JP6692431B2 - Steel plate heat treatment apparatus and method - Google Patents

Description

  TECHNICAL FIELD The present invention relates to an apparatus and method for heat treatment of a steel sheet, and more specifically, it is an invention for heat treating a steel sheet which is a blank material using a laser.

  In general, continuously produced steel sheets have their characteristics changed by passing through a heat treatment furnace and a cooling device. By the way, such a process requires a long time for heating, maintaining, and cooling, and also has a problem in that productivity is lowered because the inside of the steel sheet is also affected and the cost is high. ..

  Recently, in order to solve such a problem, an attempt has been made to irradiate the surface of a steel sheet with energy having a high energy density, and many methods have been introduced.

  However, the above method is not only related to a method and a technique for scanning focused steel, that is, point energy on the surface of a steel sheet. Therefore, it has a problem of low productivity.

  In other words, such a conventional method has a technical limit in processing a large area at high speed. For example, there is a limitation in treating a large area of a steel plate, which is a blank material having a width of about 1,200 mm, which continuously moves by 50 m per minute with a narrow point laser beam.

  In recent years, due to global warming issues, in order to reduce the weight of automobiles, steel sheets for automobiles are used by welding thick steel sheets where strength is required and relatively thin steel sheets where they are not. A tailor welded blanket is used, or a tailor welded coil is used in which steel plates having different thicknesses and strengths are continuously welded and used.

  In such a conventional method, the strength of the weld differs from the strength of the base metal due to the weld, which adversely affects the design of the metal mold during processing, and There was a problem that the welded part was broken during the welding.

  In addition, there is a problem that it costs much to transfer for processing due to different thicknesses, and the blank material is produced by a batch process (Batch Processing) instead of a continuous process, so that the productivity is low. Not only that, but as a result, the manufacturing cost is high.

  Therefore, there has been a need for research on a heat treatment apparatus and method for steel sheets for solving the above-mentioned problems.

  An object of the present invention is to provide a heat treatment apparatus and method for a steel sheet, which is formed by varying the strength of at least one portion in the width direction of a steel sheet that is a blank material that is continuously produced.

  A steel sheet heat treatment apparatus according to an embodiment of the present invention includes a main body unit provided on a moving path of a continuously produced steel sheet, and a width of the steel sheet that is provided in the main body unit and heat treats the steel sheet. An irradiation unit that includes a plurality of line irradiation units that irradiate a laser beam on the surface of the steel plate linearly with respect to a direction, and each line irradiation unit is formed by differently irradiating energy of at least one other line irradiation unit. And can be included.

  Further, in the heat treatment apparatus for a steel sheet according to an embodiment of the present invention, the irradiation unit is lower than at least one high output line irradiation section provided in a part of the steel sheet in the width direction and lower than the high output line irradiation section. At least one low-power line irradiation unit that irradiates a laser with energy and is provided alongside the high-power line irradiation unit may be included.

  Further, the apparatus for heat treating a steel sheet according to an embodiment of the present invention may include a cooling unit provided in the main body unit so as to be located downstream of the irradiation unit in the moving direction of the steel sheet.

  Further, the heat treatment apparatus for a steel sheet according to an embodiment of the present invention, based on the irradiation unit, is located at least one of an upstream portion and a downstream portion in the moving direction of the steel sheet, and applies a tension to the steel sheet. A tensioning unit included in the main body unit may be included to be formed.

  Further, in the heat treatment apparatus for a steel sheet according to an embodiment of the present invention, the tension unit is provided in the main body unit, and an upstream guide roll for guiding the movement of the steel sheet, and the upstream guide roll in the moving direction of the steel sheet. From a downstream guide roll provided in the main body unit with a certain distance from the above, and a movement provided between the upstream guide roll and the downstream guide roll and provided to unilaterally slide the steel plate to form tension. And rolls.

