dramatic reduction of current absorption compared
to normal values. In case of wrong rotation, the scroll compressor
can be definitely damaged. Phase monitor is assembled in the
unit as a standard to prevent wrong compressors rotation.

Q

After about 15 minutes of operation check that there are no

bubbles, through the sight glass on the liquid line.

WARNING

The presence of bubbles may indicate that a
part of the refrigerant charge has been released
in one or more points. It is important to remove
these leaks before proceeding.

Q

Repeat the start-up procedure after removing the leaks.

5.3 Checking the operation

Check the following:

Q

The temperature of the water entering the evaporator.

Q

The temperature of the water leaving the evaporator.

Q

The level of the water flow rate in the evaporator, if possible.

Q

The current absorption upon the start of the compressor and in

case of stabilised operation.

Q

The fan’s current absorption.

Check that the condensing and evaporation temperatures, during
operation at high and low pressure detected by the pressure gauges
of the refrigerant, are within the following range :

(On the units not provided with HP/LP pressure gauges for the
refrigerant, connect a pressure gauge to the Shrader valves on the
refrigeration circuit).

HP side

Approx. 15 to 21 °C above the temperature of the
air entering the condenser, for R410A units.

LP side

Approx. 2 to 4 °C below the temperature of the
leaving chilled water, for R410A units.

5.4 Delivery to the customer

Q

Train the user according to the instructions provided in Section 6.

23

English

6 - SyScroll Air CO/HP Control

6 General information

Introduction

This document contains the information and the operating instructions
for SyScroll Air CO/HP units.

Main characteristics

– simple user interface with possibility to customize keys functions

and to set menus visibility

– parameter setting through keyboard or PC

– thermoregulation ¤ inlet/outlet water probe, according to

customer need / application

– auto-adaptive set-point

– dynamic set-point

– sanitary hot water and anti-legionella weekly scheduling

– alarm log

– analogue input (to be set)¤NTC, 4..20mA, 0..1V, 0..5V, 0..10V

– digital input¤to be set by parameter

– automatic changeover

– 0-10V analogue condensation control

– boiler / electrical resistances management for heating

integration

– electrical resistance management for sanitary hot water

– advanced pump management

The following accessories can be also connected:

– multi Function Key (MFK) to upload / download parameters map

– serial communication RS485 card; to connect the control to a

BMS network

– remote display terminal

– wire remote control

6.1 Control of SyScroll Air CO/HP units

SyScroll Air CO/HP units are provided with a microprocessor card
fully programmed by default for the control of a heat pump unit.

General information

The figure shows the terminal. It is provided with a 4 red digits with
7 segments with decimal point led, 18 LED and 4 buttons, so as
to allow the programming of the control parameters (setpoint,
differential bands, alarm thresholds) and the main operations to be
carried out by the user.

6.2 Keypad functions

KEY

LINKED

FUNCTION

KEYS

COMBINATION

DESCRIPTION

EXTENDED PUSH
(MORE THAN 3s)

LINKED FUNCTION

UP

DOWN

ESC

SET

SINGLE PUSH

(PUSH /RELEASE)

MENU/NOTES

MENU/NOTES

- Increase value

- Go to next label

- Change Set-point

- Enable Sanitary Hot Water
function

- Enable / Disable

/

/
/
/

- Decrease value

- Go to previous label

- Change Set-point (if UI25 =1)

- Stand-by

- Local ON/OFF

- Time slots menu

- Stand-by ¤ ON

- Enter in “Program Menu” - Program Menu

- Exit without saving

- Go to previous level

- Mode menu- Change mode

- Confirm value / exit with setting
saving

- Go to next level

- Go to status menu

- Display menu- Main display

24

6 - SyScroll Air CO/HP Control

ICON / COLOR

LED N°*

STEADY ICON

DESCRIPTION

BLINKING ICON

ICON

- Alarm ON

First capacity step

Second capacity step

Primary circuit pump

Source circuit pump

Electrical heater

Sanitary hot water valve / pump

Boiler

/ RED

1

2

3

4

5

6

7

/ GREEN

/ GREEN

/ GREEN

/ GREEN

/ GREEN

/ RED

/ RED

/ RED

/ RED

/ RED

- Mode: HEATING

- Current HR

- Time slots activ.

- Mode: COOLING

/

/

/

- Mode: STAND-BY

- Configurable

Not used

Menu surf

- Alarm QUIT

- Antifreeze+Heat pump ON

- Heating mode by remote

- HR setting

- Time slots programming

- Cooling mode by remote

/

/

/

- Stand-by mode by remote

- Configurable

Not used

/

6.3 Folder structure

Folder structure is composed of totally four menus

1) Main display¤used to set what to display without acting on any
key
– Ai¤analogue input (temperature, pressure)
– rtC¤room time clock
– SetP¤standard set-point
– SetR¤corrected set-point (according to climatic correction,

etc.)

2) Operating mode¤used to set operating mode
– StbY¤stand-by
– HEAT¤heating
– COOL¤cooling
– AS¤sanitary hot water

3) Status¤used to show resources values
– Ai (AIL/AIE/Air)¤analogue inputs (main board / expansion

board / remote terminal)
– di (diL/diE)¤digital inputs (main board / expansion board)
– AO (AOL/AOE) ¤ analogue outputs (main board/expansion

board)
– CL (HOUr/dAtE/YEAr)¤clock
– AL (Er00¤Er98)¤alarms
– SP¤standard set-point
– Sr ¤ corrected set-point (according to climatic correction,

etc.)

4) Program¤define parameters, functions, password and to display
alarm log

6.4 Menu structure

“Program” menu is composed of totally four folders

1) Parameters¤change unit parameters

2) Functions ¤ manual operations (switch ON / switch OFF, alarm
quit, historic alarm delete, multi function key use)

3) Password¤define visibility levels for parameters/folders

4) Alarm log¤display alarm log

Parameter folder gives access to following sub-folders
– CL/CE/Cr/CF¤configure device I/O (L¤local; E¤expansion; r 

¤remote; F¤serial)

 DQDORJXH LQSXWV W\SH RI SUREH UDQJH GLIIHUHQWLDO ORJLF

function)

 GLJLWDOLQSXWVORJLFIXQFWLRQ
 GLJLWDORXWSXWVORJLFIXQFWLRQ 
 DQDORJXHRXWSXWVUDQJH
 VHULDOFRQILJXUDWLRQFRPPXQLFDWLRQSDUDPHWHUV

– TR¤define thermoregulation parameters

 VHWSRLQWPD[PLQK\VWHUHVLV 
 W\SHSURSRUWLRQDOGLIIHUHQWLDO 
 SUREHVHOHFWLRQ 

– ST¤define operating status

 FRROLQJRQO\ 
 KHDWLQJRQO\ 
 VFRROLQJDQGKHDWLQJ 
 FKDQJHRYHU

– CP¤configure compressor parameters (type/number/timing)
– PI¤define primary circuit / parameters / functions

 RSHUDWLQJPRGHGLVDEOHDOZD\V2121LIFRPSUHVVRU21
 GLJLWDODQDORJXHFRQWURO 
 DQWLVWLFNLQJ 
 DQWLIUHH]H 

– BR  ¤ control the parameters for an additional step for heating

and for sanitary hot water integration (boiler)
 RSHUDWLQJPRGHGLVDEOHGLIIHUHQWLDO¤ fixed or in function of

outdoor air temperature)

 VHWSRLQWK\VWHUHVLV 

– DS¤define set-point offset (dynamic set-point) depending on

 DQDORJXHLQSXW«9«9«9«P$
 RXWGRRUDLUWHPSHUDWXUH
 URRPWHPSHUDWXUH 

– AD¤ simulate an electronic inertial accumulator, acting on set-

point and hysteresis (adaptive function), by confronting minimum
/ effective ON-OFF time

– AS¤define sanitary hot water management parameters

 RSHUDWLQJPRGHGLVDEOHVDQLWDU\KRWZDWHUYDOYHUHVLVWDQFH

/ pump)

 VHWSRLQWK\VWHUHVLV 
 DQWLOHJLRQHOODIXQFWLRQ 

– HP¤define heat pump block management parameters

 RXWGRRUDLUWHPSHUDWXUH
 WKHUPRUHJXODWLRQWHPSHUDWXUH 
 GLJLWDOLQSXW 

– PL ¤ define capacity limitation to protect the unit (high/low T,

high/low P)

– TE ¤ define time slots management (different operating daily

profiles)

– AL¤define alarms management (automatic / manual reset, by-

pass time, sampling)

25

English

Code Alarm unit description CPS status

RESET

auto/man

Internal circuit

pump status

Fans status

Sanitary valve /

heater status

Er00 General alarm OFF A OFF OFF OFF

Er01 High pressure circuit OFF M

Er05 Low pressure circuit OFF A¤M

Er10 Thermal protection - compressor 1

OFF

CPS 1

M

Er11 Thermal protection - compressor 2

OFF

CPS 2

M

Er20 Plant side flow switch OFF M OFF

(1)

OFF

(1)

Er21 Thermal protection - plant side pump OFF A¤M OFF

Er30 Plant side antifreeze OFF A

Er35 Water high temperature OFF A

Er41

Thermal protection - source side pump
(in case of condensing control option)

OFF M

OFF

Er45 Clock failure A

Er46 Clock to be set A

Er47 LAN communication error A

Er48 Legionella set-point not reached A

Er60 RWT probe plant side failure OFF A OFF

Er61 LWT probe plant side failure OFF A OFF

Er62 Coil temperature probe failure OFF A

Er66 Sanitary hot water probe failure OFF A

Er67 Visualization probe (T/P) failure A

Er68 Outdoor air temperature probe failure OFF A

Er69 High pressure transducer failure OFF A

Er73 Dinamic set-point failure A

Er80 Configuration error A OFF

Er81 Compressor maintenance M

Er85 Plant side pump maintenance M

Er90 Alarm hystoric record overcoming M

6 - SyScroll Air CO/HP Control

6.5 Alarm list

1) If alarm is manual type.

