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    • 2. 发明专利
    • TWIN-DRUM CONTINUOUS CASTING DEVICE
    • JP2002346702A
    • 2002-12-04
    • JP2001149762
    • 2001-05-18
    • NIPPON STEEL CORPMITSUBISHI HEAVY IND LTD
    • OKA HIDETAKAISAKI HIROSHIMIYAKE KATSUYOSHI
    • B22D11/06B22D11/106
    • PROBLEM TO BE SOLVED: To prevent any wrinkle or swell and defective profile in the plate width direction of a cast slab which are generated by the increase of the surface area of the molten steel between a scum gate and a drum circumferential surface caused by the change of the molten steel level and the increase of the distance between a lower end of the scum gate and the drum circumferential surface caused by the ascent/descent of the scum gate in molding a thin strip cast slab by a twin-drum continuous casting device. SOLUTION: When a drive cylinder 17 is contracted, rollers 16 fitted to the right and left of a gate supporting arm 15 are guided and raised by a guide groove 14, and the gate supporting arm 15 ascends from the position A to the position B. The arc of the guide groove 14 is formed of the radius by adding the distance k between the scum gate 5 and the drum circumferential surface 1a to the radius r of a cooling drum, and the scum gate 5 is raised while maintaining the predetermined distance from the drum circumferential surface 1a. As a result, the surface area of the molten steel between the scum gate and the drum circumferential surface, and the distance between the lower end of the scum gate and the drum circumferential surface are not increased.
    • 6. 发明专利
    • TWIN ROLL CONTINUOUS CASTING METHOD AND APPARATUS THEREOF
    • JP2000202588A
    • 2000-07-25
    • JP534899
    • 1999-01-12
    • NIPPON STEEL CORP
    • ARAI TAKASHIIZU TADAHIROISAKI HIROSHI
    • B22D11/06
    • PROBLEM TO BE SOLVED: To provide a twin roll continuous casting method and an apparatus thereof, with which the pushing control of a side weir can be executed in response to the displacement of the end surfaces of cooling rolls during executing the casting. SOLUTION: A relational expression is beforehand obtained from many preceded casting heats and the temperature of cooling water for cooling the inner part of the cooling roll 1 at the flow-in side and the flow-out side is measured continuously during executing the actual casting. As the other way, the displacement of the rotating shaft of the cooling roll 1 is measured and this measured value is used and the displacement of the end surface of the cooling roll 1 is estimated from the above relational expression, and based on this estimated value, one side or both of the pushing force and the pushing speed of the side weir 3 are controlled. Further, as the other way, the displacement of the end surface of the cooling roll is measured continuously during executing the actual casting, and based on this measured value, one side or both of the pushing force and the pushing speed of the side weir are controlled.
    • 9. 发明专利
    • Immersion nozzle for thin cast slab continuous casting equipment and casting method
    • 薄壁连铸连铸设备注浆喷嘴
    • JP2005125337A
    • 2005-05-19
    • JP2003360759
    • 2003-10-21
    • Nippon Steel CorpPoscoポスコ新日本製鐵株式会社
    • HOJO MASATAKEKOBAYASHI HIDEAKIISAKI HIROSHINAKAHO MASATERUCHON HYUNTAECHON HANNAMULEE CHORUGYUKIM WANSUE
    • B22D11/06B22D11/10
    • PROBLEM TO BE SOLVED: To form a solidified shell having a uniform thickness by stabilizing a flow of molten metal discharged from an immersion nozzle under a favorable condition, and to prevent segregation of element and mixing of scum, in continuous casting of a thin cast slab by use of a moving mold such as a twin drum or a twin belt.
      SOLUTION: In an equipment to continuously cast molten metal supplied to a molten metal well 3 via an immersion nozzle 6 into a thin cast slab, a number of discharge holes 10a and 10b in the immersion nozzle 6 are provided on a side facing a cooling drum 1, and directions of the discharge holes are tilted toward both left and right sides oppositely from the width center of the immersion nozzle 6 as a boundary. As a result, the flow of the molten metal discharged from the discharge holes 10a and 10b collides tiltedly against the solidified shell, which prevents remelting of the shell. Further, the flow of the molten metal proceeds to both left and right side banks 2 from the width center of the immersion nozzle 6 as a boundary, which prevents mixing of the scum floating on the molten metal well 3 into the cast slab.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了通过在有利条件下稳定从浸渍喷嘴排出的熔融金属的流动来形成具有均匀厚度的凝固壳体,并且为了防止元件的分离和浮渣的混合,在连续铸造中 薄板坯通过使用诸如双筒或双带的移动模具。 解决方案:在将通过浸没喷嘴6供给到熔融金属井3的熔融金属连续铸造成薄铸坯的设备中,浸没喷嘴6中的排出孔10a和10b设置在面向 冷却滚筒1,并且排出孔的方向作为边界从与浸入式喷嘴6的宽度中心相反的左右两侧倾斜。 结果,从排出孔10a和10b排出的熔融金属的流动相对于凝固的壳体倾斜地冲击,这防止了壳体的再熔化。 此外,熔融金属的流动作为边界从浸入式喷嘴6的宽度中心前进到左侧和右侧的两个堤岸2,从而防止浮在熔融金属井3上的浮渣混入铸造板坯中。 版权所有(C)2005,JPO&NCIPI