  Further, in the apparatus for heat treatment of steel sheet according to one embodiment of the present invention, the line irradiation unit is provided with an irradiation support unit coupled to the main body unit and a plurality of the irradiation support units arranged side by side, and a point irradiation for emitting a laser is performed. And a line lens unit that is provided to be connected to the ends of the plurality of point emitting units from which the laser is emitted.

  Further, in the heat treatment apparatus for a steel sheet according to an embodiment of the present invention, the line irradiation unit is provided in the irradiation support unit, and a distance from an end of the line lens unit is provided so as to collect a laser beam applied to the steel plate. An adjusted condenser lens section may be included.

  Further, in the heat treatment apparatus for a steel sheet according to one embodiment of the present invention, the plurality of point irradiation parts are arranged linearly so as to irradiate a laser in one linear shape, or a plurality of point irradiation parts are arranged. It can be characterized in that they are arranged side by side so as to irradiate the laser linearly.

  In addition, a method of heat treating a steel sheet according to another embodiment of the present invention includes a step of arranging an irradiation unit for irradiating a linear laser on the steel sheet on a moving path of the steel sheet, and a step of continuously moving the irradiation unit. And an irradiation step in which at least one region in the width direction of the steel sheet is irradiated with laser with energy different from that of other regions.

  In addition, a method of heat treating a steel sheet according to another embodiment of the present invention may include a cooling step of cooling the steel sheet after the irradiation step.

  In addition, a method of heat treating a steel sheet according to another embodiment of the present invention includes a tensioning step of detecting flatness of the steel sheet after the arranging step and increasing flatness of the steel sheet by tension before the irradiation step. Can be included.

  According to the apparatus and method for heat treatment of a steel sheet according to the present invention, there is an effect that it is possible to form at least one portion having different strengths in the width direction of a blank steel sheet that is continuously produced.

  As a result, it is possible to replace the conventional Taylor Welded Blanket or the Taylor Welded Coil which is used by continuously welding steel plates having different thicknesses and strengths. ..

  In addition, since the strength can be continuously changed for the steel sheets that are continuously produced, it is possible to increase the production rate of the steel sheets and improve the productivity.

FIG. 1 is a front view showing a steel plate heat treatment apparatus of the present invention. FIG. 2 is a diagram showing a state in which, in the heat treatment apparatus for a steel sheet of the present invention, at least one portion in the width direction of the steel sheet is continuously formed with different strengths. FIG. 3 is a diagram showing a state in which, in the heat treatment apparatus for a steel sheet of the present invention, at least one portion in the width direction of the steel sheet is continuously formed with different strengths. FIG. 4 is a front view and a perspective view showing a line irradiation unit in the steel plate heat treatment apparatus of the present invention. FIG. 5: is a side view which shows the heat processing apparatus of the steel plate of this invention. FIG. 6 is a front view showing the arrangement of the point irradiators in the steel sheet heat treatment apparatus of the present invention. FIG. 7 is a flow chart showing a heat treatment method for a steel sheet according to the present invention.

  Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the idea of the present invention is not limited to the presented embodiments, and a person skilled in the art who understands the idea of the present invention can step back through addition, modification, deletion, etc. of other components within the scope of the same idea. Other inventions or other embodiments included in the scope of the present invention can be easily proposed. However, this is also included within the scope of the idea of the present invention.

  Further, the same components having the functions within the scope of the same idea shown in the drawings of the respective embodiments will be described using the same reference numerals.

  The apparatus and method for heat treatment of a steel sheet according to the present invention is an invention for heat-treating a steel sheet S which is a blank material by a laser, and in the width direction (X) of the steel sheet S which is a blank material continuously produced, at least one By forming the steel plates S with different strengths, it is possible to continuously change the strength of the steel plates S that are continuously produced, and thus it is possible to increase the production speed of the steel plates S. Productivity can be improved.