26

7 - SyScroll Air RE Control

Introduction

This document contains the information and the operating instructions
for SyScroll Air RE 2 compressors & electronic control.

This information is for the after-sales service and the production
operators, for the end-of-line testing.

Main characteristics

– microprocessor control

– user-friendly keyboard

– access code to enter the Manufacturer’s Level

– access code to enter the Assistance Level

– alarm and LED

– backlighted LCD

– pump-down logic (start-stop)

– rotation of the compressor operation

– oil return function

– night mode (or Low Noise) control

– counting of the pump/compressors’ hours of operation

– display of discharge and suction pressure values

– display of temperature sensor

– history of stored alarms (option)

– programming of different setpoints with 4 ranges of time/

setpoint.

The following accessories can be also connected:

– serial communication RS485 card; to connect the “Chiller

Control” to a BMS network

– remote display terminal

– wire remote control.

7.1 Control system

SyScroll Air RE units are provided with a microprocessor card which
is fully programmed by default for the control of a condensing unit.

The control system consists of:

Keyboard & Display Terminal

General information

The figure shows the terminal with the front door open.

It is provided with a LCD 4 lines x 20 columns, keyboard and
microprocessor-controlled LED’s, so as to allow the programming of
the control parameters (setpoint, differential bands, alarm thresholds)
and themain operations to be carried out by the user.

Terminal & Key Board description

The terminal makes it possible to carry out the following operations:

– the initial configuration of the machine

– the change of all the main operating parameters

– the display of the detected alarms

– the display of all the measured quantities

The terminal and the card are connected by a 6-way phone cable.

The connection of the terminal to the basic card is not essential for
the normal operation of the controller.

27

English

7 - SyScroll Air RE Control

7.2 Display

The display is an LCD 4 lines x 20 columns. The quantities and the
information about the operation of the unit are alternated in the form
of subsequent screens, named.

7.3 Keyboard

Arrows key - Up/Down/Enter

If the cursor is in the top left-hand corner (Home), press the UP/
DOWN keys to access the subsequent masks associated to the
selected branch. If a mask includes some value setting fields and
you press the ENTER key, the cursor will reach these fields.

Once you have reached the quantity setting field, you can modify any
value (within the expected limits) by pressing the UP/DOWN keys.

After you have selected the desired value, press the ENTER key again
to store it.

Access to the "display mask" of the machine status.

Esc key: allows you to move from one mask to another.

Alarm key: used to display the alarms, to reset them in

manual. Press it one to display the mask of the activated
alarm, press it again to reset the alarm signal.

+

Prg+Esc keys: pressing these keys at the same time,
allows you to turn the unit On/Off.

Up-down keys: allows you to set the control parameters'
values and to move from one mask to another (not
backlighted).

Enter key: used to move the cursor inside the masks and
to save the values of the set parameters.

+

Alarm+Enter keys: press these keys at the same time
to enter the "storical alarm" after 1' come back at status
machine menu.

User
Manufactured
Maintenance
In/Out

Setpoint
Release
On/Off
Daily time zone

28

7 - SyScroll Air RE Control

Code Alarm unit description

Compressor

Status

Fan

Status

Pump

Status

Aut/Man

Reset

Delay Notes

AL02 Wrong phase sequence / Interbloc alarm Off Off Off Man Parameters

AL03 High pressure “manual reset” Off On On Man No

AL05 Failure of transducer B6-SP On Max On Auto 10 sec TXV only

AL07 Failure of transducer B7-DP On Max On Auto 10 sec

AL09 Failure of sensor B3-Tair On Max On Auto 10 sec

AL15 Failure of sensor B8-T tandem On Max On Auto 10 sec

AL17 Maintenance of compressor 1 On On On Man No

AL18 Maintenance of compressor 2 On On On Man No

AL22 Failure of clock card On On On Man No

AL23 Thermal switch, compressor 1 Off Comp. 1 On On Man No

AL23a Thermal switch, compressor 1-AUTO Reset Off Comp. 1 On On Auto

AL24 Thermal switch, compressor 2 Off Comp. 2 On On Man No

AL24a Thermal switch, compressor 2-AUTO Reset Off Comp. 2 On On Auto

AL27 Low pressure alarm Off On On Man Parameters

AL27a Low pressure alarm -AUTO Reset Off On On Auto

AL29 Thermal switch, fans Off Off On Man No

AL29a Thermal switch, fans- AUTO Reset Off Off On Auto

AL33 Eprom failure Off Off Off Man No

AL60 High limit discharge temperature Off Off Off Man No

AL60a High limit discharge temperature Off Off Off Auto

7.4 Alarms

Setpoint

Pressing the Set key allows you to enter the Set point level accessible to the user.

The parameters that can be set are listed below, along with the limit values and the default values (standard shop settings):

User parameters Control mode Min. value Max. value Default

System On/Off

System 1 # —— OFF ON OFF

29

English

8 - Product Description

8.1 General Information

SyScroll Air CO/HP units are one-block type with one refrigerant

circuit. They are intended to cool down the water required for any
air-conditioning application as well as any other fluid, such as for
example glycol water.

These units are completely assembled at works. They are equipped
with all the refrigerating connections and the internal electrical wiring
required for a rapid installation on the field.

An operation test is performed after assembly, with water flowing
through the refrigerant/water exchanger in order to make sure that
every refrigerating circuit is properly working. The refrigerating
circuits of every unit are pressure tested before inspection, drained
and charged with R410A.

A low noise level is the result of a careful study. It is achieved on
chillers by using technologically advanced components without
negatively affecting the operation performances and limits of the
units.

SyScroll Air CO models can cool down chilled water at a temperature
between + 18 and - 8 °C.

SyScroll Air HP heat pump mo dels ca n warm up water at a
temperature between 20 °C and 55 °C.

All units can operate with a double set point.

Body and Frame

The base and frame of these units are made with galvanized steel
elements, assembled with stainless steel screws. All panels can
be removed to ensure easy access to internal components. All
galvanized steel parts are protected by epoxy powder paint.

Compressors

Th e mod els a re eq uipped with two SCROLL airti ght t andem
compressors with an internal motor protection.

The compressors of all models are assembled on rubber shock
absorbers. Their motors can be directly started. They are cooled
down by the aspirated refrigerant gas and equipped with internal
thermistor protections against overloads.

Overload protections are automatically reset after having tripped. The
compressor terminal box has an IP21 protection degree.

Compressors are powered on and off by the microprocessor of the
unit control system which is intended to control the delivery of the
thermal refrigerating capacity.

Evaporators

Evaporators are made of stainless steel plates. They are thermally
insulated by means of a thick flexible insulating mattress with closed
cells. The maximum operating pressures correspond to 10 bar
for the water side and to 45 bar for the refrigerant side. Antifreeze
protection for the water in the exchangers is ensured by electrical
heaters and differential pressure switches. The water side of these
exchangers is connected by manifolds which will provide for the
connection to the plant by means of one single 1”1/2 (for the size 20-

35) and 2” (for the size 40-75)gas threaded attachment.

Condensing coils

Condensers are coils made of copper tubes arranged in staggered
rows and mechanically expanded inside an aluminium finned pack.

The maximum operating pressure on the refrigerant side of the
condensing batteries is 45 bar.

Condenser Fans

The condenser fans are of a helical type. They are directly coupled
and have an impeller with wing contoured aluminium blades.
Each fan is equipped with a galvanised steel accident-prevention
protection which is painted after manufacture. The fans motors
are completely closed. They have an IP54 protection degree and a
protection thermostat embedded in the windings.

Refrigerating Circuits

Each unit has a single refrigerating circuit equipped with an external
service valves intended to measure the refrigerant pressure and
charge, a sight glass with a humidity indicator, a dryer filter and a
thermal expansion valve.

Refrigerating circuits are also complete with a high pressure switch
as well as a high and low transducer.

Control Supply Panel

All components of the control system and those necessary to start
the motors are shop connected and tested. The control compartment
contains an electronic card and a control board with an external
keyboard and display, to show the operational functions, as well as
the intervention of the alarms and the working blocks.

