RU99101048A - SYSTEM FOR APPLICATION OF COATING ON A STEEL TAPE BY IMMERSION IN MELT - Google Patents

Claims (32)

1. System for coating a steel strip by immersion in a melt, comprising an elongated gutter-shaped container containing a bath of molten coating metal having two opposite side walls located in the longitudinal direction of the container, two opposite end walls and an elongated passage opening in the bottom of the container, means for moving the steel strip along the line passing up through the passage in the bottom of the container and the bath, and an electromagnet containing elements to prevent exit through a passageway of mass of molten metal of the bath, characterized in that the container has a relatively wide upper and relatively narrow lower parts, said side walls converging downward toward said narrow part, wherein the electromagnet is located along said container and has two opposite poles made of magnetic material, and each pole is located along the corresponding side wall of the specified container, and these poles are facing e to each other, the surfaces of the poles, each of which is located next to the corresponding side wall of the container, practically adjacent to it in the lower part and in the part of the side wall, converging towards the opposite wall, each of these surfaces of the poles having contours that almost repeat the contours adjacent side wall along the part converging towards another side wall, as well as along the bottom of the container.  2. The system according to p. 1, characterized in that the electromagnet is configured to maintain the mass of molten metal, while allowing some leakage of molten metal from the specified bath through the specified hole in the bottom of the container, while the system further comprises means to reduce leakage of molten metal allowed by the specified electromagnet.  3. The system according to claim 1, characterized in that said electromagnet comprises means configured to drive said bath, said system comprising means for damping the movement of molten bath material caused by said electromagnet.  4. The system according to claim 3, characterized in that said damping means consists of several practically parallel pairs of flat elements spaced vertically along the line of movement of the specified tape and located across the specified bath in the direction perpendicular to the direction of movement of the tape between the flat elements of each pair a slit is formed, vertically aligned with slots of all other pairs of flat elements, to ensure the passage of the specified tape through the slots during its movement.  5. The system according to claim 4, characterized in that at least some flat elements are placed inside said container between its side walls converging downward and have transverse dimensions in a horizontal plane between said side walls, gradually decreasing downward.  6. The system according to p. 4, characterized in that it has a gap between the surfaces of the poles facing each other, while these pairs of flat elements are placed in this gap and between the side walls of the container converging downward and at least one pair of these flat elements made of ferromagnetic material to reduce the effective gap between the indicated surfaces of the poles.  7. The system according to claim 6, characterized in that the said one pair of ferromagnetic flat elements is located next to the specified narrow lower part of the container.  8. The system according to claim 1, characterized in that a gap is made between the surfaces of the poles, while the system contains means for reducing the effective gap between the surfaces of the poles facing each other.  9. The system according to p. 8, characterized in that the said means of reducing the gap include a pair of horizontally located and separated from each other flat elements lying in the same plane and located across the container between the respective inner surfaces of the side walls in a direction perpendicular to the line of movement tape, while these flat elements are installed with a clearance for the tape to pass along the line of movement through the specified clearance between these flat elements, and the specified pair of flat ele cops placed in the gap between the indicated converging downward side walls of the container, and these flat elements are made of ferromagnetic material.  10. The system according to claim 1, characterized in that said narrow lower part of the container has a passage channel upward from said passage hole in the bottom of the container, formed by two opposite longitudinal sides and two opposite end sides located between said longitudinal sides of the passage channel, and each end side of the passage channel is separated from the adjacent end wall of the container containing a jumper on each end side of the passage channel, directed upward at the corresponding end side of the passage channel and located across the inner part of the container between its opposite side walls.  11. The system according to p. 10, characterized in that the said container contains a collector at each of its ends, located between the end wall of the container and an adjacent jumper.  12. The system according to p. 11, characterized in that each of these collections contains means for limiting the bath of molten metal.  13. The system of claim 1, wherein said electromagnet comprises means for creating a magnetic field between said pole surfaces facing each other, and said system comprises means for creating an electric current loop for passing one part of the current along the bottom of said bath in the longitudinal direction of the specified container, the interaction with the specified magnetic field generated by the specified electromagnet, and obtaining a magnetic force repelling the specified bath of molten metal about t of said passage through hole in the bottom of the container, wherein said system comprises an electric current conductor forming a circuit with a low resistance for passing another part of said electric current through it, different from the part passing along said lower part of the bath.  14. The system of claim 13, wherein said narrow lower part of the container has a passage channel in an upward direction from said passage hole in a container bottom, formed by two opposite longitudinal sides and two opposite end sides located between said longitudinal sides of the passage channel, and each end side of the passage channel is separated from the adjacent end wall of the container containing a portion of the lower wall located between the end side of the passage channel and cm zhnoy end wall of the container, wherein said electrical conductor further comprises means for directing an electrical current in the tip clearance between the end face of the through passage and the adjacent end wall of the container.  15. The system of claim 14, wherein said electromagnet comprises windings, and said system comprises means for passing a time-varying electric current through said windings to create a magnetic field, wherein said electromagnet comprises means for passing a time-varying current through these windings and creating a magnetic field with a magnetic flux passing through the specified bath of molten metal between the indicated facing each other surfaces of the poles and, in turn eddy currents inducing eddy currents in said bath, including a portion of the current passing along the lower part of said bath.  16. The system of claim 15, wherein said electrical conductor comprises means for substantially reducing eddy current density along the upper part of said bath.  17. The system according to p. 15, characterized in that said electrical conductor is made of electrically conductive material and contains two links, each of which is located next to the corresponding end wall of said container and is connected by an electrically conductive part to another link, while said electrical conductor contains two end parts, each of which is connected to the corresponding link and located inside the corresponding end gap of the specified container in electrical contact with the mat bath series.  