INSTRUCTIONS FOR INSTALLATION, USE AND
MAINTENANCE
CS2000
ASEP2000
(VERSION ASEP2000.8 EN 01/01/08)
MACHINE N°/SERIAL NUMBER :
1300624
January 2008
-0-
TECHNICAL DOCUMENT
ASEPTIC AND CS WASHING MACHINE SERIES 2000
CONTENTS
1. General working procedure
p. 6
1.1 Description
p. 6
p. 7
p. 7
p. 7
p. 7
p. 7
p. 7
p. 8
p. 8
p. 8
p. 8
p. 9
p. 9
p. 9
p. 10
1.2 Construction
1.2.1 Chassis-frame
1.2.2 Tub and drum
1.2.3 Suspensions
1.2.4 Porthole
1.2.5 Bearings, transmission and motor
1.2.6 Programming
1.3 Working principle
1.4 Security
1.4.1 Total protection against opening doors
1.4.2 Protection against unbalance
1.4.3 Heater protection
1.4.4 Security related to the gas heating system
1.5 Heating
2. Technical information regarding the installation
p. 11
2.1 Technical specifications
2.2 Installation
p. 11
p. 12
p. 12
p. 13
p. 14
p. 17
p. 17
p. 17
p. 18
2.2.1 Maintenance and unpacking
2.2.2 Characteristics of the room
2.2.3 Connections
2.2.4 First start-up
2.3 Adaptation of the device to another type of gas
2.3.1 Actions to be taken
2.3.2 Table of adjustments and flow rates
-2-
3. Technical information for the user
p. 19
3.1 Details of the various elements
3.1.1 Opening and closing the doors
3.1.2 Soap trays
3.1.3 Unbalance and direction of rotation
3.2 Usage of washing machines with micro control
p. 19
p. 19
p. 20
p. 20
p. 21
4. Periodic maintenance
p. 21
4.0 Every day
p. 21
p. 21
p. 21
p. 21
p. 22
p. 22
4.1 Every week
4.2 Every month
4.3 Every 3 months
4.4 Every 6 months
4.5 Every year
5. Maintenance instructions
p. 23
5.1 Remove sealing kit
p. 23
6. Troubleshooting
p. 24
6.1 Checks
6.2 Other break-downs
p. 24
p. 24
7. Problems during operation and start-up
p. 25
-3-
LIST OF DIAGRAMS
N° diagram Index Date
Description
Type machine
CS, ASEP2000
AS2000-0001
06/01/00 Washer dryer, front view
AS2000-0003 B
AS2000-0009 A
AS2000-0011 A
AS2000-0015 A
AS2000-0016
19/12/01 Side view
CS, ASEP2000
29/03/00 Tub detail
CS, ASEP2000
25/04/03 Drainage circuit
27/06/02 Display
CS ET ASEP2000
DF, CS, ASEP micro
DF, CS, ASEP
06/01/00 Electrical heating unit
03/01/02 Water levels
AS2000-0017 A
AS2000-0018 A
AS2000-0022 C
AS2000-0023 C
AS2000-0024 C
AS2000-0025 C
AS2000-0026 A
AS2000-0027 A
AS2000-0028 A
AS2000-0029 B
AS2000-0030 A
CS2000-0022 D
CS2000-0023 D
CS2000-0024 D
DF, CS, ASEP
25/04/03 Unlocking of tub door, washer
DF, CS, ASEP
01/02/01 Installation scheme of aseptic
washer elec and steam 2000/27
01/02/01 Installation scheme of aseptic
washer elec and steam 2000/33
01/02/01 Installation scheme of aseptic
washer elec and steam 2000/49
01/02/01 Installation scheme of aseptic
washer elec and steam 2000/67
AS2000/27 E / V
AS2000/33 E / V
AS2000/49 E / V
AS2000/67 E / V
CS, ASEP2000
17/12/01 Soap tray – Water inlet
01/10/01 Installation scheme of aseptic
washer gas 2000/27
01/10/01 Installation scheme of aseptic
washer gas 2000/33
24/05/01 Installation scheme of aseptic
washer gas 2000/49
01/10/01 Installation scheme of aseptic
washer gas 2000/67
27/06/02 Installation scheme of aseptic
washer elec and steam 2000/27
27/06/02 Installation scheme of aseptic
washer elec and steam 2000/33
27/06/02 Installation scheme of aseptic
washer elec and steam 2000/49
AS2000/27 GAS
AS2000/33 GAS
AS2000/49 GAS
AS2000/67 GAS
CS2000/27 E / V
CS2000/33 E / V
CS2000/49 E / V
-4-
CS2000-0025 D
CS2000-0027 B
CS2000-0028 B
CS2000-0029 C
CS2000-0030 B
27/06/02 Installation scheme of aseptic
washer elec and steam 2000/67
27/06/02 Installation scheme of aseptic
washer gas 2000/27
27/06/02 Installation scheme of aseptic
washer gas 2000/33
27/06/02 Installation scheme of aseptic
washer gas 2000/49
27/06/02 Installation scheme of aseptic
washer gas 2000/67
CS2000/67 E / V
CS2000/27 GAS
CS2000/33 GAS
CS2000/49 GAS
CS2000/67 GAS
ELECTRICAL DIAGRAMS AND SPARE PARTS LIST
Refer to technical manual
-5-
1. GENERAL WORKING PROCEDURE
1.1 Description
• Correct usage in accordance with design:
o The dirty laundry is loaded into the front part of the machine and the clean
laundry is unloaded from the rear part of the machine, using portholes
situated opposite to the loading ports (for the Aseptic machines) or into the
front part of the machine (for the CS machines).
o When a separating wall is constructed at the middle plane of the machine this
will then avoid any contact between the dirty and the clean laundry.
• Simple usage:
o Loading and unloading of the laundry through one or two large ports opening
by 180°.
