KR200406816Y1 - High Barrier Transfer Film with Hologram Pattern - Google Patents

Abstract

The present invention discloses a high barrier transfer film having a hologram pattern formed thereon.

The high-blocking transfer film having a hologram pattern according to the present invention is provided with a polyester film, which is selectively separated, and a polyester film layer is selectively applied to one surface of the polyester film layer to selectively separate the polyester film layer. A release layer for printing, a printing layer formed by printing patterns and colors on the surface of the release agent layer, a primer layer coated with an aliphatic polyether resin on the surface of the printing layer to increase adhesion in a subsequent process, and a surface of the primer layer. A hologram layer formed of coated paper having a hologram pattern formed thereon, a gas barrier layer for blocking gas permeation formed by vacuum deposition of aluminum powder on the surface of the hologram layer, and a two-component urethane resin coated on the surface of the gas barrier layer, This adhesive layer for hot pressing Having a hologram pattern, characterized in that the binary word is constructed consists of a high barrier transfer film.

The high-shielding transfer film formed with the hologram pattern configured as described above can increase high barrier effect and resilience without using expensive aluminum foil depending on imported materials by depositing aluminum powder, and can be recycled by chemical treatment. It provides an eco-friendly effect that reduces production costs and does not cause environmental pollution.

Hologram, aluminum powder, release agent, primer

Description

High impermeability transcription film with hologram pattern

1 is a partial cross-sectional view of a transfer film formed with a hologram according to the prior art.

2 is a laminated configuration diagram of a high-blocking transfer film having a hologram pattern formed in accordance with an embodiment of the present invention.

Figure 3 is a partial cross-sectional view of the high-shielding transfer film formed hologram pattern according to an embodiment of the present invention.

4 is a perspective view of the high-transmissive transfer film having a hologram pattern formed according to an embodiment of the present invention heat-compression-transferred onto the transfer target.

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

10 transfer film 11: polyester film layer

12: release agent layer 13: printed layer

14 primer layer 15 hologram layer

16 gas barrier layer 17 adhesive layer

20: subject

The present invention relates to a high-shielding transfer film having a hologram pattern. More specifically, the present invention relates to a packaging paper used for product packaging or ice cream packaging such as cone type. The present invention provides a hologram to enhance advertisement effect and vacuum-deposits a gas barrier layer with aluminum powder. It relates to a transfer film made.

In general, various kinds of pictures, letters, and figures are printed on the wrapping paper, and in order to increase the interest of consumers, it is directly related to the sales of the products according to how the advertisement is expressed on the wrapping paper of the goods.

Thus, printing is usually done on the packaging of the goods. If the printed product is monochromatic or monotonous, the printed product is printed directly on the surface of the product. It is usually heat-bonded to the surface of the product to the printed film.

However, by simply using a film printed only on the surface of the film, the advertising effect of the product is lowered, thereby not receiving a response from the consumer.

In the case of ice cream, such as cone type, when ice cream in the packaging melts, it will seep into the packaging and lose the balance of the packaging. .

In order to solve this problem, a conventional hologram forming film is coated with a hologram receiving material while inserting a film (polyester, polypropylene, etc.) between the pressing roller and the platen roller and transferring the release agent layer and the hologram layer to the film. After coating to be laminated, and again rotating the embossing roller on the hologram layer to form a hologram embossing to form a gas barrier layer (aluminum foil) on the hologram layer to enhance the advertising effect using the hologram and laminating the aluminum foil gas blocking effect Manufactures a wrapping paper.

1 is a prior art by applying a primer layer 120 to the film layer 110 to increase the adhesion of the printed layer 130 and the hologram layer 140 is laminated and then laminated aluminum foil on the gas barrier layer 150 Next, techniques of applying the adhesive 160 and laminating the paper 170 are used.

As another example, Korean Utility Model Registration No. 222625, a transfer paper using hologram particles, has been proposed, and the proposed transfer paper includes a medium such as PET film or paper; A reflective layer adhered to the bottom of the medium in a state in which hologram particles and the first adhesive are mixed; The second adhesive activated at 130 to 150 ° C., which is lower than the first adhesive, is mixed with ink, and is formed of an adhesive layer printed in the form of letters or pictures on the bottom of the reflective layer to deposit a pattern on clothing, etc. To increase advertising effectiveness.

However, there were some problems in using the figures, characters, etc. on the surfaces of household goods, school supplies, and all articles.

