KR20200075973A - Structure and treating method for decoration of IT device cover - Google Patents

Abstract

The present invention relates to a decoration structure of an IT device cover e and a processing method thereof. The decoration structure is obtained by forming a translucent printing layer (14) expressing various colors or designs on a lower surface of a plastic sheet (11), forming a UV pattern layer (13) providing a three-dimensional design on a lower surface of the translucent printing layer, and forming a metal deposition layer (12) on a lower surface of the UV pattern layer (13). In addition, the structure is formed by a method including the steps of: sequentially forming a translucent printing layer (14) and a UV pattern layer (13) on a lower surface of a plastic sheet (11); and forming a metal deposition layer (12) on a lower surface of the UV pattern layer (13), wherein the translucent printing layer (14) is formed through an offset printing method using a printing plate implemented as a halftone dot. According to the present invention, productivity, resolution, and precision of the decoration structure are remarkably improved compared to the prior art, and there is an effect of reducing interference with UV patterns.

Description

Decoration structure and treatment method of IT device cover {Structure and treating method for decoration of IT device cover}

The present invention relates to a decoration structure of a cover for an IT device and a processing method therefor.

In general, liquid crystal displays and other electrical and electronic components that are provided as display devices for portable information and communication devices such as smartphones, notebooks, and tablet PCs are prone to damage and breakage due to impact. Accordingly, a back-cover of an injection material, a high-hardness plastic, metal or glass material is provided on the rear surface of the device.

And recently, in the cover, decoration is performed through printing of patterns, letters, symbols, company logos, and various other visual designs of a predetermined color on the surface of the device for quality, value, or promotion. The'external panel for telecommunication products' disclosed in Korean Patent Publication No. 10-0723636 shows an example thereof, and FIG. 1 shows the configuration of the external panel.

Referring to FIG. 1, the disclosed exterior panel 1 forms a color printing layer 3 to express various colors and designs on the surface of the injection resin layer 2 of a certain shape, and the color printing layer 3 On the surface of the UV coating layer (4) capable of producing a three-dimensional visual design is formed, and a protective transparent film (5) and a hard coating layer (6) are formed on the surface of the UV coating layer (4).

Also, according to the exterior panel 1, the color or design expressed through the color printing layer 3 is expressed in a three-dimensional view through the UV coating layer 4, thereby exhibiting excellent appearance. However, the decoration processing method of the above-described exterior panel is displayed in a simple single color, and there are some problems depending on the arrangement of each layer and the applied printing method. This is also the case when using a separate decoration film.

That is, the structure of directly forming the color printing layer 3 for decoration on the surface of the plastic resin layer 2 and forming UV coating, film, hard coating, etc. on it is not only guaranteed the quality of printing but also decoration. Since it is exposed to the outside, there is a problem that it is easily damaged by external impact.

On the other hand, the general printing method is a method of forming a color printing layer 3 by coating a desired color on a surface of an object, in particular, a visually expressed surface using a dot printer, screen printing, or inkjet printer method. Although this is universal, there is a problem in that the printing and production speeds are remarkably lowered due to the characteristics of the printer device, which is not suitable for mass production.

In particular, in these devices, since printing is performed by a linear network of a regularized and continuously repeated form, visual interference may occur between the patterns of the printed layer 3 and the UV coating layer 4 when viewed from the outside after printing. Due to the moire phenomenon-a phenomenon in which a wave pattern or a bell pattern occurs visually due to interference in overlapping areas-there is a problem that is likely to occur.

In addition, in practice, the above-described printer printing method has a limitation in expressing a precise pattern, logo, pattern, etc. due to poor quality of printing. For example, it may be possible to express a resolution of about 1,000 dpi, but the inkjet method may cause some blurring. Therefore, high-precision print processing will be required. In fact, as a decoration of IT device covers, as a result, high-precision printing with a resolution of 4,000 dpi without moiré is required.

<Prior Art Document>

Registered Utility Model Publication No. 20-0357557

Patent Publication No. 10-2005-0106948

Registered Patent Publication No. 10-0702233

Registered Patent Publication No. 10-0723636

The present invention is proposed to improve the problems of the decoration structure and its processing method according to the above-mentioned prior art. An object of the present invention is to provide a decoration structure of a cover for an IT device that implements a beautiful pattern and metallic reflection and various colors through optimal arrangement of a UV pattern layer and a translucent print layer, including a metal deposition layer. . Another object of the present invention is to provide a decoration processing method of a cover for an IT device having excellent productivity and precision through an offset printing method using a printing plate and improving interference with a UV pattern.

