KR20240109305A - Transfer paper laminated paper packing material and paper packing material manufactured thereby - Google Patents

Abstract

An invention for a method of manufacturing transfer paper laminated paper packaging is disclosed. The disclosed transfer paper laminated paper packaging manufacturing method includes a preparation step of preparing transfer paper, transfer paper, and box paper with a transfer layer laminated on a film, an application step of applying an eco-friendly adhesive to the transfer layer laminated on the transfer paper, and an eco-friendly adhesive. A transfer step of pressing the applied transfer paper onto the transfer paper, transferring the transfer layer laminated on the transfer paper to the transfer paper, separating the film of the transfer paper, and laminating the transfer paper with the transfer layer laminated with box paper to produce paper packaging. It is characterized by including a lamination step.

Description

Method for manufacturing transfer paper laminated paper packaging and paper packaging produced thereby {TRANSFER PAPER LAMINATED PAPER PACKING MATERIAL AND PAPER PACKING MATERIAL MANUFACTURED THEREBY}

The present invention relates to a method of manufacturing transfer paper laminated paper packaging and the paper packaging produced thereby. More specifically, the present invention relates to applying an eco-friendly adhesive to one side of the transfer paper on which a transfer layer containing silver powder, etc. is deposited on the film, and transferring it. By joining the paper and pressing it using a pressure roller, the transfer layer is transferred to a transfer paper made of paper with high tensile strength, a coating layer is applied for protection, and then the transfer paper is laminated to a thick box to produce paper packaging. Even if the paper packaging is folded to manufacture packaging materials, the transfer layer containing silver powder, etc. contained in the transfer paper not only prevents from bursting along the grain, but also reduces environmental pollution upon disposal. A method of manufacturing transfer paper laminated paper packaging and the method thereof. It relates to manufactured paper packaging.

Generally, paper wrapping paper for manufacturing packaging boxes is manufactured to have various colors. Recently, there is a trend to develop packaging boxes made of paper wrapping paper coated with silver foil to meet the high tastes of consumers.

There are two ways to manufacture silver powder-laminated paper packaging to make silver-coated packaging boxes. The first method is to make paper packaging by applying adhesive to a transfer paper with silver powder laminated on a film and bonding it to a thick box, and then removing the film. The second method is to apply adhesive to a transfer paper with silver powder laminated on a film and bonding it to a thick box. There is a way to make paper packaging by joining the films together without removing them.

At this time, transfer paper refers to printing images, patterns, characters, etc. on one side and then transferring them to the printing medium to be printed again.

However, in the case of the first method, as the film is removed, the silver foil deposited on the paper packaging may burst depending on the texture of the paper being folded, which has the problem of deteriorating the quality of the product.

Meanwhile, in the case of the second method, since the film of the transfer paper that protects the silver foil is maintained on the paper packaging, there is no problem of the paper bursting depending on the texture of being folded. However, since the film of synthetic resin material is laminated on the paper packaging, the film comes together when discarded. It has the problem of causing environmental pollution when discarded.

Therefore, there is a need to improve this.

Related background technology includes Republic of Korea Patent Publication No. 0317191 (November 29, 2001, title of invention: Method of manufacturing packaging materials using waste transfer paper).

The present invention was created in response to the above-mentioned need. An eco-friendly adhesive is applied to one side of a transfer paper on which a transfer layer containing silver powder, etc. is deposited on the film, and the transfer layer is bonded to the transfer paper and pressed using a compression roller. It is transferred to transfer paper made of paper with high tensile strength, a coating layer is applied for protection, and then the transfer paper is laminated on a thick box to produce paper packaging. Even if the paper packaging is folded to produce packaging material, the transfer paper does not contain any residue. The purpose of the present invention is to provide a method of manufacturing transfer paper laminated paper packaging that not only prevents the transfer layer containing silver powder, etc. from bursting along the grain, but also reduces environmental pollution upon disposal, and paper packaging produced thereby.

In order to achieve the above object, the method of manufacturing transfer paper laminated paper packaging according to the present invention includes the preparation steps of preparing transfer paper, transfer paper, and box paper in which a transfer layer is laminated on a film; An application step of applying an eco-friendly adhesive to the transfer layer laminated on the transfer paper; A transfer step of pressing the transfer paper coated with the eco-friendly adhesive onto the transfer paper, transferring the transfer layer laminated on the transfer paper to the transfer paper, and separating the film of the transfer paper; and a laminating step of laminating the transfer paper on which the transfer layer is laminated with the box paper to produce paper packaging.

