Symfoni S1000 All in One Service Book Download

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08/2009 Rev. 0.4

S1000 All in One

S3000 All in One (MAXI)

S1000 / S3000 / S3000 MAXI

08/2009 Rev. 0.4

S1000 All in One

S3000 All in One (MAXI)

S1000 / S3000 / S3000 MAXI

1.1 Boiler System

Turn on the device using the ON/OFF switch. The display will light up.
The magnetic valve (

g. 1-11) will open and the hot water reservoir (

g. 1-9) will be

lled to the maxi-

mum electrode. The heating element will be switched on. The display shows [ boiler

lling ] and

[ boiler heating ]. As soon as the NTC sensor measures the set temperature, the heating element will
be switched off.

When a drink is being dispensed the water level drops and the maximum electrode is released;
the inlet valve (2.5 litres/min.) opens and immediately re

lls the reservoir until the maximum level

is reached again. If the water level falls under the minimum electrode level during operation, the
operating panel display will show [re

lling boiler]. If the supply of water is not restored within 90

seconds, the display will show the error message [ E3 level error ] and shut off the inlet valve.

1.2 Temperature regulation

The heating element is turned on when the water temperature falls below the temperature setting and
the minimum electrode registers water. The temperature in the water reservoir is measured using an
NTC precision sensor mounted on the outside wall of the reservoir.

The water temperature also drops when drinks are dispensed. To avoid the temperature regulator from
responding too late, the heating element is switched on as soon as the inlet valve (

g. 1-11) opens

and cold water is added. The heating element switches off again as soon as the inlet valve shuts
off. The software can also be used to delay when the heating element switches off. See menu item
2.4 Settings / Temperature in the service menu. The heating element always switches off when the
maximum boiler temperature of 97

C is reached.

1.3 Hot water dispensing

When dispensing drinks one of the dispensing valve (

g. 1-10) opens and hot water

ows to the brew-

er or mixer system. The

ow velocity for each valve is set using the adjustment screw on the valve.

The amount of out

ow is determined by the length of time that the valve stays open. In order to rinse

the brewer unit and mixer system, a small amount of rinsing water is released shortly after dispensing
to rinse away any ingredient residue.

1.5 Evaporation extractor system

Evaporation released during mixing is largely absorbed by the evaporation extractor ring (

g. 1-5) and

sucked into the machine via the

lter (

g. 1-8). The evaporation and ingredient residue are absorbed

by the

lter. The

lter (

g. 1-8) can be easily reached (for cleaning purposes) by dismantling the mixer

unit (

g. 1-4). To a large extent, this prevents evaporation from entering the canister outlet and making

ingredients damp.

1.5 Ingredients and mixer system

The ingredients cartridges (

g. 1-12) are

tted in a holder (

g. 1-13). The ingredient slide inside the

holder is driven via a special mechanism by a gear motor (

g. 1-15). The instant product (ingredient)

is dispensed by a drawer in the bottom of the cartridge and directly dispensed into the mixer unit (

1-15). At the same time, the dispensing valves (

g. 1-10) dispense hot water into the mixer unit. The

mixer motor (

g. 1-7) blends the instant product with water at a speed of 10,700 RPM using the mixer

rotor (

g. 1-3). The drink

ows into the cup via the drink outlet (

g. 1-1). All individual parts mentioned

in this section can be sequentially coordinated using adjustable
parameters (timers) in the control unit.

1.6 Coffee Splitter

The coffee splitter (

g. 1-2) is specially designed for dispensing two cups of coffee at the Same time.

The build-in

lter creates the perfect creme layer on top of the coffee.

1.7 Solid State Relay (SSR)

The heating element is controlled by a solid state
relay (

g. 2C), which supersedes the magnetic

switch that was formerly used for this purpose.

1.8 Steam thermostat

The solid state relay (

g. 2C) is secured by a steam

thermostat (

g. 2D) which is build in line with the

over

ow tube (

g. 2A). The steam thermostat

contact is in series with the solid state. This ther-
mostat prevents the boiler from boiling empty when
the solid state breaks down in a operating condition.
The thermostat switches the heating element OFF
(

g. 2B) when steam escapes from the boiler. The

thermostat must be manually reset.

* Modifi ed in the Symfoni models from machine
number 1S06945 (March 2009)

1.9 Adjustment

1.9.1 Cup volume

First of all we would like to remind you that the

cup volume

(ml) can easily be set in the service menu

2.1 Quick recipe

(page 49 of this document).

The operator of the device (end user) also has access to this quick recipe, which is found under
section 1.4 Quick recipe (see user manual).
As supplier of the device, you can remove the quick recipe from the operator menu if desired. Go to

2.4 Settings / 2.4.9 I/0 Quick recipe

via the service menu and change

Yes

into

1.9.2 Drink strength

The amount of product dispensed, and therefore the strength of the drink, is determined by the
number of the times (shots) the cartridge drawer is opened whilst the drink is being made, and how
far the drawer opens each time.

Fig. 3
A. Cartridge holder
B. Ingredient slide
C. Push rod
D. Lock nuts
E. Adjustment screw

To Fine adjust the ingredient pull please follow below written instructions:
1. Remove the relevant cartridge holder (

g. 3A).

2. Loosen the adjustment screw lock nuts (

g. 3D).

3. Adjust the screw (

g. 3E) as required. Anti-clockwise increases the strength and clockwise

decreases the strength.

4.  Replace the cartridge holder and cartridge.
5.  Taste the drink and re-adjust as necessary.
6.  When the adjustment is correct tighten both the lock nuts (

g. 3D) against the push rod (

g. 3C).

7. Replace the cartridge holder and cartridge. Important: After replacing check that the push rod is

free To move back and forwards pushing the slide out as it moves forwards.

Fig. 2

Fig. 3

SSR

24Vdc

SSR