• Easy-to-use programs:
o Control of the machine by a microprocessor with five standard programs -
washing types. It provides the possibility to create 25 other programs
according to your requirements.
• No concrete base is required. However, a stable and level floor is absolutely
necessary.
• No vibrations are transmitted to the floor.
• The machine only requires one electrical connection, one connection for the
heating system of the machine (electricity or steam or gas) and one channel for
the drainage of used water.
• Various types of detergents may be used:
o Classical detergent in powder form or liquid detergent supplied by a dosing
pump.
Note: The supplier of the liquid detergents must carry out the adaptation of the
dosing pumps and their electrical connection (since the system is specific for
each type of product).
-6-
1.2 Construction
1.2.1 Chassis - frame
• Mechanically soldered frame of hot de-scaled steel plating, protected against
oxidation by phosphation, and covered with epoxy paint.
• Protection panels in stainless steel plating with 1.2 mm thickness.
• The design of the lower part of each tub port inhibits the laundry from slipping in-
between the tub and the drum.
1.2.2 Tub and drum
• The tub consists of a rolled stainless steel plate, closed at its extremities by 2
flanges, also stainless steel. The tub flanges are bolted to the tub and a seal
assures waterproofing.
• The drum consists of a perforated and pressed stainless steel plate. The plate is
then rolled and nested in two bead plates, also stainless steel. 4 beaters
mounted peripherally around the interior allow the laundry to be stirred correctly.
This assembly is held together by 4 tension rods that traverse the drum from one
end to the other.
1.2.3 Suspensions
The tub - drum assembly is suspended by four springs that are attached to the frame
and held in place by eight stabilisators, thus absorbing all vibration.
1.2.4 Porthole
The large-size portholes are of stainless steel and equipped with SECURIT panes of
tempered glass. Thus they permit a visual control of the washing operation.
1.2.5 Bearings, transmission and motor
• The connecting rod bearings are waterproof and have a hardened steel base.
• The transmission consists of one belt, providing a driving mechanism without
slippage.
• The asynchronous motor with variable frequency provides a gradual
acceleration, without shocks, which avoids drawing a large current when initiating
centrifugal motion.
-7-
1.2.6 Programming
Of the integral type with a microprocessor, regulation of:
• Four soap trays.
• Admission of hot, cold and/or soft water.
• Bath levels adjustable.
• Temperature adjustable from 0 to 90°C with microprocessor.
• Reduced mechanical washing motion for delicate laundry.
• Normal mechanical washing motion.
• Intermediate and final centrifuge.
1.3 Working principle
The following operations: loading the dirty laundry, loading the various detergents, and
starting and controlling the operations by means of the control panel, are all done on the
"dirty laundry" side of the machine.
Once the program is finished, the drum ports are automatically aligned with the "clean
laundry" side for the Aseptic machines (the laundry may then be unloaded on the other
side of the separation wall, in another room, without risking contamination of the clean
laundry by contact with the dirty laundry) or “dirty laundry” side (for the CS machines).
1.4 Security
1.4.1 Total protection against opening doors
This protection is designed to prevent accidents that might be caused by opening a
porthole while the drum is rotating.
• Depending on the machine type, either one or two magnetic latches inhibit the
opening of the porthole(s) of the tub.
• The microprocessor orders their release automatically.
• After centrifuging the release of the latches is retarded by about 90 seconds.
In case of an electrical outage and after verifying that the drum has come to a complete
stop, it is possible to unlock the doors by take away the front panel under the door and
pulling down the small cord.
-8-
1.4.2 Protection against unbalance
The suspended aseptic or CS machines are fitted with one or two unbalance
protections, according to their load capacity. These avoid excessive oscillations caused
by a strong unbalance by interrupting the centrifugal motion.
Effect of the protections in case of a strong unbalance
• During the final centrifuge, the centrifugal motion is interrupted and the drainage
is maintained, but the cycle is frozen. The message “E9 or unbalance fault” is
shown on the display. One must restart the cycle and move fast forward through
the program to arrive at the centrifuge phase again.
1.4.3 Heater protection
The bath heating system is not switched on unless the pressure meter, installed for this
purpose, detects the correct water level.
1.4.4 Security related to gas heating system
Four security systems guarantee the correct operation of the system.
• When no flame is detected in the burner, the igniter and control plug of the flame
causes the closure of the electronic valve in the gas feed, while message “E13”
appears on the micro control display. After waiting for about 20 seconds you may
then restart the system by a key combination for machine with micro control. If
the default appears again, one of the following faults has occurred:
o No gas feed: check whether the gas feed valves are open.
o Igniter plug broken.
• The thermostat (chimney obstructed” interrupts the power supply to the
command module, in case the chimney is obstructed, and informs you of this
fault on the terminal display showing “E10 or chimney obstructed”. After several
minutes, you may restart the cycle by pressing “start”. Check your chimney when
the fault persists.
• The thermostat “heating security” also interrupts the command module when the
temperature in the heater is abnormal and informs you of this fault on the
terminal display showing “E11 or heating security”.
• The thermostat “water failure security” also interrupts the command module when
the heating element overheats and informs you of this fault on the terminal
display showing “E12 or water failure security”.
-9-
When a fault occurs in the water circulation pump, the power supply of the command
module is interrupted and the indicator “pump fault” lights up. When the faults persist,
check with qualified technical service.
1.5 Heating
Three heating methods are available, providing the flexibility to adapt the machine to the
available energy supply.
• Electrical heating: by several shielded resistors mounted in the heater bath (the
number of resistors being in accordance with the power of the machine).
UHM027D
UHM033D
UHM049D
UHM067D
-----------------------------------------------------------------------------------------------------
Number of resistors
6
9
12
15
-----------------------------------------------------------------------------------------------------
Total power (kW)
18
27
36
45
-----------------------------------------------------------------------------------------------------
• Steam heating: through the release of steam pressure delivered by an injector
situated in the heater bath.