The decoration structure of the cover for an IT device of the present invention is:

On the underside of the plastic sheet having a predetermined thickness, a semi-transparent printing layer is formed by an offset printing method using a printing plate implemented as a dot,

Forming a UV pattern layer to provide a three-dimensional design on the lower surface of the print layer,

Forming a metal deposition layer on the lower surface of the UV pattern layer;

It is characterized by.

Here, a printed layer for shielding may be interposed on the lower surface of the metal deposition layer, and preferably, in this case, the shielding color is black.

The decoration processing method of the cover for an IT device of the present invention is:

As a processing method for constructing the decoration structure, the step of sequentially forming a semi-transparent printing layer and a UV pattern layer on the lower surface of the plastic sheet, and forming a metal deposition layer on the lower surface of the UV pattern layer;

At this time, the translucent printing layer is formed by an offset printing method using a printing plate embodied as a dot;

It is characterized by.

Herein, the halftone dots are AM halftone dots that adjust the density of the color with the size of the dots at a certain location, FM halftone dots that control the density of the color with the density of the dots at random locations, and hybrid halftone dots that mix the AM and FM dots. It is chosen among.

The translucent print layer may have a single tone gradation or a multi-tone mixture. In addition, the translucent printing layer may be performed on a part of the lower surface of the base material, so that the metal deposition layer may be visually exposed through a transparent UV pattern layer in other parts.

The decoration treatment method may further include forming a shielding printed layer on the bottom surface of the metal deposition layer. Preferably, the shielding color in this case is black.

Another decoration structure of the present invention:

A semi-transparent printing layer is formed by an offset printing method using a printing plate embodied as a dot on the lower surface of the first plastic sheet having a predetermined thickness,

A UV pattern layer and a metal deposition layer that provide a three-dimensional design are sequentially formed on the lower surface of the second plastic sheet having a predetermined thickness,

The bottom surface of the first plastic sheet on which the translucent printing layer is formed and the top surface of the second plastic sheet on which the UV pattern layer and the metal deposition layer are formed are adhered,

It is characterized by.

Likewise, the halftone dots are AM halftone dots that adjust the density of the color with the size of the dots at a certain location, FM halftone dots that control the density of the color with the density of the dots at random locations, and hybrid halftone dots that mix the AM halftone and FM halftone dots. It is chosen among.

The decoration structure of the cover for an IT device of the present invention forms a semi-transparent printing layer on the lower surface of the base plastic sheet, forms a UV pattern layer on the lower surface of the printing layer, and forms a metal deposition layer on the lower surface of the UV pattern layer. It is configured by. Thus, by forming the decoration on the back surface of the mother material, compared to the prior art, it is easy to implement each layer, and at the same time, the decoration expression is improved in quality. In particular, the metallic structure, three-dimensional effect, and various colors and design aesthetics are expressed in a complex and vivid manner by this decoration structure, thereby improving the overall decoration texture significantly.

On the other hand, in processing the decoration structure of the present invention, the translucent print layer is not a dot printer, a screen printing method, an inkjet printer method, but rather a method of printing on an object, a printing method using a printing plate embodied as a dot, such as an offset printing method. By this, the productivity, resolution, and precision of the decoration structure are significantly improved compared to the prior art, and there is an effect of improving interference with the UV pattern.

1 is a view showing a decoration structure of a conventional exterior panel.
Figure 2 is a cross-sectional view of the decoration structure according to the present invention.
3 is a flowchart of a decoration processing method according to the present invention.
4 is a cross-sectional view of another decoration structure according to the present invention.
5 is a flowchart of another decoration processing method according to the present invention.
6 is a conceptual diagram of a conventional offset printing.
Figure 7a is a view for explaining the AM dot of the printing plate of the present invention.
Figure 7b is a view for explaining the FM halftone of the printing plate of the present invention.

The features and effects of the invention's'decoration structure and processing method of the cover for an IT device' (hereinafter referred to as'decoration structure' and'decoration processing method') described or not described above will be described below with reference to the accompanying drawings. It will become more apparent through the description of the preferred embodiment. In the drawings, the decoration structure of the present invention is indicated by reference numeral 10.

Referring to FIG. 2, the decoration structure 10 of the present invention comprises a semi-transparent printing layer 14, a UV pattern layer 13, and a metal deposition layer 12 formed in turn with a base plastic sheet 11. That is, the decoration structure 10 forms a translucent printing layer 14 expressing various colors or designs on the lower surface of the plastic sheet 11 having a predetermined thickness, and is three-dimensional on the lower surface of the printing layer. It is made by forming a UV pattern layer 13 that provides a design and forming a metal deposition layer 12 on the lower surface of the UV pattern layer 13.

