Apparatus and method for feeding and preheating a metal charge in a melting furnace

The invention claimed is: 1. A method to feed and preheat a metal charge to a melting furnace of a melting plant, said method comprising: providing an apparatus comprising: at least one conveyor channel for said metal charge defining a support and advance surface; at least one hood disposed above said at least one conveyor channel at a hood height, defining with it a tunnel along which a flow of fumes is able to pass in order to heat said metal charge; scrap detection means able to identify a profile of the metal charge entering said conveyor channel; and adjustment means associated with said at least one hood in order to move the at least one hood vertically away from/toward said support and advance surface of the at least one conveyor channel in order to vary said hood height as a function of the profile of said metal charge; and a plurality of hoods disposed and attached in succession by respective rigid mechanical joints and vertically movable in a coordinated manner; detecting continuously, or at pre-established intervals, the profile of the metal charge as it is gradually supplied, making said metal charge available on said at least one conveyor channel which moves said metal charge toward the furnace, providing, in cooperation with said at least one conveyor channel, said at least one hood at said hood height with respect to the support and advance surface of said conveyor channel, and providing to vertically move, by means of the adjustment means, said at least one hood away from/toward said support and advance surface in order to vary said hood height at least as a function of the profile of said metal charge. 2. The method as in claim 1 , further comprising: calculating an area of a section of the tunnel defined by said at least one conveyor channel and by said at least one hood disposed above, based on knowledge of the current hood height, calculating an area of the metal charge corresponding to the area of the section occupied by the metal charge in transit on the basis of the profile detected, calculating a fumes passage area as the difference between said area of the section of the tunnel and said area of the metal charge, calculating an average passage speed of the fumes as a ratio between a current flow rate of fumes movement means and said difference between said area of the section of the tunnel and said area of the metal charge, comparing the average fumes passage speed with a desired fumes passage speed value, and dynamically modifying said height of said at least one hood in order to obtain said desired fumes passage speed value. 3. The method as in claim 2 , further comprising varying said hood height at least as a function of an average scrap height of the metal charge in transit. 4. A method to feed and preheat a metal charge to a melting furnace of a melting plant, said method comprising: Providing an apparatus comprising: at least one conveyor channel for said metal charge defining a support and advance surface; at least one hood disposed above said at least one conveyor channel at a hood height, defining with it a tunnel along which a flow of fumes is able to pass in order to heat said metal charge; scrap detection means able to identify a profile of said metal charge entering said at least one conveyor channel; and adjustment means associated with said at least one hood in order to move the at least one hood vertically away from/toward said support and advance surface of the at least one conveyor channel in order to vary said hood height as a function of the profile of said metal charge; a plurality of hoods disposed and attached in succession by means of respective flexible mechanical joints, with each of said hoods there being associated with a respective plurality of adjustment means configured to move the respective hood independently from the others; detecting continuously, or at pre-established intervals, the profile of the metal charge as it is gradually supplied, making said metal charge available on said at least one conveyor channel which moves said metal charge toward the furnace, providing, in cooperation with said at least one conveyor channel, said at least one hood at said hood height with respect to said support and advance surface of said at least one conveyor channel, and providing to vertically move, by means of the adjustment means, said at least one hood away from/toward said support and advance surface in order to vary said hood height at least as a function of the profile of said metal charge. 5. An apparatus for feeding and preheating a metal charge toward a melting furnace of a melting plant, comprising: at least one conveyor channel for said metal charge defining a support and advance surface; at least one hood disposed above said at least one conveyor channel at a hood height, defining with it a tunnel along which a flow of fumes is able to pass in order to heat said metal charge; scrap detection means able to identify a profile of the metal charge entering said conveyor channel; adjustment means associated with said at least one hood in order to move the at least one hood vertically away from/toward said support and advance surface of the at least one conveyor channel in order to vary said hood height as a function of the profile of said metal charge; and a plurality of hoods disposed and attached in succession by respective rigid mechanical joints and vertically movable in a coordinated manner. 6. The apparatus as in claim 5 , wherein the at least one hood is mobile at least between a lowered position, in which the hood height is equal to a minimum hood height value, an intermediate position, in which the hood height is equal to an intermediate hood height value, and a raised position, in which the hood height is equal to a maximum hood height value. 7. The apparatus as in claim 5 , also comprising a sealing unit associated with said at least one hood, on an opposite side with respect to a furnace entrance side, cooperating with said at least one conveyor channel in order to define an initial segment of said tunnel, said sealing unit being provided with: a frame having an upper wall and two opposite lateral flanks, and a plurality of bands associated in a suspended manner with said upper wall and adjacent in order to form one or more rows disposed at a certain distance from each other in a direction of advance of the metal charge inside said tunnel, wherein it also comprises movement means associated with said frame in order to move it vertically away from/toward said support and advance surface of said at least one conveyor channel, varying its vertical distance so that said vertical bands are able to seal said metal charge in transit. 8. The apparatus as in claim 7 , wherein said bands are configured to be moved independently with respect to said frame. 9. The apparatus as in claim 5 , wherein said at least one conveyor channel comprises a bottom wall and two lateral channel walls, and said at least one hood comprises respective lateral hood walls opposite each other, and a covering wall located at the top, said lateral hood walls being associated with said lateral channel walls by means of adaptable sealing means. 10. The apparatus as in claim 5 , wherein said adjustment means comprise a plurality of lifting devices selected from a group comprising at least one of either a jack, a linear actuator, sliding guides, chain mechanisms, rack or worm screw mechanisms. 11. The apparatus as in claim 5 , wherein at least one hood, or the last hood, is terminally provided with a panel which projects vertically from the covering wall and is provided internally with a liquid cooling circuit. 12. The apparatus as