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An Online Recognition Method for Local High Dimples in Strip Cross Section

A local high point and identification method technology, applied in the field of strip rolling, can solve the problems that the value of the high (concave) point of the strip cannot be determined online and cannot be evaluated, so as to ensure the validity of the data and suppress the violent fluctuation of the thickness in a small range , to achieve the effect of filtering and denoising

Active Publication Date: 2019-06-11
UNIV OF SCI & TECH BEIJING
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Problems solved by technology

[0005] The invention provides an online identification method for local high (concave) points in the cross-section of the strip, and comprehensively designs the deviation between the distribution trend of the actual section thickness and the ideal distribution trend, so as to solve the problem that the cross-section of the strip cannot be determined online in the existing industrial production The problem that it is impossible to evaluate, judge and control the quality of the cross-sectional profile of the strip caused by the local high (concave) point value

Method used

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  • An Online Recognition Method for Local High Dimples in Strip Cross Section
  • An Online Recognition Method for Local High Dimples in Strip Cross Section
  • An Online Recognition Method for Local High Dimples in Strip Cross Section

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[0054] In order to further elaborate the above-mentioned technical solution, the technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings and specific examples. The limitation of the technical solution of the invention, in the case of no conflict, the embodiments of the present invention and the technical features in the embodiments can be combined with each other.

[0055] The schematic diagram of the on-line identification method of the local high (concave) point in the strip cross section provided by the invention is as follows figure 2 shown. exist figure 2 On the basis of, this embodiment specifically includes the following steps:

[0056] Step S1: Obtain the thickness distribution data of the full width of a strip cross-section from the online multifunctional instrument or control system, that is, the thickness value of the strip width equidistant dispersion, such as image 3 shown. The strip width ...

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Abstract

The invention relates to the field of plate and strip rolling, and designs a plate and strip cross section local high(sinking) point on-line identification method. Firstly, thickness distribution data of plate and strip cross section full width are obtained; a quartic polynomial and n(5<=n<=15)-period movement average line are used for fitting of thickness distribution of the plate and strip cross section full width; a quartic polynomial curve is subtracted from the movement average line, a difference value distribution curve of the thickness distribution is obtained, and the height and the width of a local high(sinking) point are obtained through the difference value distribution curve according to a certain rule; and the area of the part, exceeding a local high(sinking) point threshold value line, of the difference value distribution curve is calculated, and the local high(sinking) point height at the position of the maximum area serves as a plate and strip cross section local high point or local sinking point magnitude is obtained. By means of the plate and strip cross section local high(sinking) point on-line identification method, the problem that in the plate and strip rolling production, as the local high(sinking) point cannot be identified, accurate evaluation and control cannot be achieved is solved, and plate and strip cross section local high(sinking) point on-line identification is achieved.

Description

Technical field: [0001] The invention relates to the field of strip rolling, in particular to the on-line identification of local high (concave) point defects in the cross section of the strip. Background technique: [0002] The quality of the cross-sectional profile of the strip along the width direction is usually measured by four indicators: convexity, wedge shape, edge drop, and local high (concave) points, where the convexity, wedge shape, and edge drop have clear definitions and uniform Quantification standard, while local high (concave) points, such as figure 1 As shown, there is no uniform definition and quantification standard. The local high (concave) point is generally considered to be a tendency that the strip cross-sectional thickness curve has a tendency to protrude (concave) in a certain place compared with the surrounding area, but it is different from the sharp fluctuation of the cross-sectional thickness data in a small range. Such defects have an importa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B21B38/02G06F17/11G06F17/18
CPCB21B38/02G06F17/11G06F17/18
Inventor 何安瑞谢犁邵健孙文权李辉
Owner UNIV OF SCI & TECH BEIJING
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