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ENGLISH
Fig. 1
GENERAL INFORMATION
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1
5
4
6
3
7
2
Fig. 2
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1) Upper and lower smoke outlets
2) Glass cleaning air
3) Post-combustion from top - SCP
4) Firebox in refractory material
5) Primary combustion air
6) Thermostatic valve (optional)
7) Fully ducted combustion air intake
PRINCIPLE OF OPERATION
Stove is made with a steel structure and covering.
Stove is made with a steel structure and covering.
The fi rebox is fi nished internally with refractory material with a
The fi rebox is fi nished internally with refractory material with a
concave fi re bed, to contain the embers correctly, complete with
concave fi re bed, to contain the embers correctly, complete with
ash grate in cast iron and a grate shaker.
ash grate in cast iron and a grate shaker.
Internal fi rebox dimensions:
Internal fi rebox dimensions:
cm 36 (L), cm 36 (P), cm 38 (H).
The door can ONLY be opened (for loading wood and cleaning
The door can ONLY be opened (for loading wood and cleaning
the glass) outwards using the fi xed handle.
the glass) outwards using the fi xed handle.
The fl ue can be installed at the top or back, depending on instal-
The fl ue can be installed at the top or back, depending on instal-
lation requirements.
lation requirements.
The supply of combustion air to the fi rebox has been carefully
The supply of combustion air to the fi rebox has been carefully
designed to guarantee optimum combustion, a gentle fl ame and
designed to guarantee optimum combustion, a gentle fl ame and
clean glass.
clean glass.
The post-combustion air (3)
The post-combustion air (3)
enters the combustion chamber
enters the combustion chamber
through the holes located inside the combustion chamber.
through the holes located inside the combustion chamber.
The air is taken up, through a duct (7 - Fig. 1), from the lower
The air is taken up, through a duct (7 - Fig. 1), from the lower
part of the stove, is heated during its fl ow through the back of
part of the stove, is heated during its fl ow through the back of
the combustion chamber, due to the strong irradiation to which
the combustion chamber, due to the strong irradiation to which
it is subjected, and exits from a series of holes.
it is subjected, and exits from a series of holes.
The air which exits from the holes, meeting the fl ow of fumes,
The air which exits from the holes, meeting the fl ow of fumes,
triggers off a second combustion process which burns the non-
triggers off a second combustion process which burns the non-
combusted elements and any carbon monoxide:
combusted elements and any carbon monoxide:
this process is called post-combustion.
this process is called post-combustion.
Combustion air valve
Combustion air valve
The primary combustion air
The primary combustion air
(5 - Illustr.
Illustr. 1)
can be adjusted
can be adjusted
using the valve, the control for which (8) is located on the top
using the valve, the control for which (8) is located on the top
(Illustr. 2).
(Illustr. 2).
N.B. use the gloves provided to prevent burns.
N.B. use the gloves provided to prevent burns.
• ”Switching on”/max. calorifi c power position:
• ”Switching on”/max. calorifi c power position:
Air valve control fully extracted.
Air valve control fully extracted.
The primary combustion air enters below the fi re surface.
The primary combustion air enters below the fi re surface.
Lighting the stove from cold and maximum fi re power
Lighting the stove from cold and maximum fi re power
• ”Maintain embers” position:
• ”Maintain embers” position:
Air valve control retracted.
Air valve control retracted.
The primary combustion air exits through the duct in the upper
The primary combustion air exits through the duct in the upper
part of the fi replace together with the glass cleaning air.
part of the fi replace together with the glass cleaning air.
• Intermediate position:
• Intermediate position:
To be assessed to obtain optimum combustion.
To be assessed to obtain optimum combustion.
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