KR101032132B1 - Thermal transfer method and thermal transfer apparatus therefor - Google Patents

Abstract

The present invention relates to a thermal transfer method and a thermal transfer apparatus used therein, and in particular, to improve the clarity of ink transferred to a film coating film, to facilitate separation of the transfer paper, and to improve productivity. It relates to a thermal transfer apparatus used for this.

The thermal transfer method of the present invention includes a printing step of printing ink on one surface of a transfer sheet; A coating step of coating a film on a transfer object; A release coating step of applying a release agent to one surface of the transfer paper on which ink is printed; A laminating step of laminating one surface of the transfer paper coated with a release agent on the upper portion of the film coating film so as to face each other, and placing and transferring the transfer film coated with the film coating film and the transfer paper between the lower jig and the upper jig; Characterized in that it comprises a heating step of heating the transfer object and the transfer paper laminated.

Thermal transfer, film coating, organic compound, release agent, rail,

Description

Thermal transfer method and thermal transfer apparatus used in the same {THERMAL TRANSFER METHOD AND THERMAL TRANSFER APPARATUS THEREFOR}

The present invention relates to a thermal transfer method and a thermal transfer apparatus used therein, and in particular, to improve the clarity of ink transferred to a film coating film, to facilitate separation of the transfer paper, and to improve productivity. It relates to a thermal transfer apparatus used for this.

1 is a process diagram showing a method of thermal transfer to a conventional film coating film.

As shown in FIG. 1, conventionally, an ink 20 is printed on one surface of a transfer paper 10, and one surface of the transfer paper 10 on which the ink 20 is printed is coated with a film coating film 40. It was laminated so as to face the dead body 30.

Thereafter, the transfer paper 10 is pressurized using heat press while simultaneously applying heat to transfer the ink 20 printed on the transfer paper 10 to the film coating film 40, and then the transfer paper 10 ) Was used.

However, in the above method, when heat is applied in a state where the transfer paper 10 is in contact with the film coating film 40, the film coating film 40 is melted so that the transfer paper 10 is the film coating film 40. It was not easy to remove the transfer paper 10 from the film 40 afterwards.

That is, in the case of the film coating film 40 made of an organic synthetic resin is melted by heat to stick to the transfer paper 10, it was not easy to remove the transfer paper 10 from the film coating film 40 in the future. .

In view of such a problem, conventionally, the film coating film 40 is used only of a film made of an inorganic type (ceramic, etc.) or an organic / inorganic composite type (ceramic + organic synthetic resin) that is resistant to heat rather than an organic synthetic resin.

However, the inorganic type or organic-inorganic composite film film 40 as described above is low in transparency, the ink 20 printed on the transfer paper 10 to the inorganic or organic-inorganic composite film film 40 When transferring, there was a problem that the quality of the ink 20 may not be expressed or the color may be deteriorated.

In addition, since a heat press is conventionally used to transfer the ink 20 printed on the transfer paper 10 to the film coating film 40, a predetermined amount of the transfer paper 10 and the film coating film 40 may be removed by heat pressing. After pressurizing heat for a certain period of time, a certain amount of transfer paper 10 and film coating film 40 had to be pressurized for a certain period of time. The heating operation is not continuous, and it takes a long time and is cumbersome because it is not continuous. There was a problem that the productivity is lowered.

The present invention enables not only the inorganic type but also the film coating film of organic synthetic resin to make the color of ink transferred to the film coating clear, and at the same time to facilitate the separation of the transfer paper, and also the heating operation is continuously made The purpose of the present invention is to provide a thermal transfer method and a thermal transfer method used therefor.

In order to achieve the above object, the thermal transfer method of the present invention includes a printing step of printing ink on one surface of a transfer sheet; A coating step of coating a film on a transfer object; A release coating step of applying a release agent to one surface of the transfer paper on which ink is printed; A laminating step of laminating one surface of the transfer paper coated with a release agent on the upper portion of the film coating film so as to face each other, and placing and transferring the transfer film coated with the film coating film and the transfer paper between the lower jig and the upper jig; And a heating step of heating the transferred object and the transfer paper so that ink is transferred to the film coating film.

The film coating film is made of an organic synthetic resin.

In the heating step, radiant heat is applied from the upper portion of the transfer paper while moving the transfer object and the transfer paper.

