KR20120060389A - Device for controlling the width-direction temperature of strip at the cooling step in continuous annealing line - Google Patents

Abstract

PURPOSE: A device for controlling the temperature of strip in the lateral direction in a cooling step of a continuous annealing line is provided to prevent the bending of strip and improve productivity of strip by controlling the temperature of the strip to be uniform in the lateral direction. CONSTITUTION: A device for controlling the temperature of strip in the lateral direction in a cooling step of a continuous annealing line comprises a heating unit(101) which is located between rolls in the lateral direction of strip(10), spaced from the strip, and heats the strip, a temperature measuring unit(102) which measures the surface temperature of the strip in the lateral direction, and a heating control unit(103) which operates the heating unit to heat a specified area of the strip, determined from the temperature measured by the temperature measuring unit.

Description

DEVICE FOR CONTROLLING THE WIDTH-DIRECTION TEMPERATURE OF STRIP AT THE COOLING STEP IN CONTINUOUS ANNEALING LINE}

The present invention relates to a width direction temperature control apparatus of a strip for controlling the temperature of the strip along the width direction in the continuous annealing line, in particular, to uniformly control the temperature of the strip along the width direction in the cooling step of the continuous annealing line. And a widthwise temperature control device of the strip.

In the continuous annealing line (CAL), a cold rolled strip is continuously supplied and heated and then cooled to even out the internal structure of the strip and remove stress. This leads to a processable state of the strip.

In general, the continuous annealing line is installed in a continuous annealing furnance filled with hydrogen gas (HN gas), preheating (PHS), heating (HS), crack (SS), slow cooling (SCS), quench zone (RCS), overage age zone (OAS), and final cooling zone (FCS).

In the preheating zone, the strip fed to the continuous annealing line is heated to about 170 ° C using waste gas from the heating zone. The strip after preheating is heated to 780-850 ° C. in the heating zone. Generally the recrystallization temperature of the strip is 720 ° C., so the recrystallization of the strip takes place in the heating zone. The strip over the heating zone is heated to maintain a uniform temperature for a short time in the crack zone. Strips heated through such preheating zones, heating zones and cracking zones now begin to cool.

In cooling the strip, the strip is slowly cooled to about 680 ° C. in the slow cooling zone and then rapidly cooled by 50 to 100 ° C. per second in the quench zone. In the overaging zone, the rapidly cooled strip is kept constant at 350 to 400 ° C. by latent heat. Eventually the strip is cooled to room temperature in the cooling zone. Through the continuous annealing line is a process as described above the strip has a stable internal structure and has improved properties.

On the other hand, the strip of the continuous annealing line has a different temperature along the width direction. Generally, in the heating step the strip will have a relatively high temperature because both ends heat up faster than the center part, but in the cooling step the strip will have a relatively low temperature because both ends cool faster than the center part. In addition, the strip has a different material according to the temperature, and thus the stretching and expansion coefficients are different.

Therefore, a strip having a different temperature along the width direction may be bent along the width direction, and in particular, in the cooling stage of the continuous annealing line, it may cause meandering in the conveyance of the strip, thus reducing the problem of mail flow and productivity. Have

The present invention seeks to provide a widthwise temperature control apparatus for a strip that can be controlled so that the strip has a uniform temperature distribution along the width direction.

In addition, the present invention is to provide an apparatus for controlling the width in the width direction of the strip that can improve the flowability and productivity of the strip through the cooling step of the continuous annealing line.

The present invention relates to a widthwise temperature control apparatus for a strip used in a cooling step of a continuous annealing line for conveying by using rolls while cooling a heated strip, wherein the roll is positioned along the width direction of the strip between the rolls and the strip; Spaced apart, heating parts for heating the strips; A temperature measuring unit measuring a temperature of the surface of the strip along a width direction; And a heating control unit for operating the heating unit to heat a specific region of the strip determined by the temperature measured by the temperature measuring unit.

The heating unit may include: a heating unit which is divided into a plurality of regions along a width direction of the strip and generates heat in the regions by the heating control unit; And a casing part surrounding the heat generating part and transferring heat generated from the heat generating part to the strip.

In addition, the heating portion discloses a widthwise temperature control device of the strip, characterized in that the electric heating wire wound in a spiral.

