Apparatus for conveying and pre-heating a metal charge for a melting plant and connected method

The invention claimed is: 1. An apparatus for continuously conveying and pre-heating a metal charge inside a container of a melting plant, comprising: a container capable of advancing a metal charge; a conveyor channel in fluid communication with said container and having conveyor walls and lateral walls and a bottom wall that define a substantially U-shaped cross section, a hood at least partially disposed above said conveyor channel and having a tunnel wherein at least part of the fumes exiting from the metal charge in said container advance into said hood, at least one fume discharge aperture disposed within said conveyor walls, suction channels disposed within said lateral walls and running substantially the length of the conveyor channel, a fume diverter channel defined by said conveyor walls in cooperation with said lateral walls and capable of passing fumes into said suction channels, and a first expansion compartment connected to said at least one fume discharge aperture and connected to said suction channels; wherein the first expansion compartment is disposed above the conveyor channel. 2. The apparatus of claim 1 further comprising a second expansion chamber defined by said suction channels and capable of further expanding the fumes. 3. The apparatus of claim 2 wherein said fume diverter channel and said suction channels extend longitudinally for the whole length of the conveyor channel. 4. The apparatus of claim 3 wherein said lateral walls are disposed outside said conveyor walls. 5. The apparatus of claim 4 wherein said lateral walls are substantially parallel to said conveyor walls. 6. The apparatus of claim 5 wherein said lateral walls extend toward said hood. 7. The apparatus of claim 6 wherein said lateral walls are divergent with respect to said conveyor walls. 8. The apparatus of claim 7 wherein said conveyor walls define at least part of said hood. 9. Method to convey and pre-heat a metal charge inside a container of a melting plant, comprising the step of: conveying a metal charge by a conveyor channel having conveyor walls and a bottom wall and two lateral walls defining a substantially U-shaped cross section, conveying fumes exiting from container to a hood disposed above said conveyor channel and including an expansion chamber, wherein the expansion chamber is disposed above the conveyor channel, passing the fumes through said metal charge, expanding said fumes in said expansion chamber and discharging said fumes through apertures disposed in said conveyor walls, wherein said discharging step further comprises passing said fumes through a fume diverter channel defined by said conveyor walls together with said lateral walls and introducing said fumes into suction channels provided along the length of the conveyor channel at the side of said lateral walls. 10. The method of claim 9 further comprising the step of subjecting said fumes to another expansion inside said suction channels. 11. The method of claim 10 further comprising the step of continuously discharging precipitate formed on the bottom of said fume diverter channel. 12. Method to convey and pre-heat a metal charge inside a container of a melting plant, comprising the step of: conveying a metal charge by a conveyor channel having conveyor walls and a bottom wall and two lateral walls defining a substantially U-shaped cross section; conveying fumes exiting from container to a hood disposed above said conveyor channel and including an expansion chamber; passing the fumes through said metal charge; expanding said fumes in said expansion chamber; discharging said fumes through apertures disposed in said conveyor walls, wherein said discharging step further comprises passing said fumes through a fume diverter channel defined by said conveyor walls together with said lateral walls and introducing said fumes into suction channels provided along the length of the conveyor channel at the side of said lateral walls; continuously discharging precipitate formed on the bottom of said fume diverter channel.