KR20190047963A - Steel coil packaging apparatus and packaging method using photopolymer material - Google Patents

Abstract

According to the present invention, a light-hardened steel sheet coil packaging device capable of simplifying a packaging process for sealing an outer surface including an inner circumferential surface, an outer circumferential surface, and both side end surfaces, and a device for performing the packaging process can comprise: a resin applying part for applying a liquid light-hardening resin to a steel plate coil whose outer surface is sealed with a packaging material; and a light-hardening part hardening the liquid phase light-hardening resin applied to the steel sheet coil by irradiating light toward the steel plate coil applied with the liquid hardening resin of a liquid phase.

Description

TECHNICAL FIELD [0001] The present invention relates to a coiling apparatus,

The present invention relates to a photo-hardened steel plate coil packaging apparatus and a packaging method, and more particularly, to a photo-hardened steel plate coil packaging apparatus and a packaging method which apply a liquid photo-curable resin to an outer surface of a steel plate coil, Hardened steel sheet coil packaging apparatus and method for sealing the outer surface of a coil.

The steelmaking process consists of a steelmaking process to produce various materials such as iron ore using raw materials, a steelmaking process to remove molten steel from impurities, a casting process to convert the molten steel into a solid state, And the like.

In the casting process, molten steel in a liquid state is injected into a mold, which is then passed through a continuous casting machine and cooled and solidified to form an intermediate material such as a continuous slab, bloom, or billet. The slab is produced as a product in the form of a thin steel plate while passing between a plurality of rolls rotating in the rolling process. The thus produced steel sheet is wound and provided in the form of a coil for convenience of distribution.

The steel plate coil is made up of a rustproof paper wound around the inner and outer circumference of the steel sheet coil for moisture proofing, an outer circumferential protection plate for protecting the outer circumferential surface of the coil, an inner circumferential protection plate for protecting the inner circumferential surface of the coil, And an outer circumferential ring for fixing the outer circumferential protection plate to the outer circumferential surface of the coil, the outer surface of the coil is packed.

After the outer surfaces of the coils are packed with these packaging materials, a bundling process for wrapping the outer surfaces of the coils with bands is performed in order to prevent unwinding of the coils and binding of the packaging materials.

The technology for packaging such a steel plate coil has already been disclosed in Korean Patent No. 0757069 filed and filed by the present applicant, a protective sheet packing apparatus for a metal coil, and the like.

However, in order to seal the outer surface of the steel plate coil by attaching a plurality of packing materials to the outer surface of the steel plate coil belonging to a relatively heavy material as in the above registered patent, a large number of equipments must be added. Increase in labor cost, decrease in production efficiency, and the like.

Korean Registered Patent No. 0757069 (issued on September 10, 2007)

An object of the present invention is to provide a packaging process for sealing the outer surface of a steel sheet coil and a packaging method and a packaging method for a light-hardened steel sheet coil, which simplify an apparatus for carrying out the packaging process.

The present invention provides a method for manufacturing a coil of a photo-hardened steel sheet, comprising the steps of: applying a liquid photo-curable resin to a steel sheet coil having an inner circumferential surface, an outer circumferential surface, And a light curing unit for irradiating light toward the coated steel coil to cure the liquid photo-curable resin applied to the steel coil.

Wherein the resin coating portion blocks the irradiation of the resin tank in which the liquid photo-curing resin is housed and the light irradiated by the steel coil to the liquid curing resin contained in the resin tank, and visually confirms the inside of the resin tank And a light blocking window for allowing the light emitting diode to emit light.

The photo-hardened steel plate coil packaging apparatus may further include a coil lifting unit for lifting the steel plate coil to the resin tank to immerse the steel plate coil in the liquid photo-setting resin.

The photo-hardened steel sheet coil packaging apparatus may further include a rotating roller disposed inside the resin tank and rotating the steel sheet coil immersed in the liquid photo-setting resin.

The above-mentioned photo-hardened steel plate coil packaging apparatus may further include a roller elevating unit for lifting the rotating roller and releasing the steel plate roller immersed in the liquid photo-setting resin from the liquid photo-setting resin.

