KR102119981B1 - Method and apparatus for controlling temperature of continuous annealing furnace - Google Patents

Abstract

An object of the present invention is to provide a method and an apparatus for temperature control of a continuous annealing furnace, which prevent temperature hunting from occurring in a steel strip. The method for temperature control of the continuous annealing furnace according to one embodiment of the present invention includes the following steps of: continuously measuring whiteness of the steel strip containing different steel grades; detecting a difference in the whiteness in an interval where the whiteness changes rapidly from measured whiteness data; and reading the temperature hunting amount corresponding to the difference in the whiteness from a database and adjusting the temperature of a heating section and a cooling section of the continuous annealing furnace.

Description

METHOD AND APPARATUS FOR CONTROLLING TEMPERATURE OF CONTINUOUS ANNEALING FURNACE}

The present invention relates to a method and apparatus for controlling the temperature of a continuous annealing furnace in a continuous annealing process.

Annealing is performed in order to secure the material of the cold rolled steel sheet desired by the customer. In an annealing furnace, heating and cooling are performed. At this time, the annealing operation must be performed within the annealing temperature standard.

In the case of Giga Steel, many elements such as Mn, Si, Cr, and C are added, but an oxide layer is formed on the surface, so that the strip surface is darker than that of ordinary steel. Accordingly, when the welded part where the general steel and giga steel are connected enters the continuous annealing furnace, temperature hunting occurs in the range of +10°C to +80°C in the heating section, and -10°C to -50 in the cooling section. Hunting of the temperature of about ℃ occurs.

The target range of the annealing temperature is, for example, 850±10°C, and the range is very narrow. When temperature hunting occurs, it is difficult to hit the target range. If the annealing temperature is not reached, it is important to work within the target range of the annealing temperature, because material failure of the steel sheet (reducing HER and lowering YS, etc.) occurs, and if the annealing temperature is too high, it can damage the walls of the continuous annealing furnace.

Patent Publication No. 2003-0053618

The present invention is to solve the problems as described above, before the steel sheet strip enters the continuous annealing furnace, an on-line remote whiteness measuring device is installed at the rear end of the pretreatment facility, and temperature hunting is performed in advance based on the whiteness data measured thereby. It is an object of the present invention to provide a temperature control method and a temperature control device for a continuous annealing furnace to prevent temperature hunting of the steel strip by predicting the amount of (Hunting) in advance and adjusting the temperature of the continuous annealing furnace.

The method for controlling the temperature of a continuous annealing furnace according to an embodiment of the present invention includes continuously measuring whiteness of a steel strip containing different steel types before entering the continuous annealing furnace, and the whiteness rapidly changes from the measured whiteness data. The method includes detecting a difference in whiteness in a section and adjusting the temperature of the heating section and the cooling section of the continuous annealing furnace by reading the amount of temperature hunting corresponding to the difference in whiteness from a database.

The temperature hunting amount includes a first temperature hunting amount generated in the heating section and a second temperature hunting amount generated in the cooling section, and when the difference in whiteness has a negative value, the temperature of the heating section Is adjusted as low as the first temperature hunting amount, and the temperature of the cooling section is adjusted as high as the second temperature hunting amount. When the difference in whiteness has a positive value, the temperature of the heating section is adjusted as high as the first temperature hunting amount, and the temperature of the cooling section is adjusted as low as the second temperature hunting amount.

The apparatus for controlling the temperature of a continuous annealing furnace according to an embodiment of the present invention includes a database including a temperature hunting amount of a steel strip according to a difference in whiteness, and steel plates containing different steel types before entering the continuous annealing furnace. A whiteness measurement unit continuously measuring the whiteness of the strip, a signal processing unit that detects a difference in whiteness in a section in which the whiteness rapidly changes from the measured whiteness data, and continuously reads the temperature hunting amount corresponding to the whiteness difference from the database It includes a temperature control unit for adjusting the temperature of the heating section and the cooling section of the annealing furnace.

According to the present invention, the whiteness of the steel strip is continuously measured on-line and the temperature of the annealing furnace is adjusted in advance according to the result to prevent temperature hunting of the steel strip, thereby improving the material defect of the steel sheet and the load on the continuous annealing furnace. can do.

In addition, in the case of annealing steel strips welded with different steel types, the operator is currently controlling the COG (Coke Oven Gas) flow rate of the heating section and the cooling spray flow rate of the cooling section to hit the annealing furnace temperature. COG flow rate and cooling spray flow rate are automatically controlled based on the whiteness measurement result, so that the operator load can be reduced.

