• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    To obtain a stress-free rolled strip, a six-high stand with axially displaceable intermediate rolls is provided with a control device which, on the basis of predetermined set and/or calculated values, not only ensures optimum displacement of the intermediate rolls but, on the basis of the absolute value and direction of section and/or strip tension deviations, specifies adjusting forces for work and intermediate roll bending jacks to correct the said deviations, strip curvature errors occurring in the centre of the rolling stock being compensated essentially by changing the bending of the intermediate rolls and wall curvature errors being compensated by changing the bending of the work rolls.
    公开号:SU1477239A3
    申请号:SU833674450
    申请日:1983-12-05
    公开日:1989-04-30
    发明作者:Шультес Тильманн;Байземанн Герд
    申请人:Смс Шлеманн-Зимаг Аг (Фирма);
    IPC主号:
    专利说明:

    The invention relates to controlling the process of rolling stripes on mills, in particular with a six-level stand.
    The purpose of the invention is to eliminate the defect profile and / or align the voltage distribution across the strip width.
    Figure 1 shows a device for controlling a six-roll stand gantl; 2-4 show examples of convexity of the rolling strip, general view; in fig. 5 - lines of constant relative values of the normal convexity of the strip; in fig. 6 is the same, the edge bulge of the strip according to figure 4; FIG. 7 shows the lines of constant relative values of the edge bulge according to FIG. 5 and the edge bulge according to Fig.6, combined into a single family; in fig. 8 is an application example of the proposed method.
    The device (Fig. 1) contains a voltage meter 1 in a strip, a control unit 2, a program input bpock 3, a data input unit 4, intermediate roll displacement blocks 5 and 6,
    J
    I
    Od sb

    cm
    The bending blocks 7-12 of the intermediate and work rolls and the rolling force meter 13, the outputs of the voltage meter 1 in the strip, the meter 13 rolling forces of blocks 3 and 4 of the program input and data input are connected to the inputs of the control unit. The outputs of which are connected to the inputs blocks 7-12 bend intermediate and work rolls.
    The control unit of the six-roll stand of the rolling mill operates as follows.
    It is known that the bending stresses of the working and intermediate rollers differ from each other not only by the modulus of elasticity and the conditions of their fixation in the stands, the main difference is that the bending deformation of the intermediate rolls is described by the square-parabolic equation, the bending deformation of the working rolls - by an equation high order
    The normal convexity of the strip is described by the equation of the second order (Fig. 3), and a part of the convexity of the rolled strip in general form (Fig. 2), which exceeds the normal convexity of the strip; is described by the equation of higher order (FIG. 4) than the normal convexity of the strip, and usually has two maxima near the edges of the strip (double-sided convexity).
    Based on these data, it is assumed that the normal convexity of the strip (FIG. 3) can be obtained by pre-bending the intermediate rollers, and the convexity of the strip shown in FIG. 4, - the bend of the work rolls. The convexity of the rolled strip in general form (FIG. 2) can be obtained by simultaneously bending the work rolls and the intermediate rolls.
    FIG. 5 presents (as an example) the lines of constant relative values of the normal convexity of the strip: line 14 corresponds to the relative convexity of the strip, equal to -0.2, line 15 to -0.1, line
    16-0.0, i.e. the strip is smooth, lini
    17- +0.1 and line 18 - +0.2. The abscissa axis shows the values of the bending effort of the FAW work rolls, and the ordinate axis shows the intermediate rolls. Thus, the lines are constant from
    five
    0
    five
    0
    five
    0
    five
    0
    five
    The relative values of the normal convexity of the strip require the bending of the intermediate rolls in the direction of the bending of the work rolls.
    FIG. 6 shows (as an example) the lines of constant relative values of the edge bulge of a strip in accordance with FIG. 4, i.e. lines 19-23 correspond to the relative edge bulge of the strip, equal to: -0.04; -0.02; 0,00; +0.02; +0.04 respectively. The dependencies in FIG. 6 show that a change in the edge bulge is achieved mainly by bending the work rolls, and a slight opposite change in the bend of the intermediate rolls is advisable.
    FIG. 7 lines of constant relative values of the normal convexity of the strip in FIG. 5 and the lines of constant relative values of the edge bulge of FIG. 6 are combined into a single family, in which for any changes in the normal and edge bulges of the strip, the necessary bending forces of the intermediate and work rolls can be determined. For example, if the desired convexity of the strip is achieved only by changing its normal bulge, then the bending forces of the rolls change in the direction of the double arrow 24 and upon reaching a predetermined normal convexity of the strip to further correct only the marginal convexity of the bending force of the rolls is changed in the direction of the double arrow 25,
    The method is applied as follows.