30

8 - Product Description

Water Filter

It is assembled on the unit as a standard.

Anti-Vibration Kit

See figure below.

Flow switch kit

It is assembled on the unit as a standard

Corrosion proofing protection for condensing

Two-level optional coil finishing

1) Fin guard Silver.

2) Blue fins.

Pump

The unit is available:

- without pump

8.2 Accessories

- with 1 pump that guarantee 150 kPa of available static pressure;

- with 2 pumps that guarantee 150 kPa of available static pressure

Water buffer tank

The hydro module is available for the units with a pump; it is fitted
inside and integrated in the circuit.

The module is entirely enclosed in a RAL 9001 galvanised and
painted steel body.

The tank is covered with 10mm polyethylene insulation and it is
provided with a 200W anti-freezing heater.

On/Off Remote kit

It enables the operator to power on the unit when it is in stand by
mode, to display alarm and to switch over cooling – heat pump.

The kit will include a 3 metre long cable for installation on the wall.

31

English

8 - Product Description

Gauges kit

Gauges kit is available as accessory. It is shipped loose and it’s not
possible to have it factory mounted.

Fan speed control

Fan speed control is available as accessory to allow the chiller to
operate down to external air temperature.

In/Out valve kit

In/Out valve kit is available as accessory.

32

8 - Product Description

SyScroll Air CO R410A (Fluid group 2):

SAFETY/CONTROL DEVICES HAZARD CATEGORY / EVALUATION MODULE

A High pressure switch (40.5 bar) 4 / mod. B+D

AT High pressure transducer

BT Low pressure transducer

D Air temperature sensor
E Inlet water temperature sensor
F Outlet water temperature sensor
G Safety valve (45 bar) 4 / mod. H1

M Discharge temperature sensor

S 5/16" SAE Schrader valve (charging point)

SH 5/16" SAE high pressure Schrader valve

SL 5/16" SAE low pressure Schrader valve

H Thermometer

Pipe connection with Schrader valve 1/4" SAE

Probes
Unit side

----- Optional par ts

COMPONENTS VESSEL CATEGORY (2)/EVALUATION MODULE
1 Compressor tandem scroll type 2 / mod. D1
2 Air cooled condenser
3 Filter drier
4 Sight glass
5 Thermostatic expansion valve
6 Plate heat exchanger 2 (sizes 60 to 75) / mod. B+D
7 Water inlet
8 Water outlet

9 In/Out valve
10 Flexible pipes
11 By-pass valve
12 Desuperheater (optional)

2

3

4

5

6

SH

AT

A

OIL EQUAL.

1

SL

BT

S

M

D

OUTLET

INLET

10

10

9

9

8

H

H

7

11

HYDRAULIC

CIRCUIT

G

E

F

12

8.3 Refrigerant flow diagram - SyScroll Air CO 40 to 75 - R410A

33

English

Refrigerant flow diagram - SyScroll Air HP 40 to 75 - R410A

8 - Product Description

SAFETY/CONTROL DEVICES HAZARD CATEGORY / EVALUATION MODULE

A High pressure switch (40.5 bar) 4 / mod. B+D

AT High pressure transducer

BT Low pressure transducer

D Air temperature sensor
E Outlet water temperature sensor
F Inlet water temperature sensor

G PED safety valve (45 bar) 4 / mod. H1
H Defrost temperature sensor
M Discharge temperature sensor

S 5/16" SAE Schrader valve (charging point)

SH 5/16" SAE high pressure Schrader valve

SL 5/16" SAE low pressure Schrader valve

I Thermometer

Pipe connection with Schrader valve 1/4" SAE

Probes
Unit side

----- Optional par ts

COMPONENTS VESSEL CATEGORY (2)/EVALUATION MODULE
1 Compressor tandem scroll type 2 / mod. D1
2 4-way valve
3 Air cooled condenser
4 Biflow filter drier
5 Sight glass
6 Biflow thermostatic expansion valve
7 Liquid receiver 2 / mod. D1
8 Suction accumulator 2 / mod. D1

9 Plate heat exchanger 2 (sizes 60 to 75) / mod. B+D
10 Water inlet
11 Water outlet
12 In/Out valve
13 By-pass valve
14 Flexible pipes
15 Desuperheater (optional)

3

2

OFF

H

4

5

6

G

7

9

BT

SL

SH

AT

A

OIL EQUAL.

1

S

F

E

D

M

HYDRAULIC

CIRCUIT

13

10

I

I

11

12

12

14

14

INLET

OUTLET

15

8

SyScroll Air HP R410A (Fluid group 2):

34

Refrigerant flow diagram - SyScroll Air RE 40 to 75 - R410A

8 - Product Description

SAFETY / CONTROL DEVICES HAZARD CATEGORY / EVALUATION MODULE

A High pressure switch (40.5 bar) 4 / mod. B+D
AT High pressure transducer
BT Low pressure transducer

D Air temperature sensor

G Safety valve (45 bar) 4 / mod. H1

M Discharge temperature sensor

S 5/16" SAE Schrader valve (charging point)
SH 5/16" SAE high pressure Schrader valve

SL 5/16" SAE low pressure Schrader valve

Pipe connection with Schrader valve 1/4" SAE

Unit side

------- Optional
Probes

COMPONENTS VESSEL CATEGORY (2)/EVALUATION MODULE
1 Compressor tandem scroll type 2 / mod. D1
2 Air cooled condenser

A

G

SH

INLET

OUTLET

SL

BT

S

D

1

OIL EQUAL.

2

AT

M

SyScroll Air RE R410A (Fluid group 2):

35

English

9 - Technical Data

0

10

20

30

40

50

60

70

80

90

100

110

120

3000 4000 5000 6000 7000 8000 9000 10000 11000 12000 13000 14000 15000 16000 17000 18000

60-75

50

40-45

Water flow (l/h)

Water flow (l/h)

Pressure drop (kPa)Pressure drop (kPa)

0

10

20

30

40

50

60

70

80

90

100

110

120

130

140

150

65-75

50-60

40-45

1000 1500 2000 2500 3000 3500 4000 4500 5000

Evaporator water pressure drop

Desuperheater water pressure drop

9.1 Hydraulic features

36

9 - Technical Data

Optional pump available static pressure

Optional pump power input

30

40

50

60

70

80

90

100

110

120

130

140

150

160

170

180

190

200

210

220

230

240

40-45

60-75

50

5500 6000 6500 7000 7500 8000 8500 9000 9500 1000 10500 11000 11500 12000 12500 13000 13500 14000 14500 15000 15500 16000 16500 17000 17500

Water flow (l/h)

Available static pressure (kPa)

Note: The curves are referred to 2P+T unit. Unit without tank could have higher performance.

0.8
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 8500 9000 9500 1000 10500 11000 11500 12000 12500 13000 13500 14000 14500 15000 15500 16000 16500 17000 17500

0.85

0.9

0.95

1

1.05

1.1

1.15

1.2

1.25

1.3

1.35

1.4

1.45

1.5

1.55

1.6

1.65

1.7

1.75

1.8

40-45

50-75

Water flow (l/h)

Power input (kW)

37

English

9.2 Physical data

SyScroll Air CO 40 to 75 - BLN Version

9 - Technical Data

SyScroll AIR CO BLN 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz
Number of refrigerant circuits 1 1 1 1 1 1
Total capacity steps % 0-50-100 0-50-100 0-50-100

0-44-56-100

0-50-100 0-50-100

REFRIGERANT

Type R410A
Charge (1) kg 9.5 10.7 11.9 14.3 15.5 17.9

COMPRESSOR

Type Scroll
Number 2 2 2 2 2 2
Start-up type Direct
Oil type POE
N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

EVAPORATOR

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 1.9 2.1 2.4 2.9 3.2 3.6
Pressure drop kPa Refer to Hydraulic features

DESUPERHEATER

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 0.50 0.56 0.65 0.75 0.85 0.97
Pressure drop kPa 18 21 21 24 22 26

FANS

Type Axial
Number 1 1 1 1 1 1
Nominal speed rpm 680 680 680 900 900 900
Air flow rate m

3

/s 4 4 3.7 5.9 5.9 5.9

Power input kW 0.98 0.98 0.98 2.00 2.00 2.00

AIR COOLED CONDENSER

Type Coil
Number 1 1 1 1 1 1
Total coil face area per coil m

2

2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

HYDRAULIC CONNECTIONS (EVAPORATOR)

Type Threaded gas male
Inlet diameter inch 2” 2” 2” 2” 2” 2”
Outlet diameter inch 2” 2” 2” 2” 2” 2”

HYDRAULIC CONNECTIONS (DESUPERHEATER)

Type Threaded gas male
Inlet diameter inch 1” 1” 1” 1” 1” 1”
Outlet diameter inch 1” 1” 1” 1” 1” 1”

WEIGHT

Shipping weight kg 403 411 436 476 483 488
Operating weight kg 413 421 446 489 499 502

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200
Width mm 1100 1100 1100 1100 1100 1100
Height mm 1580 1580 1580 1580 1580 1580

(1) Indicative value. Always refer to the value specified on the unit’s label.