18. The system according to p. 17, characterized in that each of these links contains a part located inside the specified container, while this system contains elements of electrical and thermal insulation of the specified part of the link from the molten metal bath.  19. The system according to p. 17, characterized in that both of these links are located outside the specified container, and the specified electrical conductor contains a connecting part extending from each end part of the conductor through the wall of the specified container to the specified link.  20. The system of claim 17, wherein said end portion is made of copper, said coating metal is zinc, and the system comprises means preventing the formation of a copper alloy of said end portion of the conductor and zinc of said bath of molten coating metal.  21. The system according to p. 20, characterized in that the said inhibiting means include means for cooling said end parts of the conductor for solidifying the coating metal around the end part and protecting it from erosion caused by the molten coating metal of said bath.  22. The system according to p. 21, characterized in that said cooling means include an inner channel inside said end portion of the conductor and means for supplying coolant through said inner channel.  23. The system of claim 14, wherein said electromagnet comprises windings, the system comprising means for passing a constant continuous current through said windings to create a magnetic field with a magnetic flux passing through said bath between said pole surfaces facing each other , the specified electrical conductor contains two end parts, each of which is located inside the corresponding end gap of the specified container above the specified part of the lower wall of the container and in electrical contact with the bath material there, and the system comprises means for connecting each of said end parts to a direct current source.  24. The system according to p. 14, characterized in that said container comprises a jumper on each of the end sides of said passage channel, directed upward on the corresponding end side of the passage channel and located across the inside of the container between its opposite side walls, said container comprising a collector at each of its ends between the end wall of the container and an adjacent jumper containing means for limiting the bath of molten metal, and the specified electrical conductor win two end portions, disposed within a respective said collection container above said bottom part of the container wall in electrical contact with the molten metal bath in said collection.  25. The system according to claim 1, characterized in that the said system comprises means for holding said steel strip during its movement almost in the middle between said facing surfaces of the poles and limiting lateral displacements of the steel strip from said facing surfaces of the poles in time of its passage along the line of movement through the container.  26. The system of claim 25, wherein said steel strip has two opposite edges, said narrow lower part of the container having a passage channel upward from said passage hole in the bottom of the container, formed by two opposite longitudinal sides and two opposite end faces parties located between the specified longitudinal sides of the passage channel, and each end side of the passage channel is separated from the adjacent end wall of the container, and these means for The holding of the steel strip practically in the middle are two horizontally located recesses located opposite each other on the corresponding end sides of the passage channel, and each recess contains elements for engaging the corresponding edge of the steel strip when it moves along the specified line.  27. The system according to p. 1, characterized in that it contains means including the specified electromagnet to create an upward magnetic force repelling the lower part of the specified bath, a winding for each of the indicated poles of the electromagnet, a series electric circuit including said windings and comprising a source of electric current and a capacitor connected in series with said windings, said circuit having a fixed capacitance, a fixed resistance and a variable inductance and includes means configured to ensure its operation is close to its resonance, and means configured to maintain inductance values slightly higher than the inductance corresponding to resonance in this circuit to increase the current supplied to said windings each time a decrease occurs level of the lower part of the specified bath of molten metal, and an increase in the magnetic force acting upward on the lower part of the specified bath.  28. The system according to p. 1, characterized in that said electromagnet is located around said container and comprises an external part made of ferromagnetic material and containing two opposite longitudinal side walls, each of which has two opposite ends, and two end walls, each of which is located between the respective ends of these side walls, while the side and end walls form a vertically located space having open upper and lower sides to accommodate the a container, and each of the poles of the electromagnet is located on the corresponding side wall of the specified external part inside the specified vertically located space, is expanded downward towards the other pole and has one of the corresponding indicated facing surfaces of the poles, and a gap is formed between the indicated surfaces of the poles, in which the specified container is placed, and two windings for the passage of electric current, each of which is placed around the corresponding specified field It contains elements for supplying electric current to the specified winding and creating a magnetic field in the pole around which the specified winding passes.  29. The system according to p. 28, characterized in that said electromagnet contains elements, including said poles and an outer part, for creating a circuit for passing magnetic flux from the surface of one of the poles through the specified gap to the surface of the other pole, then sequentially through the other pole, through the longitudinal side wall on which the specified other pole is located, through the specified end walls of the outer part, through the specified longitudinal side wall on which the specified first pole is located, and then through the decree nny first pole to said first pole surface.  30. The system according to p. 28, characterized in that said electromagnet consists of two halves, each of which is elongated in the longitudinal direction of said container and has an E-shaped horizontal cross section.  31. The system according to claim 1, characterized in that said container is made of heat-resistant material.  32. The system according to p. 1, characterized in that said container is made of non-magnetic stainless steel.