KR101068125B1 - Method with thermal transfer of beaded plate for fireproof-door - Google Patents

Abstract

The present invention relates to a color steel sheet bead transfer printing method for fire doors.
<Purpose>
Therefore, the technical gist of the present invention is to form a decorative pattern on the door lock and a predetermined portion of the fire door, the color steel sheet bead transfer printing method for the fire door to express the pattern of various shapes using a thermal transfer method on the metal plate of the color steel sheet material. The purpose is to provide.
<Composition>
In order to achieve the above object, the present invention coats a colored layer on a metal plate surface of a steel plate, cuts the coated metal plate to a predetermined size attached to the inner and outer surfaces of the fire door, and bends the ends of the cut edges. Cutting step (S100) to produce a bead plate 100; Cleaning step (S200) for removing and cleaning the foreign matter on the surface of the bead plate; A sheet attaching step (S300) for attaching a transfer sheet 200 having a pattern with a transfer ink on the upper surface of the bead plate; Supply step (S400) so that the silicon pad 300 is seated on top of the bead plate attached to the transfer sheet; A vacuum step (S500) of pressing the silicon pad to discharge residual air between the bead plate and the transfer sheet; A heating step (S600) of applying a predetermined heat to the decorative plate in the vacuum state so that the pattern of the transfer sheet is thermally transferred; Cooling of the bead plate and removing step of removing the silicon pad and the transfer sheet (S700); consists of.
At this time, the coating step (S800) for applying a coating solution containing a silver nano component to prevent the antibacterial and deformation on the bead plate through the removing step (S700); further comprises.
<Effect>
Therefore, the present invention can decorate a pattern of a wide variety of shapes on the surface of the color steel sheet, and the decorative pattern is formed by being absorbed by the color layer coated on the steel sheet by the thermal transfer, there is an effect that does not deform even for long time use.
In addition, by forming a coating layer containing a silver nano component has the advantage of improving the antibacterial properties of the fire doors are always exposed to external bacteria, and protect the decorative patterns in a double.

Description

Color steel bead transfer printing method for fire doors. {Method with thermal transfer of beaded plate for fireproof-door}

The present invention relates to a bead transfer printing method for a fire door, and more particularly, in forming a decorative pattern on a door lock and a predetermined portion of a fire door, expressing a pattern of various shapes by using a thermal transfer method on a metal plate of a steel plate material. It relates to a color steel sheet bead transfer printing method for fire doors.

Fire doors are mainly used as entrance doors of general houses, apartments, factories, offices, etc., and are used to prevent external fires from spreading to the interior or prevent fires generated from indoors from going outside.

Therefore, the fire door is generally manufactured as a solid material of metal material, and should have the requirement of mechanical property that it will not be deformed or damaged against strong thermal stimulation inside or outside in case of fire.

Metal plate used for such a fire door is a situation that is used by applying a decorative aesthetic by various means such as painting, coating or patterning.

In the conventional metal plate material, an etching method, which is a method of exposing a metal plate material to an acid to corrode an acid, is mainly used, but the etching method as described above is not smooth or uneven depending on the degree of corrosion. There was a problem formed.

In addition, the rust or discoloration occurs in the decorative pattern portion after a long time, there was a problem that the maintenance, such as replacement or repair of the fire door is difficult.

The present invention is to solve the above problems, the technical gist of forming a decorative pattern on the door lock and a predetermined portion of the fire door, a fire door for expressing a pattern of various shapes by using a thermal transfer method on the metal plate of the steel plate material It is an object of the present invention to provide a color steel sheet bead transfer printing method.

In order to achieve the above object, the present invention coats a colored layer on a metal plate surface of a steel plate, cuts the coated metal plate to a predetermined size attached to the inner and outer surfaces of the fire door, and bends the ends of the cut edges. Cutting step (S100) to produce a bead plate 100; Cleaning step (S200) for removing and cleaning the foreign matter on the surface of the bead plate; A sheet attaching step (S300) for attaching a transfer sheet 200 having a pattern with a transfer ink on the upper surface of the bead plate; Supply step (S400) so that the silicon pad 300 is seated on top of the bead plate attached to the transfer sheet; A vacuum step (S500) of pressing the silicon pad to discharge residual air between the bead plate and the transfer sheet; A heating step (S600) of applying a predetermined heat to the decorative plate in the vacuum state so that the pattern of the transfer sheet is thermally transferred; Cooling of the bead plate and removing step of removing the silicon pad and the transfer sheet (S700); consists of.