In addition, in order to achieve the above object, the thermal transfer device of the present invention comprises: a fixing member for laminating and fixing a transfer paper on which an ink is printed on a transfer member coated with a film coating film; And a heating means for heating the transfer paper and the transfer target fixed to the fixing member on the transfer paper, and transferring the ink printed on the transfer paper to the film coating, wherein the fixing member comprises: A lower jig on which the bottom of the body is seated; It consists of an upper jig disposed on the upper portion of the transfer paper stacked on top of the film coating film, the upper jig and the lower jig is bonded to each other, the film coating film coated on the transfer paper disposed between the upper jig and the lower jig It is characterized in that the pressure fixed to contact the transfer object.

One of the upper jig or the lower jig has a coupling protrusion protruding in a direction facing each other, the other one is formed with a coupling hole into which the coupling projection is inserted.

The upper jig is formed through the heat radiation hole in the position where the transfer member is disposed, so that the heat generated from the heating means is transferred directly to the transfer paper through the heat radiation hole, the size of the heat radiation hole is the size of the transfer body It is larger and smaller than the size of the transfer paper.

The heating means may include a moving rail on which the fixing member is placed; It is made of a heating member disposed on the moving rail to apply radiant heat to the transfer paper fixed to the fixing member.

According to the thermal transfer method of the present invention as described above and the thermal transfer apparatus used therein, the following effects are obtained.

The present invention can also use a film coating film of organic synthetic resin to make the color of the ink transferred to the film coating as clear as the original color to improve the quality, while at the same time separating the transfer paper from the film coating film by applying a release agent It can be made easily.

Further, since the transfer member continuously heats the fixing member to which the transfer paper or the like is fixed by the moving rail and continuously heats the heating member, productivity can be improved over conventional non-continuous heating operation.

2 is a perspective view showing a state in which ink is printed on a transfer paper according to an embodiment of the present invention, Figure 3 is a perspective view showing a state in which a release agent is applied to the transfer paper shown in Figure 2, Figure 4 is a view 3 is a perspective view illustrating a state in which the transfer paper and the transfer body shown in FIG. 3 are disposed between a fixing member including an upper jig and a lower jig, and FIG. 5 is a perspective view illustrating a state in which the upper jig and the lower jig are coupled to each other in FIG. Is a perspective view of the heating means and the fixing member of the present invention.

As shown in Figures 2 to 6, the thermal transfer method of the present invention comprises a printing step, a coating step, a release coating step, a lamination step, and a heating step.

The printing step is a step of printing the transfer ink 120 using an inkjet printer or the like on one surface of the transfer paper 110, as shown in FIG.

The coating step is a step of coating a film coating 140 on the transfer body 130, the film coating 140 is not only inorganic type but also organic synthetic resin (acrylic, silicone polyester, polyester, melamine, epoxy, etc.) It is also possible.

However, as described below, in order to increase the sharpness of the ink 120 transferred to the film coating layer 140, the film coating layer 140 preferably uses an organic synthetic resin.

The release coating step, as shown in Figure 3, is to apply a release agent on one surface of the transfer paper 110, the ink 120 is printed.

At this time, the release agent is to be applied to the entire surface of the transfer paper (110).

The release agent may be a fluorine-based fluorine-based fluorine-based, a silicone oil-based silicone-based, preferably a fluorine-based release agent.

It is sufficient to apply the coating method in the same manner as the spray.

The laminating step is a step of laminating the transfer paper 110 on the film coating film 140, as shown in Figure 4, the transfer paper coated with the release agent on the film coating film 140 ( One side of 110 is stacked to face.

In order to fix and stack the transfer body 130 and the transfer paper 110 better, a fixing member 150 including a lower jig 151 and an upper jig 155 is used.

As shown in FIG. 4, between the lower jig 151 and the upper jig 155, the transfer member 110 coated with the film coating layer 140 and the transfer paper 110 on which the ink 120 is printed are formed. Placed and stacked.

The lower jig 151 and the upper jig 155 are formed in a flat plate shape, and the size of the lower jig 151 and the upper jig 155 is slightly larger than the size of the transfer paper 110.

The lower jig 151 is the bottom surface of the transfer body 130 is seated, the transfer member 130 to the lower jig 151 in order to be fixed to the lower jig 151, the transfer member A seating part 152 on which the 130 is mounted is formed.

