KR20210041846A - Effective Transfer Paper and Its Manufacturing Method - Google Patents

Abstract

The present invention relates to a transfer paper and a manufacturing method thereof. The conventional transfer paper has a problem that insufficiently transferred to the fabric, a cumbersome process for surface treatment of the release paper is added to compensate for the insufficient transfer, or the transfer design is damaged due to friction, in particular, has a problem that a three-dimensional figure for satisfying consumers cannot be expressed. Therefore, the present invention, as in the exemplary drawings FIGS. 1 to 3, is configured that glass beads are attached onto a transfer pattern, to diffusely reflect the design transferred on the fabric (12), in which an adhesive layer (14) is formed on an upper surface of a release paper (10), a basic white layer (16) for a background of the transfer pattern is formed on the adhesive layer (14) and a colored layer (18) of the transfer pattern is formed on the basic white layer (16), a glass bead layer (22) is formed on the colored layer (18) together with the adhesive layer (20) and melted between glass beads by transfer heat together with polyamide, an adhesive powder for forming an adhesive layer is sprayed after cooling, a water-based adhesive is applied on the glass bead layer (22), and a release film (28) for wrapping the transfer paper is attached. Thus, according to the present invention, since the glass beads layer is formed under the release film separated after transfer, the cumbersome process such as surface treatment of the release film for separation between the release film and the color of the transfer pattern is eliminated, the color of the transfer pattern is prevented from being damaged by the glass bead layer, and various patterns are formed by the diffuse reflection, so that ultimately, the commercial quality of the transfer paper is improved.

Description

Effective Transfer Paper and Its Manufacturing Method}

The present invention relates to a method of manufacturing a transfer paper and a transfer paper, and more particularly, to a method of manufacturing a transfer paper and a transfer paper in which a glass bead layer according to the transfer pattern is transferred by attaching a glass bead on a transfer pattern.

In general, transfer paper refers to a material applied to a substrate such as a film or silicone release paper together with an adhesive layer in order to transfer a desired pattern to a location desired by a user on a fabric or the like.

The transfer by this transfer paper is by thermocompression, and as a manufacturing method, gold powder is mixed with a transfer ink made of transparent vinyl or a transfer ink made of plastic, etc., copied to the top of the parchment paper with silk screen, etc., and then adhered. After drying by mixing and spraying polyamide resin powder, etc., the packaging was finished with release paper treated with silicone surface again.

Therefore, when the user separates the release paper, places the pattern of the transfer paper on the surface of the fabric, and performs thermal compression, the pattern of the transfer paper is transferred to the fabric, and the transfer is completed when the parchment paper is removed.

However, in the above case, the pattern may be transferred to the parchment paper during thermal compression for transfer.Therefore, a case in which sufficient transfer to the fabric was not made occurred.To improve this, a release paper made of silicone coating was used in place of the parchment paper. There is something to be done.

However, there is a problem in that the transfer ink is not copied to the release paper of the silicon film, and a predetermined process must be added to the release paper again to compensate for this.

In addition, the biggest problem with the above-described transfer paper is that it cannot express a three-dimensional figure to satisfy a consumer.

Of course, in recent years, protruding ornaments that attach relief-type figures to fabric paper using silicone, etc. have been developed, but the addition of a mold process is essential for this, and the monotony of the protrusion method is very large when compared to the surface transfer method. I couldn't see the difference.

In addition, the transferred colored layer is exposed to the outside, and this is different from dyeing, and thus there is a problem in that the colored layer is damaged when contacted or rubbed with other objects.

Accordingly, an object of the present invention is to provide a method of manufacturing a transfer paper to improve the above problems.

The present invention for this purpose is to attach a glass bead on the transfer pattern so that the pattern transferred to the fabric is diffusely reflected, and an adhesive layer is formed on the upper surface of the release paper, and the transfer pattern is formed on the base white layer and the base white layer for the base of the transfer pattern on the adhesive layer. A colored layer of is formed, and a glass bead layer is formed together with the adhesive layer on the colored layer, while the glass beads are melted by transfer heat like polyamide, and after cooling, the adhesive powder forming the adhesive layer is sprayed. A water-based adhesive is applied on the bead layer, and a release film is attached to finish the packaging of the transfer paper.

