JP2744399B2 - Rolled material cooling control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling control device for a rolled material, which controls the cooling of a rolled material after finish rolling in hot rolling with a predetermined water injection pattern.

[0002]

2. Description of the Related Art FIG. 5 shows a conventional cooling control apparatus for a rolled material after hot finish rolling. In the drawing, reference numeral 1 denotes a rolled material rolled by a finishing mill 2, 3 denotes a run-out table, and 4 denotes a rolled material. The first winding machine 5a and 5b are a plurality of cooling banks provided on the run-out table 3 for cooling the rolled material 1 and a fine adjustment cooling bank.

The finishing mill 2 is provided with a speedometer 7, a thickness gauge 8, and a finishing outlet thermometer 9. The respective detection signals of the speedometer 7, the thickness gauge 8, and the finishing outlet thermometer 9 are given to the cooling control device 6.

[0004] The cooling bank 5a and another detection bank 5b as a cooling bank are provided with a plurality of water injection banks arranged over the transport path of the rolled material 1. A cooling spray for injecting water from above and below is provided, and the water injection operation is controlled for each water injection bank. The spray pattern and the water injection amount of the water injection bank to be used are respectively controlled based on the water injection command output from the cooling control device 6.

[0005] Reference numeral 10 denotes a winding thermometer installed on the exit side of the run-out table 3, and 11 denotes a winding speedometer installed on the winding machine 4. Each detection signal of the total 11 is transmitted to the cooling control device 6.
Given to.

Next, the operation will be described. In order to maintain a required winding temperature over the entire length of the rolled material 1 after the hot rolling, the cooling control device 6 controls the cooling bank 5a as follows.
Then, the fine adjustment cooling bank 5b is operated.

First, the speed, thickness and temperature of the rolled material 1 after the finish rolling are input from a speedometer 7, a thickness gauge 8 and a thermometer 9, respectively, and are necessary for obtaining a required winding temperature from these input values. The water injection amount is calculated, the spray pattern is determined, and a water injection command is output to each of the cooling banks 5a and 5b.

[0008] This calculation is performed for a fixed time or for a fixed distance. The moving speed of the rolled material 1 is detected by the winding speed meter 11 after the rear end of the rolled material 1 is conveyed from the finishing mill 2.

In recent years, accelerated rolling has been performed from the viewpoint of improving productivity.
As shown in the figure, the first acceleration period t1 from the time when the leading end of the rolled material passes through the final finishing rolling mill to the time when the leading end of the rolled material meshes with the winding machine, and the second acceleration period t1 from when the leading end of the rolled material reaches the maximum speed.
The period changes from an acceleration period t2, a constant speed period t3 at which the maximum speed is maintained, and a deceleration period t4 after the tail end of the rolled material passes through the specific rolling period.

For this reason, although the target winding temperature can be secured in the constant speed state, there has been a problem that the target winding temperature tends to deviate in a portion where the speed of the rolled material is variable. It is conceivable that the cause is not only that the speed change of the rolled material is not taken into consideration in the cooling control, but also that the response delay of the valve to the water injection command is likely to occur.

In order to solve this problem, Japanese Patent Publication No. 52-1385 discloses a method for correcting the amount of cooling water in accordance with a change in the rolling speed or adjusting the correction coefficient of the cooling capacity model at a constant speed.
No. 1993. In addition, Japanese Patent Publication No. 62-2268
As disclosed in Japanese Patent Laid-Open No. 7, there has been proposed an apparatus in which a so-called "advance control" in which a valve several valves downstream from a preset value is opened in advance to compensate for a response delay of a water injection valve.

[0012]

Since the conventional method for controlling the cooling of a rolled material is configured as described above, the former conventional example can sufficiently correct the actual change in the rolling speed and the response delay of the water injection valve. On the other hand, in the latter conventional example, since the number of advance banks is fixed, it is not possible to sufficiently follow the change in the rolling speed, and it is difficult to stably and accurately control the cooling over the entire length of the rolled material. There was a problem.

