Apparatus for heating steel products

The invention claimed is: 1 . An apparatus ( 10 ) for heating steel products ( 100 ), comprising a furnace of the direct combustion irradiation type, comprising inside it a path for feeding the steel products ( 100 ) which extends between an entry end ( 110 ) and an exit end ( 111 ) of the steel products ( 100 ), an entry aperture in correspondence with said entry end ( 110 ) to allow the entry of said steel products ( 100 ) into said furnace ( 11 ) and an exit aperture ( 150 ) in correspondence with said exit end ( 111 ) to allow the exit of said steel products ( 110 ) from said furnace ( 11 ), means for feeding a fuel, means for feeding a comburent comprising oxygen, and burners ( 40 , 41 ) able to operate the combustion of the fuel and of the comburent, wherein said means for feeding comburent and said means for feeding fuel are configured to feed the comburent and the fuel so that oxygen is in a sub-stoichiometric or stoichiometric proportion with respect to the fuel at least in one part of said apparatus ( 10 ), wherein said exit aperture ( 150 ) is provided with a first sealing device ( 152 ) comprising a packing ( 153 ) configured to cooperate with a closing door ( 151 ) of said exit aperture ( 150 ) and first inert gas barrier means ( 155 ) configured to prevent the entry of air into said furnace ( 11 ), wherein the apparatus comprises an unloading station ( 12 ) disposed outside said furnace ( 11 ) in correspondence with said exit end ( 111 ) wherein said unloading station ( 12 ) comprises one or more conveyor devices ( 130 ) partly inserted inside said furnace ( 11 ) in order to convey said steel products ( 100 ) through said exit aperture ( 150 ), wherein said one or more conveyor devices ( 130 ) are each provided with a respective second sealing device ( 134 ), comprising water sealing means ( 136 ) and second inert gas barrier means ( 138 , 139 ), and located in correspondence with a through aperture of an end wall ( 113 ) of said furnace ( 11 ). 2 . The apparatus ( 10 ) as in claim 1 , wherein said first inert gas barrier means ( 155 ) comprise at least one chamber ( 155 ) delimited in the edge of said exit aperture ( 150 ), wherein it comprises at least one aperture for feeding said inert gas toward said exit aperture ( 150 ). 3 . The apparatus ( 10 ) as in claim 1 , wherein said first sealing device ( 152 ) also comprises water sealing means ( 154 ) disposed around said exit aperture ( 150 ). 4 . The apparatus ( 10 ) as in claim 1 , wherein said water sealing means ( 136 ) are inserted inside said through aperture and are configured to close it hermetically, wherein said second inert gas barrier means ( 138 , 139 ) are disposed immediately outside said through aperture and are coaxial to said water sealing means ( 136 ). 5 . The apparatus ( 10 ) as in claim 1 , wherein said unloading station ( 12 ) comprises one or more transfer devices ( 140 ) for transferring said steel products ( 100 ) from said feed path to said conveyor devices ( 130 ), wherein said transfer devices ( 140 ) each comprise at least one transfer member ( 141 ) located mobile inside a containing box ( 142 ) and partly inserted inside said furnace ( 11 ), said containing box ( 142 ) being directly connected to said furnace ( 11 ) and filled with liquid water and an inert gas in order to prevent the entry of air inside said furnace ( 11 ) and being in air communication with the inside of said furnace ( 11 ) in order to allow said transfer member ( 141 ) to enter in said furnace ( 11 ). 6 . The apparatus ( 10 ) as in claim 1 , wherein said furnace ( 11 ) comprises an upper wall ( 116 ) formed by a plurality of modules ( 116 a ) connected to each other by means of plates ( 161 ) connected to each of two consecutive modules ( 116 a ) by means of tie-rods ( 160 ), wherein it comprises an internal closing member ( 162 ) in each hollow space present between two consecutive modules ( 116 a ) so as to hermetically close the hollow spaces. 7 . The apparatus ( 10 ) as in claim 6 , wherein said upper wall ( 116 ) also comprises a plurality of tape-shaped packings ( 164 ) each interposed between an internal closing member ( 162 ) and one or more corresponding plates ( 161 ). 8 . The apparatus ( 10 ) as in claim 1 , wherein said furnace ( 11 ) comprises a lower wall ( 117 ) through which hoppers ( 170 ) are inserted, each provided with a lower duct ( 171 ), at the end of which a plate ( 173 ) is connected, wherein each hopper ( 170 ) comprises a respective sealing element ( 174 ) comprising a packing ( 175 ) and a closing element ( 176 ) attached to the external surface of said lower duct ( 171 ) and covering said packing ( 175 ). 9 . The apparatus ( 10 ) as in claim 1 , wherein it comprises a furnace divided internally into a first part ( 20 ) and a second part ( 30 ) disposed in succession along the path for feeding the steel products ( 100 ), wherein the temperature (T 2 ) in the second part ( 30 ) is higher than the temperature (T 1 ) in the first part ( 20 ), wherein the means for feeding comburent and the means for feeding fuel are configured to feed the comburent and the fuel so that oxygen is in a sub-stoichiometric or stoichiometric proportion with respect to the fuel in correspondence with said second part ( 30 ). 10 . The apparatus ( 10 ) as in claim 9 , wherein the first part ( 20 ) comprises an entry zone ( 21 ), which extends from the entry end ( 11 ), and a pre-heating zone ( 22 ) which extends from the end of said entry zone ( 21 ) and the beginning of the second part ( 30 ), wherein the second part ( 30 ) comprises a heating zone ( 31 ), consecutive to said pre-heating zone ( 22 ), and an equalization zone ( 32 ) which extends between said heating zone ( 31 ) and the exit end ( 12 ). 11 . The apparatus ( 10 ) as in claim 1 , wherein said comburent is air and the oxygen in said comburent is in a proportion equal to 2-3%, or is in a greater proportion, obtained by means of oxygen (O 2 ) enrichment techniques. 12 . An apparatus ( 10 ) for heating steel products ( 100 ), comprising a furnace of the direct combustion irradiation type, comprising inside it a path for feeding the steel products ( 100 ) which extends between an entry end ( 110 ) and an exit end ( 111 ) of the steel products ( 100 ), an entry aperture in correspondence with said entry end ( 110 ) to allow the entry of said steel products ( 100 ) into said furnace ( 11 ) and an exit aperture ( 150 ) in correspondence with said exit end ( 111 ) to allow the exit of said steel products ( 110 ) from said furnace ( 11 ), means for feeding a fuel, means for feeding a comburent comprising oxygen, and burners ( 40 , 41 ) able to operate the combustion of the fuel and of the comburent, wherein said means for feeding comburent and said means for feeding fuel are configured to feed the comburent and the fuel so that oxygen is in a sub-stoichiometric or stoichiometric proportion with respect to the fuel at least in one part of said apparatus ( 10 ), wherein said exit aperture ( 150 ) is provided with a first sealing device ( 152 ) comprising a packing ( 153 ) configured to cooperate with a closing door ( 151 ) of said exit aperture ( 150 ) and first inert gas barrier means ( 155 ) configured to prevent the entry of air into said furnace ( 11 ), wherein said furnace ( 11 ) comprises a lower wall ( 117 ) through which hoppers ( 170 ) are inserted, each provided with a lower duct ( 171 ), at the end of which a plate ( 173 ) is connected, wherein each hopper ( 170 ) comprises a respective sealing element ( 174 ) comprising a packing ( 175 ) and a closing element ( 176 ) attached to the external surface of said lower duct ( 171 ) and covering said p