The light curing unit includes a first light emitting module that emits light toward the outer circumferential surface of the steel coil, a second light emitting module that emits light toward the inner circumferential surface of the steel coil, A third light emitting module, and a fourth light emitting module for irradiating light toward the other end surface of the steel coil, wherein the light hardened steel sheet coil packaging device supports the first, second, third and fourth light emitting modules And an alignment unit for aligning the positions of the first, second, third, and fourth light emitting modules with respect to the steel plate coil immersed in the resin applying unit.

The light-hardened steel sheet coil packaging apparatus may further include a discharge module lifting unit for lifting the first, second, third, and fourth light emitting modules together with the rotating roller.

The photo-hardened steel plate coil packaging apparatus may further include a blower for spraying a gas toward the steel plate coil lifted from the resin tank to remove the liquid photo-setting resin remaining on the steel plate coil.

On the other hand, the photo-hardened steel sheet coil packaging apparatus according to the present invention is a device for packaging a photo-hardened steel sheet coil, in which a liquid photo-curable resin in which a resin coated portion is cured in response to light is applied to a steel sheet coil sealed with a packaging material on an outer circumferential surface, The step of applying the photo-curing resin and the photo-curing step may include a photo-curing step of curing the liquid-phase photo-curable resin applied to the outer surface of the steel coil by irradiating light toward the steel coil.

The step of applying the photo-curing resin may immerse the steel coil in a resin tank containing the liquid photo-curing resin.

In the step of applying the photo-curable resin, a rotating roller disposed inside the resin tank may rotate the steel coil to apply the liquid photo-curable resin to the outer surface of the steel coil.

The light-hardened steel plate coil packaging method includes a first light-emitting module for irradiating light toward the inner circumferential surface of the steel coil when the light cured resin is applied to the steel coil, the aligning part irradiates light toward the outer circumferential surface of the steel coil, A third light emitting module for emitting light toward one end face of the steel plate coil and a fourth light emitting module for emitting light toward the other end face of the steel plate coil to the steel plate coil, And a module sorting step.

The method for packaging a photo-cured steel sheet coil is characterized in that after the photo-curing step, the rotating roller is raised so that the steel plate coil immersed in the liquid photo-curable resin is separated from the liquid photo-curable resin, The liquid cured resin remaining on the steel coil can be cured while rotating the separated steel coil.

In the above-mentioned photo-hardened steel plate coil packaging method, after the photo-curing step, the blower blows gas toward the steel plate coil lifted from the resin tank to remove the liquid photo-curable resin remaining on the steel plate coil.

Since the outer surface of the steel sheet coil is packaged using the photo-hardening resin, the photo-hardened steel sheet coil packaging apparatus and packaging method according to the present invention can reduce the investment cost of the equipment, reduce the cost of the material of the packaging material, simplify the process, .

1 is a perspective view illustrating a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention.
FIG. 2 is a side view of a light-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention.
3 is a plan view of a light-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention.
FIG. 4 is a flowchart illustrating a method of packaging a photo-hardened steel sheet coil according to an embodiment of the present invention.
5 to 9 are process charts illustrating a process for packaging a steel sheet coil using a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention.
10 is a side view showing a light-hardened steel sheet coil packaging apparatus according to another embodiment of the present invention.
11 is a side view showing a light-hardened steel sheet coil packaging apparatus according to another embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents and modifications may be made thereto .

Hereinafter, the construction of a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention, FIG. 2 is a side view showing a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention, FIG. 1 is a plan view of a light-hardened steel sheet coil packaging apparatus according to an embodiment.

1 to 3, the apparatus for packaging a photo-hardened steel sheet coil according to an embodiment of the present invention includes a step of applying a liquid photo-curable resin to the outer surface of a steel coil 10, Curable resin coated on the surface of the steel plate coil 10 to cover the steel plate coil 10. [

The outer peripheral surface 11, the inner peripheral surface 12, the one end surface 13, and the other end surface 12 of the steel sheet coil 10, which are outer surfaces of the steel sheet coil 10, 14 are preferably provided in a sealed state by a separate packaging material (not shown).

The apparatus for packing a coil of a photo-hardened steel sheet according to an embodiment of the present invention includes a coil elevating part 100, a resin applying part 200, a resin supplying part 300, a photo hardening part 400 and an aligning part 500 .

The coil lifting part 100 supports the loaded steel coil 10 from the outside (the previous step of sealing the outer side surface of the steel coil with a wrapping material), lifts the steel coil 10, As shown in FIG. The coil lifting unit 100 may be provided in the form of a gantry capable of smoothly lifting and moving the steel coil 10 belonging to a relatively heavy object.