  Further, it is possible to replace a conventional Taylor Welded Blanket or a Taylor Welded Coil which is used by continuously welding steel plates S having different thicknesses and strengths. Become.

  In other words, the apparatus and method for heat treating a steel sheet according to the present invention uses a laser having a line beam (Line Beam, Sheet Beam) shape to divide the surface of a continuously produced steel sheet S into two or more parts in the width direction (X). And continuously irradiate various energies. As a result, on the surface of the blank steel sheet S, grain refining layers having different degrees in the width direction (X) or amorphous layers having different degrees are formed, or different surfaces are formed. It becomes possible to perform a continuous process that imparts characteristics such as a hardened layer.

  Hereinafter, a specific description will be given with reference to the drawings. FIG. 1 is a front view showing a steel plate heat treatment apparatus of the present invention. Referring to FIG. 1, a heat treatment apparatus for a steel sheet according to an exemplary embodiment of the present invention includes a main body unit 100 provided on a moving path of a continuously produced steel sheet S, and the main body unit 100. A plurality of line irradiation units 210 that linearly irradiate the surface of the steel plate S with a laser in the width direction (X) of the steel plate S so that each of the line irradiation units 210 is at least one other. The irradiation unit 200 formed by changing the irradiation energy of the line irradiation unit 210 of FIG.

  The main body unit 100 plays a role of a main body provided with the irradiation unit 200 described later, and is provided on the moving path of the steel sheet S that is continuously produced. The heat treatment can be performed on the steel sheet S in a continuous process.

  The body unit 100 may include a base member and an alignment roll (AR) so that the position of the steel plate S in the width direction (X) is not changed.

  That is, the main body unit 100 is provided with a base member to which the irradiation unit 200 and the like are coupled and a side member of the steel plate S that is in contact with the base member so as to guide the movement of the steel plate S. And an aligned roll (AR) that is installed.

  This is for improving the heat treatment quality of the steel sheet S by keeping the position of the heat treated portion constant when the irradiation unit 200 irradiates the steel sheet S with a laser to perform the heat treatment. ..

  Therefore, the aligning roll (AR) may be provided by being coupled to the base member and may be provided to be in contact with the side end surface of the steel plate S. And, in order to reduce the frictional force at the time of contact with the side end surface of the steel plate S, it can be rotatably coupled to the base member.

  The body unit 100 may also include a stationary roll (SR) for supporting and moving the steel plate S to be moved.

  The irradiation unit 200 plays a role of irradiating the steel plate S with a laser and performing heat treatment on the blank steel plates S that are continuously produced. As an example, the steel plate S can be irradiated with a laser to continuously form a grain refinement layer, an amorphous layer, a surface hardened layer, and the like on the steel plate S.

  In particular, the irradiation unit 200 of the present invention continuously irradiates the laser for irradiating the steel plate S linearly in the width direction (X) of the steel plate S to continuously perform the heat treatment in the width direction (X) of the steel plate S. Then, in the width direction (X), at least a part is irradiated with a laser having a different output from the other part.

  This makes it possible to have different properties (such as strength distribution) in the width direction (X) of the steel sheet S that is a blank material that is continuously produced. This will be described later with reference to FIGS. 2 and 3.

  For this purpose, the irradiation unit 200 may include a plurality of line irradiation units 210 that emit laser with different outputs.

  In other words, the line irradiation unit 210 serves to irradiate the steel plate S with the line laser in the width direction (X). A plurality of such line irradiation units 210 may be provided in the width direction (X) of the steel plate S.

  The line irradiation unit 210 may include an irradiation support unit 211, a point irradiation unit 212, a line lens unit 213, a condenser lens unit 214, and the like in order to irradiate a line laser. A description thereof will be given later with reference to FIG.

  In addition, the irradiation unit 200 is not limited to irradiating only the upper surface of the steel plate S with laser for heat treatment, and irradiates the lower surface of the steel plate S or both upper and lower surfaces of the steel plate S with laser. The steel plate S can be heat-treated.

