KR20200055858A - Transfer printing film and printing method thereof - Google Patents

Abstract

The present invention relates to a transfer printing film which comprises: a base film layer; an adhesion layer stacked on the base film layer and molten by heat; a reflection layer stacked on the adhesion layer and reflecting light; a non-reflection part forming layer stacked on the reflection layer in a pattern form and remaining on the base film layer which is separated during transferring; a printing layer stacked on the non-reflection part forming layer and the reflection layer; and a bonding layer stacked on the printing layer and attaching the printing layer to an adherend. In a printing part, the reflection part for reflecting light and a non-reflection part without reflecting light are formed in a pattern shape by one transfer printing, thereby providing a beautiful design and performing a genuine product certification function.

Description

TRANSFER PRINTING FILM AND PRINTING METHOD THEREOF}

The present invention implements a reflective part that reflects light and a non-reflective part that does not reflect light in a single printing part, which can beautify a design and transfer by a printing film and a printing film capable of performing an activation function. It is to provide printed materials.

In general, a transfer method is widely used to print shapes, logos, and designs on clothing, cloth, fabric, natural leather, synthetic leather, etc. made of natural or artificial fibers.

The transfer method is a method in which the printing film formed on the printing part is adhered to the adherend and then heat and pressure are applied to the printing part to transfer the adherend.

Conventional transfer film for printing, as disclosed in Patent Publication No. 10-1615631 (April 20, 2016), a base film layer, a top coating layer laminated on the base film layer, a printing layer laminated on the top coating layer, and printing It is composed of a thermoplastic adhesive layer laminated to a layer.

In such a conventional transfer film for printing, when a heat is applied after being in close contact with the adherend, the thermoplastic adhesive layer is melted by heat and the top coating layer and the print layer are separated from the base film layer and transferred to the adherend.

However, the conventional transfer film for printing has a problem that the design is not beautiful because the printing layer is formed of one color or one door or figure.

Registered Patent Publication 10-1615631 (April 20, 2016)

Accordingly, an object of the present invention is to achieve a beautiful design by using a reflective part that reflects light and a non-reflective part that does not reflect light at the same time, which can be beautifully designed and used as a logo or design. It is to provide a transfer printing film capable of performing a genuine product activation function and a print transferred by the printing film.

Another object of the present invention is to provide a transfer printing film capable of improving a three-dimensional effect by placing a height difference between the reflective portion and the anti-reflection portion of the printing portion, and to make the visual design beautiful, and a printed material transferred by the printing film.

In order to achieve the above object, the transfer printing film is a base film layer, an adhesive layer laminated on the base film layer, a reflective layer laminated on the adhesive layer and reflecting light, and laminated on the reflective layer in a pattern form during transfer The reflective layer includes a non-reflective portion forming layer that removes the reflective layer in a pattern to form an anti-reflective portion, a print layer that is laminated on the anti-reflective portion-forming layer and a reflective layer, and an adhesive layer that is laminated on the print layer and adheres a printed layer to an adherend.

The anti-reflective portion forming layer is formed of a silicone material or a UV composition cured by UV.

The reflective layer is formed of glass beads or metal.

The adhesive force of the adhesive layer is stronger than that of the adhesive layer, and the adhesive force of the adhesive layer is formed stronger than the adhesive force between the anti-reflection portion forming layer and the printing layer.

The print layer includes a first print layer on which a reflective layer is stacked, and a second print layer on which the reflective layer is removed by the anti-reflective portion forming layer and exposed to the outside.

The reflective layer is characterized in that when the base film layer is separated, it is separated into a first reflective layer stacked on the printed layer and a second reflective layer removed by the anti-reflective portion forming layer.

The first reflective layer is formed with a reflective portion reflecting light, the second reflective layer exposed to the outside by removing the anti-reflective layer is formed, and an anti-reflective portion is formed between the anti-reflective portion and the reflective layer. It is characterized by having a height difference combined with the height.

The printed matter of the present invention includes a printing part printed by a transfer method on an adherend, and the printing part is laminated with an antireflection layer that does not reflect light when the printing layer is exposed to the outside in a pattern form and the antireflection layer is laminated in a pattern form And a reflective layer that reflects light.

The reflecting portion is characterized in that the height is formed relatively high compared to the non-reflecting portion.