In order to solve the problem of gas barrier property, aluminum foil is laminated and used. The aluminum foil is all depended on imported materials, and the production cost is greatly increased due to the expensive product, and it is impossible to recycle by laminating the aluminum foil on paper. It is classified and causes environmental pollution, and by coating a print layer or a hologram layer directly on the base film (polyester, polypropylene, etc.), there is also a problem of causing environmental pollution because it is not reusable.

The present invention is to solve the problems as described above to increase the advertising effect by forming a hologram and to deposit aluminum powder without using aluminum foil on the gas barrier layer can significantly reduce the production cost and can be recycled by chemical treatment at disposal An object of the present invention is to provide a high-blocking transfer film having an environmentally friendly hologram pattern.

In addition, the present invention can reduce the production cost by completely separating the polyester film layer laminated on the surface of the release agent layer after production of the finished product can be reused immediately without a separate recycling process, and in addition to paper, metal, leather, plastics It is to provide an object that can be easily applied to various products by thermal compression transfer.

 The present invention for solving the above problems consists of a polyester film layer 11 that is selectively separated from the polyester, and the polyester film layer 11 is selectively separated on any one surface of the polyester film layer 11 To improve the adhesion and clarity of the post-process on the release agent layer 12 coated with resin, the print layer 13 on which the patterns and colors are printed on the surface of the release agent layer 12, and the surface of the print layer 13. To give a primer layer 14 coated with a polyether resin, a hologram layer 15 coated with a coated paper formed with a hologram pattern to maximize the advertising effect on the surface of the primer layer 14, and the hologram layer 15 Gas barrier layer (16) formed by depositing aluminum powder on the surface of the &lt; RTI ID = 0.0 &gt;), &lt; / RTI &gt; Characterized in that binary place.

As a preferable feature of the present invention, it is preferable that the film formed as described above can be easily applied to various products by heat-compression-transferring to one selected from papers, metals, leathers, and plastics.

In another preferred feature of the present invention, the film is heat-compressed and transferred onto the transfer member 20, and the polyester film layer 11 is completely separated from the release agent layer 12 to be reused immediately without a separate regeneration process. It is desirable to be able to do this.

Hereinafter, referring to the accompanying drawings, a high-blocking transfer film having a hologram pattern according to the present invention will be described in detail.

2 is a laminated configuration diagram of a high-blocking transfer film having a hologram pattern according to an embodiment of the present invention.

First, the polyester film layer 11, which is excellent in electrical properties in the transfer film 10 and is made of polyester having a high modulus of elasticity, impact resistance, and tensile strength, is provided.

 After transferring the transfer film 10 to the transfer object 20, the polyester film layer 11 may be completely separated from the release agent layer 12.

The release agent layer 12 is formed by applying a resin to one surface of the polyester film layer 11.

The release agent layer 12 facilitates separation in the process of separating the polyester film layer 11, increases the gloss and clarity of the print layer 13, and prepares the print layer against an external impact such as a scratch. (13) To protect.

The resin applied to the release agent layer 12 is preferably applied by mixing a mixture of paraffin wax, polyethylene wax, natural wax, rosin ester resin, and ethylene vinyl acetate.

In addition, the anti-scratch agent may be selectively added to the release agent layer 12 to further protect external impacts such as scratches on the print layer 13.

Next, the printing layer 13 is formed on the surface of the release agent layer 12, the angle of the doctor blade using a conventional printing method (gravure printing, silk printing, etc.) used in this industry is 5 ~ 8 ° The transfer film 10 is passed through a printing roller to form the print layer 13.

The reason why the doctor blade angle is maintained at 5 to 8 ° in the printing process is that the transfer film 10 formed to the release agent layer 12 is thin, so that the transfer film 10 is torn or pressed during printing. In order to prevent the back, the printing operation is performed while maintaining the doctor blade at an angle of 5 to 8 degrees.

Next, the primer layer 14 is formed on the surface of the print layer 13 by applying an isocyanate to the composition containing 5 to 20 wt% of the aliphatic polyether resin and the aliphatic polyether resin.

In addition, the primer layer 14 is preferably applied by adding 0.4 to 18% by weight of cloidal silica having a particle diameter of 50 ~ 200nm.

As described above, by adding isocyanate and clodal silica, it is for excellent adhesiveness and gloss effect in the post-process.

 The hologram layer 15 is stacked on the surface of the primer layer 14 thus formed.

The hologram layer 15 may be coated on the surface of the primer layer 14 by passing a coated paper having a hologram pattern formed therein through a pressure roller having a pressure of 0.5 to 1.0 kgf / cm 2 according to a desired shape of the user.

By forming the hologram layer 15, the user's interest can be increased to increase the advertising effect.