The invention of claim 1 has been made in order to solve the above-mentioned problems, and corrects a shift of a control point caused by a change in the speed of a rolled material and a response delay of a water injection bank, so that a rolled material can be produced. An object of the present invention is to provide a rolled material cooling control device that can maintain a target winding temperature over the entire length.

A second object of the present invention is to provide a rolled material cooling control device capable of controlling a rolled material to a target winding temperature over the entire length based on a temperature drop, a rolled material speed and a deceleration rate. .

A third object of the present invention is to provide a rolled material cooling control device capable of controlling a rolled material to a target winding temperature over the entire length based on a temperature drop, a rolled material speed, and an acceleration / deceleration rate. .

[0016]

According to a first aspect of the present invention, there is provided a rolled material cooling control device for calculating a rolled material speed and an acceleration rate, a rolled material speed and an acceleration rate, and a target winding. A temperature calculating device for calculating a temperature drop amount based on the temperature, the temperature on the finishing outlet side, the thickness, and the winding temperature; and a cooling pattern determining device, based on the temperature drop amount, the rolled material speed and the acceleration rate, The number of advance valves in the cooling bank and the water injection bank pattern after the control section are set.

According to a second aspect of the present invention, there is provided a rolled material cooling control device for calculating a rolled material speed and a deceleration rate; a rolled material speed and a deceleration rate; a target winding temperature; And a temperature calculating device for calculating a temperature drop amount based on the thickness and the winding temperature. The cooling pattern determining device is provided with a number of advance valves in a cooling bank based on the temperature drop amount, rolling material speed and deceleration rate. The water injection bank pattern after the control section is set.

According to a third aspect of the present invention, there is provided a rolled material cooling control device for calculating a rolled material speed and an acceleration / deceleration rate, a rolled material speed and an acceleration / deceleration rate, a target winding temperature, and a finish delivery side. A temperature calculating device for calculating a temperature drop amount based on the temperature, the thickness, and the winding temperature; and a cooling pattern determining device, wherein the number of advance valves in the cooling bank is determined based on the temperature drop amount, the rolled material speed, and the acceleration / deceleration rate. And a water injection bank pattern after the control section is set.

[0019]

According to the first aspect of the present invention, the apparatus for controlling the cooling of a rolled material divides a section from when the rolled material leaves the finishing mill to when it is wound up into a plurality of sections, and a plurality of water injections are provided for each section. Sprays are allocated, and every time the rolled material moves through each section, actual data such as the speed and temperature of the rolled material at the finish rolling mill output side and the winding machine are collected, and based on this, the finishing temperature disturbance, the rolled material speed In addition to calculating the required cooling amount change due to the acceleration rate and considering the response delay of the valve, the number of advanced valves is dynamically reset.

The rolled material cooling control device according to the second aspect of the present invention determines a required cooling amount change due to a finishing temperature disturbance, a rolled material speed and a deceleration rate, and considers a response delay of a valve by a cooling pattern determining device. Dynamically reset the number of advance valves.

A cooling control device for a rolled material according to a third aspect of the present invention determines a required cooling amount change due to a finishing temperature disturbance, a rolled material speed and an acceleration / deceleration rate, and considers a response delay of a valve by a cooling pattern determination device. Dynamically reset the number of advance valves.

[0022]

【Example】

Embodiment 1 FIG. Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In FIG. 1, reference numeral 1 denotes a rolled material rolled by a finish rolling mill 2, 3 denotes a run-out table, 4 denotes a winding machine for the rolled material 1, and 5 a and 5 b are provided on the run-out table 3 to cool the rolled material 1. And a cooling bank for fine adjustment.

From the exit side of the finishing mill 2, the winding machine 4
The section up to is divided into a plurality of control sections for tracking, and the following processing is performed at the timing when the rolled material 1 passes through each control section.

The finish rolling mill 2 has a finish delivery speed meter 7, a finish delivery thickness gauge 8 and a finish delivery thermometer 9.
Is installed. A take-up thermometer 10 is provided on the output side of the run-out table 3, and a take-up speedometer 11 is provided on the take-up machine 4.