The resin coating portion 200 is formed by the outer peripheral surface 11, the inner peripheral surface 12, the one side surface 13, and the other side of the steel sheet coil 10 as the liquid- So that the liquid curable resin is applied to the end face 14. The resin applying portion 200 may include a resin tank 210, a light blocking window 220, and a rotating roller 230.

Inside the resin tank 210, a liquid photo-curable resin supplied by the resin supply unit 300 is accommodated. As the photo-curable resin, a monomer, an oligomer, a photoinitiator and the like which is cured when light such as ultraviolet light is incident can be prepared. The resin tank 210 may be provided with an enclosure in which an opening 211 is formed in a top surface to facilitate the immersion of the steel coil 10.

When the steel plate coil 10 is immersed in the resin tank 210 containing the liquid photo-curing resin, the photo-curing unit 400 irradiates light toward the steel plate coil 10, The liquid photo-curing resin in the resin tank 210 can be cured together. It is preferable that a light blocking window 220 is provided on the upper end surface of the resin tank 210 except for the opening 211 corresponding to the diameter and width of the steel plate coil 10. The light shielding window 220 shields light such as ultraviolet rays irradiated to cure the photocurable resin and allows the operator to visually confirm the state of the inside of the resin tank 210.

The rotating roller 230 is disposed inside the resin tank 210. The rotating roller 230 supports the steel plate coil 10 immersed in the resin tank 210 and rotates the steel plate coil 10. The rotating roller 230 can uniformly apply a liquid photo-curable resin to the entire outer surface of the steel sheet coil 10 immersed in the resin tank 210. These rotating rollers 230 may be provided in at least one pair.

The distance L2 between the liquid surface of the liquid photocured resin accommodated in the resin tank 210 and the rotating roller 230 is a distance L1 from the inner circumferential surface of the steel coil 10 to the outer circumferential surface of the steel coil 10, .

On the other hand, the resin supply unit 300 supplies a liquid photo-curing resin to the resin tank 210. The resin supply unit 300 may include a buffer tank 310, a stirrer 320, a connecting pipe 330, a metering valve 340, a control pump 350, and a pressure gauge 360.

The buffer tank 310 may receive a photocured resin supplied to the resin tank 210. The agitator 320 stirs the photo-curing resin in the buffer tank 310. The connection pipe 330 connects the buffer tank 310 and the resin tank 210. The metering valve 340 is disposed in a conduit of the connection pipe 330 so that the photocurable resin is supplied in a predetermined amount. As the metering valve 340, a ball valve may be used. The control pump 350 can control the conveying direction of the photocured resin conveyed along the coupling pipe 330. [ That is, the control pump 350 allows the photo-curable resin to be supplied from the buffer tank 310 to the resin tank 210 and allows the photo-cured resin to be discharged from the resin tank 210 to the buffer tank 310. As the control pump 350, a diaphragm pump can be used. The pressure gauge 360 detects the pressure inside the buffer tank 310.

The photo-curing unit 400 irradiates light toward the steel coil 10 to cure the photo-curable resin applied to the steel coil 10. The light curing unit 400 may include first, second, third, and fourth light emitting modules 410, 420, 430, and 440. As the first, second, third, and fourth light emitting modules 410, 420, 430, and 440, a light source such as an ultraviolet lamp or the like capable of photo-

The first light emitting module 410 irradiates light toward the outer peripheral surface of the steel coil 10. The first light emitting module 410 may have a length corresponding to the width W of the steel strip coil 10 and may be arranged in the width direction of the steel strip coil 10. The second light emitting module 420 irradiates light toward the inner peripheral surface of the steel coil 10. The second light emitting module 420 is provided in a width corresponding to the width W of the steel plate coil 10 and is disposed in the width direction of the steel plate coil 10 and extends from the first light emitting module 410 to the steel plate coil 10 In the radial direction. The third light emitting module 430 irradiates light toward one end face 13 of the steel coil 10. The third light emitting module 430 may have a length corresponding to the length L1 from the inner circumferential surface 12 to the outer circumferential surface 11 of the steel strip coil 10 and may be disposed in the radial direction of the steel strip coil 10. The fourth light emitting module 440 irradiates light toward the other end face 14 of the steel coil 10. The fourth light emitting module 440 is provided in a length corresponding to the length L1 from the inner circumferential surface 12 to the outer circumferential surface 11 of the steel strip coil 10 and is arranged in the radial direction of the steel strip coil 10, And may be spaced from the discharge module 430 in the width direction of the steel coil 10.

