RU2003116362A - ARC STEEL-MELTING FURNACE WITH HEATING OF THE BOILER IN THE MINES AND METHOD OF CARRYING OUT THE SITES IN IT - Google Patents

Claims (5)

1. An arc steelmaking furnace including a furnace bathtub, 3 conductive electrodes connected in phase to the secondary windings of a three-phase power transformer connected in a star pattern and rotated by 120 °, some of which are located in the working space above the bathtub of the arc steelmaking furnace, and also including a direct current source, one pole of which is connected to the bottom conductor, the other to the zero point of the secondary windings of the power transformer, characterized in that the three-phase power electrodes are placed they are pushed from the side of the furnace or roof side, the axes of which are 0 ° with respect to the horizontal plane, or they are tilted in the direction of filling the bath mixture by an angle of up to 90 °, while the shaft for heating the charge is positioned axisymmetrically from the side of the roof over the space indicated by electrodes phase-by-phase connected to the power three-phase transformer and axisymmetrically with respect to the meeting area of the continuation of the axes of these electrodes in the working space of the furnace, the lower section of the shaft plane at the junction with the arch or body catfish furnace is performed with a fill factor equal to 0.3-1.0 of the area of the arch when it is counted along the horizontal section at the junction of the arch with the working space of the furnace. 2. An arc steelmaking furnace with heating the charge in the mine according to claim 1, characterized in that the furnace is equipped with devices for supplying solid, liquid or gaseous carbon-containing materials and oxidizing agents to the furnace working space. 3. The method of heating the charge in the mine, installed on the side of the arch of the melting arc furnace, including a bath with a conductive charge, a three-phase power transformer, three electrodes, the working parts of which are located in the furnace space, connected in phase to the secondary windings of the power transformer and connected according to the “star” scheme ”, As well as a direct current source, one pole of which is connected to the bottom conductor, the other to the zero point of the secondary windings of the power transformer, characterized in that the shaft for heating the charge positioned axisymmetrically with respect to the furnace bath over three arcs burning between the electrodes, or electrodes, a charge and electrodes, which are mounted on the side of the furnace’s side surface with a 120 ° shift of their axes with the arcs closing in the axial region of the furnace or on the charge and they excite an arc from a direct current source through a hearth conductor and a conductive charge in a bath with direct current passing to a three-phase group of burning arcs and divert current from a direct current source through arcs and electrodes to evuyu point of the secondary windings of the power transformer is three-phase or three-phase inductive resistance group connected at the "star" pattern. 4. The method according to claim 3, characterized in that the heating, melting of the charge and lapping melting is carried out simultaneously with the heating of the metal by electric arcs, as well as heat from alternative energy sources by burning carbon-containing materials in liquid, solid and gaseous form with blowing into the workspace gaseous oxidizing agents. 5. The method according to claim 3, characterized in that to increase the use of heat of the electric arcs and preserve the refractories in the furnace in the working space, foamy slags are induced.