KR20190086292A - A method for producing a surface finishing materials having an image coding pattern and a surface finishing materials produced by the manufacturing method - Google Patents

Abstract

Disclosed in the present invention is a method for producing a surface finishing material having an image coding pattern. The method includes: a printing step of printing a digital code-encoded marker on shape paper; a transparent overlay layer forming step of forming a transparent overlay layer on the upper surface of the shape paper on which the marker is printed; and an integration step of integrating a base layer with the shape paper on the lower surface of the shape paper on which the transparent overlay layer is formed. The printing step is characterized in that the color of the marker is the same as the color around the marker, but the chrome of the marker is printed 1-10% higher than the chrome around the marker. It is possible to further improve the interior effect by providing a marker with the visibility of being hardly noticeable.

Description

FIELD OF THE INVENTION The present invention relates to a method of producing a surface finishing material having an image coding pattern and a surface finishing material produced by the method,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a surface finishing material having an image coding pattern and a surface finishing material produced by the method. More particularly, The color of the marker is the same as that of the marker, but its saturation is 1 ~ 10% higher than the saturation around the marker, so that when the surface finish is applied, it has visibility that is not conspicuous to the user. A method of manufacturing a surface finishing material having an image coding pattern for improving an interior effect, and a surface finishing material produced by this manufacturing method.

Generally, a surface finishing material such as wallpaper, sheet, vinyl flooring, marble, tile, and flooring is applied to the surface of a furniture, a wall surface of a building, and a floor surface in a home, an office building and a government office.

In recent years, as the time for contact with nature has been reduced, there has been an increase in the use of products on which the consumer's preferred design is printed on the surface of finish materials such as wallpaper, sheet, and flooring.

For example, the bottom material may include a base layer made of a plywood laminated with a plurality of pieces of wood laminated on the bottom surface, a pattern provided on the top of the base layer and having a design such as a wood pattern preferred by the consumer, And an adhesive layer which is provided between the base sheet and the base sheet and bonds the base sheet and the base sheet.

The demand for the flooring material having such a configuration is increasing because the flooring material having such a configuration can print various designs and colors desired or preferred by the consumers on the shape.

In addition to surface finishes such as wallpaper, sheet, and flooring, recently, A technique for providing relevant information to users is emerging.

The product advertisement using the image coding displays a marker having a specific pattern on the surface of the product, and connects to an Internet site related to the product or visual / audible digital information or realizes it as an augmented reality.

For example, a floor material combined with augmented reality related technology is printed with a marker (a specific pattern, an image) on a shape formed on the bottom of the floor material, so that the information (virtual image) of the marker is superimposed on the floor material (Augmented reality).

The marker printed on the shape may be, for example, a bar code, a QR code, etc. The information implemented by such a marker may be a history of the product, recognition of advertisement, education, play, recognition coordinates necessary for the operation of the autonomous mobile robot have.

For example, if a marker printed on a shape is implemented through an application that is interfaced with a smartphone, a child's favorite character (virtual image) may appear in the flooring (real image), or the product information of the flooring may appear.

However, the markers printed on the above-mentioned shape are likely to be visible to the user's eyes, which adversely affects the aesthetics of the user.

KR, A, 10-2006-0075864 (2006.07.04)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a surface finish material which has a marking printed on a surface of the surface finish material, And an object of the present invention is to provide a method of producing a surface finishing material having an image coding pattern and a surface finishing material produced by the method.

According to an aspect of the present invention, there is provided a method of forming a transparent overlay layer for forming a transparent overlay layer on an upper surface of a printed sheet having a marker printed thereon, And integrating the base layer with the pattern on a bottom surface of the transparent overlay layer, wherein the coloring of the marker is the same as the color around the marker, Is printed at a rate of 1 to 10% higher than that of the surface-finishing material.

Here, it is preferable that the printing step has a dot shape and a marker having a diameter of 0.05 to 0.5 mm is printed on the shape paper.

In addition, the printing step may be performed by a gravure printing method in which colors are successively printed while passing through a plurality of cylinders in which the pattern is rotated, and in the printing step, the pattern is supplied through a feeder, And a marker printing step in which the marker is printed on the shape paper by a marker printing cylinder corresponding to a final process of the entire process of the gravure printing .