• Gas heating: by a gas heater that is incorporated in the machine. A pump
provides the required water circulation.
The efficiency of the machine is given by the number of stars on the identifying label of
the machine, in accordance with the norm G45-106. Four stars correspond to an
efficiency superior to 80%.
-10-
2. TECHNICAL INFORMATION REGARDING INSTALLATION
2.1 Technical specifications
The identification label of machine is situated on upper part of left side of casing.
Pays
Categories
Gas
Pressure (mbar)
Allemagne (DE)
I2ELL
G20
20
G25
G31
20
50
I3P
Autriche (AT)
Danemark (DK)
Finlande (FI)
Italie (IT)
I2H
G20
20
Suède (SE)
République Tchèque (CZ)
Norvège (NO)
SUISSE (CH)
Espagne (ES)
Irlande (IE)
II2H3P
G20
G31
20
37
Portugal (PT)
Royaume-Uni (GB)
Grèce (GR)
Estonie (EE)
Lituanie (LT)
Lettonie (LV)
Slovaquie (SK)
Slovénie (SL)
Roumanie (RO)
Bulgarie (BU)
SUISSE (CH)
Espagne (ES)
Belgique (BE)
Belgique (BE)
Chypre (CY)
Malte (MT)
II2H3P
G20
G31
G20/G25
G31
20
50
20/25
37
I2E+
I3P
France (FR)
II2Esi3P
G20/G25
G31
20/25
37 et 50
Luxembourg (LU)
PAYS-BAS (NL)
II2E3P
II2L3P
G20
G31
G25
G31
20
50
25
50
-11-
2.2 Installation
Attention: The machine must only be installed, adjusted and started up by a team
of technicians of the manufacturer or by technicians or resellers that are recognised by
the manufacturer.
Likewise, it is strongly recommended that the client be present during the installation
and the first trials.
The installation of the device must be in accordance with the current regulations and
norms and in a room with sufficient ventilation.
The flow of fresh air required for combustion is 90 cubic metres per hour when gas
heating is used.
2.2.1 Maintenance and unpacking
Upon delivery the machine must be in perfect shape and the packing must not be
incomplete or damaged. Take note of the indications on the packing (e.g., fragile, top
and bottom, protect from rain, etc.). The machine is quite heavy and has imposing
dimensions (see below). Provide lifting and handling devices in order to proceed safely.
The machine must be handled using a lift-truck of sufficient capacity. The truck forks
must be placed at their maximum distance to avoid toppling the device.
One must lift the device at its centre (centre of gravity on the axis).
Do not turn the machine over or let it drop, e.g. when unloading.
Note: When lifting by slings (not recommended), the manipulation will be under
the entire responsibility of the person handling the machine (since the machine
may suffer deformation).
Type
:
:
:
:
Dimensions
Land packing
L x l x H (mm)
Weight (Kg)
Machine only
L x l x H (mm)
Weight (Kg)
Sea packing
L x l x H (mm)
Weight (Kg)
---------------------------------------------------------------------------------------------------------------------------
UHM027D : 1172x1053x1690
880
1342x1320x2050
980
1342x1320x2050
1080
:
---------------------------------------------------------------------------------------------------------------------------
UHM033D : 1292x1053x1690
1060
1462x1320x2050
1160
1462x1320x2050
1260
:
---------------------------------------------------------------------------------------------------------------------------
UHM049D : 1612x1053x1690
1300
1782x1320x2050
1400
1782x1320x2050
1500
:
---------------------------------------------------------------------------------------------------------------------------
UHM067D : 1965x1053x1690
1570
2135x1320x2050
1670
2135x1320x2050
1770
:
-12-
2.2.2 Characteristics of the room
• The machine must be installed in a very well ventilated room with correct lighting
and a temperature in the range from -10 to + 40°C (temperature limits for the
electronic frequency regulator of the driving motor) .
• Sufficient space must be left around the machine to allow for its correct
functioning.
• On each side sufficient space must be left in front of the portholes so that the
machine operator can work correctly and without danger.
• Levelling should be carried out correctly on a hard and stable floor surface,
capable of supporting the considerable weight of the machine (430 kg on 1 m²).
²
The floor must at least be able to support 500 kg per m for the installation of
such a machine.
Correct levelling also guarantees an optimum performance of the suspensions and the
water bath, which is balanced horizontally.
All machine types should further be fixed to the floor by self-boring plugs of size M12.
Indeed, when an important unbalance occurs, the machine may move slightly, no longer
be perfectly horizontal (see drawing), and exert forces on the feeding and draining
tubes.
With this type of machine it is possible to insert wedges between the frame and the floor
in order to level it.
Construction work required:
• No concrete support is needed.
• No vibration is transmitted to the floor.
To evacuate used water, a drain of at least 150 x 150 mm must be located right under
machine.
-13-
2.2.3 Connections
Water supply connection:
All machines are fitted with two water supply connections (hot and cold water). Please
consult manufacturer for optional soft water connection.
For machines with gas heating, it is important to ensure correct operation of boiler, to
supply water for washing step with a maximum TH of 10°. A higher TH will involve a
permanent clogging of boiler.
Install two pipes (hot and cold water) vertically behind machine; install two blocking
valves in an accessible location. Install a filter in each pipe, upstream from blocking
valves.
The pressure must be between 2 and 6 bars; install a motion absorber system as well
as an escape valve to handle high water pressure.
Diameter of the tubing
Machine type
UHM027D
UHM033D
UHM049D
UHM067D
Diameter of water connection
20/27 (3/4 in.)
20/27 (3/4 in.)
20/27 (3/4 in.)
26/34 (1 in.)
