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    • 2. 发明授权
    • Device for controlling an inflow of metal by means of a stopper
    • 用于通过止动器控制金属流入的装置
    • US5674426A
    • 1997-10-07
    • US618964
    • 1996-03-20
    • Markus SchmidHans Gloor
    • Markus SchmidHans Gloor
    • B22D11/16B22D11/18B22D41/20
    • B22D11/161B22D11/18B22D41/20
    • In a device for controlling a flow of metal from a casting vessel into a casting mould, the inflow of metal is to be controlled by means of a stopper, which may be lifted and lowered according to a preset program and/or by means of a bath-level measuring device. In order to prevent any manual operation of a control lever for the stopper, a lifting rod for the stopper is disposed in a module box together with a vertical guide and a computer-controlled electromechanical drive for the lifting rod. The module box is exchangeably fastened to the casting vessel by clamping elements. Before casting begins, a drive motor for the stopper (13) is to be connected by means of electric plug-and-socket connections to a control cabinet. From the start of casting, the stopper movement is controllable exclusively by means of the electric drive.
    • 在用于控制金属从铸造容器流入铸模的装置中,金属的流入将通过止动器来控制,该止动器可以根据预设的程序和/或借助于 浴液位测量装置。 为了防止用于止动器的控制杆的任何手动操作,用于止动器的提升杆与垂直引导件和用于提升杆的计算机控制的机电驱动一起设置在模块箱中。 模块盒通过夹紧元件可交换地固定到铸造容器。 在铸造开始之前,用于止动器(13)的驱动电机将通过电插头和插座连接连接到控制柜。 从铸造开始,止动器移动仅通过电驱动来控制。
    • 3. 发明申请
    • PROCESS ENGINEERING MEASURES IN A CONTINUOUS CASTING MACHINE AT THE START OF CASTING, AT THE END OF CASTING AND WHEN PRODUCING A TRANSITIONAL PIECE
    • 在铸造开始时,铸造结束时和生产过渡件时连续铸造机械的工艺工程措施
    • US20140290899A1
    • 2014-10-02
    • US14361284
    • 2012-11-19
    • SIEMENS VAI METALS TECHNOLOGIES GMBH
    • Kurt DittenbergerUdo FeischlKlemens HauserWolfgang KiblerPaul PennerstorferFranz Ramstorfer
    • B22D11/08
    • B22D11/081B22D11/04B22D11/161B22D11/208B22D11/225
    • A method for operating a continuous casting machine (1) at the start of casting, at the end of casting and when producing a transitional piece (21) for improving the quality of the ends of the strand (16, 18), and protecting the machine from damage. At the start of casting, perform the following additional method steps: recording a position of the beginning of the strand (16) in the strand guide (4); after the beginning of the strand (16) and after an upper end (17a) of the beginning region of the strand (17), has passed a pair of adjustable strand guiding rollers (5) adjusting the roller pair to touch the strand (2); cooling the beginning region of the strand (17) by the cooling nozzle (10) delivering an amount of coolant Q less than a nominal amount of coolant Qnom to the beginning region of the strand (17); and cooling the main part of the strand (20) by the cooling nozzle (10) delivering an amount of coolant Q that is substantially equal to Qnom to the main part of the strand (20).
    • 一种在铸造开始时,在铸造结束时和当制造用于提高股线(16,18)的端部的质量的过渡件(21)时操作连续铸造机器(1)的方法,并且保护 机器受损。 在铸造开始时,执行以下附加的方法步骤:将股线(16)的开始位置记录在股线引导件(4)中; 在股线(16)开始之后,并且在股线(17)的开始区域的上端(17a)之后,已经通过一对可调整的线引导辊(5),调节辊对以接触股线(2 ); 通过冷却喷嘴(10)冷却所述绞线(17)的开始区域,所述冷却喷嘴将少于冷却剂Qnom的标称量的冷却剂Q的量输送到所述线材(17)的开始区域; 并且通过冷却喷嘴(10)冷却所述绞线(20)的主要部分,所述冷却喷嘴向所述绞线(20)的主要部分输送大致等于Qnom的量的冷却剂Q。
    • 4. 发明授权
    • Method and online system for monitoring continuous caster start-up operation and predicting start cast breakouts
    • 连续施工机启动运行监测方法及在线监测系统,预测突发爆破事故
    • US07039552B2
    • 2006-05-02
    • US10718636
    • 2003-11-24
    • Yale ZhangVit VaculikIvan MileticMichael S. Dudzic
    • Yale ZhangVit VaculikIvan MileticMichael S. Dudzic
    • G06F19/00
    • B22D11/161
    • A new start-up operation of a continuous caster is monitored by comparing itself with the normal start-up operation, which is benchmarked by a multivariate statistical model using selected historical operation data. If the new operation is statistically different from the benchmark, then alarms are generated to indicate an impending start cast breakout and at the same time, the process variables that lead to process excursions from the normal operation are identified as the most likely root causes of the predicted breakout. The model is built using Mult-way Principal Component Analysis technology to characterize the operation-to-operation variance in a reduced dimensional space (also known as latent variable space) based on a large number of process trajectories from past normal start-up operations. The process trajectories over the entire start cast duration are predicted based on the current observations. They are then synchronized by interpolating themselves based on pre-specified non-uniform synchronization scales in the strand length such that all trajectories can be aligned with respect to the strand length for further use in model development.