The upper jig 155 is formed in substantially the same shape as the lower jig 151 and is disposed on the transfer paper 110 stacked on the film coating layer 140.

As shown in FIG. 5, the upper jig 155 and the lower jig 151 are coupled to each other to transfer the transfer paper 110 disposed between the upper jig 155 and the lower jig 151 to the film. The coating film 140 is fixed to contact with the coated transfer member 130.

For the coupling of the lower jig 151 and the upper jig 155, any one of the upper jig 155 or the lower jig 151 protrudes from each other in a direction facing each other, the rest A coupling hole 157 into which the coupling protrusion 153 is inserted is formed at one.

In the present embodiment, the coupling protrusion 153 is formed in the lower jig 151, and the coupling hole 157 is formed in the upper jig 155.

Forming positions of the coupling protrusion 153 and the coupling hole 157 are formed on the outer side of the transfer paper 110 disposed between the lower jig 151 and the upper jig 155 and the coupling protrusion 153. ) When the coupling hole 157 is coupled to the transfer paper 110 so as not to interfere with the coupling therebetween.

In addition, the upper jig 155 is formed through the heat radiation hole 156 at the position where the transfer member 130 is disposed, the heat generated from the heating means 160 to be described later through the heat radiation hole 156 Directly transferred to the transfer paper 110 to increase the transfer efficiency.

At this time, the size of the heat radiation hole 156 is larger than the size of the transfer member 130 and smaller than the size of the transfer paper 110, the upper jig 155 to be laminated on the lower jig 151. In this case, the transfer member 130 placed on the lower jig 151 is disposed in the heat radiation hole 156.

In addition, in the state where the transfer member 130 is placed on the lower jig 151, the total height of the lower jig 151 and the transfer body 130 is greater than the height of the lower jig 151 alone. The transfer member 130 is disposed in the heat radiation hole 156.

Accordingly, when the transfer paper 110 is stacked on the transfer body 130 and the upper jig 155 is covered, the transfer paper 110 protrudes upward from the lower jig 151. It is bent while being in close contact with the transfer body 130 by the transfer member 130 and the heat radiation hole 156 disposed.

Accordingly, the transfer paper 110 is fixed without being flowed between the upper jig 155 and the lower jig 151, and the transfer paper 110 is bent while the transfer paper 110 can be transferred only to a flat surface. Since the printed portion 120 is in contact with the side of the transfer body 130, it is possible to transfer not only the plane but also the transfer body 130 of various shapes.

The heating step is a step in which the ink 120 is transferred to the film coating layer 140 by applying heat to the transfer member 130 and the transfer paper 110 laminated by the lamination step.

In the heating step, by using the heating means 160, while moving the transfer target body 130 and the transfer paper 110, at the same time radiant heat is applied to the upper portion of the transfer paper (110).

The heating means 160 heats the transfer paper 110 and the transfer member 130 fixed to the fixing member 150 on the transfer paper 110, and is printed on the transfer paper 110. By transferring the ink 120 to the film coating 140, the movable rail 161, the fixing member 150 is placed on the upper surface, and the upper portion of the movable rail 161 is disposed on the fixing member 150 It consists of a heating member 162 for applying radiant heat to the transfer paper 110 fixed to.

The movable rail 161 is rotated in a caterpillar form to move the fixing member 150 placed on the upper portion.

In addition, the heating member 162 is made of a hot wire or the like to continue to heat the plurality of the fixed member 150 is placed on the moving rail 161 to move.

Therefore, the heating operation is made continuously, it is possible to heat more than the transfer paper 110 disposed in the fixing member 150 per unit time.

When heat is applied to the transfer paper 110 by the heating member 162, the ink 120 passes through the release agent and is absorbed into the film coating layer 140.

In addition, the release agent is disposed between the transfer paper 110, the film coating layer 140, and the transfer target body 130 so that the transfer paper 110 can be separated later.

As described above, the present invention can also use the film film 140 of the organic synthetic resin can make the color of the ink 120 transferred to the film film 140 as clear as the original color, while improving the quality, Application of the release agent may facilitate separation of the transfer paper 110 from the film coating layer 140.

Further, since the transfer member 110 is continuously moved by the moving rail 161 and the fixing member 150 to which the transfer paper 110 is fixed, heat is continuously applied by the heating member 162 at the same time. Productivity can be improved over continuous heating.

