KR100936884B1 - Control method for thickness of slab using a finishing mill - Google Patents

Abstract

The present invention relates to a method for controlling the thickness of a steel sheet using a finishing mill, wherein the reversing rolling roll according to the present invention and the first and second heating furnaces disposed in the left and right directions of the rolling roll are used to The thickness control method of the steel plate using a finishing mill for rolling the thickness comprises the steps of fixing the front end portion of the steel sheet through the rolling roll to the first heating furnace; Spraying cooling water onto the rolling rolls and the steel sheet and applying tension to the steel sheet fixed to the first heating furnace to wind the first rolling furnace; Unwinding the steel sheet wound in the first heating furnace and rolling the steel sheet between the rolling rolls to roll the steel sheet; Fixing a rear end of the steel sheet to the second heating furnace; And spraying cooling water onto the rolling rolls and the steel sheet, and applying tension to the steel sheet fixed to the second heating furnace to wind the second rolling furnace.

Finishing mill, heating furnace, thickness deviation

Description

CONTROL METHOD FOR THICKNESS OF SLAB USING A FINISHING MILL}

The present invention relates to a method for controlling the thickness of a steel sheet using a finishing mill, and more particularly, to control the thickness of a steel sheet using a finishing mill to prevent the thickness variation of the front / rear and middle portions of the steel sheet generated in the finishing rolling process. It is about a method.

In general, the hot rolling process is heated in the heating furnace slab, and then proceeds in the order of rough rolling, finishing rolling, cooling, winding, etc. to ship the standardized hot rolled steel sheet.

In the rough rolling process, a roll for rolling the width of a steel sheet using an edger roll is a process of firstly rolling a slab transferred from a casting machine in the form of a steel sheet.

Finish rolling is the process of secondary rolling which rolls a roughly rolled steel plate to a final target thickness using the continuous rolling mill which arranged 6-7 rolling mills continuously, or one reverse rolling mill (Stekel mill). Here, the finishing type rolling using the reversing rolling mill shows lower productivity compared to the continuous rolling mill, but heating devices called coil furnaces are installed on the left and right sides of the reversing rolling mill to produce high quality steel sheets. Can be. That is, the coil heating furnace is to perform the rolling process while winding the steel sheet increased after rolling, it is possible to maintain the temperature of the steel sheet uniformly, to prevent material defects of the steel sheet due to the temperature change. As a result, in recent years, in the rolling of high-grade steel such as stainless steel, there are many cases of using a finishing rolling facility using a reverse rolling mill.

The finishing rolling process by the reversing rolling mill consists of 5 to 7 passes in total. One pass means the process of rolling a steel plate in a rolling roll, and winding a steel plate in coil shape in the coil heating furnace arrange | positioned at the side of a rolling roll. At this time, in order to wind up a steel plate in the heating furnace provided in the right side of the steel plate, after fixing the front-end | tip part of a steel plate to a heating furnace, it winds up in a heating furnace, adding tension to a steel plate. This is because, when the steel sheet is wound in a heating furnace without applying tension to the steel sheet, the winding shape of the steel sheet is poor in the heating furnace, so that rolling is difficult.

Subsequently, the steel sheet wound up in the heating furnace is unwound and unrolled into the heating furnace sulked on the left side of the steel sheet through a rolling roll. At this time, in order to wind up a steel plate in the heating furnace provided in the left side of the steel plate, after fixing the rear end part of the steel plate to a heating furnace, tension is added to the steel plate and the steel plate is wound up by the heating furnace. Further, in order to prevent thermal expansion of the rolling rolls and to reduce friction between the steel sheet and the rolling rolls, cooling water is sprayed on the rolling rolls and the steel sheets.