The film includes one selected from PET film, OPP film, and PP film, and the transfer paper includes a tough paper material with high tensile strength.

The transfer layer includes a release layer that is bonded to the upper side of the film and promotes separation when removed; and a printed layer laminated on the release layer and containing metal powder.

The release layer is characterized by containing an organic solvent, resin, and wax.

The printing layer is characterized by containing metal powder, organic solvent, colorant, and resin.

The metal powder is characterized in that it contains at least one selected from silver powder, gold powder, and copper powder.

The eco-friendly adhesive is characterized in that it contains ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, rosin, polyester, soy protein, ethylene vinyl acetate emulsion, starch, polyurethane, and water.

The eco-friendly adhesive includes 6 to 10% by weight of ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, 3 to 7% by weight of pine resin, 4 to 6% by weight of polyester, 4 to 9% by weight of soy protein, and ethylene vinyl. It is characterized in that it contains 4-11% by weight of acetate emulsion, 8-11% by weight of starch, 11-13% by weight of polyurethane, and 33-60% by weight of water.

The transfer step includes an overlapping step of overlapping the transfer paper coated with the eco-friendly adhesive on the transfer paper; A moving step of pressing the transfer paper and the transfer paper with a plurality of compression rollers and moving the transfer layer to be transferred to the transfer paper; and a separation step of removing the film of the transfer paper to form a transfer paper having a printing layer.

After the transfer step, it is characterized in that it includes a coating step of applying a coating layer covering the printing layer provided on the transfer paper.

In the coating step, the coating layer includes ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, acrylic emulsion, latex, ethylene vinyl acetate emulsion, starch, insect repellent, and water.

In order to achieve the above object, it is characterized by providing paper packaging manufactured by the transfer paper laminate paper packaging manufacturing method according to the present invention.

The method of manufacturing transfer paper laminated paper packaging according to the present invention and the paper packaging produced thereby include applying an eco-friendly adhesive to one side of the transfer paper on which a transfer layer containing silver powder, etc. is deposited on the film, and bonding it to the transfer paper using a pressing roller. The transfer layer is transferred to a transfer paper made of paper with high tensile strength by pressing, and a coating layer is applied for protection, and then the transfer paper is laminated on a thick box to produce paper packaging. Paper is used to manufacture packaging materials. Even if the wrapping paper is folded, it not only prevents the transfer layer containing silver powder contained in the transfer paper from bursting along the grain, but also reduces environmental pollution upon disposal.

Figure 1 is a flow chart of a method for manufacturing transfer paper laminate paper packaging according to an embodiment of the present invention.
Figure 2 is a diagram showing the process of forming transfer paper in the method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention.
Figure 3 is a diagram showing the process of applying an eco-friendly adhesive to the upper surface of the transfer paper in the method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention.
Figure 4 is a diagram showing the process of transferring the transfer layer to the transfer paper through an eco-friendly adhesive applied to the transfer paper in the method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention.
Figure 5 is a diagram showing the process of applying a coating layer on the transfer paper having a transfer layer in the method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention.
Figure 6 is a diagram showing the process of manufacturing paper packaging by applying adhesive to the back side of the transfer paper and the upper surface of the box paper and laminating in the method of manufacturing transfer paper laminate paper packaging according to an embodiment of the present invention.

Hereinafter, a method for manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention and the paper packaging manufactured thereby will be described with reference to the attached drawings.

In this process, the thickness of lines or sizes of components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

Figure 1 is a flow chart of a method for manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention, and Figure 2 is a flow chart of a method for manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention, showing the process of forming transfer paper. It is a drawing shown, and Figure 3 is a diagram showing the process of applying an eco-friendly adhesive to the upper surface of the transfer paper in the method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention, and Figure 4 is a diagram showing the process of applying an eco-friendly adhesive to the upper surface of the transfer paper according to an embodiment of the present invention. In the method of manufacturing paper lamination type paper packaging, it is a diagram showing the process of transferring the transfer layer to the transfer paper through an eco-friendly adhesive applied to the transfer paper, and Figure 5 is a method of manufacturing transfer paper lamination type paper packaging according to an embodiment of the present invention. , is a diagram showing the process of applying a coating layer on a transfer paper having a transfer layer, and Figure 6 is a method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention, on the back side of the transfer paper and the top surface of the box paper. This is a drawing showing the process of manufacturing paper packaging by applying adhesive and laminating.