The thermal transfer method of the present invention and the thermal transfer apparatus used therein are not limited to the above-described embodiments, and may be variously modified and implemented within the allowable technical spirit of the present invention.

1 is a process diagram showing a method of thermal transfer to a conventional film coating film,

2 is a perspective view showing a state in which ink is printed on a transfer sheet according to an embodiment of the present invention;

3 is a perspective view showing a state in which a release agent is applied to the transfer paper shown in FIG.

Figure 4 is a perspective view showing a state in which the transfer paper and the transfer target shown in Figure 3 disposed between the fixing member consisting of the upper jig and the lower jig,

FIG. 5 is a perspective view illustrating a state in which the upper jig and the lower jig are coupled to each other in FIG. 4;

Figure 6 is a perspective view of the heating means and the fixing member of the present invention,

<Description of the symbols for the main parts of the drawings>

110: transfer paper, 120: ink, 125: release agent, 130: transfer member, 140: film coating film, 150: fixing member, 151: lower jig, 152: seating portion, 153: engaging projection, 155: upper jig, 156: Heat radiation, 157: coupling hole, 160: heating means, 161: moving rail, 162: heating member,

Claims (7)

delete A printing step of printing ink on one surface of the transfer paper; A coating step of coating a film on a transfer object; A release coating step of applying a release agent to one surface of the transfer paper on which ink is printed; A laminating step of laminating one surface of the transfer paper coated with a release agent on the upper portion of the film coating film so as to face each other, and placing and transferring the transfer film coated with the film coating film and the transfer paper between the lower jig and the upper jig; It is made of a heating step of heating the transfer object and the transfer paper laminated so that the ink is transferred to the film coating film, The film coating film is a thermal transfer method, characterized in that made of an organic synthetic resin. A printing step of printing ink on one surface of the transfer paper; A coating step of coating a film on a transfer object; A release coating step of applying a release agent to one surface of the transfer paper on which ink is printed; A laminating step of laminating one surface of the transfer paper coated with a release agent on the upper portion of the film coating film so as to face each other, and placing and transferring the transfer film coated with the film coating film and the transfer paper between the lower jig and the upper jig; It is made of a heating step of heating the transfer object and the transfer paper laminated so that the ink is transferred to the film coating film, In the heating step, while transferring the transfer target and the transfer paper at the same time radiant heat is applied to the upper portion of the transfer paper. delete A fixing member for laminating and fixing the transfer paper on which ink is printed on a transfer object coated with a film coating film; It comprises a heating means for heating the transfer paper and the transfer target fixed to the fixing member on the upper portion of the transfer paper, transfer the ink printed on the transfer paper to the film coating film, The fixing member, A lower jig on which the bottom of the transfer object is seated; It consists of an upper jig disposed on the upper portion of the transfer paper stacked on top of the film coating film, The upper jig and the lower jig are coupled to each other, the transfer paper disposed between the upper jig and the lower jig is pressed and fixed to contact the transfer object coated with the film coating film, Any one of the upper jig or the lower jig has a coupling protrusion protruding in a direction facing each other, the other one of the thermal transfer apparatus, characterized in that the coupling hole is formed in which the coupling projection is inserted. A fixing member for laminating and fixing the transfer paper on which ink is printed on a transfer object coated with a film coating film; It comprises a heating means for heating the transfer paper and the transfer target fixed to the fixing member on the upper portion of the transfer paper, transfer the ink printed on the transfer paper to the film coating film, The fixing member, A lower jig on which the bottom of the transfer object is seated; It consists of an upper jig disposed on the upper portion of the transfer paper stacked on top of the film coating film, The upper jig and the lower jig are coupled to each other, the transfer paper disposed between the upper jig and the lower jig is pressed and fixed to contact the transfer object coated with the film coating film, The upper jig is formed through the heat radiation hole in the position where the transfer member is disposed, so that the heat generated from the heating means is directly transmitted to the transfer paper through the heat radiation hole, And the size of the thermal radiation hole is larger than the size of the transfer member and smaller than the size of the transfer paper. The method according to claim 5 or 6, The heating means, A moving rail on which the fixing member is placed on an upper surface thereof; And a heating member disposed on the moving rail to apply radiant heat to the transfer paper fixed to the fixing member.

Images