UHM027D
UHM033D
UHM049D
UHM067D
Water consumption (litres) -------------------------------------------------------------------
Pre-washing
Washing
Rinsing
47
47
73
532
70
70
100
740
90
90
120
900
130
130
200
1460
Longest cycle
-----------------------------------------------------------------------------------------------------
Drain connection:
All machine types have 1 drain of diameter 80 (drainage of the tub).
The minimum cross section of the used water drain below the machine should be
respected (at least 150 x 150 mm).
Electrical connection:
Electrical power connection consists either of a cable with four wires, 230 V, three-
phase or of a cable with five wires, 400 V, three-phase.
-14-
Wire colors
THREE 380 V + N + T
Black - black - brown ...….... Phases
Blue ..................................... Neutral
Green / yellow ..................... Earth
THREE 220 V + T
Black - brown - blue ........... Phases
Green / yellow..................... Earth
Important:
Install an additional upstream fuse cabinet.
Furthermore, install a residual current operated circuit breaker (300 ma) for the
general protection of your launderette against electrical faults.
These installations must be in accordance with valid regulations.
Note: Fuses protect the control and power circuitry.
Table: motor power
---------------------------------------------------------------------------------------------------------------------------
UHM027D
UHM033D
UHM049D
UHM067D
--------------------------------------------------------------------------------------------------------
Power in kW
4
4
5.5
5.5
--------------------------------------------------------------------------------------------------------
Nominal velocity in tr/min 1500
1500
1500
1500
---------------------------------------------------------------------------------------------------------------------------
Electrical heating:
Machines that have electrical heating have connections for:
• The control and motor circuits.
• The heating power circuit.
Table: heating power
---------------------------------------------------------------------------------------------------------------------------
UHM027D
UHM033D
UHM049D
UHM067D
230V 400V
230V 400V
230V 400V
230V 400V
-----------------------------------------------------------------------------------------------------
Power in kW
18
27
36
45
-----------------------------------------------------------------------------------------------------
Inter combined AM
50 32
80
50
100 60
100
60
---------------------------------------------------------------------------------------------------------------------------
2
Cable section MM
4x10 5x6
4x10 5x6
4x16 5x6
4x16 5X10
-----------------------------------------------------------------------------------------------------
-15-
Steam connection:
• The steam pressure must be between 5 and 10 bars.
• Install a steam escape valve to avoid overpressure.
Table: steam consumption
-----------------------------------------------------------------------------------------------------
UHM027D
UHM033D
UHM049D
UHM067D
-----------------------------------------------------------------------------------------------------
Steam consumption
18kg/h
26kg/h
40kg/h
60kg/h
-----------------------------------------------------------------------------------------------------
Steam entry connection
¾ in.
¾ in.
¾ in.
¾ in.
-----------------------------------------------------------------------------------------------------
Vent connection:
• For security reasons, lead the air tube to the exterior of the room.
Attention: Protect the far end of this tube to avoid possible obstruction,
which would affect machine operation.
Gas connection:
Connect the device to the existing gas conducts and install a blocking valve between
the device and the rest of the installation.
The installation must be in accordance with the valid norms and regulations of the
country involved.
The gas supply conducts must have sufficient dimensions to minimise pressure loss. Its
diameter must be calculated as a function of its path (length, number of bends, etc.) and
the power of the device.
Check that settings of device correspond to type and pressure of gas of installation.
Connect a manometer to the pressure connection situated on top of the electronic valve
module when all burners are on, to check the pressure of the gas feed.
The measured gas pressure must be equal to the pressure indicated on the
identification label for the used gas type.
Gas feed connection is 1 inch in diameter and in agreement with the norm ISO 228/1.
-16-
Connection with exhaust conduct
Place draught-diverter system supplied with the device between the exit of the heater
and the gas exhaust conduct. The tubes that connect with the chimney are of diameter
150 and should be as short as possible.
2.2.4 First start-up
• Verify that the machine is stable and level upon first start-up.
• Check that all connections and drains are correctly established.
• Check that the device is connected to earth correctly.
• Take away brackets transport (see instruction at the end).
• Check that all switches are in their position 0.
• Turn the circuit breaker with guard to position 1.
• Check that the pump (gas heating) rotates in the correct direction.
Note: If the machine turns the wrong way, check the technical service centre of
the manufacturer.
Attention: Take care not to touch or come close to any moving parts.
• Mount all protection panels back on the machine.
2.3 Adaptation of the device to another type of gas
2.3.1 Actions to be taken
• Dismount the access panels of the heater on the side of the dirty laundry.
• Unscrew the 4 fixing bolts of the gas ramp as well as the bolt of the hose of the
gas connection.
• Extract the ramp.
• Unscrew the injectors and replace them.
• Proceed in reverse order to mount the system and check that the gas feed
pressure at the entry valves of the module is in agreement with the pressures
indicated in the table below (device operating).
• Seal the air adjustments with a little paint.
-17-
2.3.2 Table of adjustments and flow rates
Gas type
G31
37
G31
50
G20 (1)
G25 (2)
Pres.
20
20
feed.(mbar)
Injector
marking
180
200
120
110
Adjustment of
air pres.
Max opening of Idem
vent
Idem
Idem
Flow of burner 2.64(cubic m/h) 3.07(cubic m/h) 1.96 (kg / h)
1.96 (kg / h)
24.9
Nominal heat
flow kW (hi)
24.9
24.9
24.9
(1) Identical adjustment for G25 at 25 mbar
(2) Germany only
* G20: natural gas type H (Lacq)
* G25: natural gas type L (Groningen)
* G31: propane
-18-
3. TECHNICAL INFORMATION FOR THE USER
Note:
• The user must not handle parts that are protected by the manufacturer or his
representative.
• The user must appeal to a qualified installer to adapt the device to a different
type of gas.
