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SERVICE MANUAL

DISHWASHERS

DISHWASHERS

NEW STRUCTURE

EVOLUTION 

 «60 cm»

 F

S

. (Free-Standing) 

 B

.

 I

.  (Partially built-in)

 F

I

.  (Fully built-in)  

(Basic characteristics)

 

PRODUCTION -SOLARO- (MI)

© ELECTROLUX ZANUSSI
    ELETTRODOMESTICI S.p.A.
    Corso Lino Zanussi

Publication no.

    I - 33080 Porcia (ITALY)

599 34 01-28 

    Fax +39 434 394096

991105

EN/SERVICE/FL

Summary of Contents for Evolution

Page 1: ...ION 60 cm F S Free Standing B I Partially built in F I Fully built in Basic characteristics PRODUCTION SOLARO MI ELECTROLUX ZANUSSI ELETTRODOMESTICI S p A Corso Lino Zanussi Publication no I 33080 Porcia ITALY 599 34 01 28 Fax 39 434 394096 991105 EN SERVICE FL ...

Page 2: ...2 ...

Page 3: ...URE OF HYDRAULIC CIRCUIT 12 BASE 12 I W M S 13 WATER FILL 14 15 CONTROL OF DRAIN 16 DRAIN 17 WATER SOFTENING 18 REGENERATION SYSTEM 18 21 CONDENSATION OF VAPOUR 22 24 WATER FILL SAFETY FEATURES 25 TROUBLE SHOOTING 26 29 CHECKING THE COMPONENTS 26 ELECTRICAL CIRCUITS DIAGRAMS 27 29 3 ...

Page 4: ... information relative to the new range of New Structure dishwashers known as the EVOLUTION range The structural and hydraulic characteristics as well as the basic circuitry are common to all the appliances For information relative to specific models technical characteristics circuit diagrams exploded drawings and parts lists refer to the SERVICE NOTES issued separately for each model 4 ...

Page 5: ... FEATURES Integrated pump motor with dual purpose operation wash and drain External tube enclosed heating element connected between the sump and the delivery duct to the upper spray arm New timers electronic boards to optimize performance and consumption Vented drying Impulse Active Dry Turbo Dry CONTROL SAFETY FEATURES Detection of washing temperature by thermostats temperature sensors for electr...

Page 6: ...MMES 2 3 WASHING TEMPERATURES VISIBLE HEATING ELEMENT 1 ENCLOSED HEATING ELEMENT 2 IMPULSE DRYING 1 ACTIVE DRY DRYING 2 5 LEVELS OF REGENERATION BASIC ITRONIC LL Version Features FULLY BUILT IN TCR ELECTRONIC CONTROLS 6 KEYS 5 WASHING PROGRAMMES VARIABLE WASHING TEMPERATURES NTC VISIBLE HEATING ELEMENT 1 ENCLOSED HEATING ELEMENT 2 IMPULSE DRYING 1 ACTIVE DRY DRYING 2 5 LEVELS OF REGENERATION MEDIU...

Page 7: ...HARACTERISTICS STRUCTURE 60 cm CAPACITY 12 PLACE SETTINGS CONSUMPTION WATER 22 litres ENERGY 1 5 KWh DETERGENT 20 gr DURATION OF CYCLE 94 minutes Data refer to UNIVERSAL cycle VERSION FREE STANDING VERSION BUILT IN 7 ...

Page 8: ...ION BETWEEN RESIN WASHING WATER CONTAINER AND SUMP ELIMINATED SEPARATOR VALVE BETWEEN RESIN WASHING AND SUMP ELIMINATED CONNECTION BETWEEN WASHING AND DRAIN ELIMINATED FLOATING VALVE IN RESIN WASHING WATER CONTAINER ELIMINATED SEPARATOR VALVE IN BOTTOM OF SUMP WASHING DRAIN ELIMINATED PERISCOPE ELIMINATED PUMP CASING MODIFIED WASHING DRAIN VENTING DUCT MODIFIED 8 ...

Page 9: ...STRUCTURAL CHARACTERISTICS 9 ...

Page 10: ...INTERNAL HYDRAULIC ELECTRICAL CIRCUITS 10 ...

Page 11: ...noid 4 Adjustment of regeneration manual 14 Level device pressure switch 5 Air break 15 Level siphon 6 Fill valve for regeneration reservoir 16 Anti overflow system 7 Reservoir for regeneration water 17 Sump assembly 8 Salt container 18 Washing drain pump assembly 9 Regeneration solenoid 19 Non return valve 10 Resin reservoir 20 Delivery valve to upper spray arm 11 ...

Page 12: ...ller to the two rotating spray arms sprayed onto the dishes and then returns by gravity to the filter DRAIN SECTION The drain section receives water containing the residual material removed from the dishes and ducted through a tangential filter washing nozzle fitted to the lower spray arm The residue is trapped in this sector and is thus prevented from passing into the washing sector 2 SALT CONTAI...