    Before the start of rolling, the intermediate rollers are displaced and create the bending forces of the working and intermediate rollers and give the roll gap the shape of an ideal rectangle 26. Such a preliminary setting corresponds to finding the working point 27. If this turns out that the rolled material has a shape different from the ideal rectangle 26 For example, the form shown in Police 28 may then be corrected by increasing the convexity of the strip. In this case, the bending of the intermediate and work rolls must be in accordance with the direction of the arrow upwards along the line 24 of constant values of convexity and
    profile 28 changes in the direction of profile 26. Conversely, in the case of a rhyme of negative convexity (concavity), the bending force of the rolls should change in the direction of the arrow down along the line 24 of constant values of the convexity of the strip. In this case, with significant corrections, the bending of the intermediate rolls can be negative.
    If the profile presented at position 29 is obtained at the pre-set working point 27, then the working point should be shifted upwards in the direction of the arrow 25 constant strip convexity values by increasing the bending of the intermediate rolls and reducing the bending of the work rolls to zero and going into the negative area.
    With the strip profile in accordance with position 30, the preset operating point 27 can be shifted along the bottom of the line 25 to the constant values of convexity of the strip by bending the work rolls. , Other options for eliminating the convexity of shrlosa represented by positions 31, as well as positions 32 and 33 are possible. With the help of data input unit 4, the values of the strip width, reduction and roll diameters, characteristics of the rolled material and other data are entered into the control unit 2 for calculating mill settings (position of the intermediate rolls, bending of the working and intermediate rolls, rolling force to obtain a strip with a given profile). The calculations are performed according to the program entered by block 3.
    Using appropriate sensors, parameters characterizing the actual profile are measured, for example rolling force or tension distribution across the strip width, predominantly with roller-type sensors. The deviation of the actual profile from the target is compensated by the impact on the bending of the work rolls and support rolls, as well as on the longitudinal movement of the intermediate rolls.
    权利要求:
    Claims (2)
    [1]
    1. A method of controlling a six-sided stand of a rolling mill, which involves measuring the profile and / or stress distribution across the width
    The strips are preferably of a roller type sensor and the intermediate rollers are displaced in axial directions, characterized in that, in order to eliminate the defect of the profile
    and / or equalizing the voltage distribution across the strip width, preliminarily displacing the intermediate rolls in axial directions by an amount determined by the expected rolling forces, the voltage in the adjacent part of the strip is leveled by bending the intermediate rolls, and bending work rolls.
    [2]
    2. Method pop. 1, which differs from the fact that when leveling the voltage in the middle part of the strip, the work rolls bend in the direction opposing the bending of the intermediate rolls, and when leveling the voltage on the edges of the strip, the intermediate rolls bend in the direction opposing the bending of the work rolls.
    LU
    eight
    13
    1
    FIG 2
    Phage.Z
    Phys.N
    12
    -0.04 -0.02
    Fi.5
    Zw
    25
    O +0.02 +0.04
    Phase.6
    nineteen
    26
    SG IJ
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    同族专利:
    公开号 | 公开日
    DE3245031A1|1984-06-07|
    IT1169475B|1987-05-27|
    JPS59110407A|1984-06-26|
    IT8323938D0|1983-11-30|
    DE3245031C2|1992-10-22|
    FR2537021A1|1984-06-08|
    ATA395083A|1990-04-15|
    FR2537021B1|1987-08-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2566679A|1943-02-25|1951-09-04|Armzen Company|Rolling mill and lubrication method and means therefor|
    DE2366413C2|1972-07-07|1984-04-19|Hitachi, Ltd., Tokio/Tokyo|Device for controlling the flatness and parallelism of rolled stock surfaces|
    JPS525304B2|1972-07-07|1977-02-12|
    JPS5755484B2|1976-11-26|1982-11-24|
    JPS6340602B2|1979-10-04|1988-08-11|Hitachi Ltd|
    SE446952B|1980-04-25|1986-10-20|Asea Ab|CONTROL DEVICE FOR TAPE OR PLATFORM|
    DE3107693A1|1981-02-28|1982-09-16|SMS Schloemann-Siemag AG, 4000 Düsseldorf|Rolling stand|
    DE3122128A1|1981-06-04|1982-12-23|SMS Schloemann-Siemag AG, 4000 Düsseldorf|Rolling stand|DE3638331C2|1986-11-10|1995-07-13|Schloemann Siemag Ag|Roll stand for rolling flat material with a pair of axially displaceable work rolls|
    IT1315119B1|2000-09-25|2003-02-03|Danieli Off Mecc|DEVICE AND METHOD FOR CURVING THE CYLINDERS OF A DILAMINATION CAGE.|
    DE10208389B4|2001-07-11|2004-11-04|Hitachi, Ltd.|Roll stand, rolling mill and rolling process|
    DE102006036054B9|2006-08-02|2013-08-14|Thyssenkrupp Steel Europe Ag|Roll bending in multi-roll stands|
    CN102189112B|2010-03-03|2012-11-14|宝山钢铁股份有限公司|Hot-rolled cross-rolling roll shifting method for sequence changing of drawing steel|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE19823245031|DE3245031C2|1982-12-06|1982-12-06|
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