However, there is a region in which the tension is not applied to the steel sheet in the part of rolling the front end portion and the rear end portion of the steel sheet, and the thickness of the plate becomes thicker at the front end portion and the rear end portion than in the middle portion to which the tension is applied. That is, the thickness of the steel sheet is reduced as the tension is added, the tension is applied to the steel sheet subjected to the finishing rolling process, the tension is added only to the middle portion of the steel sheet, the thickness width deviation of the steel sheet occurs. As can be seen in Figure 1, while the middle portion of the steel sheet is almost close to the thickness of the existing set target steel plate, the front end and the rear end of the steel sheet can be seen that the deviation is larger than the thickness of the conventional set steel sheet.

As described above, in a facility for performing finishing rolling with a reversing rolling mill, there is a problem in that thickness variation occurs at the front end and the rear end of the steel sheet so that the thickness of the steel sheet cannot be uniformly rolled.

Therefore, the present invention is derived to solve the above-described problems, the present invention is to provide a cooling water supply to the front end and the rear end of the steel sheet is not applied tension in order to prevent the thickness variation of the steel sheet generated in the finishing rolling process It is an object of the present invention to provide a method for controlling the thickness of a steel sheet using a finishing mill for blocking and uniformly rolling the thickness of the steel sheet.

According to an aspect of the present invention for achieving the above object, the thickness of the steel sheet using the inverted rolling roll and the first heating furnace and the second heating furnace disposed in the left and right directions of the rolling roll according to the present invention Method for controlling the thickness of a steel sheet using a finishing mill for rolling the step of fixing the front end portion of the steel sheet that is passed through the rolling roll to the first heating furnace; Spraying cooling water onto the rolling rolls and the steel sheet and applying tension to the steel sheet fixed to the first heating furnace to wind the first rolling furnace; Unwinding the steel sheet wound in the first heating furnace and rolling the steel sheet between the rolling rolls to roll the steel sheet; Fixing a rear end of the steel sheet to the second heating furnace; And spraying cooling water onto the rolling rolls and the steel sheet, and applying tension to the steel sheet fixed to the second heating furnace to wind the second rolling furnace.

In this case, the fixing of the steel sheet to the first and second heating furnaces may be in a tensionless state in which tension is not applied to the steel sheet, and cooling water may not be sprayed onto the steel sheet and the rolling roll.

According to the present invention as described above, in order to prevent the thickness variation of the steel sheet generated in the finishing rolling process, the supply of cooling water is cut off at the front end and the rear end of the steel sheet to which the tension is not applied to uniformly roll the thickness of the steel sheet. As a result, a separate process is not performed according to the thickness variation of the steel sheet, thereby reducing the manufacturing cost and producing a steel sheet having excellent quality.

Hereinafter, with reference to the drawings showing an embodiment of the present invention, the present invention will be described in more detail.

2 is a schematic view showing a continuous hot rolling process according to the present invention.

Referring to FIG. 2, in the continuous hot rolling process, primary rolling is performed to form a steel plate 110b having a predetermined size by rolling the width and thickness of the slab 110a heated in the heating furnace 100 by the rough rolling machine 120. Perform the process. The steel sheet 110b having the primary rolling process is rolled into a steel sheet having a final thickness and width by performing the secondary rolling process in the finishing mill 130 provided with the rolling roll 131. At this time, the cooling water is sprayed on the rolling roll 131 and the steel sheet 110c by using the cooling water head 132 installed around the rolling roll 131. This is to prevent thermal expansion of the rolling roll 131 and to reduce friction between the steel sheet 110c and the rolling roll 131. Thereafter, the rolled steel sheet 110d is cooled by the lamina flow 140 to provide the mechanical properties required for the steel sheet 110d. The steel sheet 110d cooled by the lamina flow 140 is wound around the pinch roll 150 in a coil shape and shipped to the hot rolled steel sheet.

However, in the portion where the front end portion 111 (see FIG. 5) and the rear end portion 113 (see FIG. 5) of the steel sheet 110c are rolled, there is an area where tension is not applied to the steel sheet 110c, and the intermediate portion where the tension is added. Compared to the front end 111 and the rear end 113, the thickness of the steel sheet 110c is increased.

