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Method for optimizing regulating and controlling efficiency coefficient of board shape controlling actuator of cold rolling mill

A technology of efficiency coefficient and shape control, which is applied in the field of cold-rolled strip steel, can solve the problems of complex influence on shape, difficulty in solving regulation efficiency coefficient, and inability to meet shape control.

Active Publication Date: 2010-12-22
ANGANG STEEL CO LTD
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Problems solved by technology

At present, the efficiency coefficient of strip shape control is basically determined by two methods: finite element simulation calculation and rolling mill experiment. Since the influence of each strip shape adjustment mechanism on the strip shape is very complicated, and they affect each other, it is difficult to use the traditional roll system elasticity. Deformation theory and rolling three-dimensional deformation theory to accurately solve the control efficiency coefficient of each plate shape adjustment mechanism
In the actual rolling process, the control efficiency coefficient is also affected by many rolling parameters, such as strip width, rolling force, etc. Different specifications of strip steel correspond to different intermediate roll traverse control functions, so the rolling mill experiment and offline model The calculated value cannot meet the requirements of shape control in actual production

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  • Method for optimizing regulating and controlling efficiency coefficient of board shape controlling actuator of cold rolling mill
  • Method for optimizing regulating and controlling efficiency coefficient of board shape controlling actuator of cold rolling mill
  • Method for optimizing regulating and controlling efficiency coefficient of board shape controlling actuator of cold rolling mill

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Embodiment Construction

[0043] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0044] This embodiment discloses the self-learning process of the shape regulation efficiency coefficient of a 1250 single-stand six-high reversing cold rolling mill. The flatness measurement device adopts the domestically produced ringless flatness roller [roller diameter 350mm, number of measuring sections 23, length of roll body 1350mm, width of measuring section 52mm]. Product specifications (thickness × width): 0.6mm × 1020mm, material: ST12, rolling speed 500m / min-600m / min, strip outlet temperature 50-60 degrees Celsius.

[0045] (1) Determination of the prior efficiency coefficient table of the rolling working point

[0046] When debugging the 1250 cold rolling mill, several strip steels of different specifications are selected for rolling, and the flat shape closed-loop control system is not put into operation. When flat shape defects occur, ma...

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Abstract

The invention discloses a method for optimizing the regulating and controlling efficiency coefficient of a board shape controlling actuator of a cold rolling mill, which comprises the following steps of: building a board shape regulating and controlling power coefficient priori value table under different rolling work points, wherein in the table, one set of band steel width value and a rolling force value correspond to one rolling work point; defining a boundary work point of the table according to the position of the practical rolling work point in the table; setting a weight factor according to the similarity level between a boundary work point parameter and a practical rolling work point parameter; and stacking the priori power coefficient of a boundary point in a weighting way to obtain the board shape regulating and controlling power coefficient under the practical rolling work point. By continuously improving the precision of the board shape regulating and controlling power coefficient with the on-line self-studying model and the practically-tested board shape data, the method can obtain the precise regulating and controlling power coefficient of a board shape adjusting mechanism, applies the precise regulating and controlling power coefficient into a closed-loop board shape control system, and has higher board shape controlling precision.

Description

technical field [0001] The invention belongs to the field of cold-rolled steel strips, and is suitable for a self-learning optimization method for the efficiency coefficient of a shape control mechanism of a cold-rolling mill. Background technique [0002] Modern high-tech strip steel cold rolling mills usually have a variety of strip shape adjustment means, such as reduction inclination, roll bending, roll traverse and so on. In practical applications, it is necessary to comprehensively use various plate shape adjustment methods, and achieve the purpose of eliminating deviations through the mutual cooperation of adjustment effects. Therefore, the premise of flatness control is the correct understanding of the performance of various flatness adjustment means. With the advancement of engineering calculation and testing methods, it is possible to describe the performance of rolling mills by regulating the utility function. As the basis of the closed-loop flatness control sys...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21B37/28G05B19/04
Inventor 王鹏飞王军生俞小峰刘军张殿华赵启林刘佳伟李丽霞曹忠华候永钢宋蕾
Owner ANGANG STEEL CO LTD
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