  In other words, the irradiation unit 200 may be provided in at least one of an upper member of the main body unit 100 on the upper surface side of the steel plate S and a lower member of the main body unit 100 on the lower surface side of the steel plate S. ..

  FIG. 2 and FIG. 3 are views showing a state in which, in the heat treatment apparatus for a steel sheet of the present invention, the strength of at least one portion in the width direction of the steel sheet is made different and continuously formed. Here, FIG. 2 is a diagram showing an irradiation state when two line irradiation units 210 are provided, and FIG. 3 is a diagram showing an irradiation state when three line irradiation units 210 are provided. Is.

  Referring to FIGS. 2 and 3, in the heat treatment apparatus for a steel sheet according to an embodiment of the present invention, the irradiation unit 200 includes at least one high-power line irradiation provided in a part of the steel sheet S in the width direction (X). The unit 210a may include at least one low-power line irradiation unit 210b that is irradiated with a laser at a lower energy than the high-power line irradiation unit 210a and is provided side by side with the high-power line irradiation unit 210a.

  In other words, both the structure for irradiating the surface of the steel plate S, which is a blank material to be continuously produced, with the high output laser HL and the structure for irradiating the low output laser LL can be provided.

  Accordingly, by performing heat treatment on at least a part S1 in the width direction (X) of the steel sheet S differently from the other portions S2, a portion having different properties such as strength in the width direction (X) of the steel sheet S. Can be formed.

  As an example, FIG. 2 shows that one high-power line irradiation unit 210a and one low-power line irradiation unit 210b are arranged side by side in the width direction (X) of the steel plate S. According to this, it becomes possible to perform different heat treatments on the two portions of the steel sheet S in the width direction (X).

  And in FIG. 3, the high output line irradiation part 210a is provided in the center part of the said steel plate S in the width direction (X), and the low output line irradiation part 210b is each provided in the both sides of the said high output line irradiation part 210a. Have been shown to be According to this, it becomes possible to perform different heat treatments on the three parts.

  FIG. 4 is a front view and a perspective view showing a line irradiation unit 210 in the steel plate heat treatment apparatus of the present invention, and FIG. 6 is a front view showing an arrangement of the point irradiation units 212 in the steel plate heat treatment apparatus of the present invention. ..

  Referring to FIGS. 4 and 6, in the heat treatment apparatus for a steel sheet according to an exemplary embodiment of the present invention, the line irradiation unit 210 includes a plurality of irradiation support units 211 connected to the main body unit 100, and the irradiation support units 211. A point emitting part 212, which is provided side by side and emits a laser, and a line lens part 213, which is provided to be connected to the ends of the plurality of point emitting parts 212, which emit the laser, may be included. ..

  In addition, in the heat treatment apparatus for a steel plate according to an embodiment of the present invention, the line irradiation unit 210 is provided in the irradiation support unit 211, and the line lens unit 213 has a line irradiation unit 210 so as to collect the laser beam applied to the steel plate S. A condensing lens unit 214 that is adjusted in distance from the end may be included.

  The irradiation support part 211 is a member on which the point irradiation part 212 is arranged, and the point irradiation part 212 is arranged so that the line lens part 213 can linearly irradiate a line laser. In addition, instead of arranging the point irradiating unit 212 so that the line lens unit can irradiate a line laser linearly, a plurality of the point irradiating units are disposed so as to irradiate in a plane. You can also

  In other words, in the heat treatment apparatus for a steel sheet according to an embodiment of the present invention, the plurality of point irradiation units 212 may be arranged linearly so as to irradiate the laser in one linear shape. It can be characterized in that they may be arranged side by side so as to irradiate the laser linearly.

  Here, the point irradiation unit 212 is configured to irradiate a laser at a point, is supported by the irradiation support unit 211, and is lined up in plural in the width direction (X) of the steel plate S. Can be prepared for. Thereby, laser irradiation in the width direction (X) of the steel plate S can be performed simultaneously.