Accordingly, in the present embodiment, in order to roll the thickness of the line / rear end portions 111 and 113 and the middle portion 112 of the steel plate 110c in the same manner, the line / rear end portions 111 and 113 of the steel plate having different tension application conditions are formed. And the temperature of the intermediate portion 112 is set differently.

3 and 4 are graphs of the reduction force diagram.

The rolling force graph is a contact point X at which the elastic curve S of the gap between the rolling rolls 131 and the plastic curve H determined by the steel sheet 110c (rolled material or rolling conditions) meet during the rolling process. It is a graph for demonstrating the concept by which the rolling load and the thickness of the rolled steel plate 110c are determined.

3 and 4, the X axis represents the thickness of the steel sheet, the Y axis represents the rolling load. In the steel plate 110c, a value corresponding to the horizontal axis of the contact point where the elastic curve C and the plastic curve H meet is rolled to the thickness of the steel plate 110c.

As shown in the graph, when the tension is reduced in the steel sheet 110c, the firing curve is moved from H to H '. At this time, if the roll gap between the rolling rolls 131 does not change, the rolling load is increased to move the contact point between the plastic curve H and the elastic curve C from X to X '. Accordingly, the steel sheet 110c is rolled to h 'thicker than the existing set thickness h.

In addition, when the temperature of the steel sheet 110c rises, the steel sheet 110c can be rolled even with a small rolling load, and the firing curve is shifted from H to H ''. Accordingly, the contact point of the firing curve H and the elastic curve C is moved from X to X ''. Accordingly, the steel sheet 110c is rolled to h '' thinner than the previously set thickness h.

Accordingly, in the present embodiment, the thickness of the steel sheet 110c is controlled by using the above-described rolling force diagram. Referring to FIG. 4, the front end portion 111 and the rear end portion 113 of the steel sheet 110c have a region where tension is not added in the portion to be rolled, so that the firing curve should be moved from H to H ′, in this case, the steel sheet 110c ) To stop the cooling water spray to increase the temperature of the steel sheet (110c) to prevent the plastic curve (H) from moving. That is, the firing curve H 'of the steel sheet 110c that is moved as the tension is reduced is moved to a previously set position H as the temperature of the steel sheet 110c rises.

Accordingly, in the present embodiment, the front end portion 111 and the rear end portion 113 of the steel sheet 110c stop the spraying of the coolant in a region where tension is not applied in the portion to be rolled so that the front / rear portions 111 and 113 of the steel sheet 110c are stopped. By increasing the temperature of), the thickness of the intermediate portion 112 of the steel sheet 110c, the tension is applied and the cooling water is sprayed to lower the temperature can be equally rolled.

5A to 5E are perspective views illustrating a rolling method of a steel sheet using a reverse rolling roll in a finishing rolling process according to the present invention.

The finishing rolling process by the reversing rolling mill generally consists of 5-7 passes. One pass means the process of rolling a steel plate in a rolling roll, and winding a steel plate in coil shape in the heating furnace arrange | positioned at the side of a rolling roll. That is, the finishing rolling process refers to a process of rolling a steel sheet by repeatedly performing such a pass.

Referring to FIG. 5A, the steel sheet 110c carried into the finishing mill (see FIG. 2 and 130) by the moving roller is transferred to the second heating furnace 133 installed on the right side of the steel sheet 110c through the rolling roll 131. It is fixed.

Referring to FIG. 5B, the steel sheet 110c is wound around the heating furnace by applying tension to the steel sheet 110c fixed to the second heating furnace 133. At this time, in order to prevent thermal expansion of the rolling roll 131 and to reduce friction between the steel plate 110c and the rolling roll 131, the rolling roll 131 may be used by using the cooling water head 132 installed around the rolling roll 131. Cooling water (or lubricating oil) is injected into the 131 and the steel plate 110c. Alternatively, the cooling water is sprayed onto the rolling rolls 131 so that the cooling water flows down to the steel sheet 110c through the rolling rolls 131. As a result, the temperature of the steel sheet 110c is lowered. As such, the middle portion 112 of the steel sheet 110c has a temperature lowered due to the cooling water sprayed, so that the front and rear ends 111 and 113 of the steel sheet 110c are higher than the temperature of the steel sheet middle portion 112 and the tension is not applied. Rolled to equal thickness.