The marker printing step includes a step of forming a depression on the surface of the marker printing cylinder by laser machining to form a depression with an entrance formed thereon, and a marker printing cylinder for putting the ink on the depression for printing the marker, It is preferable to print on the paper.

Preferably, the marker printing step forms a curvature at a portion where the inner surface of the depressed portion and the inlet meet, and the marker is printed on the shape paper by a marker printing cylinder having a diameter smaller than a diameter of the depressed portion.

In the transparent overlay layer forming step, it is preferable that the core material impregnated with the melamine resin and the kraft paper impregnated with the phenolic resin are laminated on the upper and lower surfaces of the shape paper, respectively, and pressed with a hot press.

At this time, it is preferable to press the hot press at a high temperature of 80 to 220 DEG C under a pressure of 50 to 100 kgf / cm < ² >.

In addition, the base layer is preferably made of a plywood in which a plurality of pieces of wood are laminated.

In addition, the base layer is preferably composed of an adhesive tape and a release paper.

According to another aspect of the present invention, there is provided a printing method comprising: a printing step of printing a marker having a digital code encoded on a shape paper; a transparent step of forming a transparent overlay layer on a top surface of the shape paper on which the marker is printed; Wherein the coloring of the marker is the same as that of the marker, and the coloring of the marker is the same as the color of the marker, Is printed by 1 to 10% higher than the saturation of the surrounding area. The surface finishing material having an image coding pattern is produced by a method of producing a surface finishing material having an image coding pattern.

According to the method of manufacturing the surface finishing material having the image coding pattern according to the present invention, the color of the marker printed on the shape paper is the same as the color around the marker, and the saturation thereof is printed by 1 to 10% higher than the saturation around the marker, When installed, it has visibility that is not visible to the user, which improves the interior effect of the place where the surface finish is applied.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart showing a method of manufacturing a surface finish material having an image coding pattern according to the present invention.
2 is a plan view of the surface finish material of the manufacturing method according to the present invention.
3 is a cross-sectional view of a marker printing cylinder in a method of manufacturing a surface finish material having an image coding pattern according to the present invention.
Fig. 4 is a diagram showing recognition in an application interlocked with a smartphone according to a pattern of a marker printed on a pattern. Fig.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flow chart showing a method of manufacturing a surface finishing material having an image coding pattern according to the present invention, FIG. 2 is a plan view showing a manufactured surface finishing material of the manufacturing method according to the present invention, Sectional view showing a marker printing cylinder in a method of manufacturing a surface finishing material having a pattern.

A method of manufacturing a surface finish material having an image coding pattern according to the present invention includes printing (S100) printing a marker (M) encrypted with a digital code on a shape, A transparent overlay layer forming step (S200) of forming a transparent overlay layer on the upper surface of the transparent overlay layer; and an integrating step (S300) of integrating the base layer with the surface layer on the lower surface of the transparent overlay layer.

Particularly, in the manufacturing method according to the present invention, in the printing step S100, the color of the marker M is the same as the color around the marker, and the saturation thereof is 1 to 10% higher than the saturation around the marker so that the surface finishing material 10 2, the marker M has a visibility that is not conspicuous to the user, thereby enhancing the interior effect of the place where the surface finishing material 10 is applied.

In other words, the printing step S100 is to print a marker in which a digital code is encrypted in the form of a mark, and a marker in which the digital code is encrypted is printed on the mark during the process of printing the user's preferred pattern on the mark.

At this time, the marker M to be printed on the shape may be, for example, a dot shape, and the information realized by the marker M may be a history of the product, advertisement, education, And the recognition coordinates necessary for the operation of the robot.

When a marker (M) printed on a shape is implemented through an application linked to a smart phone, it can be connected to an Internet site related to the product or visual / audible digital information, or can be implemented as an augmented reality, (Virtual image) may appear in the surface finishing material (real image) or the product information of the surface finishing material 10 may appear.

For example, the markers M printed on the shape paper are successively printed with a specific pattern on the shape paper as shown in Fig. 4, and codes (symbols) determined according to the pattern of the markers M are printed on the smartphone- And sends it to the hosting server.

The code transmitted to the hosting server is processed through a series of information processing processes, and the information corresponding to the code is transmitted to the smartphone to be implemented. At this time, the information transmitted to the smart phone and implemented is, for example, A link to a website, and the like.