38

SyScroll Air CO 40 to 75 - SLN Version

SyScroll AIR CO SLN

40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz
Number of refrigerant circuits 1 1 1 1 1 1
Total capacity steps % 0-50-100 0-50-100 0-50-100

0-44-56-100

0-50-100 0-50-100

REFRIGERANT

Type R410A
Charge (1) kg 9.5 10.7 11.9 14.3 15.5 17.9

COMPRESSOR

Type Scroll
Number 2 2 2 2 2 2
Start-up type Direct
Oil type POE
N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

EVAPORATOR

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 1.8 2.0 2.3 2.8 3.0 3.5
Pressure drop kPa Refer to Hydraulic features

DESUPERHEATER

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 0.50 0.55 0.64 0.74 0.81 0.95
Pressure drop kPa 17 21 20 23 20 26

FANS

Type Axial
Number 1 1 1 1 1 1
Nominal speed rpm 530 530 530 720 720 720
Air flow rate m³/s 3.05 3.05 2.86 4.4 4.4 4.4
Power input kW 0.57 0.57 0.57 1.27 1.27 1.27

AIR COOLED CONDENSER

Type Coil
Number 1 1 1 1 1 1
Total coil face area per coil m

2

2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

HYDRAULIC CONNECTIONS (EVAPORATOR)

Type Threaded gas male
Inlet diameter inch

2” 2” 2” 2” 2” 2”

Outlet diameter inch

2” 2” 2” 2” 2” 2”

HYDRAULIC CONNECTIONS (DESUPERHEATER)

Type Threaded gas male
Inlet diameter inch

1” 1” 1” 1” 1” 1”

Outlet diameter inch

1” 1” 1” 1” 1” 1”

WEIGHT

Shipping weight kg 403 411 436 476 483 488
Operating weight kg 413 421 446 489 499 502

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200
Width mm 1100 1100 1100 1100 1100 1100
Height mm 1580 1580 1580 1580 1580 1580

9 - Technical Data

(1) Indicative value. Always refer to the value specified on the unit’s label.

39

English

SyScroll Air CO 40 to 75 - HT/HPF Version

SyScroll Air CO HT/HPF 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz
Number of refrigerant circuits 1 1 1 1 1 1
Total capacity steps % 0-50-100 0-50-100 0-50-100

0-44-56-100

0-50-100 0-50-100

REFRIGERANT

Type R410A
Charge (1) kg 9.5 10.7 11.9 14.3 15.5 17.9

COMPRESSOR

Type Scroll
Number 2 2 2 2 2 2
Start-up type Direct
Oil type POE
N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

EVAPORATOR

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 2.0 2.2 2.6 2.9 3.2 3.7
Pressure drop kPa Refer to Hydraulic features

DESUPERHEATER

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 0.51 0.57 0.67 0.75 0.83 0.97
Pressure drop kPa 19 22 22 24 20 27

FANS

Type Axial
Number 1 1 1 1 1 1
Nominal speed rpm 1110 1110 1110 1110 1110 1110
Air flow rate m³/s 7.00 7.00 6.75 7.0 7.0 7.0
Power input kW 2.67 2.67 2.67 2.67 2.67 2.67

AIR COOLED CONDENSER

Type Coil
Number 1 1 1 1 1 1
Total coil face area per coil m

2

2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

HYDRAULIC CONNECTIONS (EVAPORATOR)

Type Threaded gas male
Inlet diameter inch

2” 2” 2” 2” 2” 2”

Outlet diameter inch

2” 2” 2” 2” 2” 2”

HYDRAULIC CONNECTIONS (DESUPERHEATER)

Type Threaded gas male
Inlet diameter inch

1” 1” 1” 1” 1” 1”

Outlet diameter inch

1” 1” 1” 1” 1” 1”

WEIGHT

Shipping weight kg 403 411 436 476 483 488
Operating weight kg 413 421 446 489 499 502

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200
Width mm 1100 1100 1100 1100 1100 1100
Height mm 1580 1580 1580 1580 1580 1580

9 - Technical Data

(1) Indicative value. Always refer to the value specified on the unit’s label.

40

SyScroll Air HP 40 to 75 - BLN Version

SyScroll Air HP BLN 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz
Number of refrigerant circuits 1 1 1 1 1 1
Total capacity steps % 0-50-100 0-50-100 0-50-100

0-44-56-100

0-50-100 0-50-100

REFRIGERANT

Type R410A
Charge (1) kg 9.5 10.7 11.9 14.3 15.5 17.9

COMPRESSOR

Type Scroll
Number 2 2 2 2 2 2
Start-up type Direct
Oil type POE
N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

EVAPORATOR

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 1.9 2.1 2.4 2.9 3.2 3.6
Pressure drop kPa Refer to Hydraulic features

DESUPERHEATER

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 0.51 0.57 0.67 0.75 0.83 0.97
Pressure drop kPa 19 22 22 24 20 27

FANS

Type Axial
Number 1 1 1 1 1 1
Nominal speed rpm 680 680 680 900 900 900
Air flow rate m³/s 4.1 4.1 4.1 6.2 6.2 6.2
Power input kW 0.98 0.98 0.98 2.00 2.00 2.00

AIR COOLED CONDENSER

Type Coil
Number 1 1 1 1 1 1
Total coil face area per coil m

2

2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

HYDRAULIC CONNECTIONS (EVAPORATOR)

Type Threaded gas male
Inlet diameter inch

2” 2” 2” 2” 2” 2”

Outlet diameter inch

2” 2” 2” 2” 2” 2”

HYDRAULIC CONNECTIONS (DESUPERHEATER)

Type Threaded gas male
Inlet diameter inch

1” 1” 1” 1” 1” 1”

Outlet diameter inch

1” 1” 1” 1” 1” 1”

WEIGHT

Shipping weight kg 422 430 457 504 511 517
Operating weight kg 431 440 467 517 524 530

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200
Width mm 1100 1100 1100 1100 1100 1100
Height mm 1580 1580 1580 1580 1580 1580

9 - Technical Data

(1) Indicative value. Always refer to the value specified on the unit’s label.

41

English

SyScroll Air HP 40 to 75 - SLN Version

SyScroll Air HP SLN 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz
Number of refrigerant circuits 1 1 1 1 1 1
Total capacity steps % 0-50-100 0-50-100 0-50-100

0-44-56-100

0-50-100 0-50-100

REFRIGERANT

Type R410A
Charge (1) kg 9.5 10.7 11.9 14.3 15.5 17.9

COMPRESSOR

Type Scroll
Number 2 2 2 2 2 2
Start-up type Direct
Oil type POE
N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

EVAPORATOR

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 1.8 2.0 2.3 2.8 3.0 3.5
Pressure drop kPa Refer to Hydraulic features

DESUPERHEATER

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 0.50 0.55 0.64 0.74 0.81 0.95
Pressure drop kPa 17 21 20 23 20 26

FANS

Type Axial
Number 1 1 1 1 1 1
Nominal speed rpm 530 530 530 720 720 720
Air flow rate m³/s 3.2 3.2 3 4.7 4.7 4.7
Power input kW 0.57 0.57 0.57 1.27 1.27 1.27

AIR COOLED CONDENSER

Type Coil
Number 1 1 1 1 1 1
Total coil face area per coil m

2

2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

HYDRAULIC CONNECTIONS (EVAPORATOR)

Type Threaded gas male
Inlet diameter inch

2” 2” 2” 2” 2” 2”

Outlet diameter inch

2” 2” 2” 2” 2” 2”

HYDRAULIC CONNECTIONS (DESUPERHEATER)

Type Threaded gas male
Inlet diameter inch

1” 1” 1” 1” 1” 1”

Outlet diameter inch

1” 1” 1” 1” 1” 1”

WEIGHT

Shipping weight kg 422 430 457 504 511 517
Operating weight kg 431 440 467 517 524 530

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200
Width mm 1100 1100 1100 1100 1100 1100
Height mm 1580 1580 1580 1580 1580 1580

9 - Technical Data

(1) Indicative value. Always refer to the value specified on the unit’s label.