Referring to Figures 1 to 6, the method of manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention includes a preparation step (S10), an application step (S20), a transfer step (S30), and a lamination step (S50). Includes.

Referring to Figures 1 and 2, the preparation step (S10) is a step of preparing the transfer paper 100, transfer paper 200, and box paper 300 in which the transfer layer 120 is laminated on the film 110.

The transfer sheet 100 is a component that prints a print image, pattern, text, etc. on one side and then transfers it to a printing medium to be printed again, and a transfer layer 120 is provided on one side of the film 110.

The film 110 may include any one selected from PET film (polyethylene terephthalate film), OPP film, and PP film.

The transfer paper 200 may include tough paper material with high tensile strength. The transfer paper 200 is made of strong and tough paper material to prevent tearing when the transfer layer 120 of the transfer paper 100 is transferred to one side through compression.

The transfer layer 110 includes a release layer 122 that is bonded to the upper side of the film 110 to promote separation when removed, and a printing layer 124 that is laminated on the upper side of the release layer 122 and has metal powder. do.

The release layer 122 facilitates separation when removing the film 110O after transferring the printing layer 124 on the film 110 to the transfer paper 200, which is a printing medium.

The release layer 122 and the printing layer 124 can be sequentially and evenly applied to one side of the film 110 through the spray nozzle 10 or a roller.

The release layer 122 may be made of a release agent including an organic solvent, resin, and wax. Organic solvents may include bezene, alcohol, etc.

The release layer 122 contains 35 to 75% by weight of organic solvent, 25 to 44% by weight of resin, and 2 to 7% by weight of wax.

The printing layer 124 contains metal powder, organic solvent, colorant, and resin.

The printing layer 124 contains 25 to 60% by weight of metal powder, 10 to 40% by weight of organic solvent, 5 to 20% by weight of colorant, and 5 to 20% by weight of resin.

The metal powder may include at least one selected from silver powder, gold powder, and copper powder. For example, if the metal powder is silver, it gives a silver color to the printing layer 124, so when the printing layer 124 is transferred to the transfer paper 200, it not only produces the same effect as if silver foil was applied, but also creates a film ( 110 is removed and separated, making it environmentally friendly.

Referring to Figures 1 and 3, the application step (S20) is a step of applying an eco-friendly adhesive 130 to the transfer layer 120 laminated on the transfer paper 100. The application step (S20) is a process for transferring the printing layer to the transfer paper 200 to be bonded through the eco-friendly adhesive 130.

The eco-friendly adhesive 130 is characterized by containing ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, rosin, polyester, soy protein, ethylene vinyl acetate emulsion, starch, polyurethane, and water.

Ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof is mixed with water to neutralize and disperse to be used as an aqueous dispersion. When this component is appropriately present, excellent oil resistance, water resistance, heat adhesiveness, and alkali dissociation are maintained. Water contains a small amount of alkaline components, which can improve dissociation when mixed with each component.

Rosin is an eco-friendly material because it has excellent decomposability in nature and increases adhesion.

Polyester maintains its hardness appropriately after adhering to the eco-friendly adhesive 10, preventing it from flowing down and easily adhering to other objects due to its strong viscosity.

Soy protein can increase the eco-friendliness of eco-friendly adhesives (10) and improve decomposition performance when discarded. Ethylene vinyl acetate emulsion can provide ductility when adhering to the eco-friendly adhesive 10 and improve decomposability when discarded.

Starch improves heat adhesiveness and water resistance in the eco-friendly adhesive 10, and oxidized starch is mainly applied. Polyurethane can maintain viscosity in the eco-friendly adhesive 10 and further increase thermal adhesive strength.

Water properly disperses each ingredient so that they mix well.

The eco-friendly adhesive 130 can be applied through the spray nozzle 20 or a roller.

The eco-friendly adhesive 130 contains 6 to 10% by weight of ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, 3 to 7% by weight of pine resin, 4 to 6% by weight of polyester, 4 to 9% by weight of soy protein, It contains 4-11% by weight of ethylene vinyl acetate emulsion, 8-11% by weight of starch, 11-13% by weight of polyurethane, and 33-60% by weight of water.

Referring to Figures 1 and 4, the transfer step (S30) involves pressing the transfer paper 100 coated with the eco-friendly adhesive 130 onto the transfer paper 200 to transfer the transfer layer 120 laminated on the transfer paper 100. This is the step of transferring to the paper 200 and separating the film 110 of the transfer paper 100.