Here, a shielding print layer 15 may be interposed on the lower surface of the metal deposition layer 12, and preferably, the shielding color is black in this case.

The plastic sheet 11 is not limited to a material such as a thin plastic sheet or a high-hardness plastic having a predetermined thickness. In this decoration structure 10, the metal deposition layer 12 provides a metallic reflection for the entire decoration. In addition, the UV pattern layer 13 is a transparent pattern and generally includes a three-dimensional pattern, and the pattern is expressed by being reflected on the metal deposition layer 12.

The translucent print layer 14 is a layer that expresses various colors or designs, whereby the decoration structure 10 has a metallic reflection, three-dimensional effect, various colors and design aesthetics, and is viewed through the plastic sheet 11 It is visually complex and clearly expressed.

As a method for constructing the decoration structure 10, in particular with regard to the semi-transparent printing layer 14, an offset printing method is used, and a printing plate implemented as a so-called dot is used.

Referring to Figure 3, the decoration treatment method of the present invention, specifically, forming a semi-transparent printing layer 14 and the UV pattern layer 13 on the lower surface of the plastic sheet 11, the UV pattern layer ( And forming a metal deposition layer 12 on the lower surface of 13), wherein the translucent printing layer 14 is formed by an offset printing method using a printing plate embodied as a so-called dot.

Here, the metal deposition layer 12 may include a step of forming a printing layer 15 for shielding, preferably in this case, the shielding color is black.

Referring to FIG. 4, another decoration structure 10 of the present invention includes a first plastic sheet 16 on which a translucent printing layer is formed on the lower surface, and a second plastic sheet 17 on which a UV pattern layer and a metal deposition layer are sequentially formed on the lower surface. It consists of paper. The lamination is made by adhering the lower surface of the first transparent plastic sheet 16 on which the translucent printing layer 14 is formed, and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed. Before additional lamination, a transparent coating layer 18 may be formed on the lower surface of the semi-transparent print layer in order to supplement the quality of the semi-transparent print layer or to increase the printing step.

Here, a shielding print layer 15 may be interposed on the lower surface of the metal deposition layer 12, and preferably, the shielding color is black in this case.

Referring to Figure 5, the step of forming a translucent print on the lower surface of the first plastic sheet 16, the step of forming a UV pattern layer and a metal deposition layer sequentially on the lower surface of the second plastic sheet 17, the translucent printing layer ( 14) bonding the lower surface of the formed first transparent plastic sheet 16 and the upper surface of the UV pattern layer 13 and the second plastic sheet 17 on which the metal deposition layer 12 is formed. Optionally, a step of forming a transparent coating layer 18 on the underside of the translucent printing layer of the first plastic sheet 16 before lamination may be added. At this time, the translucent printing layer 14 is formed by an offset printing method using a printing plate embodied as a dot.

Specifically, the printing method is offset printing using a separate printing plate without directly printing on the object. 6 shows the concept of offset printing using a so-called printing plate. Here, the offset printing 20 refers to a method of making a printing plate 21 and winding it on a rotating cylindrical cylinder 22 to print, specifically, a rubber blanket of an ink image on the surface of the printing plate 21. It is transferred once to (23) and printed on the object 24 therefrom. Usually, offset printing is performed for each of the basic 4 colors to perform color printing in various colors.

Here, the'dots' of the printing plate 21 are AM (Amplitude Modulation) dots that control the density of the color with the size of the dots at a certain location, and FM (Frequency) which controls the density of the colors with the density of the dots at a random location. Modulation) The hybrid network is selected from hybrid networks that are randomly arranged, for example, by mixing the AM network and the FM network and adjusting the size of the network. 7A and 7B exemplarily show printed plates of the AM dot 31 and the FM dot 32, respectively.

In the present invention, in processing the decoration structure 10 of the cover for the IT device, it is not a method of printing on an object to be printed using a conventional dot printer, screen printing, or inkjet printer method, but an offset printing method using a printing plate embodied as a dot. By applying, it was confirmed that a special effect occurs in that productivity, resolution, and precision of printing are significantly improved compared to the prior art.

Particularly, after printing, it was confirmed that the moire phenomenon due to interference between the patterns of the translucent printing layer 14 and the UV coating layer 13 is significantly reduced when viewed from the outside, which is FM rather than the AM dot when viewed in relation to the type of the dot. It appeared excellent in halftone dots and hybrid halftone dots. That is, as a result of printing using FM dots and hybrid dots, it was possible to perform high-speed, high-precision printing with a resolution of about 4,000 dpi without moiré with the UV coating layer 13 as a result.