At this time, the coating step (S800) for applying a coating solution containing a silver nano component to prevent the antibacterial and deformation on the bead plate through the removing step (S700); further comprises.

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Therefore, the present invention can decorate a pattern of a wide variety of shapes on the surface of the color steel sheet, and the decorative pattern is formed by being absorbed by the color layer coated on the steel sheet by the thermal transfer, there is an effect that does not deform even for long time use.

In addition, by forming a coating layer containing a silver nano component has the advantage of improving the antibacterial properties of the fire doors are always exposed to external bacteria, and protect the decorative patterns in a double.

1 is a process chart showing a pattern transfer method of the fire door bead plate according to the present invention,
2 is a view showing a cutting step according to FIG.
3 is a view showing a sheet attaching step according to FIG.
4 is a view showing a vacuum step and a heating step according to the present FIG.
5 is a view showing a removing step according to FIG.
6 is a view showing a coating step according to FIG.
Figure 7 is an exploded perspective view showing a state in which the bead plate for the fire door according to the invention coupled to the fire door,
8 illustrates various embodiments in accordance with the present invention.

Next, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a process chart showing a pattern transfer method of the bead plate for fire doors according to the present invention,

2 is a view showing a cutting step according to the present FIG. 1, FIG. 3 is a view showing a sheet attaching step according to this FIG. 1, FIG. 4 is a view showing a vacuum step and a heating step according to this FIG. Figure 1 shows a removal step according to Figure 1, Figure 6 shows a coating step according to the present Figure 1, Figure 7 is an exploded perspective view showing a state in which the bead plate for the fire door according to the invention coupled to the fire door, Figure 8 is the present invention Figures illustrating various embodiments according to the present invention.

1, the present invention cutting step (S100), washing step (S200), sheet attachment step (S300), supply step (S400), vacuum step (S500), heating step (S600), removal It is largely divided into the step S700.

At this time, the cutting step (S100) is to coat a colored layer on the surface of the metal plate of the steel plate material, cut the coated metal plate to a predetermined size attached to the inner and outer surfaces of the fire door, and bending the end of the cut edge To produce a bead plate (100).

At this time, as shown in Figure 2, it is preferable to bend the edge of the bead plate 100 using a separate forming machine.

That is, when combined with the fire door to mold the sharp edge of the bead plate 100 so as not to protrude to the outside, and to give a smooth aesthetic appearance, detailed description is described in No. 10-2011-63464 filed by the applicant It is.

Next, the washing step (S200) for removing and washing foreign matter on the surface of the cut bead plate.

That is, in order to uniformly attach the transfer sheet 210 engraved with a decorative pattern 200 to be described later, to wash the decorative plate contaminated by dust or powder generated during the cutting process.

Next, as shown in Figure 3, the sheet attachment step (S300) for attaching the transfer sheet 200 is a decorative pattern 210 is designed on the upper surface of the decorative plate 100.

At this time, the transfer sheet 200 is a decorative pattern 210 is formed by using the thermal transfer ink, it is to be able to select the design by designing a variety of patterns to be applied to all or part of the bead plate 100 desirable.

Next, the supply step (S400) to be supplied to the press so that the silicon pad 300 is seated on top of the bead plate 100 to which the transfer sheet 200 is attached.

At this time, as shown in Figure 4, the silicon pad 300 is to prevent this because the transfer sheet is deformed or damaged when directly applied to the transfer sheet 200 in the heating step (S500) to be described later, It is preferable that the bead plate 100 is formed to be larger than the size of the cut bead plate 100 so as to completely cover the bead plate 100.

Next, a vacuum step (S500) for compressing the silicon pad 300 to discharge residual air between the bead plate 100 and the transfer sheet 200.

That is, residual air such as bubbles is generated between the bead plate 100 and the transfer sheet 200 generated in the process of attaching the transfer sheet 200, and by pressing the soft silicon pad 300, the transfer sheet ( 200 is to be closely adhered to the bead plate 100.

Next, the heating step (S600) to apply a predetermined heat to the bead plate 100 in the vacuum state so that the pattern of the transfer sheet is thermally transferred.

At this time, the heating step (S600) is preferably heated for about 5 to 10 minutes at a temperature of 230 ℃ to 300 ℃.

At this time, when the heating temperature exceeds 300 ℃ problem occurs that the silicon pad 300 is melted, if less than 230 ℃ heat is not properly transferred to the transfer sheet 200 is made of the thermal transfer of the decorative pattern 210 You won't lose.