In the transfer printing film of the present invention, the printing part transferred to the adherend reflects light and the non-reflective part that does not reflect light is implemented in a certain pattern form to beautify the design. You can do

In addition, the printed portion transferred to the adherend is formed to have a high height of the reflector and a low height of the anti-reflective portion to form different heights of the reflector and the anti-reflective portion, thereby improving the three-dimensional effect and making the visual design according to light reflection more beautiful.

1 is a cross-sectional view of a transfer printing film according to an embodiment of the present invention.
2 is a cross-sectional view showing separation during transfer of a transfer printing film according to an embodiment of the present invention.
3 is a cross-sectional view showing a printing unit transferred to an adherend according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the contents throughout this specification.

1 is a cross-sectional view of a transfer printing film according to an embodiment of the present invention.

The transfer printing film according to one embodiment includes a base film layer 10, an adhesive layer 20 laminated on the base film layer 10 and melted by heat, and a reflective layer laminated on the adhesive layer 20 and reflecting light (30), the reflective layer 30 in the form of a pattern and the reflective layer 30 is removed in the form of a pattern during transfer to form an anti-reflection portion forming layer 40 to form an anti-reflection portion, and a print layer laminated to the anti-reflection portion forming layer 40 50 and an adhesive layer 60 laminated on the printing layer 50 and attached to the adherend.

The base film layer 10 is formed of a resin material in which color colors are mixed, and serves to support all layers stacked on the base film layer. When the print layer is transferred to the adherend, the part is separated from the print layer and removed. to be.

The base film layer 10 has sufficient strength to support other layers, and a film-like synthetic resin having good warpage can be used to maintain the state wound on the transfer printing film.

The base film 10 includes triacetylcellulose (TAC), polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polyethylene naphthalate (PEN), and polybutylene naphthalate ( Polybutylenenaphthalate (PBN), Polyacrylonitrile (PAN), Polymethylmethacrylate (PMMA), Polyvinyl alcohol (PVA), Polyamide (PA), Polyimide (Polyimide: PI), polycarbonate (PC), polyether sulfone (PES), polyamide (PA), polyvinyl alcohol (PVA), nylon, polyethylene (PE), and One or more may be selected from the group consisting of polypropylene (PP).

The adhesive layer 20 maintains a certain viscosity and has an adhesive force to the extent that the reflective layer 30 is attached to the base film layer 10. In particular, the transfer printing film is wound in the form of a roll, and at this time, the base film layer 10 and the reflective layer 30 have an adhesive force that can maintain the state attached to each other.

The reflective layer 30 is laminated on the printed layer 50 to reflect light to make the design beautiful, so that the printed layer 50 shines, and glass beads or metal may be used.

Glass beads contain fine glass powder to increase light reflectance, and metal is used for aluminum or gold-plated thin plates to increase light reflectance and make the design beautiful.

The anti-reflective portion forming layer 40 is formed of a silicone material or a UV composition and is laminated on the reflective layer 30 in a predetermined pattern form. The anti-reflective portion forming layer 40 is a portion separated from the base film during transfer, and maintains a state in which the printing layer 50 and the anti-reflective portion forming layer 40 are in contact with each other without adhesion and mutually adheres to the reflective layer 30 It is formed of a material that can have properties.

The anti-reflective portion forming layer 40 may be laminated in a pattern form on the reflective layer 30 by various methods such as a screen printing method, 3D printing, and coating.

When the anti-reflection portion forming layer 40 is formed of a silicone material, the resin-based printing layer 50 does not adhere to each other, and has a property of bonding to the reflective layer 30 of glass beads or metal.

Likewise, when the anti-reflection portion forming layer 40 is a UV composition, it is cured by UV and attached to the reflective layer 30 and is not attached to the printed layer 50 but remains in contact with each other.

That is, since the anti-reflective portion forming layer 40 is laminated in a pattern form on the reflective layer 30, when the anti-reflective portion forming layer 40 is laminated on the reflective layer 30, the reflective layer 30 is exposed to the exposed portion and the anti-reflective portion forming layer 40 It is divided into parts to be removed by.

