Salzburg M
Minimum distances to
combustible materials
CO-content of flue gas
@ 13%O2
Flue gas temperature
Thermal output
Thermal storage
capacity
High
Energy efficiency
Nominal heat output
during discharge period
(100%-25%)
Surface temperature ºC
Length of wood logs
Weight Low
Weight High
Load size (kg)
Max nr. loads
Loading interval
Nr. burning cycles per
24 hours
Attention!
It is recommended to use a qualified professional
when installing a new fireplace.
Distance illustration (FIG 1)
*The illustration indicates the approximate centre height
of the recess for the flue. Consider possible inclination
of the flue prior to making perforating the chimney.
Distortions in floors and walls may also influence the
height, dry stack therefore the fireplace for accurate
height and positioning of the flue/chimney connection. If
a fresh air supply set (accessory) is connected through
the floor, mark where the hole should be.
Attention! Since the inner core is composed of
many layers the connection height may vary by up
to a few centimeters from installation to installation
20
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Back
150mm
Side
150mm
0,09% / 32 mg/Nm3
0,09% / 37 mg/Nm3 high
157 °C
133 °C (high)
141945 kJ
144711 kJ (high)
100% after 4,9 hrs
50% after 14,1 hrs
25% after 21,7 hrs
100% after 5,7 hrs
50% after 13 hrs
25% after 20,5 hrs
84,0%
85,2% (high)
2,35 kW
2,7 kW (high)
90-140
300 mm
ca. 610 kg
ca. 717 kg
2 kg
5
1 / hour
1
Safety distances (FIG 2)
Ensure that the safety distances are complied with.
Burning Rhythm and Drying Procedure
The fireplace contains a lot of moisture that must be
released before it can be exposed to the recommended
burning rhythm as described below. In order to dry out
the fireplace, we recommend that it is heated up with a
small fire consisting of 0.5 to 1 kg kindling wood with the
flue damper and air vent left open. The bypass damper
is closed once the fire is well lit so that the hot smoke
circulates through all the ducts. Let the fire burn out and
maintain the air valve and flue damper open.
This procedure is repeated a second time, not sooner
than 24 hours after the first. Should this drying
procedure not be followed there is a risk that the
elements crack.
A heat-accumulating fireplace is designed to absorb
thermal energy during a relatively short period of
intensive burning, and then release the accumulated
heat over a longer period of time. The fireplace is
designed to reach a surface temperature of between
90 and 130 ºC during normal use. Heating beyond
the recommended pattern will result in a higher
surface temperature, which can cause discolouration
of the paint, as well as higher temperatures against
combustible walls than calculated.
When the last load has passed into the ember phase
with few embers left, the air vent and flue damper are
closed to prevent heat escaping through the chimney.
The bypass damper is opened in order give the airflow
the shortest route to the chimney.
Remember to open the flue damper before using the
fireplace again. The bypass damper is normally only
necessary to open when lighting a fire when both the
chimney and fireplace are cold, but it should in any case
be closed within 10-15 minutes, as soon as the draught
has picked up.
Due to the length of the smoke gas ducts, the fireplace
is heated up somewhat unevenly. After lighting a fire,
the front above the door and one of the sides will heat
up first. The heat will then be evened out after a few
hours of burning and when all the ducts have been
warmed up.
Assembly (FIG 3 - FIG 60)
FIG 3
The ventilated base plate (1) is placed on the floor. It
is important that the entire intended contact surface
(FIG 3A) is in actual contact with the floor. This can
be ensured by spreading a layer of tile adhesive or
thin mortar on the floor before the base plate is placed
against the floor. This is to ensure that the heavy
fireplace is not left sitting on any irregularities and to
ensure an even weight distribution of the fireplace. It is
GB