Therefore, in the present invention, since a glass bead layer is formed under the release paper to be separated after transfer, cumbersome processes such as surface treatment of the release paper for separating the color of the release paper and the transfer pattern are eliminated, and the color of the transfer pattern is damaged by the glass bead layer. In addition to being prevented from occurring, various patterns can be formed by diffuse reflection, so ultimately, the effect of improving the marketability of the transfer paper is obtained.

As described above, in the present invention, since a glass bead layer is formed under the release film to be separated after transfer, cumbersome processes such as surface treatment of the release film and the release film for separating the color of the transfer pattern are eliminated. Since the color of the transfer pattern is prevented from being damaged and various patterns can be formed by diffuse reflection, ultimately, there is an effect of improving the marketability of the transfer paper.

1 is an explanatory view and an enlarged explanatory view showing a transfer state of a transfer paper according to the present invention,
2 is a cross-sectional explanatory view of FIG. 1 showing a transfer state of a transfer paper according to the present invention;
3 is a cross-sectional explanatory view showing a transfer paper according to the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is an enlarged explanatory view showing an example transferred to a fabric by the method of manufacturing an electronic paper according to the present invention, and FIG. 2 is a cross-sectional explanatory view of FIG. 1, and FIG. 3 is an illustrative drawing. As a cross-sectional explanatory view shown, an adhesive for transfer to the fabric 12 is applied on the upper surface of the release paper 10, and the color body reflection of the transfer pattern and the basic white color for the background are copied on the adhesive layer 14 formed by the adhesive. , The basic white layer 16 formed by this basic white is colored according to the transfer pattern, and the glass beads are adhered to the colored layer 18 of the transfer pattern with an adhesive, and an adhesive between the glass beads is formed. This is a transfer paper manufacturing method in which an adhesive powder melted by heat is sprayed on the adhesive layer 20 to be transferred, and a release film 28 coated with an aqueous adhesive is attached to the glass bead layer 22 formed by the glass beads.

In addition, the transfer paper of the present invention formed by such a manufacturing method includes the adhesive layer 14 applied to the upper surface of the release paper 10, the basic white layer 16 copied on the adhesive layer 14, and the basic white layer 16. ) Distributed between the colored layer 18 of the transfer pattern copied over, the glass bead layer 22 bonded together with the adhesive layer 20 on the colored layer 18, and the glass beads of the glass bead layer 22 It is a transfer paper comprising an adhesive powder layer 24 that is melted by transfer heat and a release film 28 that is temporarily bonded to the glass bead layer 22 with an aqueous adhesive layer 26.

As described above, the present invention provides a transfer paper manufacturing method and transfer paper providing various reflective colors according to the viewing angle or the incident angle of light by attaching glass beads on the transfer pattern so that the pattern transferred to the fabric is diffusely reflected. do.

The present invention for this purpose proceeds in the reverse order from the conventional manufacturing method of the transfer paper, and accordingly, the problems of the conventional manufacturing method are also improved.

That is, conventionally, a colored layer for design is copied onto a release paper (release film of the present invention), and an adhesive layer is applied on the colored layer and then finished with a release paper. As a result, from the standpoint of the transfer direction, the colored layer under the release paper This is copied, an adhesive layer is applied under the colored layer, and then finished with release paper again.

As a result, a separate post-processing was added on the release paper, but in the present invention, unlike the conventional manufacturing method, it proceeds in the reverse order, and such post-processing is not necessary due to the formation of the glass bead layer 22.

In more detail, the adhesive layer 14 for transfer is formed on the release paper 10 on which the silicon film is formed, and the colored layer 18 is formed on the adhesive layer 14 together with the basic white layer 16.

The basic white layer 16 helps to reflect the colored layer 18 and prevents the color from becoming turbid due to the mixing of the color on the fabric and the color of the colored layer 18.

The colored layer 18 is colored according to the pattern, and a glass bead layer 22 is formed on the colored layer 18 again together with the adhesive layer 20.

The adhesive layer 20 adheres a portion of the lower end of the glass beads in contact with the colored layer 18, and if the glass beads are sprayed immediately after the application of the adhesive, the glass beads adhere only to the part where the adhesive is applied. The adhesive powder is sprayed on the glass bead layer 22 in order to further add adhesion.

The adhesive powder is a resin material such as polyamide and is distributed between the glass beads to form the adhesive powder layer 24 on the adhesive layer 20.

