1.
GENERAL
1.1
The machine
1.1.1
General description
The machines from the RLX series are designed
for making coffee, for supplying hot water and for
heating drinks using steam.
One machine is an assembly comprising one or
more modules.
In this document, the general information for all
modules is discussed.
Please also read the user instructions for the
specific modules.
1.1.2
The modules
The figures in the model description indicate the
modules comprising your particular machine.
In table 1 , the various standard modules are
shown.
Module
Type
1
coffee
2
wide body
3
hot water
4
hot water/steam
5
coffee
6
coffee
7
hot water
8
hot water/steam
Table 1 The various modules
Example:
The RLX 231 comprises:
D a wide body module (2) on the left,
D a low model hot−water module (3) in the
middle, and
D a glass−jug coffee module (1) on the right.
TIP
− See the fold−out for the standard models.
ECopyright Bravilor Bonamat B.V.
Remark
with glass jug
with hot plate
low model
low model
with container
with airpot
high model
high model
1.1.3
Preferred circuit
Depending on the configuration, your machine
may be equipped with a preferred circuit. An
electronic circuit within the machine will make
sure that no two high−powered modules can be
switched on at the same time. If your machine is
equipped with a preferred circuit, the coffee
module will be in the preferred position. This
means that the other modules will be switched off
or partly switched off by the control system, as
soon as the coffee module is switched on. Ask
your Bravilor Bonamat® dealer, your service
technician, or one of the service agencies about
the various options.
1.2
Technical data
1.2.1
Weights and
measurements
D See the fold−out.
1.2.2
Electrical system
D See the identification plate for the correct
values.
1.2.3
Water system
− Water hardness
− Min. water pressure
(supply)
− Max. water pressure
(supply)
− Flow−rate
− Conductivity
1.2.4
Recommended cleaning
and descaling agents
Cleaning material : CLEANER
Descaler
: RENEGITE
D See §1.7.1 for ordering the cleaning and
de−scaling materials.
min. 5 _DH
:
:
50 kPa (0,5 bar)
:
1000 kPa (10 bar)
:
5,5 l/min
100 μ Siemens/cm
:
1