That is, as shown in Fig. 4, when an application is executed on a smartphone and a shape is photographed, the alphabet is encoded according to the pattern of the marker M and the alphabet " a " Thus, the code recognized according to the pattern of the marker M is transmitted to the smartphone by transmitting information corresponding to "ab " stored in the hosting server.

On the other hand, the marker M printed on the shape has a size that can not be recognized by the user's eyes. The marker M has a dot shape and has a diameter of 0.05 to 0.5 mm.

In other words, when the marker is less than 0.05 mm, it is difficult to recognize in the application which is linked with the smartphone. If the marker is 0.5 mm or more, the user can identify the marker by the naked eye. Accordingly, it is preferable that the marker M has a dot shape and has a diameter of 0.05 to 0.5 mm.

These markers are displayed as digital information through an application (image recognition) that is printed on a pattern with a certain pattern and interlocked with the smartphone. For example, the markers are printed with intervals of a specific pattern along the lengthwise direction of the shape, and several markers are displayed in digital information if they are recognized in the application.

Since the marker code composed of dots of minute size is repeatedly printed over the entire area, the user can easily perform a desired operation (information link, augmented reality implementation ). ≪ / RTI >

In addition, the printing step S100 is performed by a gravure printing method in which colors are sequentially printed while passing through a plurality of cylinders in which the color is rotated.

The printing step S100 includes a pattern printing step S110 in which a pattern is fed through a feeder and a pattern is printed on a pattern while passing through a plurality of pattern printing cylinders for printing pattern on a pattern, And a marker printing step (S120) in which the marker is printed on the shape paper by the marker printing cylinder corresponding to the process.

In addition, the gravure printing method is a concave printing technique in which ink is deposited on a point engraved on a metal cylinder and ink is deposited on the surface of the paper while the metal cylinder rotates. The type of color is divided according to the number of cylinders used in the entire process do.

That is, in the pattern printing step (S110), ink having different colors is applied to a plurality of pattern printing cylinders, and a pattern having a color is printed as the pattern paper passes through the pattern printing cylinder.

After the pattern printing step S110 as described above, the marker printing step S120 is performed. The marker printing step S120 is a step of printing the marker printing cylinder R with a diameter of 0.05-0.5 mm And a point formed in the shape of a dot is formed, and the ink stays on the point.

That is, the main points formed in the marker printing cylinder R are a concave portion D2 formed by laser machining on the surface of the marker printing cylinder R and formed with an inlet D1 formed thereon do.

At this time, the main point formed in the marker printing cylinder R to which the ink is applied is that the portion where the inner side of the depressed portion D2 meets the inlet D1 forms a curvature so that the diameter of the inlet D1 is smaller than the diameter of the depressed portion D2 Diameter.

When a curvature is formed at a portion where the inner side of the depression D2 meets the inlet D1 so that the diameter of the inlet D1 is smaller than the diameter of the depression D2, Color bleeding does not occur at the time of printing and excellent quality printing can be performed. Moreover, even if the marker printing cylinder (R) performs repeated printing, the surface of the marker printing cylinder (R) (M) is printed on the shape, the user has visibility that can not be distinguished by the naked eye.

That is, in the pattern printing cylinder used in the pattern printing step (S110) performed before the marker printing step (S120), a plurality of elliptical concavities and convexities are protruded on the surface thereof, and ink is put therebetween, As a result, the elliptical concavity and convexity is worn and color bleeding occurs.

However, since the color fading in the pattern printing step (S110) as described above does not have a great influence because the pattern is printed over the entirety of the pattern paper, if color fringing occurs in the markers in the marker printing step (S120) It may be difficult to recognize in an interlocking application.

However, as described above, a curvature is formed in a portion of the marker printing cylinder R where the inner side of the depressed portion D2 meets the inlet D1 so that the diameter of the inlet D1 is smaller than the diameter of the depressed portion D2 When the main points formed are formed, color fringing does not occur when the markers M are printed on the shape paper, so that it is easy to recognize them in an application linked with a smart phone.

On the other hand, when the marker M having the digital code encrypted is printed on the shape via the printing step S100 as described above, a transparent overlay layer forming step S200 for forming a transparent overlay layer on the top of the shape paper is performed.