  In other words, by simultaneously performing the laser irradiation in the width direction (X) of the steel sheet S, the heat treatment in the width direction (X) of the steel sheet S can be simultaneously performed. As a result, it becomes possible to perform the heat treatment on the continuously produced steel plates S in a continuous process.

The point irradiation unit 212 has a laser irradiation energy density of about 10 ⁴ to 10 ⁸ W / cm ² and a laser irradiation time of about 10 ⁴ to 10 ⁸ W / cm ² so that a grain refining layer, an amorphous layer, and a surface hardened layer are formed. it is preferably set in the range of about ¹⁰ -8 to 10 ^0.

  However, in addition to arranging the point irradiation part 212 side by side in the width direction (X) of the steel plate S, the line lens part 213 is provided as an intermediate medium and a laser emitted from the point irradiation part 212 is provided. May be absorbed and then the steel sheet S may be irradiated with a linear shape laser.

  According to this, continuous heat treatment of the steel plate S that moves continuously can be performed. Therefore, by continuously performing the heat treatment on the surface of the steel plate S without stopping the steel plate S, the rapid production of the steel plate S is possible. To

  The shape of the line lens unit 213 is, for example, a flat portion at a portion facing the point irradiation unit 212 so that the point laser emitted from the point irradiation unit 212 is linearly distributed. The opposite part, which is provided with a shape and emits a linearly distributed laser, can be provided with a shape of a convex lens.

  In addition, a condensing lens unit 214 is further included in order to focus the line laser emitted from the line lens unit 213 toward the surface of the steel plate S.

  In other words, the condenser lens unit 214 can focus the emitted line laser by adjusting the distance between the condenser lens unit 214 and the line lens unit 213.

  The adjustment of the distance may be performed by providing the condensing lens unit 214 by being coupled to a driving cylinder coupled to the irradiation support unit 211. However, the configuration of the actuator for adjusting the distance between the line lens unit 213 and the condenser lens unit 214 is not limited to the drive cylinder, and may be provided by a configuration such as gear coupling with a drive motor. it can.

  In addition, the condensing lens unit 214 may be provided with convex surfaces on both sides, for example, in order to condense the line laser emitted from the line irradiation unit at a shorter distance.

  Further, since the line irradiation unit can be provided with a certain distance from the steel plate S by including the condensing lens unit 214, the fume generated by the line laser applied to the steel plate S ( It is possible to prevent the line irradiation unit 210 from being contaminated due to the fume). As an example, the focal length for that can be about 100-300 mm.

  In addition, the width of the condenser lens unit 214 is preferably set to about 50 to 70 mm so that the effect of a thermal lens in which the condenser lens unit 214 is deformed by heat is not generated.

  FIG. 5: is a side view which shows the heat processing apparatus of the steel plate of this invention. Referring to FIG. 5, a heat treatment apparatus for a steel sheet according to an exemplary embodiment of the present invention is provided in the body unit 100 such that the heat treatment apparatus is located downstream of the irradiation unit 200 in the moving direction (y) of the steel sheet S. A unit 300 can be included.

  In other words, the cooling unit 300 cools the steel sheet S heat-treated by the irradiation unit 200, thereby shortening the heat treatment time or adjusting the properties of the steel sheet S.

  For this reason, the cooling unit 300 moves in the moving direction of the steel sheet S more than the irradiation unit 200 in order to cool the steel sheet S after the irradiation unit 200 irradiates the linear laser. It is provided downstream of y).

  The cooling unit 300 includes a nozzle capable of injecting a cooling fluid onto the surface of the steel plate S to cool the steel plate S, or contacts the steel plate S to cool by conduction. Can be configured with a cooling roll.