If the heating time is also less than 5 minutes or more than 10 minutes, the thermal transfer is not made properly or the silicon pad 300 is unable to function properly to produce the correct product.

Next, as shown in FIG. 5, cooling of the bead plate 100 and a removing step of removing the silicon pad 300 and the transfer sheet 200 are performed (S700).

That is, after cooling the bead plate 100 to which the decorative pattern 200 is fixed by thermal transfer at room temperature, the silicon pad 300 and the transfer sheet 200 are sequentially removed to remove the finished bead plate 100. You can get it.

On the other hand, as shown in Figure 6, the coating step (S800) for applying a coating solution containing a silver nano component to prevent the antibacterial and deformation on top of the bead plate 100 through the removal step (S700) is further included Is done.

That is, the coating step (S800) after the decorative pattern 210 is absorbed and fixed to the color layer 110 formed on the upper surface of the bead plate 100 by thermal transfer, once again containing the nano-nano powder 410 By coating the coating solution to form the coating layer 400, it is possible to improve the antimicrobial properties of the bead plate, to protect the decorative pattern in a double.

In other words, the fire doors which are exposed to the outside at all times have an advantage of preventing rust or color deformation due to external environment such as moisture or direct sunlight.

The fire door manufactured by the above-described process coats a colored layer on the surface of a steel plate, cuts the coated metal plate to a predetermined size attached to the inner and outer surfaces of the fire door, and bends the ends of the cut edges. By making a bead plate, and removing and washing foreign substances on the surface of the bead plate, and attaching a transfer sheet patterned with a transfer ink on the upper surface of the bead plate. The silicon pad is seated on top of the bead plate to which the transfer sheet is attached, and is supplied to the press, and the silicon pad is compressed to discharge residual air between the bead plate and the transfer sheet, and the predetermined bead is placed on the vacuum bead plate. The heat transfer pattern of the transfer sheet to the thermal transfer, and the bead plate for forming the fire door bead plate 100 formed by cooling the bead plate and removing the silicon pad and the transfer sheet by the NCT (Forming unit 510) ) Is fixedly coupled to the fire door 500 is formed.
At this time, the NCT (Numerically Controlled Turret) processing is a fully automatic press machine that can produce sheet metal parts, that is, parts that require press processing, to produce small quantities of various kinds of sheet metal products with an automated machine without a mold. Punching and forming in accordance with the dimensional conditions entered in the program in the unfolded state.

At this time, the bead plate 100 is formed to be attached to a part of the fire door using a fastening member such as an adhesive, a bolt, a nut made of a separate eco-friendly material as shown in Figure 7 or as shown in Figure 8, It is preferably formed to constitute the entire frame of the fire door.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

S100 ... Cutting step S200 ... Cleaning step
S300 ... sheet attachment step S400 ... supply phase
S500 ... vacuum stage S600 ... heating stage
S700 ... removal step S800 ... coating step
100 ... bead plate 110 ... colored layer
210 ... Decorative 200 ... Transfer Sheet
300 ... Silicon Pad
400 ... coating layer 410 ... silver nano powder
500 ... fire door 510 ... forming unit

Claims (3)

Coating a colored layer on the surface of the metal plate made of a steel plate material, cutting the coated metal plate to a predetermined size attached to the inner and outer surfaces of the fire door, and bending the end of the cut edge to produce the bead plate 100. Foundation step (S100);
Cleaning step (S200) for removing and cleaning the foreign matter on the surface of the bead plate;
A sheet attaching step (S300) for attaching a transfer sheet 200 having a pattern with a transfer ink on the upper surface of the bead plate;
Supply step (S400) so that the silicon pad 300 is seated on top of the bead plate attached to the transfer sheet;
A vacuum step (S500) of pressing the silicon pad to discharge residual air between the bead plate and the transfer sheet;
A heating step (S600) of applying a predetermined heat to the decorative plate in the vacuum state so that the pattern of the transfer sheet is thermally transferred;
Cooling of the bead plate and the removal step of removing the silicon pad and the transfer sheet (S700);
Fire-proof color steel sheet bead transfer printing method characterized in that consisting of.
The method of claim 1, wherein the coating step (S800) for applying a coating solution containing a silver nano component to prevent the antibacterial and deformation on the bead plate through the removing step (S700); characterized in that it further comprises Color steel sheet bead transfer printing method for fire door.
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