• 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:
    1. A device for adjusting the geometric dimensions of the rolling stock in a continuous rolling mill whose rolling stands are equipped with electric drives, a speed meter and speed controllers, containing deviation meters for horizontal and vertical rolled dimensions installed in the gap between the spaces, a prediction block and an adjustable delay unit, one of the inputs which is connected to the output of the velocity meter, and the other to the output of the prediction block, whose inputs are connected to the outputs of the measured deviation Horizontal and vertical rolling dimensions, characterized in that, in order to increase the control accuracy, it additionally contains two speed correction units, the output of one of which is connected to the input of the speed regulator of the next stand, and the input - with the output of the delayed rv block; another speed correction unit is connected to the input of the speed controller of the previous stand, and the input is connected to the output of the meter for the deviation of the horizontal size of the rolled metal. 2. Device for adjusting the geometric dimensions of the rolling mill in a continuous rolling mill, the rolling stands of which are equipped with electric drives, a meter and speed controllers, containing measures of deviations of the horizontal and vertical dimensions of rolled products installed in the interspace, the prediction unit and the first CO block of adjustable delay, one of the inputs of which is connected to the output of the speed meter, and the other with the output of the prediction block, the inputs of which are connected to the outputs of the meters of deviations of mountains of horizontal and vertical dimensions, which is characterized by the fact that, in order to increase the accuracy of the 0000 homing, it contains an additional meter for the deviation of the horizontal size of the rolled product, installed at the mill output, two speed correction units, a second adjustable delay unit, and a gain correction unit, one input through which the second block of adjustable delay is connected to the output of the prediction block, the other input to the output of the additional horizontal deviation meter zmera hire and the input of the first speed correction unit, the output of which is connected to the third input of the block
    公开号:SU1124882A3
    申请号:SU823503946
    申请日:1982-09-29
    公开日:1984-11-15
    发明作者:Ниино Сухеи;Исимура Коити;Окамото Кен;Охба Коити
    申请人:Мицубиси Денки Кабусики Кайся (Фирма);
    IPC主号:
    专利说明:

    gain correction and one input of the corresponding speed controller, the other input of which through the second speed correction block is connected to the output of the first adjustable lag block, the output of the coefficient correction block
    the gain is connected to the input of the prediction block.
    Priority points.
    3.0.09.81 - according to Clause i to Application No. 157214.
    30.09.81 - according to claim 2 of application No. 157215.
    The invention relates to irocate production, in particular to the automation of rolling processes in gauges on mills with alternating horizontal and vertical stands,
    The closest to the invention by. the technical essence and the achieved result is a device for adjusting the geometric dimensions of the rolling mill on a continuous rolling mill, the rolling stands of which are equipped with electric drives, gauges and pc speed of FI speed, containing gauges of deviations of the horizontal and vertical sizes of rolled products installed in the gap between the spaces, the prediction block and the unit controlled triggering, one of the inputs of which is connected to the output of the speed meter, and the other to the output of the prediction block, inputs which is connected to the outputs of the measuring deviations of the horizontal, and vertical dimension of rolled D 1.
    However, in the known device, disturbing influences on the deviations of the geometric dimensions are not taken into account, which reduces the accuracy of the rolled products.