Page 13: ...ctions WATER FILL CIRCUIT WATER FILL CONTROL SYSTEM FILL WATER TREATMENT SYSTEM REGENERATION SYSTEM WATER DRAIN CIRCUIT CONDENSATION OF VAPOUR The following components are built in 1 INTAKE CIRCUIT FOR FILL WATER 2 REGENERATION SOLENOID 3 RESET SOLENOID 4 RESIN RESERVOIR 5 VOLUMETRIC CONTROL RESERVOIR 6 REGENERATION WATER RESERVOIR 7 VOLUMETRIC DISTRIBUTOR 8 CONDENSATION CHAMBER 9 WATER OUTLET CIR...

Page 14: ...ting element thus allowing the programme to continue At the end of the fill phase or in any case before the commencement of a subsequent fill phase the reset solenoid is 13 activated reservoir reset in order to ensure that the reservoir of the volumetric control 12 is completely emptied since any water remaining in the reservoir may alter the quantity of water for the subsequent fill 5 6 DISTRIBUT...

Page 15: ...WATER FILL CIRCUIT FUNCTIONAL DIAGRAM 15 ...

Page 16: ...c dosing reservoir 12 Drain siphon inside volumetric reservoir 13 Reset solenoid resets the reservoir CONTROL OF WATER LEVEL EMPTY FULL The water level is determined by a traditional pressure switch 14 which is connected by a tube to the coupling on the pressure chamber and positioned at a height such as to monitor both the water in the volumetric reservoir and the level of the water in the tub Th...

Page 17: ...f the anti overflow device 2 is actioned via the siphon 16 this empties the corresponding pressure chamber and thus disactivates the device N B It may occur that the anti overflow device 2 is activated while the fill solenoid is in operation In this case the anti overflow device 2 has remained in operation while the pressure chamber is empty Therefore in order to disactivate the device it is neces...

Page 18: ...he salt solution should be passed gradually through the resins or preferably allowed to deposit for a period In this case too an ion exchange process takes place The sodium in the salt solution eliminates the calcium and magnesium deposited in the resins which thus re acquire their softening properties The regeneration phase takes place at a predetermined point in the washing cycle and the regener...

Page 19: ...he regeneration reservoir 7 descends by gravity into the salt reservoir 8 located in the base of the appliance Passing through the salt reservoir the water removes a given quantity of salty water which then rises through the resin bed 11 and passes to the volumetric reservoir 11 and then into the tub 19 ...

Page 20: ...m of the sump In effect the water follows the same path described in Water Fill Circuit page 14 At the same time the motor 18 is actioned in the drain direction and drains off the water as it arrives The reset solenoid 13 too is actioned to reset the reservoir thus ensuring that the volumetric control reservoir 12 is drained of any residual water remaining after this phase 20 ...

Page 21: ...the 5 position selector knob positioned in the upper left hand corner of the front panel to the corresponding level LEVEL Nº HARDNESS F D WATER UTILIZED SALT CONSUMPTION VALVES CLOSED OPEN 1 00 08 20 04 11 35cc 15gr A B C 2 21 40 12 22 70cc 25gr A C B 3 00 41 60 23 33 110cc 40gr B C A 4 00 61 80 34 45 210cc 65gr B A C 5 00 81 90 46 50 230cc 75gr A B C The appliance is set in the factory to regener...

Page 22: ...which expels the air from the appliance This is the classic drying system combined with natural hot air circulation which is maintained for the entire drying cycle by pulse actioning of the heating element The vapour hot humid air produced during the hot rinse enters the IWMS through the vapour duct in the lower section the air circulates through the IWMS where it is condensed and then expelled af...

Page 23: ...duced during the hot rinse is ducted into the chamber in the IWMS where it is condensed in two different circuits Part of the vapour passes through the vapour duct in the lower section of the IWMS The remaining vapour rises to the top of the appliance and enters the IWMS through the external duct This forms a closed condensation circuit which does not expel vapour externally since it is isolated f...

Page 24: ...The vapour hot humid air produced during the hot rinse is ducted into the chamber of the IWMS where it is condensed by two separate circuits Part of the vapour passes through the vapour duct in the lower section of the IWMS The remaining vapour is drawn to the top of the appliance by the fan and enters the chamber of the IWMS through the external duct In this case the condensation circuit is more ...

Page 25: ...vice built into the solenoid valve and connected with the IWMS As the level of water in the sump rises the level in the anti overflow chamber of the IWMS too rises since the two sections are connected by a tube When the water reaches the overflow level it flows through the siphon and descends to the corresponding chamber in the IWMS This forces the internal air through the connector tube pressuriz...

Page 26: ...wn Blue 48 Ω Ω Ω Ω 7 REGENERATION SOLENOID 6 7 Black Light blue 5200 Ω Ω Ω Ω 8 FILL SOLENOID AND ANTI FLOODING DEVICE 5 9 Purple Pink 3950 Ω Ω Ω Ω 8 RESET SOLENOID 4 10 White Grey 5200 Ω Ω Ω Ω 8 N B If the resistance measured across contacts 1 8 and 3 8 is the same 28 Ω Ω Ω Ω approx this means that the capacitor is short circuited KEY ar orange bi white bl blue ce light blue gr grey ma brown ne bl...

Page 27: ...BASIC CIRCUIT DIAGRAM TIMER 152475400 27 ...

Page 28: ...FUNCTIONAL DIAGRAM TIMER 152475400 28 ...

Page 29: ...TIMER DIAGRAM TIMER 152475400 29 ...

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