42

SyScroll Air HP 40 to 75 - HT/HPF Version

SyScroll Air HP HT/HPF 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz
Number of refrigerant circuits 1 1 1 1 1 1
Total capacity steps % 0-50-100 0-50-100 0-50-100

0-44-56-100

0-50-100 0-50-100

REFRIGERANT

Type R410A
Charge (1) kg 9.5 10.7 11.9 14.3 15.5 17.9

COMPRESSOR

Type Scroll
Number 2 2 2 2 2 2
Start-up type Direct
Oil type POE
N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

EVAPORATOR

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 2.0 2.2 2.6 2.9 3.2 3.7
Pressure drop kPa Refer to Hydraulic features

DESUPERHEATER

Type Plate
Number 1 1 1 1 1 1
Water flow rate l/s 0.51 0.57 0.67 0.75 0.83 0.97
Pressure drop kPa 19 22 22 24 20 27

FANS

Type Axial
Number 1 1 1 1 1 1
Nominal speed rpm 1110 1110 1110 1110 1110 1110
Air flow rate m³/s 7 7 6.75 7 7 7
Power input kW 2.67 2.67 2.67 2.67 2.67 2.67

AIR COOLED CONDENSER

Type Coil
Number 1 1 1 1 1 1
Total coil face area per coil m

2

2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

HYDRAULIC CONNECTIONS (EVAPORATOR)

Type Threaded gas male
Inlet diameter inch

2” 2” 2” 2” 2” 2”

Outlet diameter inch

2” 2” 2” 2” 2” 2”

HYDRAULIC CONNECTIONS (DESUPERHEATER)

Type Threaded gas male
Inlet diameter inch

1” 1” 1” 1” 1” 1”

Outlet diameter inch

1” 1” 1” 1” 1” 1”

WEIGHT

Shipping weight kg 422 430 457 504 511 517
Operating weight kg 431 440 467 517 524 530

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200
Width mm 1100 1100 1100 1100 1100 1100
Height mm 1580 1580 1580 1580 1580 1580

9 - Technical Data

(1) Indicative value. Always refer to the value specified on the unit’s label.

43

English

SyScroll Air RE 40 to 75 - BLN Version

9 - Technical Data

SyScroll Air RE BLN 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz

Number of refrigerant circuits 1 1 1 1 1 1

Total capacity steps % 0-50-100 0-50-100 0-50-100 0-44-56-100 0-50-100 0-50-100

REFRIGERANT

Type R410A

COMPRESSOR

Type Scroll

Number 2 2 2 2 2 2

Start-up type Direct

Oil type POE

N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

FANS

Type Axial

Number 1 1 1 1 1 1

Nominal speed rpm 680 680 680 900 900 900

Air flow rate m³/s 4 4 3.7 5.9 5.9 5.9

Power input kW 0.98 0.98 0.98 2.00 2.00 2.00

AIR COOLED CONDENSER

Type Coil

Number 1 1 1 1 1 1

Total coil face area per coil m² 2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

REFRIGERANT CONNECTIONS

Inlet diameter inch 5/8” 5/8” 5/8” 7/8” 7/8” 7/8”

Outlet diameter inch 1”3/8 1”3/8 1”3/8 1”3/8 1”3/8 1”3/8

WEIGHT

Shipping weight kg 391 399 422 456 466 469

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200

Width mm 1100 1100 1100 1100 1100 1100

Height mm 1580 1580 1580 1580 1580 1580

44

9 - Technical Data

SyScroll Air RE SLN 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz

Number of refrigerant circuits 1 1 1 1 1 1

Total capacity steps % 0-50-100 0-50-100 0-50-100 0-44-56-100 0-50-100 0-50-100

REFRIGERANT

Type R410A

COMPRESSOR

Type Scroll

Number 2 2 2 2 2 2

Start-up type Direct

Oil type POE

N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

FANS

Type Axial

Number 1 1 1 1 1 1

Nominal speed rpm 530 530 530 720 720 720

Air flow rate m³/s 3 3 2.9 4.4 4.4 4.4

Power input kW 0.57 0.57 0.57 1.27 1.27 1.27

AIR COOLED CONDENSER

Type Coil

Number 1 1 1 1 1 1

Total coil face area per coil m² 2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

REFRIGERANT CONNECTIONS

Inlet diameter inch 5/8” 5/8” 5/8” 7/8” 7/8” 7/8”

Outlet diameter inch 1”3/8 1”3/8 1”3/8 1”3/8 1”3/8 1”3/8

WEIGHT

Shipping weight kg 391 399 422 456 466 469

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200

Width mm 1100 1100 1100 1100 1100 1100

Height mm 1580 1580 1580 1580 1580 1580

SyScroll Air RE 40 to 75 - SLN Version

45

English

9 - Technical Data

SyScroll Air RE HT/HPF 40 45 50 60 65 75

Power supply V/ph/Hz 400V/3/50Hz

Number of refrigerant circuits 1 1 1 1 1 1

Total capacity steps % 0-50-100 0-50-100 0-50-100 0-44-56-100 0-50-100 0-50-100

REFRIGERANT

Type R410A

COMPRESSOR

Type Scroll

Number 2 2 2 2 2 2

Start-up type Direct

Oil type POE

N°of loading stages 0/100 0/100 0/100 0/100 0/100 0/100

FANS

Type Axial

Number 1 1 1 1 1 1

Nominal speed rpm 1110 1110 1110 1110 1110 1110

Air flow rate m³/s 7.0 7.0 6.8 7.0 7.0 7.0

Power input kW 2.67 2.67 2.67 2.67 2.67 2.67

AIR COOLED CONDENSER

Type Coil

Number 1 1 1 1 1 1

Total coil face area per coil m² 2.6 2.6 2.6 3.2 3.2 3.2

Number of rows 2 2 3 3 3 3

REFRIGERANT CONNECTIONS

Inlet diameter inch 5/8” 5/8” 5/8” 7/8” 7/8” 7/8”

Outlet diameter inch 1”3/8 1”3/8 1”3/8 1”3/8 1”3/8 1”3/8

WEIGHT

Shipping weight kg 391 399 422 456 466 469

DIMENSIONS

Length mm 1750 1750 1750 2200 2200 2200

Width mm 1100 1100 1100 1100 1100 1100

Height mm 1580 1580 1580 1580 1580 1580

SyScroll Air RE 40 to 75 - HT/HPF Version

46

9 - Technical Data

SyScroll Air RE Refrigerant Lines

SyScroll Air RE Unit

Unit connections Suction line dimensions [inch] Liquid line dimensions [inch]

Suction Liquid Total equivalent lenght [m] Total equivalent lenght [m]

[inch] [inch] 10 20 30 10 20 30

40 5/8” 1”3/8 1”3/8 1”3/8 1”3/8 7/8” 7/8” 7/8”
45 5/8” 1”3/8 1”3/8 1”3/8 1”5/8 7/8” 7/8” 7/8”
50 5/8” 1”3/8 1”3/8 1”3/8 1”5/8 1”1/8 1”1/8 1”1/8
60 7/8” 1”3/8 1”3/8 1”3/8 1”5/8 1”1/8 1”1/8 1”1/8
65 7/8” 1”3/8 1”3/8 1”5/8 1”5/8 1”1/8 1”1/8 1”1/8

SyScroll Air RE

Line length ø Suction line ø Liquid line R410A

[m] [inch] [mm] [inch] [mm] [Kg/m]

40

10 1”3/8 34,93 7/8” 22,23 0,34
20 1”3/8 34,93 7/8” 22,23 0,34
30 1”3/8 34,93 7/8” 22,23 0,34

45

10 1”3/8 34,93 7/8” 22,23 0,34
20 1”3/8 34,93 7/8” 22,23 0,34
30 1”5/8 41,28 7/8” 22,23 0,35

50

10 1”3/8 34,93 1”1/8 28,58 0,53
20 1”3/8 34,93 1”1/8 28,58 0,53
30 1”5/8 41,28 1”1/8 28,58 0,54

60

10 1”3/8 34,93 1”1/8 28,58 0,53
20 1”3/8 34,93 1”1/8 28,58 0,53
30 1”5/8 41,28 1”1/8 28,58 0,54

65

10 1”3/8 34,93 1”1/8 28,58 0,53
20 1”5/8 41,28 1”1/8 28,58 0,54
30 1”5/8 41,28 1”1/8 28,58 0,54

Data valid per each refrigerant circuit.

47

English

SyScroll Air CO/HP/RE BLN without pump 40 45 50 60 65 75

Rated voltage V/ph/Hz 400V/3/50Hz
Max. absorbed power with pump kW 19 21 25 29 32 36
Max. current FLA A 34 44 46 57 66 84
Max. start-up current LRA A 113 134 142 166 175 217
External fuses A 63 63 63 80 80 100
Max. cable section (*) mm

2

25 25 25 35 35 50

EXCHANGER RESISTANCE

Rated voltage V/ph/Hz 230/1/50
Max. absorbed power W 35

SyScroll Air CO/HP/RE SLN without pump 40 45 50 60 65 75

Rated voltage V/ph/Hz 400V/3/50Hz
Max. absorbed power with pump kW 19 21 24 28

31

35
Max. current FLA A 33 43 45 56 65 83
Max. start-up current LRA A 112 133 141 165 174 216
External fuses A 63 63 63 80 80 100
Max. cable section (*) mm

2

25 25 25 35 35 50

EXCHANGER RESISTANCE

Rated voltage V/ph/Hz 230/1/50
Max. absorbed power W 35

SyScroll Air CO/HP/RE HT/HPF without pump 40 45 50 60 65 75

Rated voltage V/ph/Hz 400V/3/50Hz
Max. absorbed power with pump kW 21 23 27 29 32 37
Max. current FLA A 36 46 48 57 66 84
Max. start-up current LRA A 115 136 144 166 175 217
External fuses A 63 63 63 80 80 100
Max. cable section (*) mm