The first, second, third and fourth light emitting modules 410, 420, 430 and 440 are disposed on the outer circumferential surface 11, the inner circumferential surface 12, the one end surface 13 and the other end surface 14 of the steel plate coil 10 And can be supported on a corresponding rectangular supporting frame. This support frame stays on both sides of the resin tank 210 before the steel coil 10 is immersed in the resin tank 210. After the steel coil 10 is immersed in the resin tank 210, 2, 3, and 4 light emitting modules 410, 420, 430, and 440 may be arranged in respective positions.

That is, the first and second light emitting modules 410 and 420 are separated into a plurality of light emitting modules, and the third and fourth light emitting modules 430 and 440 are connected to the first and second light emitting modules 410 and 420, . At this time, the third light emitting module 430 may be supported by the first support frame 451, and the fourth light emitting module 440 may be supported by the second support frame 452.

In another embodiment, the support frame includes a first support frame 451 that supports the first light emitting module 410 and the third light emitting module 430 together, and a second support frame 452 that supports the second light emitting module 420 and the fourth light And a second support frame 452 that supports the release module 440 together. In another embodiment, the support frame comprises a first support frame 451 for supporting the first, second and third light emitting modules 410, 420 and 430 together, a second support frame 451 for supporting the fourth light emitting module 440, And can be separated into a support frame 452. In another embodiment, the support frame includes a first support frame 451 that supports the third light emitting module 430 and a second support frame 452 that supports the first, second, and fourth light emitting modules 410, 420, And can be separated into a support frame 452.

The alignment unit 500 may be configured to transmit the first and second support frames 451 and 452 to the first, second, third, and fourth light emitting modules 410, 420, 430, and 440 Align the locations. The alignment unit 500 may include a pair of linear actuators 510 and 520 disposed on both sides of the resin tank 210 and disposed toward the opposite end faces 13 and 14 of the steel coil 10. The pair of linear actuators 510 and 520 transport the first support frame 451 and the second support frame 452 as described above to form the first, second, third, and fourth lights Align the positions of the emission modules 410, 420, 430, 440.

As described above, as the steel sheet coil 10 immersed in the resin applying portion 200 is rotated by the rotating roller 230, the outer surface of the steel sheet coil 10 is coated with the photo-curable resin, The liquid cured resin applied to the steel plate coil 10 is cured by the heater 400 by the liquid curing resin applied to the outer circumferential surface 11, the inner circumferential surface 12 and both the end surfaces 13 and 14 of the steel coil 10 After the photo-curing resin is completely cured, the coil elevating portion 100 raises the immersed steel coil 10 to unload the coil 10 from the resin applying portion 200. At this time, the liquid-phase photo-curable resin accommodated in the resin-coated portion 200 can be raised to the bottom of the steel coil 10. Accordingly, the blower 600 for removing the liquid photo-cured resin remaining on the steel coil 10 may be disposed above the resin tank 210. The blower 600 blows gas toward the lower portion of the steel coil 10 lifted from the resin tank 210 to remove the liquid photo-curing resin remaining in the steel coil 10.

Hereinafter, a packaging method using a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 4 is a flowchart illustrating a method of packaging a photo-hardened steel sheet coil according to an embodiment of the present invention, and FIGS. 5 to 9 illustrate a steel sheet coil packaging process using a photo-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention It is a process chart.

5, the steel sheet coil 10 is sealed in a separate packing material (not shown) on the outer circumferential surface 11, the inner circumferential surface 12, the one end surface 13, and the other end surface 14, Lt; / RTI > The coil lifting unit 100 supports the steel plate coil 10 loaded from the outside and transfers the steel plate coil 10 to the upper side of the resin tank 210.

On the other hand, the resin supply unit 300 can supply the liquid photo-curing resin into the resin tank 210. That is, the liquid photo-curing resin stirred in the buffer tank 310 by the stirrer 320 is supplied into the resin tank 210 through the connection pipe 330. At this time, the control pump 350 controls the advancing direction of the liquid photo-curing resin so that the liquid photo-curable resin is directed from the buffer tank 310 to the resin tank 210, and the metering valve 340 is connected to the resin tank 210 ) Can be supplied in a predetermined amount.