• The exhaust gas evacuation chimney must be swept periodically in accordance
with the valid rules of the concerned country.
3.1 Details of the various elements
3.1.1 Opening and closing the doors
Drum portholes
Important: Door locking system of the drum consists of a lock with two latches
and two buttons to move those two latches.
Check that the latches are in their correct positions and that there is a gap of 50mm
minimum between the two buttons (an incorrect door closure will lead to the destruction
of the lock parts and may damage the doors).
Not following these instructions annuls the guarantee; the costs of repair of the caused
damage will therefore revert automatically to the client.
Outer port or porthole
• Close the door carefully to obtain good waterproofing (the handle door must be
horizontal).
Attention: Risk of burning; please do not touch the glass of the porthole
when the machine is functioning, in particular after the heating phase of the
washing bath.
-19-
3.1.2 Soap trays
Attention: All products used are harmful and must be handled with caution.
Read the recommendations of the product suppliers carefully.
Before all manipulation: you must use appropriate protective clothing, e.g. gloves,
boots, glasses, respiratory masks, etc.
Detergent:
• Fill the soap trays with the corresponding products when starting a cycle.
• The detergents for washing and pre-washing must be in powder form (or liquid
when automatic feeding by a dosing pump is used).
o There are several different types of detergent, and some of them are more
easily dissolved in water. Consult your supplier, who will provide indications.
Bleach:
• 5 to 10 g of 12° bleach per litre of water.
• Never surpass the lower marking of the siphon of the bleach tray.
Softener:
• Consult supplier. The doses vary according to the products used.
3.1.3 Unbalance and direction of rotation
When you receive the message “unbalance fault“ before ending a cycle, you must
restart the cycle (refer to Ch. 1.4.2).
If the unbalance persists, check the following points:
• Machine has insufficient load:
Loads must be in the following ranges (dry laundry weight)
UHM027D............. 19 to 27 kg
UHM033D............. 22 to 33 kg
UHM049D............. 38 to 49 kg
UHM067D............. 52 to 67 kg
• Water drainage defective.
• Long pieces of clothes tangle and create knots.
• Heterogeneous load of clothes, differing in type, weights or size.
• Poorly adjusted water level:
Upper level ... 140 mm
Lower level ... 60 mm
• Shockbreaker got stuck: the symptom of this problem is an escape of oil on the
skirt of the shockbreaker.
• Wrong direction of rotation of the centrifuge.
-20-
Note: Centrifuge must always switch on with the same velocity and direction as
the washing rotation. This rotation is downward when you are on the dirty
laundry side of the machine.
3.2 Usage of washing machines with micro control
Refer to Programming Manual for micro control information.
4. PERIODIC MAINTENANCE
4.0 Every day
Clean dust filter located below the tub once a day when using gas heating.
4.1 Every week (0.5 h)
• Clean the soap trays.
• Clean the machine using a dry or slightly humid cloth (not dripping).
4.2 Every month (1 h)
• Check the condition of the shockbreakers (no oil traces should be visible on the
outside of the shockbreaker).
• Check that the frictional gliders between which the tub-drum assembly is wedged
laterally make contact correctly (if the pressure is not sufficient, withdraw a
spacer of the frictional arm connection).
• Check the condition and waterproofing of the steam circuit for those machines
that are heated by steam.
• Check the working condition of the gas heating system (boiler, safety and filter).
• Check the working condition of the unbalance detector switch.
4.3 Every 3 months (2 h)
• Check and retighten the main bolts, when necessary.
• Clean the protective filters of the electronic valves.
• Grease the rod bearings of the drum lightly.
• Clean the steam nozzle on machines with steam heating.
-21-
• De-scale the heater unit using a de-scaling product (consult manufacturer for
supplies) on those machines that use gas heating. This product is introduced in
the tub of the washing machines. Then, a washing cycle at 60°C is carried out
lasting about 20 minutes, after which the machine is drained and rinsed.
• Check the working condition of the door locking system of the drum ports:
o The spring of both latches.
o The spring of the holding receptacle of the controller rod.
4.4 Every 6 months (2 h)
• Check the condition of the driving belts of the drum.
• Grease the drive shaft and the sliding parts of the transmission very lightly using
a high temperature grease applied with a pulverising pump.
• Clean, de-scale and clear the electrical heating elements (when the machine
uses this type of heating).
• Check the waterproofing and toughness of the tubing.
• Check the working condition of the heating assembly (flame, exhaust, chimney
draw, lighter plug, and security).
IMPORTANT: Check the working condition of gas heating system (boiler, flame,
safety, chimney…) and clean the boiler's body with a high pressure pump (with
two sense of flow) connected at inlet and outlet of the boiler.
4.5 Every year (2 h)
• Grease the suspension springs lightly.
• Clean, check and de-scale the drainage assembly, if needed.
-22-
5. MAINTENANCE INSTRUCTIONS
5.1 Replacement of the sealing kit
1) Remove the strips.
2) Remove the hub (remove the two hub screws and place one of the two screws in
the third hole).
3) Remove the wheel (first make a mark so you can later replace it in the same
position).
4) Secure the drum with two wooden wedges.
5) Remove the cover and clean off the lubricant.
6) Release the flap of the blocking washer that is fixed by a screw.
7) Undo the screw until the base of the conical section.
8) Undo the bearing screws.
9) Insert the four 8х70 bolts into the base of the bearing and loosen it from the
conical section.
10) Tap on the screw of the pressing cone.
11) Extract the bearing and the cone.
12) Remove the lock ring.
13) Remove the supporting ring with the extractor.
14) Extract the sealing ring.
15) Clean the drum shaft (use solvent and a polishing cloth).
16) Place the sealing ring and apply a little lubricant to the shaft.
17) Place the supporting ring using a roller by way of wedge, as well as a mallet
(applying a little lubricant to the toric joint).