2

25 25 25 35 35 50

EXCHANGER RESISTANCE

Rated voltage V/ph/Hz 230/1/50
Max. absorbed power W 35

9 - Technical Data

9.3 Electrical data

48

Compressor electrical data

Pump electrical data

SyScroll Air CO/HP 1/2P 40 45 50 60 65 75

Nominal power kW 1.32 1.32 1.84 1.84 1.84 1.84
Max. running current A 2.61 2.61 3.49 3.49 3.49 3.49

SyScroll Air CO/HP/RE BLN-SLN-HT/HPF 40 45 50 60 65 75

Number 2 2 2 2 2 2
Max. absorbed power kW 9.1+9.1 10.2+10.2 12+12 14.8+12

14.8+14.8

17.1+17.1
Rated current A 95+95 111+111 118+118 140+118 140+140 173+173
Max current A 16+16 21+21 22+22 31+22 31+31 40+40
Oil pan resistor W 90+90 90+90 90+90 90+90 90+90 90+90

SyScroll Air CO/HP/RE BLN 40 45 50 60 65 75

Rated voltage V/ph/Hz 400V/3/50Hz
Number 1 1 1 1 1 1
Rated power kW 0.98 0.98 0.98 2.00 2.00 2.00
Absorbed rated current FLA A 2.4 2.4 2.4 4.3 4.3 4.3

SyScroll Air CO/HP/RE SLN 40 45 50 60 65 75

Rated voltage V/ph/Hz 400V/3/50Hz
Number 1 1 1 1 1 1
Rated power kW 0.57 0.57 0.57 1.27 1.27 1.27
Absorbed rated current FLA A 1.2 1.2 1.2 2.5 2.5 2.5

SyScroll Air CO/HP/RE HT/HPF 40 45 50 60 65 75

Rated voltage V/ph/Hz 400V/3/50Hz
Number 1 1 1 1 1 1
Rated power kW 2.67 2.67 2.67 2.67 2.67 2.67
Absorbed rated current FLA A 4.1 4.1 4.1 4.1 4.1 4.1

Fan electrical data

9 - Technical Data

49

English

9.4 Position of shock absorbers and weight distribution on supports

* Dimensions are referred to unit with antivibration mounted isolators.

P1 - P4 Unit positions

SyScroll Air CO SyScroll Air HP SyScroll Air RE

Weight distribution

Operating

weight (kg)

Shipping

weight (kg)

P1-P4

Coordinates*

Weight distribution

Operating

weight (kg)

Shipping

weight (kg)

P1-P4

Coordinates*

Weight distribution

Shipping

weight (kg)

P1-P4

Coordinates*

P1

(kg)P2(kg)P3(kg)P4(kg)

a

(mm)b(mm)P1(kg)P2(kg)P3(kg)P4(kg)

a

(mm)b(mm)P1(kg)P2(kg)P3(kg)P4(kg)

a

(mm)b(mm)

40 120 113 87 93 413 403 1054 1977

126 120 89 96 431 422 1054 1977 114 108 81 88 391 1054 1977

45 123 117 87 94 421 411 1054 1977 130 123 90 97 440 430 1054 1977 117 111 82 88 399 1054 1977
50 130 120 93 103 446 436 1054 1977 137 127 96 106 467 457 1054 1977 123 113 88 98 422 1054 1977
60 150 138 94 106 489 476 1054 1977 161 149 98 110 517 504 1054 1977 141 129 87 99 456 1054 1977
65 143 131 105 117 496 483 1054 1977 153 141 109 121 524 511 1054 1977 134 122 99 111 466 1054 1977
75 144 132 107 118 502 488 1054 1977

155 143 110 122 530 517 1054 1977 135 123 100 112 469 1054 1977

40 1P 121 115 104 110 450 434 1054 1977

127 121 107 113 468 453 1054 1977

45 1P 124 118 105 111 458 442 1054 1977 131 124 107 114 476 461 1054 1977
50 1P 132 122 111 121 486 470 1054 1977 140 130 114 123 507 490 1054 1977
60 1P 143 132 124 136 535 516 1054 1977 153 142 128 140 563 545 1054 1977
65 1P 145 134 126 137 542 523 1054 1977 157 145 128 140 570 552 1054 1977
75 1P 145 134 126 137 548 529 1054 1977

159 148 129 140 576 557 1054 1977

40 2P 129 122 110 117 478 460 1054 1977

135 128 113 120 497 479 1054 1977

45 2P 132 126 111 118 487 468 1054 1977 139 132 114 121 505 487 1054 1977
50 2P 140 130 119 129 518 499 1054 1977 148 138 121 131 538 520 1054 1977
60 2P 151 139 131 143 565 544 1054 1977 162 149 135 147 593 572 1054 1977
65 2P 153 141 133 145 572 551 1054 1977 165 153 135 147 600 579 1054 1977
75 2P 153 141 132 145 578 556 1054

1977

168 156 135 147 606 585 1054 1977

40 1P+T 141 135 152 159 587 476 1054 1977

148 141 155 162 606 494 1054 1977

45 1P+T 144 138 153 159 595 484 1054 1977 151 144 156 162 614 503 1054 1977
50 1P+T 152 142 160 170 623 512 1054 1977 159 150 163 172 644 532 1054 1977
60 1P+T 175 163 195 207 740 572 1054 1977 185 172 200 212 769 600 1054 1977
65 1P+T 179 167 195 207 748 579 1054 1977 188 175 200 212 776 607 1054 1977
75 1P+T 180 168 197 208 753 585 1054 1977

190 178 200 213 781 613 1054 1977

40 2P+T 146 139 157 164 607 495 1054 1977

152 145 160 167 625 513 1054 1977

45 2P+T 149 143 158 165 615 503 1054 1977 156 149 161 168 633 522 1054 1977
50 2P+T 157 147 166 176 646 534 1054 1977 165 155 168 179 667 554 1054 1977
60 2P+T 181 169 201 214 765 595 1054 1977 191 177 206 219 793 623 1054 1977
65 2P+T 184 172 202 214 772 602 1054 1977 194 181 206 219 800 631 1054 1977
75 2P+T 186 174 203 215 778 608 1054 1977

196 183 206 219 806 636 1054 1977

9 - Technical Data

a

b

P1 P2

P4 P3

50

9.5 Dimensional Drawings - Units SyScroll Air CO/HP 40-50

9 - Technical Data

1355

1395

1685

1580

C

D

4 x Ø22

1100

23105423

1750

517

112 1121527

987

987

1100

P2

P1

P3

P4

50 1000 50

25

I

L

H

F

G

250950

470730

188

A

B

E

N

M

23105423

112 1527 112

P3

P4

P2

P1 4 x Ø10

678

Front view

Bottom view

Side view Top view

A Water inlet Ø2” gas male F High pressure tap
B Water outlet Ø2” gas male G Low pressure tap
C Electrical auxiliary lines H Gauge kit (accessory)
D Electrical power supply I Main switch
E Hydrometer L Control keypad/display

M Desuperheater water inlet Ø1” gas male (optional)

N Desuperheater water outlet Ø1” gas male (optional)

XXX

Only for HT/HPF fan model

P1, P2, P3, P4 AVM position

Dimensions in mm.

51

English

9 - Technical Data

Dimensional Drawings - Units SyScroll Air CO/HP 60-75

50 1000 50

25

L

I

H

F

G

250

950

730 470

188

A

E

B

N

M

1355

1395

1685

1580

C

D

4 x Ø22

112 1977

112

2323 1054

P2

P1

P3

P4

4 x Ø10

987

1121977

2200

698

987

231054

23

1100

112

1100

P2

P3

P1

P4

763

Front view

Bottom view

Side view Top view

A Water inlet Ø2" gas male F High pressure tap
B Water outlet Ø2" gas male G Low pressure tap
C Electrical auxiliary lines H Gauge kit (accessory)
D Electrical power supply I Main switch
E Hydrometer L Control keypad/display

M Desuperheater water inlet Ø1" gas male (optional)

N Desuperheater water outlet Ø1" gas male (optional)

XXX

Only for HT/HPF fan model

P1, P2, P3, P4 AVM position

Dimensions in mm.

52

1355

1395

1685

1580

C

D

4 x Ø22

1100

23105423

1750

517

112 1121527

987

987

1100

P2

P1

P3

P4

50 1000 50

25

I

L

H

F

G

61275

23105423

112 1527 112

P3

P4

P2

P1 4 x Ø10

Q R

241

Front view

Bottom view

Side view Top view

C Electrical auxiliary lines
D Electrical power supply
F High pressure tap
G Low pressure tap
H Gauge kit (accessory)

I Main switch

L Control keypad/display

XXX Only for HT/HPF fan model

P1, P2, P3, P4 AVM position

Q Liquid line Ø 5/8"
R Suction line Ø 1 3/8"

9 - Technical Data

Dimensional Drawings - Units SyScroll Air RE 40 to 50 - R410A

Dimensions in mm.