The process of supplying the liquid photo-cured resin in the resin tank 210 may be performed before the steel coil 10 is aligned on the upper side of the resin tank 210.

6, the coil lifting unit 100 moves the steel coil 10 downward. The steel plate coil 10 passes through the opening 211 and is accommodated in the resin tank 210. At this time, the steel coil 10 is supported by the rotating roller 230.

7, the first, second, third, and fourth light emitting modules 410, 420, 430, 440 dispersed in both sides of the resin tank 210 are disposed on the outer circumferential surface 11 of the steel sheet coil 10 ), The inner circumferential surface 12, the one side surface 13 and the other side surface 14, as shown in Fig. That is, the aligning unit 500 transfers the first support frame 451 and the second support frame 452 toward the steel plate coil 10. Accordingly, the first light emitting module 410 is aligned with the outer peripheral surface 11 of the steel coil 10, the second light emitting module 420 is aligned with the inner peripheral surface 12 of the steel coil 10, 3 light emitting module 430 is aligned with one end face 13 of the steel plate coil 10 and the fourth light emitting module 440 is aligned with the other end face 14 of the steel plate coil 10.

8, the rotating roller 230 is rotationally driven to rotate the steel coil 10. Therefore, the liquid-phase photo-curable resin can be applied to the outer surface of the steel plate coil 10 with a uniform thickness. In addition, the first, second, third, and fourth light emitting modules 410, 420, 430, and 440 emit light such as ultraviolet rays together. At this time, the light blocking window 220 blocks the light emitted from the first, second, third, and fourth light emitting modules 410, 420, 430, and 440 from entering the interior of the resin tank 210, 210 is prevented from hardening.

As described above, the liquid photo-curable resin applied to the outer surface of the steel coil 10 is photo-cured to wrap the outer surface of the steel coil 10.

9, when the photocurable resin is cured on the outer surface of the steel coil 10, the coil elevator 100 supports the steel coil 10 and raises the steel coil 10. At this time, the blower 600 blows gas toward the steel coil 10 to remove the liquid photo-curing resin that can remain in the lower portion of the steel coil 10.

Subsequently, the coil lifting unit 100 can unload the steel coil 10 from the upper side of the resin tank 210 by unloading the steel coil 10 from the upper side of the resin tank 210.

After the packaging process of the steel sheet coil 10 using the photo-curing resin is finished, the control pump 350 discharges the liquid photo-curable resin remaining in the resin tank 210 to the buffer tank 310 The liquid photocurable resin in the resin tank 210 can be discharged to the buffer tank 310. [

Hereinafter, a photo-hardened steel sheet coil packaging apparatus according to another embodiment will be described. In the following description, components similar to those of the light-hardened steel sheet coil packaging apparatus according to an embodiment of the present invention are given the same reference numerals, and a detailed description thereof will be omitted. Therefore, elements omitted from the detailed description in the following description should be understood with reference to the above description.

10 is a side view showing a light-hardened steel sheet coil packaging apparatus according to another embodiment of the present invention.

Referring to FIG. 10, the photo-hardened steel sheet coil packaging apparatus according to another embodiment of the present invention may include a roller elevating unit 700 for raising and lowering the rotating roller 230. The light-hardened steel-coated-coil packaging apparatus according to another embodiment of the present invention may be used in combination with a rotary roller 230 so that the first, second, third, and fourth light-emitting modules 410, 420, 430, 1 and 2 support frames 451 and 452, as shown in FIG.

In this case, after the curing process of the liquid photo-curing resin applied to the steel coil 10 is completed, the roller elevator 700 moves the steel coil 10 The supported rotating roller 230 can be raised to the upper side of the liquid photo-curing resin in the resin tank 210. At the same time, the discharging module elevating portion 800 raises the first and second supporting frames together with the rotating roller 230.

The first, second, third, and fourth light emitting modules 410, 420, 430, and 440 emit light toward the steel plate coil 10, while the rotating roller 230 rotates the steel plate coil 10 . As a result, all of the liquid phase photo-curing resin remaining in the lower portion of the steel coil 10 can be cured.