The anti-reflection portion forming layer 40 maintains only a state in contact with the printing layer 50 and does not adhere to the printing layer 50, and provides mutual adhesion between the anti-reflection portion forming layer 40 and the reflective layer 30. It has a form to have. Therefore, in the transfer process, when the base film layer 10 is separated after the printing layer 50 is adhered to the adherend 100, the anti-reflective portion forming layer 40 is separated like the base film layer 10 while the reflective layer 30 ) In the form of a pattern.

The printing layer 50 is made of a specific pattern or pattern to be formed on the surface of the adherend 100, spin coating, ink jet printing, screen printing, gravure coating, Micro Gravure Coating, Kiss Gravure Coating, Comma Knife Coating, Roll Coating, Spray Coating, Meyer Bar Coating and Slit Die It may be laminated on the surface of the reflective layer 30 and the anti-reflective portion forming layer 40 through one or more methods selected from the group consisting of coating.

If the adherend 100 is inevitably deformed by use and storage, such as fiber or paper, it is preferable that the printed layer 50 has a vivid color and excellent strength.

The printed layer 50 includes polycarbonate resin to implement durability and flexibility, and the polycarbonate resin provides excellent impact resistance, heat resistance, and workability to the printed layer 50, thereby deforming external strong physical force or adherend Despite this, separation or cracking of the printed layer 30 can be minimized.

The printing layer 50 may include a first printing layer 52 stacked on the surface of the reflective layer 30 and a second printing layer 54 stacked on the surface of the anti-reflection portion forming layer 40.

Here, since the anti-reflective portion forming layer 40 is laminated in a pattern form on the reflective layer 30, when the printing layer 50 is laminated on the reflective layer 30 and the anti-reflective portion forming layer 40, the first printing layer 52 is thick. Since (T1) is thick and the second printing layer 54 is laminated on the surface of the anti-reflective portion forming layer 40, the thickness T2 is formed thinner than that of the first printing layer 52, and the second printing layer 54 is Since the non-reflective portion forming layer 40 is a portion exposed to the outside, the thickness T2 of the second printing layer 54 has a strength as that of the printing layer 50 and is sufficient to prevent damage by external force. Have

The adhesive layer 60 is directly adhered to the adherend 100, a thermoplastic adhesive may be used, and a hot melt adhesive may be used.

As described above, the process of transferring the transfer printing film according to an embodiment of the present invention to an adherend will be described below.

First, as shown in FIG. 2, the transfer printing film is pressed onto the surface of the adherend 100 and then heat is applied. Then, as the adhesive layer 60 is melted, the printing layer 50 is adhered to the adherend 100 by the adhesive force of the adhesive layer 60.

In this state, when the base film layer 10 is separated, as shown in FIG. 2, the portion where the base film layer 10 and the reflective layer 30 are contacted is separated from the base film layer 10 by the reflective layer 30. When the non-reflective portion forming layer 40 is stacked in a pattern form, the non-reflective portion forming layer 40 is separated from the printing layer 50.

At this time, since the adhesive strength of the adhesive layer 60 is stronger than the adhesive strength of the adhesive layer 20, when the base film layer 10 is separated, the printing layer 50 is in a state of being adhered to the adherend 100, and the adhesive layer 20 ) Is separated from the reflective layer 30, the reflective layer 30 and the printing layer 50 are transferred to the adherend 100, the adhesive layer 20 and the base film layer 10 are separated.

Since the anti-reflection portion forming layer 40 and the printing layer 50 do not adhere to each other due to the nature of the materials, the anti-reflection portion forming layer 40 is separated from the printing layer 50.

When the base film layer 10 is separated, since the adhesive force of the adhesive layer 20 is stronger than the adhesive force between the antireflection portion forming layer 40 and the printing layer 50, the antireflection portion forming layer is separated from the printing layer.

At this time, the portion of the reflective layer 30 in which the antireflection forming layer 40 is stacked in a pattern form is separated like the antireflection forming layer 40 so that the printing layer 50 is exposed to the outside to form the antireflection portion 80.

Therefore, the portion of the reflective layer 30 on which the anti-reflective portion forming layer 40 is stacked is maintained in a constant adhesion to the base film layer 10 by the adhesive layer 20, but the anti-reflective portion forming layer 40 and the printing layer 50 ) Is a state in contact with each other, so that when the base film layer 10 is separated, the anti-reflective portion forming layer 40 and the print layer 50 are separated from each other, and the reflective layer portion and the anti-reflective portion forming layer 40 in which the anti-reflective portion forming layer 40 are stacked ) Remains in the base film layer 10.