53

English

9 - Technical Data

Dimensional Drawings - Units SyScroll Air RE 60 to 75 - R410A

50 1000 50

25

L

I

H

F

G

69875

1355

1395

1685

1580

C

D

4 x Ø22

112 1977

112

2323 1054

P2

P1

P3

P4

4 x Ø10

987

1121977

2200

698

987

231054

23

1100

112

1100

P2

P3

P1

P4

241

Q R

Front view

Bottom view

Side view Top view

C Electrical auxiliary lines
D Electrical power supply
F High pressure tap
G Low pressure tap
H Gauge kit (accessory)

I Main switch

L Control keypad/display

XXX Only for HT/HPF fan model

P1, P2, P3, P4 AVM position

Q Liquid line Ø 7/8"
R Suction line Ø 1 3/8"

Dimensions in mm.

54

9.6 Space Requirements

Units SyScroll Air CO/HP/RE 40 to 75

9 - Technical Data

3000 mm

1000 mm

1000 mm

1000 mm

1000 mm

55

English

10 - Maintenance

Carefully read the “Safety” section of this manual before carrying
out any maintenance operations.

DANGER

Do not discharge the refrigerant into the
atmosphere while the refrigeration circuits
are being drained. Use appropriate recovery
equipment.

When the recovered refrigerant cannot be re­used, return it to the manufacturer.

DANGER

Do not throw away the waste oil of the
compressor, because it contains refrigerant in
solution.

The waste oil must be returned to the
manufacturer.

Unless otherwise specified, the operations described below may be
carried out only by a trained maintenance operator.

10.1 General requirements

Units have been designed for continuous operation, providing
that they are subjected to regular maintenance, within the limits
specified in this manual. Each unit must be serviced according to the
programme by the User/Customer, and must be inspected at regular
intervals by the personnel of one authorised Service Centers.

It is the responsibility of the User to meet these maintenance
requirements and/or to enter into an agreement with one of authorised
Service Centers, so as to properly safeguard the operation of the
appliance.

During the warranty period, in case of damage or failures caused
by improper maintenance, manufacturer will not refund the costs
incurred to repair the appliance in its original state.

The provisions of this section apply only to standard units; according
to the order requirements, other documentation may be added,
concerning any modifications or supplementary accessories.

10.2 Planned maintenance

Maintenance inspections must be carried out according to the
program below, by a qualified person.

As a general rule, units cannot be repaired directly by the user, who
shall not try to service or repair any failures or anomalies identified
during daily inspections. If you are in doubt, please contact authorised
Service Centre.

Operations

Daily

Weekly

Monthly

Beginning

of season

End of

season

Check the temperature
of the leaving fluid



Check the pressure drops
in the heat exchanger



Check for electric absorption



Check suction pressure
and temperature



Check delivery pressure
and temperature



Check the oil level in the compressor



Check that there are no gas bubbles
in the liquid line



Check that the fins of
the external coil are clean (if any)



Check the operation of the oil heaters



Check the remote control switches



Check the operation
of the LP pressure switch



Check the operation
of the HP pressure switch



Check the insulation of
the heat exchanger



Check that terminals are tightened



Check that the terminals’
screws are tightened



Clean the exterior of the unit
with water and soap



Check the density
of the antifreeze (if any)

 

Check the operation
of the flow switches



Check the operation
of the solenoid valve

 

56

10 - Maintenance

10.3 Refrigerant charge

WARNING

Do not inject refrigerant liquid into the LP side
of the circuit. Be very careful, and charge the
circuit properly.

If the charge is insufficient, the efficiency of
the unit will be lower than expected. In the
worst of cases the LP transducer may stop
the unit.

In the presence of an excess charge,
the condensing pressure will rise (in the
worst of cases, the HP pressure switch
may be activated, resulting in the stop of
the equipment), and the consumption will
increase as well.

WARNING

It is strictly forbidden to use the compressor
as a vacuum pump to drain the plant.

Fill the refrigeration circuit after it has been drained for maintenance
purposes (leaks, replacement of the compressor etc.). The amount
of the charge is indicated on the plate affixed to the unit.

Before refilling, it is important to drain and de-hydrate the circuit,
thus obtaining a minimum abs. pressure value of 50 Pa.

Inject the refrigerant fluid before removing the vacuum, then fill the
circuit up to 90% of the total gas requirement (in liquid form). The
appliance must be filled through the filling valve on the liquid line, on
the outlet side of the condenser.

It is recommended to connect the refrigerant cylinder to the filling
valve on the liquid line, and to arrange it in such a way as to inject
only liquid refrigerant.

10.4 Compressor

Compressors are delivered with the necessary charge of lubricating
oil. During normal operation, this charge is sufficient for the whole
life of the unit, providing that the efficiency of the refrigeration circuit
is satisfactory and if it has not been overhauled.

If the compressor needs to be replaced (following a mechanical
failure or if burnt), contact one of authorised Service Centers.

WARNING

Compressors use polyester oil. During
maintenance operations on the compressor,
or if you have to open the refrigerant circuit
in any point, remember that this type of oil
is highly hygroscopic, and accordingly it is
important that it is not left exposed to the
weather for prolonged periods, as this would
require the replacement of the oil.

10.5 Condenser

The condenser’s coils consist of copper pipes and aluminium fins.
In the presence of leaks caused by any damage or shock, the coils
shall be repaired or replaced by one authorised Service Center. To
ensure the effective and correct operation of the condenser coils, it
is important to keep the condenser’s surface perfectly clean, and to
check that there is no foreign matter, such as leafs, wires, insects,
waste etc. If the coil becomes dirty, there is an increase in the
absorption of electric energy. Fur thermore, the maximum pressure
alarm may be activated and may halt the unit.

WARNING

Be careful not to damage the aluminium fins
during cleaning.

The condenser must be cleaned with a LP compressed air jet, parallel
to the aluminium fins, in the direction opposite to the air circulation.

To clean the coil you can use also a vacuum cleaner, or a jet of water
and soap.

10.6 Fans

The fans of the condenser, of axial type, are complete with impeller
with aerodynamic profile blades and a cylindrical nozzle. The
motor’s bearings are lubricated forever.

10.7 Dehydrating filter

The refrigeration circuits are provided with dehydrating filters.

The filter clogging is marked by the presence of air bubbles in the
sight glass, or by the difference between the temperatures measured
downstream from and upstream of the drying filter. If, once the
cartridge has been cleaned, there are still some air bubbles, the
appliance has lost a part of the refrigerant charge in one or more
points, that must be identified and serviced.

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10 - Maintenance

10.8 Sight glass

The sight glass is used for inspecting the refrigerant flow and the
humidity % of the refrigerant. The presence of bubbles indicates that
the dehydrating filter is clogged or the charge insufficient.

A colour indicator is positioned inside the sight glass. If you compare
the colour of the indicator to the scale on the ring of the sight glass,
you can calculate the percentage of humidity of the refrigerant. If it
is excessive, replace the filter’s cartridge, operate the appliance for
1 day and then check the humidity % again. When the humidity % is
within the pre-determined range, no other operations are required. If
the humidity % is still too high, replace the dehydrating filter again,
start the unit and operate it for another day.

10.9 Thermostatic expansion valve

The circuit of the unit is equipped with a thermostatic expansion
valve, with external equalizer.

The valve is factory calibrated for an overheating of 5 °C.

Procedure to check for overheating:

– Measure the suction pressure with the pressure gauges on the

board of the unit o using a pressure gauge connected to the
service valve on the suction side.

– From the pressure gauge’s temperature scale, measure the

saturated suction temperature (Tsa) which corresponds to the
pressure value.

– Using a contact pressure gauge affixed to the outlet fitting of the

gas of the evaporator, measure the actual temperature (Tse).

Overheating calculation (S):

S = Tse - Tsa

Overheating is regulated through the thermostatic expansion valve.

Make the adjusting screw follow a complete turn, and operate the
appliance for five minutes.

Check again and, if necessary, repeat the regulation.

If the expansion valve cannot be regulated, it is probably broken, and
shall be replaced. The replacement must be carried out by a Service
Centre.

10.10 Evaporator

Check at regular intervals that the water side of the heat exchanger
is perfectly clean. To do this, measure the pressure drop, water side
(see Section 9) or measure the temperature of the liquid leaving
and entering the heat exchanger, and compare it to the evaporation
temperature.

To obtain an effective heat exchange, the difference between the
temperature of the leaving water and the saturated evaporating
temperature must be in the 2 - 4 °C range. A greater difference
would indicate a low efficiency of the heat exchanger (i.e. the heat
exchanger is dirty).

In this case, the heat exchanger must be subjected to chemical
cleaning, an operation that shall be carried out by authorised
engineers.

For other maintenance operations (extraordinary overhauling,
replacement of the heat exchanger etc.), contact an authorised
Service Centre.

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11 - Troubleshooting

The table below lists the anomalies of operation of the unit, the relevant causes and the corrective measures. For anomalies of any other type or
not listed, contact one of authorised Service Centre for technical assistance.

Anomaly Cause Operation
The unit continues

to work, but without
cooling

Insufficient charge of refrigerant. Refill.

The dehydrating filter is clogged. Replace.

Ice on the suction line Wrong calibration of overheating.