18) Compress the sealing ring using adequate tools.
19) Place the lock ring.
20) Extract the two bearing spi joints.
21) Place the pressing cone in the bearing.
22) Place the spi joint in the bearing base.
23) Adjust the bearing position.
24) Place the blocking washer and the blocking screw, tighten the screw and then
trim the flap of the blocking washer.
25) Adjust the position of the spi joint with respect to the cover.
26) Lubricate the bearing.
27) Replace the cover.
28) Adjust the position of the pin on the shaft and replace the wheel.
29) Fasten the hub using the two fixing screws.
Make sure the hub and the wheel are in the same position as they were
originally.
30) Tighten the screw at the base of the shaft.
31) Place the strips.
-23-
6. TROUBLESHOOTING
6.1 Checks
• The electrical power supply.
• The protective fuses.
• Water supply interruption.
• Filter blocking.
• Water pressure failure.
• Waterproofing of the drainage system.
• The driving belts.
• The water levels.
Attention: When the water levels are not correct, consult reseller and replace the
pressure switch.
• When the drainage is obstructed, clean it.
• When the machine vibrates, check the following:
o It is loaded with a heterogeneous load of laundry.
o Its load is too small.
o It is overloaded.
o Check the condition of the shockbreakers.
o Check that the lateral frictional gliders exert enough pressure.
• When the machine experiences frequent unbalance problems or when an oil
trace appears on the body of a shockbreaker, the shockbreakers must be
changed.
6.2 Other breakdowns
• When other breakdowns or unusual noises are produced (scrubbing, knocking,
etc.) interrupt work and contact the manufacturer immediately, describing the
problem in detail.
-24-
7. PROBLEMS DURING OPERATION AND START-UP
Problem
Check
--------------------------------------------------------------------------------------------
Cycle does not start
- doors not closed correctly
- emergency stop activated
- contact breaker or
electricity outage
--------------------------------------------------------------------------------------------
Control panel does not
light up
- fuses tripped
- emergency stop activated
- processor off
- electricity outage
--------------------------------------------------------------------------------------------
Cycle starts but drum
does not turn
- fuse of regulator tripped
- press yellow indicator light
on front side when it is on
--------------------------------------------------------------------------------------------
Cycle starts but water
does not enter
- water inlet closed
- pressure switch out of
service
- electronic valve out of
service
- fuse tripped
- electronic valve of inlet out
of service
--------------------------------------------------------------------------------------------
Cycle starts but water
inflow does not stop
- pressure switch out of
service
- electronic valve dirty
- tub pressure switch
clogged
- drainage valve still open
--------------------------------------------------------------------------------------------
Cycle starts but heating
does not engage
- required water level not
reached
- fuse tripped
- contact coil heating out of
service
- HS probe
--------------------------------------------------------------------------------------------
Heating is on but
- resistor out of service
temperature does not rise
-25-
--------------------------------------------------------------------------------------------
Machine does not drain
- drainage valve dirty
- exhaust tube blocked
--------------------------------------------------------------------------------------------
Machine does not centrifugate
- improper loading of laundry
or loading limits not
respected, causing an
unbalance fault
- no high level before
centrifugation
- drainage blocked
--------------------------------------------------------------------------------------------
-26-
PROGRAM DETAILS
ASEPTIC WASHING MACHINE TYPE 2000/CS 2000 WITH MICRO CONTROL
LAUNDRY TYPE: VERY SOILED WHITE
Wash energic speed: 45 tr/min
PROGRAM N°: 1
STAGE
TIME
WATER
LEVEL
PRODUCT
TEMP. °C
COMMENT
Soaking
M15-A10
M15-A10
240
Cold
27 cm/high
21 cm/low
tray A
tray B
38
80
Prewash P2
Wash 1
300
no
Hot
M15-A10
Wash 2 P3
Cooling
120
240
120
Cold
Cold
Cold
27 cm/high
24 cm/middle
27 cm/high
M15-A10
M15-A10
M15-A10
M15-A10
Rinsing 1 P4
Bleaching P5
Rinsing 2 P4
Rinsing 3
tray C
tray D
Rinsing 4
240
Hot and cold
27 cm/high
M15-A10
Final Rinsing P6
Centrifugation P7
Distribution 1
5
100 tr/min
100 tr/min
300 tr/min
700 tr/min
1000 tr/min
M10-A5
Distribution 2
60
Centrifugation 1
Centrifugation 2
Centrifugation 3
Separation P8
120
240
120
60
Additional information:
Duration of product drainages:
Rinsing
tray:
60
Tray B:
50
Tray A:
50
Tray C:
50
Tray D:
50
Note: - All time intervals expressed in seconds, not counting loading and heating times.
- All drainage intervals are automatically adjusted to 90 seconds.
- After every product drainage, a rinsing of the soap tray is programmed.
- Door positionning is automatic.
-27-
PROGRAM DETAILS
ASEPTIC WASHING MACHINE TYPE 2000/CS 2000 WITH MICRO CONTROL
LAUNDRY TYPE: SOILED WHITE
Wash energic speed: 45 tr/min
PROGRAM N°: 2
STAGE
TIME
WATER
LEVEL
PRODUCT
TEMP. °C
COMMENT
Soaking
M15-A10
Prewash
Wash 1
480
Hot
21 cm/low
tray B
tray C
80
M15-A10
Wash 2 P9
Cooling
no
Rinsing 1
Bleaching P5
Rinsing 2 P4
240
120
Cold
Cold
24 cm/middle
27 cm/high
M15-A10
M15-A10
Rinsing 3
M15-A10
Rinsing 4
240
Hot and cold
27 cm/high
tray D
M15-A10
Final rinsing P6
Centrifugation P7
Distribution 1
Distribution 2
Centrifugation 1
Centrifugation 2
Centrifugation 3
Separation P8
5
100 tr/min
100 tr/min
300 tr/min
700 tr/min
1000 tr/min
M10-A5
60
120
240
120
120
Additional information:
Duration of product drainages:
Rinsing
tray:
60
Tray B:
50
Tray A:
50
Tray C:
50
Tray D:
50
Note: - All time intervals expressed in seconds, not counting loading and heating times.