The shape of the translucent print layer 14 may be a single tone gradation or a multi-tone mixture. In addition, the translucent printing layer 14 may be performed on a part of the lower surface of the plastic sheet 11, so that in other parts, the metal deposition layer may be directly visually exposed through a transparent UV pattern layer. In this other part, this method is advantageous in that a logo, a letter, a symbol, and a figure required by a manufacturer are clearly represented without being obscured by the translucent printing layer 14.

According to the decoration structure 10 of the cover for an IT device of the present invention and its processing method, the metallic reflection, three-dimensional feeling, various colors and design aesthetics are expressed in a complex and vivid manner, and the overall decoration texture is significantly improved. have. In addition, the productivity, resolution, and precision of the decoration structure (10) can be remarkably improved by the offset printing method using a printing plate embodied as a dot, and moire effect with UV pattern can be greatly eliminated by using an FM dot or hybrid dot. It has an effect.

10. Decoration structure
11. Plastic sheet
12. Metal deposition layer
13. UV pattern layer
14. Translucent printing layer
15. Shielding printed layer
16. First plastic sheet
17. Second plastic sheet
18. Transparent coating layer
20. Offset printing
21. Printing plate
22. Cylindrical Cylinder
23. Blanket
24. Object
31. AM Dots
32. FM Dots

Claims (22)