    The aim of the invention is to improve the accuracy of regulation,
    The goal is achieved by the fact that the device for adjusting the geometric dimensions of the rolling stock in a continuous rolling mill, the rolling stands of which are equipped with electric drives, a meter and a speed controller, containing among the measures of deviations of the horizontal and vertical sizes of rolled products installed in the interspace
    The ke, the prediction unit and the lag time adjuster block, one of the inputs of which is connected to the output of the speed meter, and the other one - with the output of the prediction block, whose inputs are connected to the outputs of the meters of the horizontal and vertical sizes of rolled products, additionally contain two blocks
    speed correction, the output of one of which is connected to the control input. the speed of the subsequent stand, and the input is with the output of the adjustable delay unit, the output of another unit
    2 speed corrections are connected to the input of the speed regulator of the previous stand, and the input is connected to the output of the rolling deflection meter,
    Q According to the second embodiment, the device for adjusting the geometric dimensions of the rolling stock in a continuous rolling mill, the rolling stands of which are equipped with electric drives,
    5 with a speed meter and speed controllers that contain deviation meters for horizontal -1 and vertical dimensions of rolled products installed in the interspace, a prediction block and the first adjustable delay block, one of the inputs of which is connected to the output of the speed meter, and the other with the output of the prediction block, inputs which are connected to the outputs of the gauges of deviations of the horizontal and vertical dimensions of the car, additionally contains a meter of deviations of the horizontal size of the car, two blocks In the speed correction, the second lag time control unit and the gain correction unit, one input of the kotor through the second adjustable time block is connected to the output of the prediction unit, the other input to the output of the additional meter of the horizontal size deviation and the input of the first speed correction unit, the output of which connected to the third input of the gain correction unit and one input of the corresponding speed controller, the other input of which through the second correction unit sk STI connected to the output of the first adjustable unit lag the gain correction unit output is connected to an input of the prediction block. FIG. Figures 1 and 2 present the first and second variants of the proposed device for adjusting the geometric dimensions of the rolling stock in a continuous rolling mill, respectively. The device for adjusting the geometrical dimensions of the rolling stock in the continuous rolling mill (Fig. 1), whose rolling stands are equipped with electric drives 1 and 2, a meter 3 and speed controllers 4 and 5, contains deviation meters of the horizontal 6 and vertical 7 sizes of rolled products installed in the intersite interval, the prediction block 8, the adjustable delay block 9, the speed correction blocks 10 and 11, one of the inputs of the adjustable delay block 9 connected to the output of the speed meter 3, and the other to the output b The prediction lock 8, the inputs of which are connected to the outputs of the horizontal 6 and vertical 7 deviation meters, the output of the correction unit 11 is connected to the input of the next stand speed controller 5, and the input is connected to the output of the adjustable delay unit 9, the output of the speed correction unit 10 is connected to the input the speed regulator of the previous stand, and the input is with the output of the 6 deviation meter - the horizontal size of the car. According to the second embodiment (Fig. 2), a device for adjusting the geometric dimensions of the rolling stock in a continuous rolling mill, rolling stands. which are equipped with electric drives 1 and 2, gauge 3 and speed controllers 4 and 5, contains 24 deviations of the horizontal 6 and vertical 7 dimensions of rolled products installed in the interspace, the prediction block 8, the adjustable delay block 9, the horizontal deviation meter 10, installed at the output of the mill, the And blocks and 12 speed corrections, the second block 13 adjusts the time delay and the gain correction block 14, and one of the inputs of the first block 9 of the adjustable connection delay with the output of the speed meter 3, and the other with the output of the prediction block 8, whose inputs are connected to the outputs of the horizontal 6 and vertical 7 deviation meters, one of the inputs of the gain correction block 14 is connected to the output of the prediction block 8 via the second adjustable delay block 13 The other input is with the output of the meter 10 deviation of the horizontal size and the input of the first speed correction block 12, the output of which is connected to the inputs of the gain correction block 14, respectively. and speed regulator 5, the other input of which via the second correction unit 11 outputs the first soediiei with adjustable lag unit 9, the output of unit 14, correction gain connected to the input unit 8 prediction. The device in the first embodiment operates in the following manner (FIG. I). Block 8 is predicted by the deviations of the horizontal and vertical sizes of rolled metal at the exit (1-1) of the stand, predicts the deviation of the horizontal dB t of the rolled product at the output of the i-th stand, according to the formula, constant. s ncoefficients. Speed correction blocks 10 and 11 are amplifiers whose gain factors are selected when setting up the device for a particular mill. The change in the speed of the i-th stand does not lead to a significant change in the vertical size h, it significantly changes the horizontal size. Therefore, the horizontal size of the car on the 1st stage; the stand 9 is adjusted by the prediction output 8 by acting on the tension of the strip through the correction of the speed of the i-th stand. In this case, the predicted value of the deviation of the horizontal size becomes zero. Since the horizontal size at the exit of the 1st stand in the device is regulated only by a change in the rolling tension between (1-1) and the i-th cells, it is possible that considerable band tension may occur. In order to prevent such a danger, the deviation of the horizontal size at the output of the (i-l) -th stand is brought to zero by adjusting the speed of the (i-l) -th cell using the speed correction unit 10. The speed correction signal dVR j from correction block 10 is also transmitted to speed controller 5 in such a way that speed correction (1-1) and the stands do not affect the tension of the band between (i-l) and i-th cells. The device according to the second variant operates as follows (FIG. 2-). The prediction unit 8, ka and in the first embodiment, calculates by the formula (1), predicts deviations of the horizontal size. - db, rolled at the output of the i-th stand, In accordance with the predicted deviation of the horizontal size of the rolled at the output of the i-th stand the scaling correction unit 11 changes the speed of the i-th stand so that the specified deviation is zero, t, e. perturbation control takes place. The deviation DL of the horizontal b size, measured by the horizontal dimension meter 6, is transmitted to the block 12 of the speed correction of the i-th stand, which changes the speed of the i-th stand by dVpg, i.e. The device provides for adjustable deviation. In order to eliminate the known deficiencies in the perturbation and deviation control, the device provides a modulus 14 correction unit of the usiG unit 11 of the speed correction 4V, .G.b New gain factor is defined as (see Fig.2). 1 "06 L, -4b. 1 4Ts -aTs-. constant coefficient. Adjustment deficiencies can also be eliminated by adjusting the gains of prediction block 8. The proposed device provides a significant increase in rolling accuracy.