Referring to FIG. 5C, the steel sheet 110c wound up in the second heating furnace 133 is unwound and plated between the rolling rolls 131. As a result, the steel sheet 110c is rolled. Thereafter, the steel sheet 110c is fixed to the first heating furnace 134 without applying tensile force to the steel sheet 110c. At this time, cooling water is not supplied to the rolling rolls 131 and the steel sheet 110c, so that the temperature of the steel sheet 110c is increased. As a result, the rear end portion 113 of the steel sheet 110c is rolled to have the same thickness as the middle portion 112 of the steel sheet 110c.

Referring to FIG. 5D, the steel sheet 110c is wound around the first heating furnace 134 by applying tension to the steel sheet 110c fixed to the first heating furnace 134. At this time, the cooling water is sprayed on the rolling roll 131 and the steel sheet 110c by using the cooling water head 132 provided around the rolling roll 131, and the temperature of the steel sheet 110c is lowered.

Referring to FIG. 5E, the steel sheet 110c wound in the first heating furnace 134 is unwound and positioned between the rolling rolls 131. In the finishing rolling process using a reverse rolling mill, such a process is repeated to roll the steel sheet 110c.

In this way, when the front / rear ends 111 and 113 of the steel plate 110c are fixed to the heater, the cooling water supply is stopped to set the temperature of the steel plate front / rear ends 111 and 113 to be higher than the middle of the steel plate 110c. Accordingly, the line / rear end portions 111 and 113 and the middle portion 112 of the steel plate 110c have a temperature difference, and thus the steel plate 110 and the line / rear end portions 111 and 113 of the steel plate 110c to which tension is not applied. The thickness of the intermediate part 112 of 110c can be rolled the same.

As described above, the preferred embodiment of the present invention has been disclosed through the detailed description and the drawings. The terms are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a graph showing a width variation of a steel sheet subjected to a finishing rolling process.

2 is a schematic view showing a continuous hot rolling process according to the present invention.

3 and 4 are graphs of the reduction force diagram.

5A to 5E are perspective views illustrating a rolling method of a steel sheet using a reverse rolling roll in a finishing rolling process according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

 100: heating furnace 110a, 110b, 110c, 110d: steel sheet (slab)

 111: distal end of the steel plate 112: middle part of the steel plate

 113: rear end of the steel sheet 120: roughing mill

 130: finishing mill 131: rolling roll

 140: lamina flow 150: pinch roll

 160: winder

Claims (3)

In the thickness control method of the steel plate using the rolling mill and the finishing mill which rolls the thickness of a steel plate using the 1st heating furnace and the 2nd heating furnace arrange | positioned at the left and right direction of the said rolling roll, Fixing the front end portion of the steel sheet passed through the rolling rolls to a second heating furnace; Spraying cooling water on the rolling rolls and the steel sheet, and applying tension to the steel sheet fixed to the second heating furnace to wind the second rolling furnace; Unwinding the steel sheet wound in the second heating furnace and rolling the steel sheet between the rolling rolls to roll the steel sheet; Fixing a rear end of the steel sheet to the first heating furnace; And And spraying cooling water onto the rolling rolls and the steel sheet, and applying tension to the steel sheet fixed to the first heating furnace to wind the winding roll to the first heating furnace. According to claim 1, Fixing the steel sheet to the first and second heating furnaces The thickness control method of the steel plate using the finishing rolling method characterized in that the steel sheet is fixed in a tensionless state is not applied to the steel sheet. According to claim 1, Fixing the steel sheet to the first and second heating furnaces Cooling water is not injected into the steel sheet and the rolling roll thickness control method using a finishing rolling method.

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