The adhesive powder layer 24 is melted due to the heat during thermal compression for transfer, and forms another adhesive layer along with cooling to further fix the glass bead layer 22.

In addition, it facilitates the application of the adhesive forming the adhesive layer 20 due to the adhesive layer by the adhesive powder.

That is, in the case of bonding glass beads with only the adhesive layer 20 under the glass bead layer 22, it is difficult to use an oil-based adhesive as an adhesive for forming the adhesive layer 20, and for that reason, the oil-based adhesive is dried. This is because the viscosity of the surface of the adhesive layer 20 lasts for a long time because it does not work well.

When transferred in such a state, foreign substances such as dust adhere to the adhesive layer 20 between the glass beads, and thereby there is a concern that the transfer pattern may be uncleanly contaminated.

Therefore, when fixing the glass bead layer 22 with only the adhesive layer 20, a water-based adhesive that dries well must be used, and the development of a water-based adhesive having adhesive strength for fixing the glass beads causes another burden on the worker. It is to be ordered.

However, in the present invention, the adhesive powder is melt-cooled on the adhesive layer 20 to form another adhesive layer, and since the adhesive layer formed by the adhesive powder is completely dried, the adhesive layer 20 for fixing the glass bead layer 22 The material of which can be widely selected

to be.

On the other hand, it is finished with a release film 28 on which the adhesive layer 26 is formed on the glass bead layer 22 to wrap the transfer paper, where it is preferable that the adhesive layer 26 is a water-based adhesive.

The reason is that the oily adhesive is not completely dried as described above, and the adhesive applied to the release film 28 does not require an adhesive strength enough to firmly attach the glass beads, and it is sufficient to temporarily attach it.

As described above, in the present invention, a transfer paper is produced in an operation opposite to that of performing an equalization to form a colored layer under a conventional release paper (release film of the present invention), and a glass bead layer 22 is formed under the release film 28 Therefore, there is no need for surface treatment of the release paper for copying as in the prior art.

The method of using the transfer paper according to the present invention is not different from the conventional one, and the release paper 10 is separated from the transfer paper, placed on the fabric 12 to be transferred, and thermally compressed to perform transfer, and the upper release film ( 28) is removed to complete the transfer.

At this time, in the present invention, the glass bead layer 22 is transferred together, and when the adhesive powder between the glass beads is melt-cooled, the glass beads are bonded more firmly.

When the glass bead layer 22 is transferred by the transfer paper according to the present invention, the color of the colored layer 18 is transmitted and refracted to each glass bead, and the glass bead layer 22 is formed by reflecting light from the spherical surface. Since it is a diffuse reflection of light, a dazzling pattern that will satisfy the consumer is formed.

On the other hand, the glass bead layer 22 serves as a protective layer of the colored layer 18 together with the adhesive layer formed by the adhesive powder layer 24, and the glass bead layer 22 is a different object from the colored layer 18. It prevents contact with and the glass bead layer 22 has a high hardness, so there is little fear of damage due to friction.

10-release paper, 12-fabric,
14,20,26-adhesive layer, 16-basic white layer,
18-colored layer, 22-glass bead layer,
24-adhesive powder layer, 28-release film.

Claims (2)

After applying an adhesive for transfer to the fabric on the upper surface of the release paper 10, and copying the color body reflection of the transfer pattern and the basic white for the background onto the adhesive layer formed by the adhesive, the basic white layer formed by this basic white ( 16) The adhesive powder that melts in the heat upon transfer on the adhesive layer formed by the adhesive between the glass beads by coloring it on the top of the transfer pattern and bonding the glass beads on the colored layer (18) of the transfer pattern. And attaching a release film 28 coated with an aqueous adhesive on the glass beads layer 22 formed by the glass beads. The adhesive layer applied on the upper surface of the release paper 10, the basic white layer 16 copied on the adhesive layer, the colored layer 18 of the transfer pattern copied on the basic white layer 16, and the colored layer 18 A glass bead layer 22 adhered together with an adhesive layer above, an adhesive powder layer distributed between the glass beads of the glass bead layer 22 and melted by transfer heat, and an aqueous adhesive layer on the glass bead layer 22. Transfer paper made of a release film 28 that is temporarily bonded.

Images