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    权利要求:
    Claims (2)
    [1]
    1. A device for regulating the geometric dimensions of rolled products in a continuous rolling mill, the rolling stands of which are equipped with electric drives, a speed meter and speed regulators, containing deviation meters, horizontal and vertical sizes of rolled products, installed in the inter-gap space, a forecasting unit and an adjustable delay unit, one of whose inputs connected to the output of the speed meter, and the other to the output of the prediction unit, the inputs of which are connected to the outputs of the meters of deviations of mountains zonal and vertical sizes of rolled products, characterized in that, in order to increase the accuracy of regulation, it additionally contains two speed correction blocks, the output of one of which is connected to the input of the speed controller of the subsequent stand, and the input - with the output of the adjustable delay unit, the output of another correction unit speed is connected to the input of the speed regulator of the previous stand, and the input is connected to the output of the horizontal deviation meter.
    [2]
    2. A device for adjusting the geometric dimensions of rolled products in a continuous rolling mill, the rolling stands of which are equipped with electric drives, a meter and speed regulators, containing horizontal and vertical sizes deviation meters installed in the inter-span gap, a prediction unit and a first adjustable delay unit, one of whose inputs connected to the output of the speed meter, and the other to the output of the prediction unit, the inputs of which are connected to the outputs of the meters rejected horizontal and vertical dimensions of the rod * · one, characterized in that, in order to increase the accuracy of regulation, it contains an additional meter of deviation of the horizontal size of the hire, installed at the output of the mill, two speed correction units, a second adjustable delay unit and a gain correction unit, one input of which through the second block of adjustable delay is connected to the output of the prediction block, the other input is with the output of an additional horizontal deviation meter the rocket and the input of the first speed correction block, the output of which is connected to the third input of the “SU” block 1124882 gain correction and one input of the corresponding speed controller, the other input of which is connected through the second speed correction block to the output of the first variable delay unit ;, the output of the block correction factor i124882 gain is connected to the input of the prediction unit.
    Priority on points.
    30.09.81 - according to claim 1 to the application No. 157214.
    30.09.81 - according to claim 2, to the application No. 157215.
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    同族专利:
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    US4557126A|1985-12-10|
    EP0075960A3|1984-03-07|
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    引用文献:
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    JPS542962A|1977-06-10|1979-01-10|Hitachi Ltd|Controlling method for sheet width in hot finishing mill|
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    DE2947233C2|1979-11-23|1992-03-12|Kocks Technik Gmbh & Co, 4010 Hilden|Device for controlling the wall thickness of pipes|
    JPS5924887B2|1980-02-19|1984-06-13|Kawasaki Steel Co|
    JPS6043205B2|1980-05-29|1985-09-27|Tokyo Shibaura Electric Co|DD227344B1|1984-08-27|1987-05-06|Rohrkombinat Stahl & Walzwerk|DEVICE FOR MONITORING PIPE ROLLING SYSTEMS|
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    US4909055A|1988-07-11|1990-03-20|Blazevic David T|Apparatus and method for dynamic high tension rolling in hot strip mills|
    IT1280208B1|1995-08-03|1998-01-05|Ceda Spa Costruzioni Elettrome|INTERGAGE CONTROL PROCEDURE OF THE LAMINATE PULL AND RELEVANT DEVICE|
    DE19831481A1|1998-07-14|2000-01-20|Schloemann Siemag Ag|Rolling process for rod-shaped rolling stock, in particular bar steel or wire|
    US9333548B2|2013-08-12|2016-05-10|Victaulic Company|Method and device for forming grooves in pipe elements|
    US10245631B2|2014-10-13|2019-04-02|Victaulic Company|Roller set and pipe elements|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    JP56157215A|JPS5858916A|1981-09-30|1981-09-30|Controller for continuous rolling mill|
    JP56157214A|JPS5858915A|1981-09-30|1981-09-30|Controller for continuous rolling mill|
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