On the underside of the plastic sheet 11 having a predetermined thickness, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate embodied as an AM dot,
A UV pattern layer 13 that provides a three-dimensional design is formed on the lower surface of the translucent print layer 14,
By forming a metal deposition layer 12 on the lower surface of the UV pattern layer 13,
Decoration structure of the IT device cover, characterized in that the.
On the underside of the plastic sheet 11 having a predetermined thickness, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate embodied by FM dots,
A UV pattern layer 13 that provides a three-dimensional design is formed on the lower surface of the translucent print layer 14,
By forming a metal deposition layer 12 on the lower surface of the UV pattern layer 13,
Decoration structure of the IT device cover, characterized in that the.
On the underside of the plastic sheet 11 having a predetermined thickness, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate implemented as a hybrid dot,
A UV pattern layer 13 that provides a three-dimensional design is formed on the lower surface of the translucent print layer 14,
By forming a metal deposition layer 12 on the lower surface of the UV pattern layer 13,
Decoration structure of the IT device cover, characterized in that the.
According to claim 1 or claim 2 or claim 3,
A decoration structure of a cover for an IT device, characterized in that a shielding print layer (15) is formed on the lower surface of the metal deposition layer (12).
As a processing method for constructing the decoration structure of the cover for the IT device of claim 1,
Forming a semi-transparent printing layer 14 and a UV pattern layer 13 on the lower surface of the plastic sheet 11 in sequence;
Forming a metal deposition layer 12 on the lower surface of the UV pattern layer 13;
It includes,
At this time, the translucent printing layer 14 is formed by an offset printing method using a printing plate embodied as an AM dot;
Decoration processing method of the IT device cover, characterized in that.
As a processing method for constructing the decoration structure of the cover for the IT device of claim 2,
Forming a semi-transparent printing layer 14 and a UV pattern layer 13 on the lower surface of the plastic sheet 11 in sequence;
Forming a metal deposition layer 12 on the bottom surface of the UV pattern layer 13;
It includes,
At this time, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate embodied in FM dots;
Decorating method of the cover for IT devices characterized in that.
As a processing method for constructing the decoration structure of the cover for the IT device of claim 3,
Forming a semi-transparent printing layer 14 and a UV pattern layer 13 on the lower surface of the plastic sheet 11 in sequence;
Forming a metal deposition layer 12 on the bottom surface of the UV pattern layer 13;
It includes,
At this time, the translucent printing layer 14 is formed by an offset printing method using a printing plate embodied as a hybrid halftone dot;
Decorating method of the cover for IT devices characterized in that.
The method of claim 5, 6 or 7,
Forming a shielding print layer (15) on the bottom surface of the metal deposition layer (12);
Decoration processing method of the IT device cover, characterized in that it further comprises.
The method of claim 5, 6 or 7,
The translucent printing layer 14 has a single tone gradation or a multi-tone mixture.
The method of claim 5, 6 or 7,
The translucent print layer 14 is performed on a part of the lower surface of the plastic sheet 11, so in other parts, it is covered by the translucent print layer 14, without being obstructed, through the transparent UV pattern layer 13 The metal deposition layer (12) to be exposed directly to the visual, the logo or letters, symbols or figures required by the manufacturer to be clearly represented, IT device cover decoration processing method.
On the underside of the first plastic sheet 16 having a predetermined thickness, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate embodied as an AM dot,
A UV pattern layer 13 that provides a three-dimensional design on the lower surface of the second plastic sheet 17 having a predetermined thickness and a metal deposition layer 12 are sequentially formed,
By bonding the lower surface of the first plastic sheet 16 on which the translucent printing layer 14 is formed, and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed, ,
Decoration structure of the IT device cover, characterized in that the.
A semi-transparent printing layer 14 is formed on the lower surface of the first plastic sheet 16 having a predetermined thickness by an offset printing method using a printing plate embodied as an FM dot,
A UV pattern layer 13 that provides a three-dimensional design on the lower surface of the second plastic sheet 17 having a predetermined thickness and a metal deposition layer 12 are sequentially formed,
By bonding the lower surface of the first plastic sheet 16 on which the translucent printing layer 14 is formed, and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed, ,
Decoration structure of the IT device cover, characterized in that the.
On the underside of the first plastic sheet 16 having a predetermined thickness, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate implemented as a hybrid dot,
A UV pattern layer 13 that provides a three-dimensional design on the lower surface of the second plastic sheet 17 having a predetermined thickness and a metal deposition layer 12 are sequentially formed,
By bonding the lower surface of the first plastic sheet 16 on which the translucent printing layer 14 is formed, and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed, ,
Decoration structure of the cover for IT devices, characterized in that the.
The method of claim 11, 12 or 13,
A decoration structure of a cover for an IT device, characterized in that a shielding print layer (15) is formed on the lower surface of the metal deposition layer (12).
The method of claim 11, 12 or 13,
Decoration structure of a cover for an IT device, characterized in that a transparent coating layer (18) is formed on the bottom surface of the translucent printing layer (14).
As a processing method for constructing the decoration structure of the IT device of claim 11,
Forming a translucent printing layer 14 on the lower surface of the first plastic sheet 16;
Forming a UV pattern layer 13 and a metal deposition layer 12 sequentially providing a three-dimensional design on the lower surface of the second plastic sheet 17;
Bonding the lower surface of the first plastic sheet 16 on which the translucent printing layer 14 is formed and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed step;
It includes,
At this time, the translucent printing layer 14 is formed by an offset printing method using a printing plate embodied as an AM dot;
Decorating method of the cover for IT devices characterized in that.
As a processing method for constructing the decoration structure of the IT device of claim 12,
Forming a translucent printing layer 14 on the lower surface of the first plastic sheet 16;
Forming a UV pattern layer 13 and a metal deposition layer 12 sequentially providing a three-dimensional design on the lower surface of the second plastic sheet 17;
Bonding the lower surface of the first plastic sheet 16 on which the translucent printing layer 14 is formed and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed step;
It includes,
At this time, the semi-transparent printing layer 14 is formed by an offset printing method using a printing plate embodied in FM dots;
Decorating method of the cover for IT devices characterized in that.
As a processing method for constructing the decoration structure of the IT device of claim 13,
Forming a translucent printing layer 14 on the lower surface of the first plastic sheet 16;
Forming a UV pattern layer 13 and a metal deposition layer 12 sequentially providing a three-dimensional design on the lower surface of the second plastic sheet 17;
Bonding the lower surface of the first plastic sheet 16 on which the translucent printing layer 14 is formed and the upper surface of the second plastic sheet 17 on which the UV pattern layer 13 and the metal deposition layer 12 are formed step;
It includes,
At this time, the translucent printing layer 14 is formed by an offset printing method using a printing plate embodied as a hybrid halftone dot;
Decorating method of the cover for IT devices characterized in that.
The method of claim 16, 17 or 18,
Forming a shielding print layer (15) on the bottom surface of the metal deposition layer (12);
Decoration processing method of the IT device cover, characterized in that it further comprises.
The method of claim 16, 17 or 18,
Forming a transparent coating layer 18 on the underside of the translucent printing layer 14;
Decoration processing method of the IT device cover, characterized in that it further comprises.
The method of claim 16, 17 or 18,
The translucent printing layer 14 has a single tone gradation or a multi-tone mixture.
The method of claim 16, 17 or 18,
The translucent printing layer 14 is performed on a part of the lower surface of the first plastic sheet 16, so in other parts, the transparent UV pattern layer 13 is not obscured by the translucent printing layer 14 Through the metal deposition layer (12) to be exposed directly to the visual, the logo, letters, symbols or figures required by the manufacturer to be clearly represented, the decoration processing method of the IT device cover.

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