AIR RECYCLING TARAR: KTH
Outlet hopper: this is fixed to the lower part of the machine body.
Via gravity spouting the product enters into the vibrating inlet box and
is forwarded and distributed thanks to the vibratory motion and the
particular configuration of the internal product distribution blades.
During its fall into the hopper beneath an air stream passes through
the product flow for separating light parts (waste product). Suction is
produced by the negative pressure generated by the two impellers housed
in the top section. Aspirated waste is dragged by the air stream into a
decanta_on zone, from where it falls and a collection screw conveyor
takes it to a sealed airlock valve. At its outlet the waste is fed directly to
the offal spouting. The machine is provided with an air bleed for partial air
recirculation and for maintaining inside the conditon of negative pressure.
Via gravity spouting the product enters into the vibrating inlet box and
is forwarded and distributed thanks to the vibratory motion and the
particular configuration of the internal product distribution blades.
During its fall into the hopper beneath an air stream passes through
the product flow for separating light parts (waste product). Suction is
produced by the negative pressure generated by the two impellers housed
in the top section. Aspirated waste is dragged by the air stream into a
decanta_on zone, from where it falls and a collection screw conveyor
takes it to a sealed airlock valve. At its outlet the waste is fed directly to
the offal spouting. The machine is provided with an air bleed for partial air
recirculation and for maintaining inside the conditon of negative pressure.