  Further, the heat treatment apparatus for a steel sheet according to an embodiment of the present invention is located at at least one of an upstream portion and a downstream portion in the moving direction (y) of the steel sheet S based on the irradiation unit 200, A tension unit 400 included in the body unit 100 may be included so as to form a tension on the S.

  In other words, the flatness of the steel sheet S is improved by applying tension to the steel sheet S so that the heat treatment is performed uniformly on the surface while the steel sheet S is produced in a continuous process and heat-treated. The tension unit 400 may be provided so that the tension unit 400 can be operated.

  To this end, the tension unit 400 may include an upstream guide roll 410, a downstream guide roll 420, a moving roll 430, and the like.

  That is, in the apparatus for heat treating a steel sheet according to an embodiment of the present invention, the tension unit 400 is provided in the main body unit, and the upstream guide roll 410 that guides the movement of the steel sheet S and the moving direction of the steel sheet S (y ), Is separated from the upstream guide roll 410 by a certain distance and is provided between the downstream guide roll 420, which is provided in the main body unit, and between the upstream guide roll 410 and the downstream guide roll 420, and the steel plate S is unilaterally provided. A transfer roll 430 arranged to slide to create tension.

  The upstream guide roll 410 is provided upstream of the downstream guide roll 420 in the moving direction (y) of the steel plate S, and the downstream guide roll 420 moves the steel plate S more than the upstream guide roll 410. It is provided downstream in the direction (y) to guide the movement of the steel plate S.

  In particular, a moving roll 430 is provided between the upstream guide roll 410 and the downstream guide roll 420, and the moving roll 430 is provided so as to move in a direction different from the moving direction (y) of the steel plate S. Be done. As an example, when the steel plate S moves in the horizontal direction with respect to the ground, the moving roll 430 may be installed to move vertically in the ground. To this end, the moving roll 430 may be provided by being coupled to a vertical driving cylinder coupled to the body unit 100.

  Further, when the upstream guide roll 410 and the downstream guide hole are provided to support one surface of the steel plate S, the moving roll 430 is provided so as to contact the other surface of the steel plate S. The steel plate S may be provided with tension when the moving roll 430 is moved up and down.

  In other words, the moving roll 430 is provided to slide a part of the steel plate S to apply tension to the steel plate S.

  In addition, the tension units 400 may be provided on both sides of the irradiation unit 200. That is, the tension unit 400 may be provided upstream and downstream of the irradiation unit 200 based on the moving direction (y) of the steel plate S.

  The distance between the upstream tension unit 400 and the downstream tension unit 400 may be formed to be about 2 to 3 times the diameter of the upstream guide roll 410 or the downstream guide roll 420. preferable. This is because by making the steel plate S tight, it is a suitable thickness for forming a uniform focus in the width direction (X).

  FIG. 7 is a flow chart showing a heat treatment method for a steel sheet according to the present invention. Referring to FIG. 7, a method for heat treating a steel sheet according to another embodiment of the present invention is arranged such that an irradiation unit 200 for irradiating a linear laser is positioned on the steel sheet S on a moving path of the steel sheet S. The method may include a step and an irradiation step in which at least one region is irradiated with laser with energy different from that of the other region in the width direction (X) of the continuously moving steel plate S.

  Thus, in the method for heat treating a steel sheet according to the present invention, the steel sheet S is continuously produced in the step of irradiating the steel sheet S with the linear laser in the width direction (X). On the other hand, the heat treatment can be continuously performed.

  In particular, in the heat treatment of the steel plate S, at least a part of the region in the width direction (X) of the steel plate S is irradiated with a laser having another output, so that the width direction (X) of the steel plate S is increased. It can be provided to have different properties.

  Therefore, in the arranging step, the irradiation unit 200 and the like described above can be provided on the path along which the steel plate S continuously moves.

  Then, in the irradiation step, at least one region in the width direction (X) of the steel sheet S is irradiated with different output of the linear laser, and properties such as strength are exerted in the width direction (X) of the steel sheet S. At least one region can be formed differently. That is, different grain refinement layers, amorphous layers, surface hardened layers, and the like can be continuously formed in the width direction (X) of the steel sheet S.