That is, in the transfer step (S30), the printing layer 124 of the transfer paper 100 is transferred to the transfer paper 200 through the eco-friendly adhesive 130, and the film 110 is transferred through the release layer 122. This allows for easy separation of layer 120 from printed layer 124.

The transfer step (S30) includes an overlapping step (S32), a moving step (S34), and a separation step (S36).

The overlapping step (S32) is a step in which the transfer paper 100 coated with the eco-friendly adhesive 130 is overlapped with the transfer paper 200.

The moving step (S34) is a step in which the transfer paper 100 and the transfer paper 200 are moved to transfer the transfer layer 120 to the transfer paper 200 by pressing them with a plurality of compression rollers 400, respectively.

The compression rollers 400 press against each other with an appropriate pressing force from both the upper and lower sides, thereby allowing the printing layer 124 of the transfer paper 100 to be transferred to one side of the transfer paper 200 through the bonding of the eco-friendly adhesive 130. At this time, the eco-friendly adhesive 130 is soft and has excellent adhesion, so it transfers the printing layer 124 of the transfer paper 100 to one side of the transfer paper 200 as is.

The separation step (S36) is a step of removing the film 110 of the transfer paper 100 to form the transfer paper 200 having the printing layer 124. When removing the film 110, the film 110 is effectively removed because it is well separated from the printing layer 124 by the release layer 122.

Referring to Figures 1 and 5, after the transfer step (S30), a coating step (S40) of applying a coating layer 210 covering the printing layer 124 of the transfer layer 120 provided on the transfer paper 200. Includes.

In the coating step (S40), the printed layer 124 is covered to protect it from the outside.

In the coating step (S40), the coating layer 210 includes ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, acrylic emulsion, latex, ethylene vinyl acetate emulsion, starch, insect repellent, and water.

Ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof is mixed with water to neutralize and disperse to be used as an aqueous dispersion. When this component is appropriately present, excellent oil resistance, water resistance, heat adhesiveness, and alkali dissociation are maintained. Water contains a small amount of alkaline components, which can improve dissociation when mixed with each component.

Latex is mainly made of natural latex, increases adhesion to prevent bent parts from bursting when folded, and has excellent decomposability, making it an eco-friendly material. Of course, synthetic latex may be applied in some cases.

The acrylic emulsion can maintain hardness to a certain degree by maintaining appropriate hardness in the coating layer 210. Ethylene vinyl acetate emulsion can provide ductility to the coating layer 210 and improve decomposability upon disposal.

Starch improves heat adhesiveness and water resistance in the eco-friendly adhesive 10, and oxidized starch is mainly applied.

When applied to a product packaging box using paper packaging, insect repellent can have high antibacterial and insect repellent properties so that the product can be stored stably for a long time without rotting from insects or bacteria.

At this time, the insect repellent may include at least one of wasabi powder (powder) or cinnamon powder (powder), or the insect repellent may be used by mixing wasabi powder and cinnamon powder at a set ratio. As an insect repellent, the ratio of wasabi powder and cinnamon powder is appropriate to have a ratio in the range of 50 to 70% by weight of wasabi powder and 30 to 50% by weight of cinnamon powder.

Water properly disperses each ingredient so that they mix well.

The coating layer 210 can be applied through the spray nozzle 30 or a roller.

The coating layer 210 is composed of 7 to 11% by weight of ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, 5 to 7% by weight of acrylic emulsion, 11 to 15% by weight of latex, 5 to 13% by weight of ethylene vinyl acetate emulsion, It is characterized in that it contains 7 to 9% by weight of starch, 5 to 9% by weight of insect repellent, and 36 to 60% by weight of water.

Referring to Figures 1 and 6, the lamination step (S50) is a step of manufacturing paper packaging 500 by lamination of transfer paper 200 on which the transfer layer 120 is laminated and box paper 300.

At this time, adhesive is applied to the back side of the transfer paper 200 on which the transfer layer 120 is laminated and the top side of the box paper 300 using a coating roller 40 or a spray nozzle, and then laminated to each other to form a paper wrapping paper ( 500) to be manufactured.

The paper packaging paper 500 manufactured in this way is used to make paper packaging materials such as packaging boxes.

Referring to Figures 1 to 6, the paper packaging paper 500 manufactured by the transfer paper laminated paper packaging manufacturing method according to an embodiment of the present invention is laminated on the folded portion when folded to make paper packaging material. Not only does the printed layer 124 not easily burst due to the transfer paper 200 made of paper with high tensile strength, but also, when disposing of the paper packaging 500, the transfer paper 200 and the box paper 300 are made of paper. ), it can easily biodegrade in nature and reduce environmental pollution.