- All drainage intervals are automatically adjusted to 90 seconds.
- After every product drainage, a rinsing of the soap tray is programmed.
- Door positionning is automatic.
-28-
PROGRAM DETAILS
ASEPTIC WASHING MACHINE TYPE 2000/CS 2000 WITH MICRO CONTROL
LAUNDRY TYPE: COLOUR
Wash energic speed: 45 tr/min
PROGRAM N°: 3
STAGE
TIME
WATER
LEVEL
PRODUCT
TEMP. °C
COMMENT
Soaking
M15-A10
M15-A10
180
Cold
27 cm/high
Tray A
tray B
30
60
Prewash P10
Wash 1
300
no
Hot and cold
21 cm/low
M15-A10
Wash 2 P11
Cooling
Rinsing 1
Bleaching
120
120
Cold
Cold
27 cm/high
27 cm/high
M15-A10
M15-A10
Rinsing 2 P4
Rinsing 3 P4
Rinsing 4
240
Cold
27 cm/high
tray D
M15-A10
Final rinsinglP16
Centrifugation P12
Distribution 1
5
100 tr/min
100 tr/min
300 tr/min
700 tr/min
1000 tr/min
M10-A5
Distribution 2
60
Centrifugation 1
Centrifugation 2
Centrifugation 3
Separation P8
120
300
120
60
Additional information:
Duration of product drainages:
Rinsing
tray:
60
Tray B:
50
Tray A:
50
Tray C:
50
Tray D:
50
Note: - All time intervals expressed in seconds, not counting loading and heating times.
- All drainage intervals are automatically adjusted to 90 seconds.
- After every product drainage, a rinsing of the soap tray is programmed.
- Door positionning is automatic.
-29-
PROGRAM DETAILS
ASEPTIC WASHING MACHINE TYPE 2000/CS 2000 WITH MICRO CONTROL
LAUNDRY TYPE: POLYESTER/ COTON
Wash energic speed: 45 tr/min
PROGRAM N°: 4
STAGE
TIME
WATER
TYPE
LEVEL
PRODUCT
TEMP. °C
COMMENT
Soaking
Prewash
Wash 1
480
Cold
21 cm/low
tray B
60
M15-A10
Wash 2 P14
Cooling
45°level 7cm
Rinsing 1
Bleaching
180
Cold
Cold
27 cm/high
27 cm/high
M15-A10
M15-A10
Rinsing 2 P15
Rinsing 3
Rinsing 4
240
tray D
Final rinsing P16
Centrifugation P17
Distribution 1
Distribution 2
Centrifugation 1
Centrifugation 2
Centrifugation 3
Separation P8
5
60
120
300
0
100 tr/min
100 tr/min
300 tr/min
700 tr/min
1000 tr/min
M10-A5
60
Additional information:
Duration of product drainages:
Rinsing
tray:
60
Tray B:
50
Tray A:
50
Tray C:
50
Tray D:
50
Note: - All time intervals expressed in seconds, not counting loading and heating times.
- All drainage intervals are automatically adjusted to 90 seconds.
- After every product drainage, a rinsing of the soap tray is programmed.
- Door positionning is automatic.
-30-
PROGRAM DETAILS
ASEPTIC WASHING MACHINE TYPE 2000/CS 2000 WITH MICRO CONTROL
LAUNDRY TYPE: WOOLEN
Wash energic speed: 45 tr/min
PROGRAM N°: 5
STAGE
TIME
WATER
LEVEL
PRODUCT
TEMP. °C
COMMENT
Soaking
M4 A10
Prewash
Wash 1
480
Cold
21 cm/low
tray B
30
M4 - A10
Wash 2 P19
Cooling
No
180
240
Rinsing 1
Bleaching
Cold
Cold
27 cm/high
27 cm/high
M4 - A10
M4 - A10
Rinsing 2 P20
Rinsing 3
Rinsing 4
tray D
Rinsing final P21
Centrifugation P22
Distribution 1
Distribution 2
Centrifugation 1
Centrifugation 2
Centrifugation 3
Separation P8
5
60
120
0
100 tr/min
100 tr/min
300 tr/min
700 tr/min
1000 tr/min
M4- A10
0
60
Additional information:
Duration of product drainages:
Rinsing
tray:
60
Tray B:
50
Tray A:
50
Tray C:
50
Tray D:
50
Note: - All time intervals expressed in seconds, not counting loading and heating times.
- All drainage intervals are automatically adjusted to 90 seconds.
- After every product drainage, a rinsing of the soap tray is programmed.
- Door positionning is automatic.
-31-
PROGRAM DETAILS
ASEPTIC WASHING MACHINE TYPE 2000/CS 2000 WITH MICRO CONTROL
LAUNDRY TYPE:
Wash energic speed:
PROGRAM N°:
STAGE
TIME
WATER
LEVEL
PRODUCT
TEMP. °C
COMMENT.
Soaking
Prewash
Wash 1
Wash 2
Cooling
Rinsing 1
Bleaching
Rinsing 2
Rinsing 3
Rinsing 4
Rinsing final
Centrifugation :
Distribution 1
Distribution 2
Centrifugation 1
Centrifugation 2
Centrifugation 3
Separation
Additional information:
Duration of product drainages:
Rinsing
tray:
60
Tray B:
50
Tray A:
50
Tray C:
50
Tray D:
50
Note: - All time intervals expressed in seconds, not counting loading and heating times.