The reflective layer 30 is separated into a first reflective layer 32 stacked on the surface of the printed layer 50 and a second reflective layer 34 that is separated like the non-reflective portion forming layer 40 and remains on the base film layer 10. do.

At this time, since the anti-reflection portion forming layer 40 is disposed only in contact with the printing layer 50, and the adhesive layer 20 maintains a certain adhesive force, when the base film 10 is separated, the anti-reflection portion forming layer 40 is It is separated like the second reflective layer 34 and remains in the base film layer 10.

As shown in FIG. 3, the printing unit manufactured by the transfer method is laminated in a pattern form on the printing layer 50 which is adhered to the adherend 100 by the adhesive layer 60 and on the printing layer 50. The first reflective layer 32 is included.

At this time, the print layer 50 is a portion in which the anti-reflective portion forming layer 40 is removed, and the first print layer 50 and the first print layer exposed to the outside in the same form as the pattern of the anti-reflective portion forming layer 40. In comparison, the height is as high as the height of the anti-reflection portion forming layer 40 and is formed of a second printed layer 50 on which the first reflective layer 32 is stacked on the surface.

The first printed layer 10 is a portion exposed to the outside, the surface of which is formed with an anti-reflective portion 80 that does not reflect light, and the surface of the first reflective layer 32 is a reflective portion 82 that reflects light Is formed.

In addition, since the height difference A between the anti-reflection portion 80 and the reflection portion 82 differs by the height of the height of the second printed layer 52 and the height of the first reflection layer 32, the difference (A) Since the height difference between the reflectors can be maximized, the visual design effect can be made more beautiful by the refraction of light.

In the above, the present invention has been shown and described with reference to specific preferred embodiments, for example, but the present invention is not limited to the above-described embodiments, and is within the scope of the present invention without departing from the spirit of the present invention. Various changes and modifications will be possible by those who have.

10: base film layer 20: adhesive layer
30: reflective layer 32: first reflective layer
34: second reflection layer 40: anti-reflection portion forming layer
50: printing layer 52: first printing layer
54: second printing layer 60: adhesive layer

Claims (9)

Base film layer;
An adhesive layer laminated on the base film layer;
A reflective layer laminated on the adhesive layer and reflecting light;
An anti-reflection part forming layer laminated on the reflective layer in a pattern form and removing the reflective layer in a pattern form upon transfer to form an anti-reflection part;
A printed layer laminated on the anti-reflection portion forming layer and the reflective layer; And
A transfer printing film laminated on the printing layer and including an adhesive layer to attach the printing layer to the adherend. According to claim 1,
The anti-reflective portion forming layer is a transfer film formed of a silicone material or a UV composition cured by UV. According to claim 1,
The reflective layer is a transfer printing film formed of glass beads or metal. According to claim 1,
The adhesive force of the adhesive layer is stronger than the adhesive force of the adhesive layer, and the transfer printing film in which the adhesive force of the adhesive layer is formed stronger than the adhesive force between the antireflection portion forming layer and the printing layer. According to claim 1,
The printing layer is a transfer printing film comprising a first printing layer on which a reflective layer is stacked, and a second printing layer on which the reflective layer is removed by the anti-reflection portion forming layer and exposed to the outside. According to claim 1,
The reflective layer is separated from the base film layer, a transfer printing film, characterized in that separated into a first reflective layer laminated on the printed layer and a second reflective layer removed by the anti-reflective portion forming layer. The method of claim 6,
In the first reflective layer, a reflective portion reflecting light is formed, and the second reflective layer exposed to the outside by removing the non-reflecting portion forming layer is formed,
The transfer printing film, characterized in that between the anti-reflection portion and the reflection portion has a height difference between the height of the antireflection portion forming layer and the height of the reflective layer. Includes a printing unit to be printed by the transfer method on the adherend,
The printing unit is an anti-reflection layer that does not reflect light because the printed layer is exposed to the outside in a pattern form
Printed material including a reflective layer in which the anti-reflective layer is laminated in a pattern to reflect light. The method of claim 8,
The reflective portion is a printed matter, characterized in that the height is formed relatively high compared to the anti-reflection portion.

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