Aluminum powder is deposited on the surface of the formed hologram layer 15 in a vacuum to stack the gas barrier layer 16.

The gas barrier layer 16 deposits aluminum powder having a particle size of 1 to 5 μm or less.

Deposition of an aluminum powder having a particle size of less than 1 μm leads to a decrease in production efficiency because the deposition time increases, and when the particle size exceeds 5 μm, the surface of the gas barrier layer 16 becomes rough as the particle size. The quality of the transfer film 10 is degraded.

By depositing aluminum powder, high gas barrier properties can be achieved without the use of expensive aluminum foil, which relies entirely on imported materials, and has higher resilience than conventional aluminum foil.

When the aluminum powder is deposited to form a thickness of 5 to 20 μm, the gas barrier layer 16 is formed to obtain an oxygen permeability of 1 cc / m 2 · atm · 24hr or less at 20 ° C. and 85% RH and 38 ° C. and 90% RH. It is preferable to make the thickness of the said gas barrier layer 16 into 5-20 micrometers because it has the effect of the moisture permeability of 2 g / m <2> * 24hr.

Next, an adhesive layer 17 is formed on the surface of the gas barrier layer 16 to thermally compress the transfer film 10 to the transfer target body 20.

The adhesive layer 17 is dried using a two-component urethane and coated with 5 ~ 9g / ㎡.

The coating of the two-component urethane at 5 to 9 g / m 2 is performed when the transfer film 10 is thermally press-bonded to the transfer body 20. The transfer body 20 is made of paper, metals, leathers, plastics, and the like. Since the pressure-sensitive transfer of the adhesive layer 17 is required to be less than 5 g / m 2 to the various transfer objects 20, the adhesive layer 17 may be easily separated without being easily transferred to metals or leathers, and applied in excess of 9 g / m 2. This is because the amount of unnecessary coating is easily applied to papers and plastics that are easily transferred.

In addition, it is preferable to transfer the heating temperature at the time of heat-compression-transferring, maintaining 140-180 degreeC.

As shown in FIG. 4, it is preferable that the transfer film 10 is thermally press-bonded onto the transfer member 20, and then the polyester film layer 11 is completely separated from the release agent layer 12. .

The separated polyester film layer 11 can be reused as it is without a separate regeneration process, thereby reducing production costs and being environmentally friendly.

As described above, the present invention can achieve high gas barrier properties by using aluminum powder in the gas barrier layer process step without using aluminum foil, which has been dependent on expensive imported materials, and improve resilience and chemical treatment. It can be reused to reduce the production cost and eco-friendly effect.

In addition, the transfer body can be easily applied to various products by heat-compression-transferring not only paper but also metals, leathers, and plastics.When the transfer is completed, the polyester film layer is completely separated and recycled without a separate regeneration process. This can reduce the production cost and has the advantage of increasing the advertising effect because the hologram is formed.

Claims (5)

A polyester film layer provided with a polyester film and selectively separated; A release agent layer coated on one surface of the polyester film layer to selectively separate the polyester film layer; A printing layer formed by printing patterns and colors on the release agent layer surface; A primer layer coated on the surface of the printed layer with an aliphatic polyether resin to increase adhesion in a subsequent process; A hologram layer formed of coated paper having a hologram pattern formed on the surface of the primer layer; A gas barrier layer for blocking gas permeation formed by vacuum deposition of aluminum powder on the hologram layer; An adhesive layer applied on the surface of the gas barrier layer with a two-component urethane resin to transfer and press-bond transfer with the transfer body; High-blocking transfer film formed with a hologram pattern, characterized in that consisting of. The method of claim 1, The gas barrier layer is a high barrier transfer film having a hologram pattern, characterized in that the deposition of aluminum powder having a particle size of 1 ~ 5㎛ less than 5 ~ 20㎛ in vacuum. The method of claim 1, The release agent layer is applied to the mixture of the paraffin wax, polyethylene wax, natural wax, rosin ester resin, ethylene vinyl acetate, and applied to the high barrier film having a hologram pattern, characterized in that it further comprises a scratch prevention agent. The method of claim 1, The primer layer has a high barrier property in which a hologram pattern is formed, wherein 5 to 20 wt% of isocyanate and 0.4 to 18 wt% of colloidal silica having a particle size of 50 to 200 nm are added to the aliphatic polyether resin. Transfer film. The method of claim 1, The transfer film is a high-transmissive transfer formed with a hologram pattern, characterized in that the heat-transferred transfer at 140 ~ 180 ℃ to one of the transfer member selected from papers, metals, leathers, plastics to completely separate the polyester film layer film.

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