1A and 1B are graphs exemplarily showing a temperature hunting phenomenon in a heating section of a continuous annealing furnace and a temperature hunting phenomenon in a cooling section of a continuous annealing furnace, respectively.
2 is a view showing a temperature control device of a continuous annealing furnace according to an embodiment of the present invention.
3 is a flowchart showing a temperature control method of a continuous annealing furnace according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

1A and 1B are graphs exemplarily showing a temperature hunting phenomenon in a heating section of a continuous annealing furnace and a temperature hunting phenomenon in a cooling section of a continuous annealing furnace, respectively.

When a welded part in which ordinary steel (soft steel) and giga steel are connected enters a continuous annealing furnace, temperature hunting occurs due to a difference in whiteness due to the surface oxide layer. Giga steel, which contains many alloying components such as Mn, Si, Cr, and C, has many oxides on its surface, making it dark in color and having a low whiteness compared to ordinary steel (soft steel). For example, the whiteness of giga steel is about 70 to 80, and the whiteness of general steel may be 90 or more. Since Giga Steel has lower whiteness and higher emissivity than ordinary steel, Giga Steel is easier to absorb and release heat than ordinary steel.

It depends on the material, but mainly in the heating section, hunting occurs at +10~80℃, and in the cooling section, hunting occurs at -10~50℃. Referring to (a) of FIG. 1, it can be seen that the temperature of the steel sheet strip is about +70° C. while the steel grade changes from ordinary steel (soft steel) to giga steel in the heating section of the continuous annealing furnace. 1(b), it can be seen that the temperature of the steel sheet strip is about -25°C while the steel grade changes from ordinary steel (soft material) to giga steel in the heating section.

In (a) and (b) of FIG. 1, when steel grades are changed from general steel (soft steel) to giga steel, and vice versa, the same or similar temperature hunting occurs when steel grades are changed from giga steel to soft steel. do.

In order to prevent the defective material of the steel sheet, it is necessary to prevent the temperature hunting as described above.

2 is a view showing a temperature control device of a continuous annealing furnace according to an embodiment of the present invention.

The continuous annealing process, as shown in Figure 2, the steel strip (S) is continuously supplied to the heating zone 30, cracking zone 32, cooling zone 34, over-aging zone 36 of the continuous annealing furnace 20 ), and gives the desired target mechanical properties to the steel sheet strip S by heat treatment while passing up to the finish cooling table 38.

In order to control the continuous annealing process, it is important to control the temperature in each of the heating zone 30, the cracking zone 32, the cooling zone 34, the over-aging zone 36, and the finishing cooling zone 38. As illustrated, radiation thermometers 40 for measuring the temperature of the steel sheet strip S are installed at the exit sides of each annealing furnaces 30, 32, 34, 36, and 38.

There is a pretreatment facility 10 for removing the rolling oil on the surface of the steel strip before entering the continuous annealing furnace, and a long distance whiteness measuring unit 15 is installed at the rear end of the pretreatment facility 10. The whiteness measurement unit 15 continuously measures the whiteness of the surface of the steel strip that has passed through the pretreatment facility 10 in real time.

The temperature control device 50 of the continuous annealing furnace uses the information of the whiteness measurement unit 15 and the radiation thermometers 40, a heating table 30, a cracking table 32, a cooling table 34, an over-aging table ( 36), and the temperature of the finishing cooling zone 38 can be adjusted. The temperature control device 50 of the continuous annealing furnace may include a whiteness measurement unit 15, a database 52, a signal processing unit 54, and a temperature control unit 56.

The database 52 may include a temperature hunting amount of a steel strip according to a correlation between a pre-built whiteness and emissivity through experiment and a whiteness difference.

The signal processing unit 54 analyzes the whiteness data received from the whiteness measurement unit 15 to extract the whiteness difference when the whiteness changes rapidly. The whiteness difference may have a positive value or a negative value. The signal processing unit 54 transmits the whiteness and whiteness difference to the temperature control unit 56.

The temperature control unit 56 receives the emissivity and the temperature hunting amount corresponding to the received whiteness and whiteness difference from the database 52, and corrects the temperature of the radiation thermometers 40 based on this, as well as temperature hunting In order to prevent other steel types having a difference in whiteness, the temperature of the continuous annealing furnace 20 is adjusted in advance before entering the continuous annealing furnace 20. The temperature control unit 56 adjusts the COG flow rate of the heating section and the cooling spray flow rate of the cooling section in advance in preparation for the predicted temperature hunting amount to hit the temperature within the target range.