Further, reference numeral 12 denotes a speed correction arithmetic unit, which receives the respective detection signals of the finishing speed meter 7 and the winding speed meter 11 and calculates the rolling material speed and the acceleration rate. This acceleration rate is given to the temperature calculating device 13 together with the detection signals of the finishing outlet thickness gauge 8, the finishing outlet thermometer 9, and the winding thermometer 10. The temperature calculating unit 13 calculates by based the amount of temperature drop with respect to the target coiling temperature rolled material speed, the acceleration rate and the respective detection signal.

In the cooling pattern determination device 14, the number i of advance valves is determined from the rolling material speed and the acceleration rate in the control section calculated by the speed correction calculation device 12, and the water injection bank pattern after the control section is reset. Is done.

[0027] That is, i of the first-out number valve, the t _B valve response delay time, a V ₀ plate speed, a the acceleration rate, the L _B 1
Given the bank length , the number i of advance valves is i = ｛V ₀
· T _B + (1/2) becomes ^{_{a · t B 2} / L}} B. Water injection is performed by the valve opening / closing device 15 based on a water injection command output from the cooling pattern determination device 14.

Here, each of the arithmetic units such as the speed correction arithmetic unit 12, the temperature arithmetic unit 13 and the cooling pattern determining unit 14 has a rolling condition based on the concept of stratification according to rolled material specifications such as the size and composition of the rolled material 1. The calculation is performed using the actual values.

Next, the operation will be described. FIG. 2 is a block diagram showing a cooling control operation in the cooling control device of this embodiment. First, it is assumed that each of the arithmetic units of the speed correction arithmetic unit 12, the temperature arithmetic unit 13, and the cooling pattern determination unit 14 previously stores physical property values, model constants, initial values of variables, and the like necessary for various calculations. . In this case, physical property values such as specific heat and specific gravity are stored as stratified data having different values depending on the size, components, and the like of the rolled material 1.

Therefore, for the portion from the leading end of the rolled material 1 which is cooled while being accelerated to reach a constant speed, every time the rolled material 1 moves the control section length, the finishing unwinding speed or the winding-up speed is increased. The speed is given as an input value to the speed correction arithmetic unit 12, where the rolled material speed and the acceleration rate are obtained.

Next, in the temperature calculating device 13, the rolling material speed and the acceleration rate, the target winding temperature, the temperature on the finishing outlet, the sheet thickness on the finishing outlet, The winding temperature is input, and the temperature drop is calculated from these values.

Then, the cooling pattern determining device 14
The temperature drop amount obtained by the temperature calculation device 13 is input,
The number of advance valves is determined from this and the rolled material speed and acceleration rate in the control section obtained by the speed correction arithmetic unit 12, and the water injection bank pattern after the control section is reset.

As described above, even for the rolled material portion cooled while being accelerated, the number of advance valves is changed every moment according to the speed change, thereby compensating for the change in the plate speed and the response delay of the valve. High winding temperature control can be realized.

Embodiment 2 FIG. FIG. 3 is a block diagram showing a cooling control operation according to an embodiment of the present invention. First, it is assumed that each of the arithmetic units of the speed correction arithmetic unit 12, the temperature arithmetic unit 13, and the cooling pattern determination unit 14 previously stores physical property values, model constants, initial values of variables, and the like necessary for various calculations. . In this case, physical property values such as specific heat and specific gravity are stored as stratified data having different values depending on the size, components, and the like of the rolled material 1.

Therefore, every time the rolled material 1 moves the control section length with respect to the tail end portion of the rolled material 1 which is cooled while being decelerated, the finishing output side speed or the winding speed is changed to the speed correction arithmetic unit 12. Here, the rolling material speed and the deceleration rate are obtained.

Next, in the temperature calculating device 13, the rolling material speed and the deceleration rate, the target winding temperature, the temperature on the finishing outlet, the sheet thickness on the finishing outlet, The winding temperature is input, and the temperature drop is calculated from these values.

Then, the cooling pattern determining device 14
The temperature drop amount obtained by the temperature calculation device 13 is input,
The number of advance valves is determined from this and the rolled material speed and deceleration rate in the control section obtained by the speed correction arithmetic unit 12, and the water injection bank pattern after the control section is reset.