In the transparent overlay layer forming step (S200), the core material impregnated with the melamine resin and the kraft paper impregnated with the phenolic resin are laminated on the upper and lower surfaces of the shape paper, respectively, and pressed by a hot press. And pressurized for a predetermined time (5 to 60 minutes) under a pressure of-100 kgf / cm ² .

Then, after the transparent overlay layer forming step S200 is completed, An integration step (S300) for integrating the base layer with the pattern is performed.

That is, the base layer provided on the undersurface of the shape sheet in the integrating step (S300) can be variously modified depending on the product to which the surface finishing material is applied. For example, when a surface finish is used as a floor or furniture surface material (such as a table, desk, closet, wall panel, ceiling, sink, etc.) that is applied to the indoor floor of a building, the base layer is a laminate of a plurality of pieces of wood And is integrated with the shape.

Thus, when the surface finishing material is used as a floor or furniture surface material, the base layer may be formed of any one of MDF (Medium Density Fibreboard) and HDF (High Density Fibreboard) (HPL) or a low-pressure laminate (LPL) according to the provision of kraft paper between the base layer and the embossed paper.

Further, if the surface finishing material is used as a wallpaper to be installed on the wall of an interior of a building or a sheet paper to be attached to the surface of a furniture, the base layer is composed of an adhesive tape and a peeling paper and is integrated with the pattern.

As shown in FIG. 2, the surface finishing material 10 produced by the above-described manufacturing method has a minute point of the marker M and its saturation is almost similar to the surrounding saturation, When implemented through an application that interacts with a smart phone, children's favorite characters (virtual images) appear on the surface finish (real image) or the product information of the surface finish is displayed.

According to the method of manufacturing the surface finishing material having the image coding pattern according to the present invention, the color of the marker M printed on the shape paper is the same as the color around the marker, its saturation is printed 1 to 10% higher than the saturation around the marker, When the finishing material 10 is applied, it has a visibility that is not conspicuous to the user, thereby improving the interior effect of the surface finishing material.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: Surface finish M: Marker
R: Marker printing cylinder

Claims (9)

A printing step of printing a marker in which a digital code is encrypted in a shape;
A transparent overlay layer forming step of forming a transparent overlay layer on the upper surface of the marker on which the marker is printed; And
And integrating the base layer with the pattern on a bottom surface of the pattern on which the transparent overlay layer is formed,
The printing step
Wherein the hue of the marker is the same as the hue around the marker, and the saturation thereof is printed by 1 to 10% higher than the saturation around the marker.
The method according to claim 1,
The printing step
Wherein a marker having a dot shape and having a diameter of 0.05 to 0.5 mm is printed on the shape paper.
The method according to claim 1,
The printing step
The pattern is printed by a gravure printing method in which colors are sequentially printed while passing through a plurality of rotating cylinders,
The printing step
A pattern printing step of printing a pattern on a pattern while passing through a plurality of pattern printing cylinders supplied with the pattern through a feeder and printing patterns on the pattern; And
And a marker printing step of printing the marker on a shape paper by a marker printing cylinder corresponding to a final step of the entire process of the gravure printing.
The method of claim 3,
The marker printing step
Characterized in that a depression is formed on the surface of the marker printing cylinder by laser welding to form an entrance, and the marker is printed on the shape paper by a marker printing cylinder which fills the ink for printing the marker on the depression A method of manufacturing a surface finish material having an image coding pattern.
The method of claim 4,
The marker printing step
Wherein the markers are printed on the shape paper by a marker printing cylinder whose diameter is smaller than the diameter of the depressed portion by forming a curvature at a portion where the inner side of the depressed portion and the entrance meet. Gt;
The method according to claim 1,
The transparent overlay layer forming step
Wherein the core material impregnated with the melamine resin and the kraft paper impregnated with the phenolic resin are laminated on the upper and lower surfaces of the shape paper and pressed with a hot press.
The method of claim 6,
Wherein the hot press is formed by pressurizing at a high temperature of 80 to 220 DEG C under a pressure of 50 to 100 kgf / cm < ² > to form a surface finishing material having an image coding pattern.
The method according to claim 1,
Wherein the base layer is formed of a plywood in which a plurality of pieces of wood are laminated Wherein the method comprises the steps of:
A surface finish having an image coding pattern, characterized in that it is produced by a method of manufacturing a flooring material having the image coding pattern according to claim 1.

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