Increase overheating.

Check the charge.

Excessive noise

Vibration of lines. Check the clamping brackets, if any.

Whistler emitted by the thermostatic expansion
valve.

Refill.

Check the dehydrating filter.

Noisy compressor.

Seized bearings; replace the compressor.

Check that the compressor’s locknuts are tightened.

Low oil level in the
compressor

One or more gas or oil leaks in the circuit. Identify and remove leaks.

Mechanical failure of the compressor. Request the intervention of a Service Centre.

Anomaly of the oil heater of the compressor’s
base.

Check the electric circuit and the resistor of the heater of the
motor base, and replace defective components.

One or both
compressors are not
working

Breaking of the electric circuit.

Check the electric circuit and detect any ground dispersions and
short circuits. Check fuses.

Intervention of the HP pressure switch.

Reset the pressure switch and the control panel and restart
the appliance. Identify and remove the cause that enabled the
pressure switch.

The fuse of the control circuit is broken. Check for ground dispersions and short circuits. Replace fuses.

Loosened terminals. Check and tighten.

Halt caused by thermal overload of the electric
circuit.

Check the operation of check and safety devices. Identify and
remove the cause.

Wrong wiring. Check wiring of check and safety devices.

The line voltage is too low.

Check voltage. If problems regard the system, solve them. If
they are caused by the distribution network, inform the Energy
Distributor.

Short-circuit of the compressor’s motor. Check the continuity of the winding.

Seized compressor. Replace the compressor.

Activation of the LP
alarm, stop of the unit

Gas leak. Identify and remove the leak.

Insufficient charge. Refill.

Activation of the HP
alarm, stop of the unit

Failure of the pressure switch.

Check the operation of the pressure switch, replace it if
defective.

The delivery valve is partially closed. Open the valve and replace it, if faulty.

Substances with condensable gases in the
circuit.

Drain the circuit.

The fan of the condenser is stopped. Check cables and motor. If defective, repair or replace.

The liquid line is too hot Insufficient charge. Identify and remove the cause of the loss of charge and refill.

Frosting of the liquid
line

The valve of the liquid line is partially closed. Check that valves are open.

The liquid filter is clogged. Replace the cartridge or the filter.

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12.1 Spare part list

The table below shows the list of spare parts recommended during
the first two years of operation.

12.2 Oil for compressors

The compressors are lubricated with polyester oil (P.O.E.).

12.3 Wiring diagrams

The wiring diagrams are installed inside the doors of the electrical
panels of the unit. Any request for wiring diagrams shall be forwarded
to manufacturer’s Service Centre.

Component Number

Fan 1

High pressure switch 2

Differential water pressure switch 1

High pressure transducer 2

Low pressure transducer 2

Expansion valve 1

Gas filter 1

Four-way valve 1

Electronic main board 1

Auxiliary main board transformer 1

Auxiliary circuit transformer 1

Compressor contactor 2

Pump contactor 1

Water sensor 4

Air sensor 1

Automatic switch compressor protection 2

Automatic switch pump protection 1

Auxiliary contact 4

Fan capacitor 1

Auxiliary switch 1

Fuses 4

12 - Spare Parts

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13 - Dismantling, Demolition and Scrapping

DANGER

During the draining of the refrigeration
circuits, do not let the refrigerant overflow in
the surrounding atmosphere.

The circuit must be drained using suitable
recovery equipment.

DANGER

Do not disperse the waste oil of the
compressors in the environment, since it
contains some dissolved refrigerant.

For the disposal, contact the competent authority for information.

Unless otherwise specified, the maintenance operations listed below
may be carried out by any trained maintenance operator.

13.1 Generalities

Open each line that supplies the unit, including the ones of control
circuits. Make sure that all disconnecting switches are secured
in the off position. The power cables can be disconnected and
disassembled. Refer to Chapter 4 for the position of connection
points.

Remove all the refrigerant from the refrigeration circuits of the
unit and store it in suitable containers, using a recovery unit. If its
characteristics have remained the same, the refrigerant can be used
again. Contact the competent authority to obtain information about
disposal. In NO event shall the refrigerant be discharged into the
atmosphere. The oil in each refrigeration circuit must be drained and
collected into a suitable container; then it shall be disposes of in
conformity with local regulations that apply to the disposal of waste
lubricants. Any oil spillage must be recovered and disposed of in like
manner.

Isolate the unit’s heat exchangers from the external hydraulic circuits
and drain the heat exchange sections of the plant.

DANGER

If no shutoff valves have been provided, it may
be necessary to drain the whole plant.

If a glycoled solution or a similar fluid has been
used in the hydraulic circuits, or if chemical
additives have been added to the circulating
water, the circulating fluid MUST be drained in
a proper way.

For NO reason shall a circuit containing
glycoled water or a similar solution be
discharged directly into the drains or surface
waters.

After draining operations, the piping of the hydraulic networks can be
disconnected and disassembled.

Once they have been disconnected as specified, the packaged units
can be disassembled in a single piece. First of all, disassemble
the anchoring screws and then lift the unit from the position of
installation, and hook it to the lifting points provided, using suitable
lifting equipment.

To this end, refer to Chapter 4 for the installation of these appliances,
to Chapter 9 for their weights and Chapter 3 for handling.

The units that, once disconnected, cannot be removed in a single
piece, must be dismantled on site; in this case, be very careful with
the weight and handling of every single component.

It is always advisable to dismantle the units following the installation
steps, but in reverse.

DANGER

Some residues of oil, glycoled water or similar
solutions may remain in certain parts of the
unit. These residues must be recovered and
disposed of according to the procedures
specified above.

It is very impor tant to ensure that, while a component of the unit is
being removed, all the others are properly supported.

DANGER

Use only lifting means of adequate capacity.

Once disassembled, the components of the unit can be disposed of
in conformity with current regulations.

COSTRUTTORE / MANUFACTURE - ITALY

BUONE NORME DI MANUTENZIONE DEI DISPOSITIVI

DI SICUREZZA MONTATI SUL GRUPPO FRIGORIFERO

Gentile Cliente,
Le ricordiamo alcune indicazioni circa le modalità di manutenzione dei dispositivi di sicurezza montati sul
gruppo frigorifero da Lei acquistato.
I dispositivi di sicurezza montati sul gruppo sono stati verificati dal COSTRUTTORE a norma di legge.
È opportuno che l’utente provveda periodicamente (è consigliato ogni anno) a far verificare da personale
qualificato la taratura ed il corretto intervento dei dispositivi di sicurezza montati sul gruppo.
In particolare la taratura della/e valvole di sicurezza dovrebbe essere verificata al banco intercettando

opportunamente il circuito e/o il refrigerante e registrando l’avvenuta verifica sulla scheda di manutenzione
del gruppo frigorifero (a disposizione dei tecnici CE/PED che eventualmente ne prenderanno visione).
L’utente avrà cura di conservare efficienti ed in buono stato l’evaporatore ed i suoi accessori e provvederà
ad eventuali sostituzioni degli stessi con altri di tipo analogo.
In caso di sostituzione, la valvola di sicurezza e i pressostati di alta pressione

dovranno avere
caratteristiche equivalenti a quelle fornite e rilasciate con certificato CE/PED.
Si consiglia in occasione della verifica delle valvole di sicurezza di far controllare il corretto intervento dei
pressostati di alta pressione.
Per informazioni circa le modalità operative, la strumentazione e la scelta di personale qualificato, è
possibile contattare IL COSTRUTTORE.

IMPORTANT NOTICE – Maintenance instructions

Please read carefully the following instructions for the maintenance of safety devices fitted on this
refrigeration machine.
All safety devices fitted on the machine by MANUFACTURE have been checked and tested in accordance
with European Regulations.
The machine has been designed to operate continuously provided it is regularly maintained and operated
within the limitations given in the “Installation, Commissioning, Operation and Maintenance Manual”. The

unit should be maintained in accordance with the schedule by the operator/customer, backed up regular
service and maintenance visit by an authorised service Centre.
It is the responsibility of the owner to provide for these regular maintenance requirements by a competent
person. If in any doubt contact your local Service Centre.
In particular, all safety valves where fitted and safety pressure switches should be tested and calibrated.
Where necessary test certificate provided by a certified

authority must be retained as a record together with

the Maintenance Log.

Date: 18/01/2012

Nazareno Mantovani

Service Director

As part of our ongoing product improvement programme, our products
are subject to change without prior notice. Non contractual photos.

Dans un souci d’amélioration constante, nos produits peuvent être
modifiés sans préavis. Photos non contractuelles.

In dem Bemühen um ständige Verbesserung können unsere Erzeugnisse
ohne vorherige Ankündigung geändert werden. Fotos nicht vertraglich
bindend.

A causa della politica di continua miglioria posta in atto dal costruttore,
questi prodotti sono soggetti a modifiche senza alcun obbligo di
preavviso. Le foto pubblicate non danno luogo ad alcun vincolo
contrattuale.

Con objeto de mejorar constantemente, nuestros productos pueden
ser modificados sin previo aviso. Fotos no contractuales.