As described above, even for the rolled material portion cooled while being decelerated, the number of advance valves is changed every moment according to the speed change, thereby compensating for the change in the plate speed and the response delay of the valve. Winding temperature control can be realized.

Embodiment 3 FIG. FIG. 4 is a block diagram showing the cooling control operation according to the third embodiment of the present invention. First, it is assumed that each of the arithmetic units of the speed correction arithmetic unit 12, the temperature arithmetic unit 13, and the cooling pattern determination unit 14 previously stores physical property values, model constants, initial values of variables, and the like necessary for various calculations. . In this case, physical property values such as specific heat and specific gravity are stored as stratified data having different values depending on the size, components, and the like of the rolled material 1.

Therefore, every time the rolled material moves the control section length, the finishing unwinding speed or the winding speed is given as an input value to the speed correction arithmetic unit 12, where the rolled material speed and the acceleration / deceleration rate are obtained. .

Next, in the temperature calculating device 13, the rolled material speed and the acceleration / deceleration rate, the target winding temperature, the finishing outlet temperature, the finishing outlet plate thickness, The winding temperature is input, and the temperature drop is calculated from these values.

Then, the cooling pattern determining device 14
The temperature drop amount obtained by the temperature calculation device 13 is input,
The number of advance valves is determined from this and the rolling material speed and the acceleration / deceleration rate in the control section obtained by the speed correction arithmetic unit 12, and the water injection bank pattern after the control section is reset.

After the leading end of the rolled material 1 bites into the winding machine 4, feedback control for performing PI control of the cooling bank 5b for fine adjustment using the error between the actual winding temperature and the target winding temperature is combined. .

[0044]

As described above, according to the first aspect of the present invention, a speed correction calculating device for calculating a rolled material speed and an acceleration rate, a rolled material speed and an acceleration rate, a target winding temperature,
A temperature calculating device for calculating a temperature drop amount based on a temperature and a thickness on the finishing outlet side and a winding temperature, and a cooling bank is provided in the cooling pattern determination device based on the temperature drop amount, the rolled material speed and the acceleration rate. Because it was configured to set the number of advance valves in and the water injection bank pattern after the control section, even for the rolled material part that is cooled while being accelerated, by changing the number of advance valves every moment according to the speed change, There is an effect that a device capable of realizing highly accurate winding temperature control that compensates for a change in the plate speed and a response delay of the valve is obtained.

According to the second aspect of the present invention, there is provided a speed correction calculating device for calculating a rolled material speed and a deceleration rate, a rolled material speed and a deceleration rate, a target winding temperature, a temperature and a thickness on the finishing unwinding side, and a winding speed. A temperature calculating device for calculating the amount of temperature drop based on the temperature taken, and a cooling pattern determining device,
Since the number of advance valves in the cooling bank and the water injection bank pattern after the control section are set based on the temperature drop amount, the rolled material speed and the deceleration rate, the rolled material portion cooled while being decelerated is also set. By changing the number of advance valves every moment according to the speed change, it is possible to obtain a device capable of realizing highly accurate winding temperature control that compensates for a change in plate speed and a response delay of the valve.

According to the third aspect of the invention, there is provided a speed correction calculating device for calculating a rolled material speed and an acceleration / deceleration rate, and a rolled material speed and an acceleration / deceleration rate, a target winding temperature, a temperature and a thickness on the finishing delivery side, and A temperature calculating device for calculating a temperature drop amount based on the winding temperature; and a cooling pattern determining device, wherein the number of advance valves in the cooling bank and the control section and subsequent portions are determined based on the temperature drop amount, the rolled material speed and the acceleration / deceleration rate. Since the configuration is such that the water injection bank pattern is set, for the rolled material whose speed changes during cooling, the number of advance valves should be changed every moment according to the speed change based on the rolled material speed and the acceleration / deceleration rate. Therefore, it is possible to perform feedback control based on a winding temperature error and realize highly accurate winding temperature control over the entire length of the rolled material. There is an effect to be.

[Brief description of the drawings]

FIG. 1 is a configuration diagram illustrating a cooling control device for a rolled material according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a cooling control operation according to the embodiment of the present invention.

FIG. 3 is a block diagram showing a cooling control operation according to an embodiment of the present invention.