    • 通过与正常启动操作进行比较来监控连续施法者的新启动操作,该操作由使用所选历史操作数据的多变量统计模型进行基准测试。 如果新操作与基准测量具有统计学差异,则生成报警以指示即将开始的投入突破,同时,导致正常操作过程偏差的过程变量被识别为最可能的根本原因 预测突破。 该模型使用多路主成分分析技术构建,以基于过去正常启动操作中的大量过程轨迹来表征减小维空间(也称为潜在可变空间)中的操作变化方差。 根据当前的观察结果预测整个起始持续时间的过程轨迹。 然后,它们通过基于在线长度中的预先规定的非均匀同步尺度进行内插自身进行同步,使得所有轨迹可以相对于线长度对准以便在模型开发中进一步使用。
    • 5. 发明授权
    • Method for vertical continuous casting of metals
    • 金属垂直连铸方法
    • US06260603B1
    • 2001-07-17
    • US09355241
    • 1999-07-26
    • Eric VuignierEtienne CalozJean-Pierre Seppey
    • Eric VuignierEtienne CalozJean-Pierre Seppey
    • B22D1118
    • B22D11/161B22D11/147B22D11/16
    • A method for automatic, vertical continuous casting of metals, in particular aluminium alloys, in a casting facility having several molds. According to the method, the liquid metal is fed from a furnace along a spout to the molds and guided, via nozzles with adjustable through-flow, to the molds which are initially closed off by the dummy blocks arranged on a lowerable casting table. The metal through-flow volume of each nozzle is adjusted individually for each mold on the basis of an initial time (t0) and an initial metal level (N0) at which adjustment of the metal level begins, in such a way that the metal in all molds at a pre-set starting time (tS) is at substantially the same starting level (NS) at which the casting table starts being lowered for the production of the metal strands. The metal level (N) is adjusted simultaneously during filling between the initial level (N0) at the initial time (t0) and the starting level (NS) at the starting time (tS) in all molds on the basis of time (t) in accordance with a set-point curve N=f(t) which is identical for all molds. The slope dN/dt of the set-point curve is greater in a range starting from the initial level (N0) and smaller in a range in relation to the starting level (Ns) than the mean slope (NS−N0)/(tS−t0) between the initial and the starting level.
    • 一种用于在具有多个模具的铸造设备中自动,垂直连续铸造金属,特别是铝合金的方法。 根据该方法,将液体金属从熔炉沿喷嘴送入模具,并通过具有可调整流通的喷嘴被引导到最初由布置在可降低铸造台上的虚拟块封闭的模具。 基于初始时间(t0)和开始金属水平调整的初始金属水平(N0),每个模具分别调整每个模具的金属流通量,使得金属在 在预设起始时间(tS)下的所有模具处于基本相同的起始水平(NS),在该水平下,铸造台开始降低以用于金属股线的生产。 基于时间(t)在所有模具中在初始时间(t0)的初始水平(N0)和起始时间(tS)之间的填充期间同时调整金属水平(N) 根据所有模具相同的设定点曲线N = f(t)。 设定点曲线的斜率dN / dt在从起始电平(N0)开始的范围内较大,相对于起始电平(Ns)的范围比平均斜率(NS-N0)/(tS -t0)在初始级别和起始级别之间。