Therefore, the method for manufacturing transfer paper laminated paper packaging according to an embodiment of the present invention and the paper packaging produced thereby include applying an eco-friendly adhesive to one side of the transfer paper on which a transfer layer containing silver powder, etc. is deposited on the film, and transferring After bonding to the paper and pressing it with heat using a pressure roller, the transfer layer is transferred to a transfer paper made of paper with high tensile strength. After applying a coating layer for protection, the transfer paper is laminated on a thick box to make paper packaging. By manufacturing this, not only does it prevent the transfer layer containing silver powder, etc. contained in the transfer paper from bursting along the grain even when the paper packaging is folded to manufacture packaging materials, but it also reduces environmental pollution upon disposal.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will recognize that various modifications and other equivalent embodiments are possible therefrom. You will understand.

Therefore, the true technical protection scope of the present invention should be determined by the scope of the patent claims below.

10, 20, 30: Spray nozzle 40: Application roller
100: transfer paper 110: film
120: transfer layer 122: release layer
124: Printing layer 130: Eco-friendly adhesive
200: Transfer paper 300: Box paper
400: Compression roller 500: Paper wrapping paper

Claims (12)

Preparation step of preparing transfer paper, transfer paper, and box paper with a transfer layer laminated on the film;
An application step of applying an eco-friendly adhesive to the transfer layer laminated on the transfer paper;
A transfer step of pressing the transfer paper coated with the eco-friendly adhesive onto the transfer paper, transferring the transfer layer laminated on the transfer paper to the transfer paper, and separating the film of the transfer paper; and
A laminating step of manufacturing paper packaging by laminating the transfer paper on which the transfer layer is laminated with the box paper;
A method of manufacturing transfer paper laminated paper packaging comprising:
According to clause 1,
The film includes any one selected from PET film, OPP film, and PP film,
A method of manufacturing transfer paper laminated paper packaging, characterized in that the transfer paper contains tough paper material with high tensile strength.
According to clause 1,
The transfer layer is,
a release layer bonded to the upper side of the film to promote separation upon removal; and
A printing layer laminated on the release layer and containing metal powder;
A method of manufacturing transfer paper laminated paper packaging comprising a.
According to clause 3,
A method of manufacturing transfer paper laminated paper packaging, characterized in that the release layer contains an organic solvent, resin, and wax.
According to clause 3,
The printing layer is a transfer paper laminated paper packaging manufacturing method, characterized in that it contains metal powder, organic solvent, colorant, and resin.
According to clause 5,
A method of manufacturing transfer paper laminated paper packaging, characterized in that the metal powder includes at least one selected from silver powder, gold powder, and copper powder.
According to clause 1,
The eco-friendly adhesive is a transfer paper laminating type comprising ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, rosin, polyester, soy protein, ethylene vinyl acetate emulsion, starch, polyurethane, and water. Paper packaging manufacturing method.
According to clause 7,
The eco-friendly adhesive includes 6 to 10% by weight of ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, 3 to 7% by weight of pine resin, 4 to 6% by weight of polyester, 4 to 9% by weight of soy protein, and ethylene vinyl. A method of manufacturing a laminated paper packaging comprising 4-11% by weight of acetate emulsion, 8-11% by weight of starch, 11-13% by weight of polyurethane, and 33-60% by weight of water.
According to clause 1,
The delivery step is,
An overlapping step of overlapping the transfer paper coated with the eco-friendly adhesive on the transfer paper;
A moving step of pressing the transfer paper and the transfer paper with a plurality of compression rollers and moving the transfer layer to be transferred to the transfer paper; and
A separation step of removing the film of the transfer paper to form a transfer paper having a printing layer;
A method of manufacturing transfer paper laminated paper packaging comprising:
According to clause 1,
After the transfer step, a method of manufacturing a transfer paper laminated paper packaging comprising a coating step of applying a coating layer covering the printing layer provided on the transfer paper.
According to clause 10,
In the nick coating step, the coating layer is a transfer paper laminated paper characterized in that it contains ethylene-acrylic acid or ethylene-methacrylic acid copolymer individually or a mixture thereof, acrylic emulsion, latex, ethylene vinyl acetate emulsion, starch, insect repellent, and water. Method of manufacturing packaging paper.
Paper packaging produced by the transfer paper laminated paper packaging manufacturing method according to any one of claims 1 to 11.

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