KR101970923B1 - Pattern glass manufacturing method for portable terminal using shape glass - Google Patents

Abstract

The present invention relates to a method for manufacturing a pattern glass for a portable terminal using a shape glass, which is capable of providing a pattern glass with high durability. The method comprises a film jig arrangement process, a pattern masking process, a hard break process, a pattern etching process, a glass strengthening process, a base color printing process, and an AF coating process.

Description

Pattern glass manufacturing method for portable terminal using shape glass

The present invention relates to a method for manufacturing a patterned glass for a portable terminal using a shape glass, and more particularly, to a patterned glass manufacturing method for a portable terminal, the shape glass which is cut and processed according to the size of the portable terminal to the first reinforced glass. The pattern jig is formed by arranging the film jig arrayed at regular intervals and the pattern etching process is performed by etching the surface of the shape glass exposed through the pattern masking process to form pattern grooves. Through the glass reinforcement process to strengthen the secondary to provide a clear, clear and durable pattern glass pattern.

In general, the portable terminal is a wireless device capable of web surfing through telephony communication and Internet search.

On the other hand, the owners of the portable terminal as described above, but the functionality is also important, always have a lot of interest in the texture and design, and is based on the selection criteria of the portable terminal.

In addition, if you purchase a mobile terminal by attaching a variety of accessories by themselves to enhance the decorative and design.

According to the preference of the owner of the portable terminal as described above, a pattern glass in which a cell phone case is formed of glass and a patterned pattern is developed and used to increase the texture and design of the portable terminal.

As such, the patterned glass is manufactured by attaching a printing or printing sheet to glass with enhanced strength to form a pattern.

However, as described above, the pattern glass for the portable terminal has a problem that the pattern formed on the glass is formed through printing or printing film, so that the texture of the portable terminal is degraded and wear is easily damaged in use.

Republic of Korea Patent Publication No. 10-2016-0075411

Thus, the present invention is to solve the problem that the pattern of the glass pattern for the mobile terminal formed on the glass is formed through the printing or printing film to reduce the texture of the mobile terminal and easily wear damage in the use process.

That is, according to the present invention, in the method of manufacturing a patterned glass for a mobile terminal, the film jig arrangement process and the film jig arrangement process of cutting and processing the first glass reinforced according to the size of the mobile terminal at regular intervals to form a film jig. The pattern masking process of masking the non-pattern forming portions of the shaped glass arranged at equal intervals through the pattern masking layer, and the pattern mask layer formed through the pattern masking process closely adheres to the surface of the shaped glass so that the etching solution is patterned during the pattern etching process. Hard-braking process to pressurize not to penetrate into, pattern etching process to form a pattern groove by etching the surface of the shape glass exposed through the pattern masking process, the patterned glass formed pattern through the pattern etching process from potassium nitrate 2 Glass strengthening process to strengthen the secondary, secondary strengthened through the glass strengthening process To the glass in a pattern opposite to the side to which is characterized by being a base color printing and AF coating process of forming the AF coating on the pattern side of the reinforced-like glass secondary through the glass strengthening process of printing a base color layer.

Accordingly, the present invention forms a pattern on the shape glass through a pattern masking process for masking the non-pattern forming portion of the shape glass and a pattern etching process for etching the surface of the shape glass exposed through the pattern masking process to form a pattern groove. By the effect, the pattern is formed clearly and vividly,

After the pattern etching process, the shape glass is strengthened through the secondary reinforcing process, thereby improving the durability and the fingerprint resistance through the formation of the AF coating layer.