The casing part may include a ceramic layer surrounding the heat generating part and blocking electricity flowing to the heat generating part from flowing to the outside and transferring heat generated from the heat generating part to the strip; And a metal layer surrounding the ceramic layer and transferring heat from the ceramic layer to the strip.

In addition, the temperature measuring unit is disclosed in the width direction temperature control apparatus of the strip, characterized in that to move in the width direction of the strip to measure the temperature of the strip.

In addition, the temperature measuring unit is disclosed in the width direction temperature control apparatus of the strip, characterized in that for measuring the temperature of the strip by scanning along the width direction of the strip in a fixed state.

The widthwise temperature control device of the strip according to the present invention has the following effects.

(1) The width direction temperature control apparatus of the strip according to the present invention includes a heating section, a temperature measuring section and a heating control section, and the width direction using the temperature measuring section in a state positioned between the rolls for transporting the strip in the continuous annealing line. The temperature of the strip is measured along with the heating unit being operated by the heating control via the measured temperature to heat the strip. At this time, the heating unit heats an area of the strip having a relatively low temperature along the width direction. Therefore, the width direction temperature control apparatus of the strip according to the present invention has the effect of maintaining the temperature of the strip uniformly along the width direction, so that the strip has a uniform material.

(2) The width direction temperature control apparatus of the strip according to the present invention by controlling the strip to have a uniform material, to prevent the warpage of the strip, to prevent meandering of the strip conveyed in the cooling step of the continuous annealing line, According to the present invention, it is possible to improve the flowability and productivity of the strip.

1 is a perspective view illustrating a state in which a widthwise temperature control apparatus of a strip according to a preferred embodiment of the present invention is installed in a continuous annealing line.
FIG. 2 is a cross-sectional view illustrating the widthwise temperature control device of the strip shown in FIG. 1 taken along line AA.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view illustrating a state in which a widthwise temperature control device 100 of a strip is installed in a continuous annealing line according to a preferred embodiment of the present invention, and FIG. 2 is a widthwise temperature control device of a strip shown in FIG. It is sectional drawing which shows 100) cut along the line AA.

1 and 2, the width direction temperature control apparatus 100 of the strip according to a preferred embodiment of the present invention includes a heating unit 101, a temperature measuring unit 102 and a heating control unit 103 In addition, the temperature of the strip 10 may be uniformly controlled along the width direction W in a state of being positioned between the rolls 200 transferring the strip 10 in the continuous annealing line. In particular, the widthwise temperature control device 100 of the strip as described above is preferably used in the cooling step of the continuous annealing line to transfer while cooling the heated strip (10). Here, the rolls 200 are positioned to be spaced apart in the vertical direction.

The heating part 101 is spaced apart from the strip 10 between the rolls 200 of the continuous annealing line and is positioned along the width direction W. In addition, the heating unit 101 may generate heat to heat the strip 10. In this case, the heating unit 101 may heat the strip 10 over the entire width, and may heat only part of the width. In addition, the heating unit 101 includes a heat generating unit 111 and a casing unit 113.

The heat generating unit 111 is divided into three regions along the width direction W of the strip 10, that is, the first heating element 111a, the second heating element 111b, and the third heating element 111c. Generates heat individually. Accordingly, the first heating element 111a, the second heating element 111b, and the third heating element 111c are positioned to face one end, the center, and the other end of the strip 10, respectively. The area of 10) is heated. That is, the heat generating unit 111 may heat only a specific region of the strip 10 along the width direction W. FIG.

In addition, the heat generating unit 111 is made of an electric heating wire that generates heat by electricity supply, and is wound in a spiral form to generate more heat than a straight line. In addition, the first heating element 111a, the second heating element 111b, and the third heating element 111c of the heat generating unit 111 are not connected to each other, and generate heat separately without affecting each other.

On the other hand, when the width direction temperature control device 100 of the strip according to the present invention is located in the cooling step of the continuous annealing line, the strip 10 is a temperature in which both ends are relatively lower than the center portion in the width direction (W) Has At this time, the heat generating unit 111 increases the temperature of both ends. For example, only the first heating element 111a and the third heating element 111c of the heating unit 111 corresponding to both ends of the strip 10 may operate. Accordingly, the strip 10 may have a uniform temperature distribution along the width direction (W). In addition, in the present exemplary embodiment, the heat generating unit 111 is divided into three regions, but the embodiment is not limited thereto and may have more regions.