FIG. 4 is a block diagram showing a cooling control operation according to an embodiment of the present invention.

FIG. 5 is a configuration diagram showing a conventional rolled material cooling control device.

6 is a characteristic diagram showing a relationship between speed and time of a rolled material in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Rolled material 2 Finishing rolling machine 4 Winding machine 5a Cooling bank 5b Cooling bank for fine adjustment (cooling bank) 7 Finishing exit side speed meter 8 Finishing exit side thickness gauge 9 Finishing exit side thermometer 10 Winding thermometer 11 Winding Speedometer 12 Speed correction calculation device 13 Temperature calculation device 14 Cooling pattern determination device

Claims (3)

(57) [Claims] 1. A cooling bank for cooling a rolled material rolled by a finish rolling mill during transportation, a winding machine for winding the rolled material cooled by the cooling bank, and a winding machine provided near the finish rolling mill, A finishing outlet speedometer, a finishing outlet thickness gauge, and a finishing outlet thermometer for measuring the speed, thickness, and temperature of the rolled material on the finishing outlet, respectively, and a winder for winding the rolled material provided near the winding machine. The control section length is moved with respect to the winding thermometer and the winding speed meter that measure the winding temperature and the winding speed, respectively, and the portion from the leading end of the rolled material that is cooled while being accelerated until reaching a constant speed. A speed correction calculating device for calculating a rolled material speed and an acceleration rate based on each measurement value of the finishing unwinding speed meter and the winding speedometer for each time; Finish A temperature calculating device for calculating a temperature drop amount on the basis of the temperature and thickness on the lifting side and the winding temperature; and a number and control of advance valves in the cooling bank based on the temperature drop amount, rolled material speed and acceleration rate. A cooling control device for a rolled material, comprising: a cooling pattern determination device that sets a water injection bank pattern after a section. 2. A cooling bank for cooling a rolled material rolled by a finishing mill in the course of conveyance, a winding machine for winding the rolled material cooled by the cooling bank, and a winding machine provided near the finishing mill. A finishing outlet speedometer, a finishing outlet thickness gauge, and a finishing outlet thermometer for measuring the speed, thickness, and temperature of the finished rolled material , respectively, and a winding machine for winding the rolled material provided near the winding machine; A winding thermometer and a winding speed meter for measuring the temperature and the winding speed, respectively, and the above-mentioned finishing operation is performed each time the rolled material moves the control section length with respect to the tail end of the rolled material cooled while being decelerated. A speed correction calculating device for calculating the rolled material speed and the deceleration rate based on the measured values of the side speed meter and the winding speedometer, the rolled material speed and the deceleration rate, the target winding temperature, and the temperature on the finishing unwinding side. and A temperature calculating device for calculating a temperature drop amount based on the thickness and the winding temperature; and a water injection bank after the number of advance valves in the cooling bank and a control section based on the temperature drop amount, the rolling material speed and the deceleration rate. A cooling control device for a rolled material, comprising a cooling pattern determining device for setting a pattern. 3. A cooling bank for cooling a rolled material rolled by a finish rolling mill during transportation, a winding machine for winding the rolled material cooled by the cooling bank, and a winding machine provided near the finish rolling mill, A finishing outlet speedometer, a finishing outlet thickness gauge, and a finishing outlet thermometer for measuring the speed, thickness, and temperature of the finished rolled material , respectively, and a winding machine for winding the rolled material provided near the winding machine; A winding thermometer and a winding speed meter for measuring a temperature and a winding speed, respectively, and a finishing outlet speed meter and a winding speed meter each time the rolled material moves the control section length based on the measured values. , A speed correction calculating device for calculating the rolled material speed and the acceleration / deceleration rate, and a temperature drop based on the rolled material speed and the acceleration / deceleration rate, the target winding temperature, the temperature and thickness on the finishing outlet side, and the winding temperature. A temperature calculating device for calculating the amount, and a cooling pattern determining device for setting the number of advance valves in the cooling bank and a water injection bank pattern after the control section based on the temperature drop amount, the rolling material speed and the acceleration / deceleration rate. Rolled material cooling control device.