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1.发明授权
公开(公告)号:US5442570A
公开(公告)日:1995-08-15
申请号:US167607
申请日:1993-12-15
申请人: Yoichi Sashihara , Masahiro Masuda , Isao Nakamura , Kunitoshi Watanabe , Tetsuya Miyazaki , Kazuhiro Sekimoto
发明人: Yoichi Sashihara , Masahiro Masuda , Isao Nakamura , Kunitoshi Watanabe , Tetsuya Miyazaki , Kazuhiro Sekimoto
CPC分类号: C23C2/28
摘要: A method of calculating heat input to an alloying furnace which includes heat input means for use in the production of hot galvanized band steel comprising conveying a band steel of a selected steel variety through the alloying furnace and forming a plated deposition on the band steel in the alloying furnace comprising an alloyed layer of iron and zinc, establishing a formula defining a correlation between heat input and at least the steel variety, the plated deposition and the conveying speed of the band steel, inputting information which relates at least to the steel variety, the plated deposition, and the conveying speed, determining the heat input on the basis of the information inputted, and using the determined heat input to control the heat input means of the alloying furnace thereby controlling the formation of the iron and zinc alloyed layer plated deposition.
摘要翻译: 一种计算合金炉热量输入的方法,包括用于生产热镀锌钢带的热输入装置,包括通过合金炉输送所选钢种的钢带,并在钢带上形成电镀沉积 合金化炉,其包括铁和锌的合金层,建立了限定热输入与至少钢种之间的相关性,带钢的镀覆沉积和输送速度的相关性的公式,输入至少涉及钢种的信息, 电镀沉积和输送速度,基于输入的信息确定热输入,并且使用确定的热输入来控制合金炉的热输入装置,从而控制形成铁锌合金层电镀沉积 。
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2.发明授权
公开(公告)号:US5423926A
公开(公告)日:1995-06-13
申请号:US942569
申请日:1992-09-09
申请人: Yoichi Sashihara , Masahiro Masuda , Isao Nakamura , Kunitoshi Watanabe , Tetsuya Miyazaki , Kazuhiro Sekimoto
发明人: Yoichi Sashihara , Masahiro Masuda , Isao Nakamura , Kunitoshi Watanabe , Tetsuya Miyazaki , Kazuhiro Sekimoto
CPC分类号: C23C2/28
摘要: A plate temperature and an emissivity are determined at the outlet of an insulated heated zone, and compensations are established which reduce deviations between the respective measured values and the respective target values. A heat input is compensated for in accordance with the greater one of the compensations relating to the plate temperature and the emissivity, respectively. For a U-pattern material, .DELTA.Q is previously added to the heat input for the leading and the trailing end portion of the material. The band steel is irradiated by laser radiation at the outlet of the heating zone in order to detect the degree of alloying on the basis of the intensity of reflected radiation. When an unalloyed surface is detected, a target value of the heat input is modified. ITV camera is used to determine the optical reflectivity of the surface of the band steel at the outlet of a cooling zone in order to detect the degree of alloying. After the process has been stabilized, the heat input is gradually decremented, and when any slight insufficiency in the degree of alloying is detected, a fixed compensation is added to the heat input under that condition, subsequently ceasing to update the heat input.
摘要翻译: 在绝热加热区的出口处确定板温度和发射率,并且建立减少各个测量值与各个目标值之间的偏差的补偿。 根据与板温度和发射率有关的更大的补偿,补偿热输入。 对于U形图案材料,DELTA Q先前被添加到材料的前端部分和后端部分的热输入端。 通过激光辐射在加热区的出口处照射带钢,以便根据反射辐射的强度来检测合金化程度。 当检测到非合金表面时,热输入的目标值被修改。 ITV摄像机用于确定冷却区出口处带钢表面的光学反射率,以便检测合金化程度。 过程稳定后,热输入逐渐减少,当检测到合金化程度轻微不足时,在该条件下,对热输入添加固定补偿,随后停止更新热输入。
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