In the case of giga steel, since the temperature rises in the heating section (heating zone, cracking zone, over-aging zone), the amount of COG is reduced in advance to manage the annealing furnace temperature as low as the temperature hunting amount, and the cooling zone (cooling zone, finish cooling) Because the temperature decreases, the temperature is controlled as high as the temperature hunting amount, such as reducing the amount of spray or turning off the cooling fan to prevent excessive temperature hunting of the giga steel.

3 is a flowchart showing a temperature control method of a continuous annealing furnace according to an embodiment of the present invention.

First, through the experiment, a database 52 including a temperature hunting amount of a steel strip according to a correlation between whiteness and emissivity and a difference in whiteness is constructed (S10). The temperature hunting amount includes a first temperature hunting amount generated in the heating section of the continuous annealing furnace 20 (see FIG. 2) and a second temperature hunting amount generated in the cooling section.

The whiteness measurement unit 15 (see FIG. 2) continuously measures the whiteness of the steel strips containing different steel types (S20).

The signal processing unit 54 analyzes the whiteness data received from the whiteness measurement unit 15 to extract the whiteness difference when the whiteness changes rapidly (S30). The whiteness difference may have a positive value or a negative value.

The temperature control unit 56 reads the emissivity and the temperature hunting amount corresponding to the whiteness and the whiteness difference from the database 52, and corrects the temperature of the radiation thermometers 40 based on this, as well as preventing temperature hunting In order to adjust the temperature of the continuous annealing furnace 20 in advance before another steel type having a difference in whiteness enters the continuous annealing furnace 20 (S40).

In the temperature control unit 56, the heating section (heating zone, cracking zone, over-aging zone) before the steel species having different whiteness reflects the received temperature hunting amount before entering the heating section (heating zone, crack zone, over-aging zone) of the continuous annealing furnace. Adjust the temperature in advance and adjust the temperature of the cooling section (cooling zone, finishing cooling zone) in advance before entering the cooling section (cooling zone, finishing cooling zone) of the continuous annealing furnace with different whiteness.

When the difference in whiteness has a negative value (for example, when a steel grade changes from ordinary steel to giga steel), the steel with a lower whiteness (eg giga steel) is heated before it enters the continuous annealing furnace. The temperature of the section may be adjusted as low as the first temperature hunting amount, and the temperature of the cooling section may be adjusted as high as the second temperature hunting amount.

When the difference in whiteness has a positive value (for example, when a steel grade changes from giga steel to normal steel), the steel with a higher whiteness (eg, normal steel) is heated before entering into each unit process furnace. The temperature of the section may be adjusted as high as the first temperature hunting amount, and the temperature of the cooling section may be adjusted as low as the second temperature hunting amount.

After the database 52 is built, only the steps of S20, S30, S40 can be performed to control the temperature of the continuous annealing furnace 20. The database 52 may be rebuilt when necessary, such as the development of new steel grades.

Although described with reference to the above embodiment, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Will be able to understand.

10: pre-treatment equipment, 15: whiteness measuring unit, 20: continuous annealing furnace, 40: radiation thermometer, 50: temperature control device, 52: database, 54: signal processing unit, 56: temperature control unit

Claims (4)

Continuously measuring the whiteness of the steel strips containing different steel grades before entering the continuous annealing furnace;
Extracting a difference in whiteness in a section where the whiteness changes rapidly from the measured whiteness data; And
A method for controlling the temperature of a continuous annealing furnace, comprising: reading a temperature hunting amount corresponding to the difference in whiteness from a database and adjusting the temperature of the heating section and the cooling section of the continuous annealing furnace.
According to claim 1,
The temperature hunting amount includes a first temperature hunting amount generated in the heating section and a second temperature hunting amount generated in the cooling section,
When the difference in whiteness has a negative value,
Adjust the temperature of the heating section as low as the first temperature hunting amount,
A method of controlling the temperature of a continuous annealing furnace that adjusts the temperature of the cooling section as high as the second temperature hunting amount.
According to claim 1,
The temperature hunting amount includes a first temperature hunting amount generated in the heating section and a second temperature hunting amount generated in the cooling section,
When the difference in whiteness has a positive value,
Adjust the temperature of the heating section as high as the first temperature hunting amount,
A method of controlling the temperature of a continuous annealing furnace to control the temperature of the cooling section to be as low as the second temperature hunting amount.
A database including a temperature hunting amount of the steel strip according to the difference in whiteness;
Whiteness measuring unit for continuously measuring the whiteness of the steel strip containing different steel types before entering the continuous annealing furnace;
Signal processing unit for detecting a difference in whiteness in a section where the whiteness changes rapidly from the measured whiteness data: and
And a temperature control unit for reading the temperature hunting amount corresponding to the difference in whiteness from the database and adjusting the temperature of the heating section and the cooling section of the continuous annealing furnace.

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