  In addition, the heat treatment method of the steel sheet according to another embodiment of the present invention may include a cooling step of cooling the steel sheet S after the irradiation step.

  Such a cooling step is performed in order to quickly cool the steel sheet S heated in the irradiation step or to change the properties of the steel sheet S according to the cooling rate.

  The cooling step may be performed by the cooling unit 300 described above, and may be performed after the irradiation step.

  In addition, in the heat treatment method for a steel sheet according to another embodiment of the present invention, the flatness of the steel sheet S is sensed after the arranging step, and tension is applied to increase the flatness of the steel sheet S by tension before the irradiation step. Stages can be included.

  The tension application step is for improving the flatness of the steel sheet S in the irradiation step for the steel sheet S and improving the heat treatment quality by laser irradiation. The tensioning step may be performed by the tension unit 400 described above, and may be performed before the irradiation step.

Claims (9)

A body unit provided on the moving path of the continuously produced steel plates,
The main body unit is provided with a plurality of line irradiation units that linearly irradiate the steel plate surface with a laser in a width direction of the steel plate so as to heat-treat the steel plate, and each line irradiation unit is at least An irradiation unit formed by changing the energy irradiated by one other line irradiation unit,
A heat treatment device for a steel sheet, comprising: a cooling unit provided in the main body unit so as to be located downstream of the irradiation unit in the moving direction of the steel sheet. The irradiation unit,
At least one high-power line irradiation unit provided in a part of the width direction of the steel plate,
The heat treatment apparatus for a steel sheet according to claim 1, further comprising: at least one low-power line irradiation unit that irradiates a laser with energy lower than that of the high-power line irradiation unit and is provided in parallel with the high-power line irradiation unit. ..   A tension unit provided at the main body unit is located at at least one of an upstream portion and a downstream portion in the moving direction of the steel sheet with respect to the irradiation unit and forms tension on the steel sheet. The heat treatment apparatus for a steel sheet according to claim 1. The tension unit is
An upstream guide roll that is provided in the main body unit and guides the movement of the steel plate,
In the moving direction of the steel plate, a downstream guide roll provided in the main body unit with a certain distance from the upstream guide roll,
The steel sheet heat treatment apparatus according to claim 3 , further comprising: a moving roll that is provided between the upstream guide roll and the downstream guide roll and that is provided so as to unilaterally press the steel plate to form tension. The line irradiation unit,
An irradiation support unit coupled to the main unit,
A plurality of point irradiation units that are provided side by side on the irradiation support unit and emit a laser,
The heat treatment apparatus for a steel sheet according to claim 1, further comprising: a line lens unit provided so as to be connected to end portions of the plurality of point irradiation units from which laser is emitted. The line irradiation unit,
The apparatus for heat treatment of a steel sheet according to claim 5 , further comprising a condenser lens unit that is provided in the irradiation support unit and that adjusts a distance from an end of the line lens unit so as to collect a laser beam that is emitted to the steel plate. The plurality of point irradiation units are arranged in a line so as to irradiate the laser in one line, or arranged in a plane so as to irradiate the laser in a plurality of lines. The steel plate heat treatment apparatus according to claim 5 , which is arranged. An arranging step of arranging an irradiation unit for irradiating a linear laser on the steel plate on the moving path of the steel plate;
An irradiation step in which at least one region in the width direction of the continuously moving steel sheet is irradiated with a laser with energy different from that of the other region,
A heat treatment method for a steel sheet, comprising: after the disposing step, a flatness of the steel sheet is sensed, and before the irradiation step, a tensioning step of increasing the flatness of the steel sheet by tension is performed . The heat treatment method for a steel sheet according to claim 8 , further comprising a cooling step of cooling the steel sheet after the irradiation step.

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