1 - INTRODUCTION
IMPORTANT! All local regulations, including those
that refer to national or European regulations,
must be applied when installing this device.
The way the Compact SERE 2C is installed will have
a decisive effect on safety issues and its correct
operation.
It is important to install the fireplace correctly. To
ensure your Compact SERE 2C fireplace and the
chimney is installed correctly, it should be installed
by a professional.
The Compact SERE 2C provides heat by radiation;
directly heating walls, ceilings... and by forced air
convection, thanks to the fans installed.
NOTE: When installing any type of insulation to
safeguard the heat cover, take the following
obligatory recommendations into account:
• The insulation must never come into contact
with the device; this would prevent the transfer
of heat and the displacement of the hot air to
the top of the hood.
• Leave a minimum distance of 7 cm between
the insulation and the appliance.
1.2 - HOT AIR OUTLET OPTIONS
TOP GRILLE AIR FLOW
This is the STANDARD air exit. Air enters through
the lower section, "A", and the internal fan forces
the hot air through the top section "B".
AIR FLOW THROUGH THE HOOD
This option is compatible with the one mentioned
above.
Brick hoods must include holes at the bottom and at
the top. These gaps can be covered by ornamental
grilles to facilitate the flow of air. Cold air enters
through the lower section, "C" and exits through
the upper section "D" (take into account that your
Compact SERE Fireplace provides most of its heat
by convection). If the ventilation holes in the hood
are not large enough, the device may be damaged
if it is unable to dissipate the heat.
IMPORTANT! The minimum air intake gap
recommended is 200cm² of free passage through
the grille.
The air input grilles in the hood must be located in
such a way that they cannot be blocked.
For further information on the correct installation
of the device, please see the Manual for the
Professional Installer.
1.
Chimney pipe
2.
Hot air grille
3.
Cold air grille
4.
Forced convection
outlet
FIG. 1