In FIG. 10, the roller elevating unit 700 lifts the rotary roller 230, and the discharge module elevating unit 800 lifts up the first and second support frames separately. However, in another embodiment, As shown in the drawing, the rotary roller 230 and the first, second, third and fourth light emitting modules 410, 420, 430 and 440 are supported together by the discharge module elevating portion 800, And the first, second, third, and fourth light emitting modules 410, 420, 430, and 440 may be modified so as to move up and down together.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

10: steel plate coil 11: outer peripheral surface
12: inner peripheral surface 13: one side surface
14: other end face 100: coil elevating portion
200: Resin application part 210: Resin tank
211: opening 220: light blocking window
230: rotating roller 300: resin supply part
400: light hardening part 410: first light emitting module
420: second light emitting module 430: third light emitting module
440: fourth light emitting module 451: first support frame
452: second supporting module 500:
510, 520: linear actuator 600: blower
700: roller elevating part 800: discharging module elevating part

Claims (13)

A resin application portion for applying a liquid photo-curing resin to a steel coil coated with an outer surface including an inner circumferential surface, an outer circumferential surface,
And a photo-hardening unit for irradiating light toward the steel plate coil coated with the liquid photo-curing resin to cure the liquid photo-curable resin applied to the steel plate coil. . The method according to claim 1,
The resin-
A resin tank in which the liquid photo-curing resin is accommodated;
And a light shielding window for shielding the light irradiated by the steel plate coil from being irradiated with the liquid curing resin contained in the resin tank and visually confirming the interior of the resin tank,
Further comprising a coil lifting section for lifting the steel plate coil to the resin tank to immerse the steel plate coil in the liquid photo-curable resin. 3. The method of claim 2,
And a rotating roller disposed inside the resin tank for rotating the steel plate coil immersed in the liquid photo-curable resin. The method of claim 3,
Further comprising a roller elevating portion for elevating and lowering the rotating roller to remove the steel plate coil immersed in the liquid photo-setting resin from the liquid photo-setting resin. 5. The method of claim 4,
The photo-
A first light emitting module for emitting light toward an outer circumferential surface of the steel coil;
A second light emitting module that emits light toward the inner peripheral surface of the steel coil;
A third light emitting module for emitting light toward one end face of the steel coil;
And a fourth light emitting module for emitting light toward the other end face of the steel coil,
And an alignment unit for supporting the first, second, third and fourth light emitting modules and aligning the positions of the first, second, third and fourth light emitting modules with respect to the steel plate coil immersed in the resin applying unit Characterized in that the light-hardened steel sheet coil packaging apparatus comprises: 6. The method of claim 5,
Further comprising: a discharge module lifting unit for lifting the first, second, third, and fourth light emitting modules together with the rotating rollers. 3. The method of claim 2,
Further comprising a blower for spraying a gas toward said steel plate coil rising from said resin tank to remove said liquid photo-setting resin remaining on said steel plate coil. A step of applying a liquid photo-curable resin in which a resin-coated portion is cured in response to light, onto a steel sheet coil sealed with a packaging material on an inner circumferential surface, an outer circumferential surface and both side surfaces including both side surfaces;
And a photo-curing step of irradiating light toward the steel plate coil to cure the liquid photo-curable resin coated on the outer surface of the steel plate coil. 9. The method of claim 8,
The step of applying the photo-curing resin
Wherein the steel sheet coil is immersed in a resin tank containing the liquid photo-curing resin. 10. The method of claim 9,
The step of applying the photo-curing resin
Wherein a rotating roller disposed inside the resin tank rotates the steel plate coil to apply the liquid photo-curing resin to the outer surface of the steel plate coil. 11. The method of claim 10,
When the photocurable resin is applied to the steel coil,
A second light emitting module for irradiating light toward the inner circumferential surface of the steel plate coil, a third light emitting module for emitting light toward one end face of the steel plate coil, And aligning the light emitting module and the fourth light emitting module for irradiating light toward the other end face of the steel plate coil to the steel plate coil. 12. The method of claim 11,
The rotating roller is raised after the photo-curing step to remove the steel plate coil immersed in the liquid photo-curing resin from the liquid photo-curable resin, and rotating the steel plate coil separated from the liquid photo- And curing the liquid-phase photo-curable resin remaining on the steel plate coil. 13. The method of claim 12,
And after the photo-curing step, the blower blows gas toward the steel plate coil raised from the resin tank to remove the liquid photo-curing resin remaining on the steel plate coil.

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