The casing part 113 surrounds the heat generating part 111 and protects the heat generating part 111 from being affected by the continuous annealing line. In addition, the casing unit 113 transfers heat generated from the heat generating unit 111 to the strip 10.

The casing portion 113 is composed of a ceramic layer 113a and a metal layer 113b.

The ceramic layer 113a is made of a ceramic material and directly surrounds the heat generating unit 111, blocks electricity flowing through the heat generating unit 111 from flowing to the outside, and simultaneously transfers heat generated from the heat generating unit 111 to the strip 10. Deliver smoothly. In addition, the metal layer 113b is made of a metal material to surround the ceramic layer 113a, and facilitates heat transfer from the ceramic layer 113a to the strip 10, and at the same time, a casing portion due to atmospheric gas or cooling water in the continuous annealing line. To prevent corrosion and damage of the 113. Here, stainless steel may be used as the metal layer 113b.

The temperature measuring unit 102 measures the temperature of the surface of the strip 10 along the width direction (W). In general, since the strip 10 has a temperature of 680 ° C. or more even in the slow cooling stage in the cooling step, the temperature measuring unit 102 cannot directly measure the temperature by directly contacting the strip 10. Thus, the temperature measuring unit 102 measures the temperature spaced apart from the surface of the strip 10, for example, the pie to measure the temperature by comparing the intensity of light radiated from the strip 10 with the intensity of the standard heat source A pyrometer can be used to measure the surface temperature of the strip 10.

Meanwhile, the temperature measuring unit 102 may measure the temperature of the strip 10 while moving along the width direction W of the strip 10, and in the fixed state, may measure the width direction W of the strip 10. Accordingly, the temperature of the strip 10 may be measured by scanning.

The heating control unit 103 is provided with the temperature of the strip 10 measured by the temperature measuring unit 102. The heating control unit 103 operates the heating unit 101 according to the temperature of the strip 10 to heat the strip by the heating unit 101.

At this time, the heating control unit 103 heats the region having a relatively low temperature over the width of the strip 10 to the temperature of the region having the highest temperature over the width of the strip 10 with the heating portion 101. can do. In addition, the heating control unit 103 may further heat the region having a relatively low temperature by the heating unit 101. Therefore, the heating control part 103 maintains the temperature of the strip 10 uniformly along the width direction W. As shown in FIG.

Therefore, the width direction temperature control apparatus 100 of the strip according to the present invention makes it possible to provide a strip 10 of a uniform material by uniformizing the temperature of the strip 10 along the width direction (W). As a result, the strip 10 is prevented from warping due to a difference in material, and thus meandering is prevented when the strip 10 is transported by the rolls 200. In addition, the sheet flowability and productivity of the strip 10 are also improved.

While the present invention has been described in connection with certain exemplary embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the scope of the present invention.

100: widthwise temperature control device 101: heating part
102: temperature measuring unit 103: heating control unit

Claims (6)

In the width direction temperature control apparatus of the strip used in the cooling step of the continuous annealing line for conveying by using the rolls while cooling the heated strip,
A heating unit positioned between the rolls along a width direction of the strip and spaced apart from the strip to heat the strip;
A temperature measuring unit measuring a temperature of the surface of the strip along a width direction; And
And a heating controller for operating the heating unit to heat a specific region of the strip determined by the temperature measured by the temperature measuring unit. The method of claim 1, wherein the heating unit,
A heat generating unit divided into a plurality of regions along the width direction of the strip and generating heat in the regions individually by the heating control unit; And
And a casing part surrounding the heat generating part and transferring heat generated from the heat generating part to the strip. The method of claim 2,
And the heating portion is an electric heating wire wound in a spiral shape. The method of claim 3, wherein the casing portion,
A ceramic layer surrounding the heat generating unit and blocking electricity flowing to the heat generating unit from flowing to the outside and transferring heat generated from the heat generating unit to the strip; And
And a metal layer surrounding the ceramic layer and transferring heat from the ceramic layer to the strip. The method of claim 1,
And the temperature measuring part moves along the width direction of the strip to measure the temperature of the strip. The method of claim 1,
And the temperature measuring part measures the temperature of the strip by scanning along the width direction of the strip in a fixed state.

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