- All drainage intervals are automatically adjusted to 90 seconds.
- After every product drainage, a rinsing of the soap tray is programmed.
- Door positionning is automatic.
-32-
Cycle n.1
1. Step n. 2
2. Step n. 3
3. Step n. 4
4. Step n. 5
5. Step n. 4
6. Step n. 6
7. Step n. 7
8. Step n. 8
Prewash
Wash
Rinse
Rinse
Rinse
Rinse
Spin
PREWASH38
WASH80
RINSE120
BLEACH240
RINSE120
FINALRINS
SPIN1000
Distribution TUMBLE60
Cycle n.2
1. Step n. 9
2. Step n. 5
3. Step n. 4
4. Step n. 6
5. Step n. 7
6. Step n. 8
Wash
Rinse
Rinse
Rinse
Spin
WASH80
BLEACH240
RINSE120
FINALRINS
SPIN1000
Distribution TUMBLE60
Cycle n.3
1. Step n. 10
2. Step n. 11
3. Step n. 4
4. Step n. 4
5. Step n. 16
6. Step n. 12
7. Step n. 8
Prewash
Wash
Rinse
Rinse
Rinse
Spin
PREWASH30
WASH60
RINSE120
RINSE120
FINALRINS
SPIN1000
Distribution TUMBLE60
Cycle n.4
1. Step n. 14
2. Step n. 15
3. Step n. 16
4. Step n. 17
5. Step n. 8
Wash
Rinse
Rinse
Spin
WASH60CD
RINSE180
FINALRINS
SPIN700
Distribution TUMBLE60
Cycle n.5
1. Step n. 19
2. Step n. 20
3. Step n. 21
4. Step n. 22
5. Step n. 8
Wash
Rinse
Rinse
Spin
WASH30G
RINSE180G
RINS240G
SPIN300
Distribution TUMBLE60
-33-
Step n. 1
Soak SOAK120
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
120 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
120 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-34-
Step n. 2
Prewash
PREWASH38
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
15 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
38 °C
240 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
240 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
50 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-35-
Step n. 3
Wash
WASH80
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
15 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
80 °C
300 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
21 cm.
300 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
YES
NO
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
50 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-36-
Step n. 4
Rinse
RINSE120
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
120 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
120 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-37-
Step n. 5
Rinse
BLEACH240
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
240 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
24 cm.
240 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
50 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-38-
Step n. 6
Rinse
FINALRINS
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
240 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
240 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
YES
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
NO
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-39-
Step n. 7
Spin
SPIN1000
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
0 sec.
0 sec.
5 sec.
60 sec.
120 sec.
240 sec.
120 sec.
YES
VCA
START WITH WATER
TILTING
Number of spin attempts
6
Step n. 8
Distribution TUMBLE60
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
0 sec.
60 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
VCA
DRUM ACTION
Move
Pause
10 sec.
5 sec.
-40-
Step n. 9
Wash
WASH80
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
15 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
80 °C
480 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
21 cm.
480 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
YES
NO
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
50 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-41-
Step n. 10
Prewash
PREWASH30
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
15 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
30 °C
180 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
180 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
50 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-42-
Step n. 11
Wash
WASH60
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
15 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
60 °C
300 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
21 cm.
300 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
YES
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
50 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-43-
Step n. 12
Spin
SPIN1000
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
0 sec.
0 sec.
5 sec.
60 sec.
120 sec.
300 sec.
120 sec.
YES
VCA
START WITH WATER
TILTING
Number of spin attempts
6
-44-
Step n. 14
Wash
WASH60CD
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
60 °C
480 sec.
Temperature
2° Level
45 °C
7 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
21 cm.
480 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
50 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-45-
Step n. 15
Rinse
RINSE180
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
180 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
180 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-46-
Step n. 16
Rinse
FINALRINS
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
Pause
15 sec.
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
240 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
240 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
NO
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-47-
Step n. 17
Spin
SPIN700
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
0 sec.
0 sec.
5 sec.
60 sec.
120 sec.
300 sec.
0 sec.
VCA
START WITH WATER
YES
TILTING
Number of spin attempts
6
-48-
Step n. 18
Wash
WASH40
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
15 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
40 °C
300 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
21 cm.
300 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
YES
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
50 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-49-
Step n. 19
Wash
WASH30G
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
4 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
30 °C
480 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
21 cm.
480 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
50 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-50-
Step n. 20
Rinse
RINSE180G
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
4 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
180 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
180 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
YES
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-51-
Step n. 21
Rinse
RINS240G
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
NO
YES
NO
NO
NO
NO
NO
VCA
DRUM ACTION
Move
4 sec.
Pause
10 sec.
SET TEMPERATURE
HEATING
Temperature
Maintain time
COOLING
0 °C
240 sec.
Temperature
2° Level
0 °C
4 cm.
WATER LEVEL TO BE REACHED
Water level
Maintain time
27 cm.
240 sec.
0 sec.
Alarm timeout
FILLING WATER INTAKE
ACVAS = WARM WATER
ADUV = HARD WATER
ADOVAS = SOFT WATER
Drum movement
NO
YES
NO
YES
DRAIN
Drain enabling delay
Drum movement
End step unload
0 sec.
YES
NO
SOAP INTAKE
ADOL(disp.A)
ACDI(disp.B)
0 sec.
0 sec.
0 sec.
ADUDI(disp.C)
SOAP PUMP ENABLING
N. 1
N. 2
N. 3
N. 4
N. 5
N. 6
N. 7
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
0 sec.
-52-
Step n. 22
Spin
SPIN300
ENABLE SPEED
VLL
VLN
VDN
VDA
VCL
VCI
0 sec.
0 sec.
5 sec.
60 sec.
120 sec.
0 sec.
0 sec.
YES
VCA
START WITH WATER
TILTING
Number of spin attempts
6
-53-
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