Electric glass furnace, methods for the melting and manufacture of glass by means of said furnace

1 . An electric glass furnace comprising a tank with a cold or semi-cold top and electrodes for melting raw materials introduced into the tank and thus obtaining a bath of molten material, the tank having a side wall comprising an opening configured to allow the molten material to flow out of the tank, the furnace it further comprising a “delaying” means which are at least partially immersed in the bath and are positioned in vertical alignment with the opening and in proximity to the side wall of the tank, and are configured to increase dwell time, in the tank, of the raw materials introduced into a zone located at a surface of the bath directly in vertical alignment with the opening in the side wall, as well as in a zone located at the surface of the bath and which substantially precedes said delaying means when moving horizontally away from said side wall. 2 . The furnace according to claim 1 , wherein said delaying means comprise a plate comprising a layer made of refractory material and arranged in contact with or in the vicinity of the side wall of the tank, said plate extending in a substantially horizontal middle plane wherein the plate is kept fixed. 3 . The furnace according to claim 2 , wherein the plate is substantially inclined, from the side wall, towards a bottom wall of the tank. 4 . The furnace according to claim 1 , wherein said delaying means comprise a plate comprising a layer made of refractory material and arranged in contact with or in the vicinity of the side wall of the tank, said plate being retractable between two positions comprising a first substantially horizontal position and a second substantially vertical position. 5 . The furnace according to claim 2 , wherein said plate is a heating plate. 6 . The furnace according to claim 1 , wherein said delaying means comprise a plate comprising a layer made of refractory material and arranged in contact with or in the vicinity of the side wall of the tank, said plate extending in a substantially vertical middle plane wherein the plate is kept fixed and being heated, the refractory material of said plate being a conductive material. 7 . The furnace according to claim 2 , wherein the plate is immersed in the bath of molten material at a distance from the surface of said bath. 8 . The furnace according to claim 2 , wherein the plate has a dimension greater than or equal to that of the opening in a transverse direction measured along the side wall of the tank. 9 . The furnace according to claim 8 , wherein the plate extends, in said transverse direction, on either side of the opening. 10 . The furnace according to claim 2 , wherein the plate extends in said middle plane over a distance of between 30 centimeters and 50 centimeters. 11 . The furnace according to claim 1 , wherein said delaying means comprise at least one electrode formed in a distinct manner from a plate and arranged substantially vertically or substantially horizontally, said at least one electrode being distinct from the electrodes configured to melt the raw materials introduced into the tank. 12 . The furnace according to claim 1 , wherein the opening is created by a dam. 13 . A method for melting raw materials implemented by an electric glass furnace according to claim 1 . 14 . A method for manufacturing glass comprising melting raw materials in accordance with a melting method according to claim 13 . 15 . A glass obtained by a method for manufacturing glass according to claim 14 . 16 . The furnace according to claim 5 , wherein the refractory material of said plate is a conductive material. 17 . The furnace according to claim 16 , wherein the conductive material is chromium or platinum. 18 . The furnace according to claim 6 , wherein the conductive material is molybdenum or platinum. 19 . The furnace according to claim 7 , wherein the distance is less than or equal to 10 centimeters from the surface of said bath. 20 . The furnace according to claim 9 , wherein the plate extends, in said transverse direction, symmetrically, or over a distance less than or equal to 20% of a dimension of said opening in said transverse direction, or both.