1 is an exemplary block diagram showing an embodiment of the present invention.
Figure 2 is an exemplary view showing a film jig arrangement process as an embodiment of the present invention.
Figure 3 is an exemplary block diagram showing a UV pattern masking process as an embodiment of the present invention.
Figure 4 is an illustration of the UV pattern masking process according to FIG.
5 is an exemplary block diagram showing a DRF laminating masking process according to an embodiment of the present invention.
6 is an exemplary view of the DRF lamination masking process according to FIG.
Figure 7 is an exemplary block diagram showing a pattern nicking process in one embodiment of the present invention.
8 is an exemplary view of a pattern etching process according to FIG. 7.
Figure 9 is an illustration of a base calline chain process showing an embodiment of the present invention.
10 is an exemplary view of an AF coating process showing an embodiment of the present invention.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is intended to form a clear and clear pattern on the pattern glass and to improve the durability, terms or words used in the specification and claims should not be construed as limited to the conventional or dictionary meaning, the inventors In order to explain the invention in the best way, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the concept of terms can be properly defined.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, which can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

That is, in the method of manufacturing a patterned glass for a mobile terminal, the film jig arrangement process 100, the pattern masking process 200, the hard break process 300, the pattern etching process 400, the glass strengthening process 500 , Base-calenar printing process 600 and AF coating process (700).

Here, the film jig arrangement process 100 is to cut and process the primary glass according to the size of the portable terminal to the shape-reinforced glass 10 is attached to the film jig 20 at regular intervals.

The film jig 20 is a pressure-sensitive adhesive layer 22 is formed on the upper surface of the PET film 21.

The shape glass 10 is preheated by hot air at 210 to 280 ° C., immersed in potassium nitrate solution at 380 to 460 ° C., strengthened, and then cooled by hot water at 90 to 170 ° C. to a surface stress of 400 to 30 μm. It is to strengthen to have 600MPa.

In addition, the pattern masking process 200 is to form a mask layer on the non-pattern forming portion of the shaped glass 10 arranged at equal intervals through the film jig arrangement process 100.

The pattern masking process 200 is made of any one of a UV pattern masking process 210 for printing the pattern mask by printing with UV ink and a DFR laminating masking process 220 for laminating the pattern by laminating with DFR (photosensitive film). .

The UV pattern masking process 210 is printed through the UV ink printing process 211 and the UV ink printing process 211 to form a UV printing layer 14a by coating and printing the UV ink on the shape glass (10) UV drying process 212 for drying the UV printing layer 14a, UV exposure process 213 for irradiating UV to the UV printing layer 14a coated on the shape glass 10 using the photomask 13 And the UV development process 214 to remove the ink of the unexposed portion after the UV exposure process 213 to form the pattern mask layer 11.

The DFR lamination process 220 is a DFR lamination layer laminated through the DFR lamination process 221 and the DFR lamination process 221 by laminating the DFR film on the shape glass 10 to form a DFR lamination layer 14b. After the lamination process 222 and the lamination process pattern 222 after the lamination process 222 to remove the lamination of the pattern etching portion to form a pattern mask layer 11 to 14b. The Ramie development process (223) is made.

In addition, in the hard break process 300, the pattern mask layer 11 formed through the pattern masking process 200 is intimately adhered to the surface of the shape glass 10 so that the etching solution is pattern mask layer in the pattern etching process 400. It is to prevent infiltration into (11).

In addition, the pattern etching process 400 is to form a pattern groove 12 by etching the surface of the shape glass 10 exposed through the pattern masking process (200).

The pattern etching process 400 is an etching immersion process in which the shape glass 10 is immersed in an etching bath filled with an etchant made of a hydrofluoric acid mixture to melt a non-pattern masking portion of the shape glass 10 to form a pattern groove 12. 410 and the etching immersion cleaning process to remove the etching glass remaining in the shape glass 10 after separating the shape glass 10 formed with the pattern groove 12 through the etching immersion process 410 from the film jig 20 After the process 420 and the etching cleaning process 420 are completed, the shape glass 10 is loaded into a cassette, and then, the pattern mask on the surface of the shape glass 10 is immersed in a stripping solution to which 3 to 5% by weight of sodium hydroxide is added. It is made of a masking peeling process 430 to remove the layer (11).

The etching groove of the etching immersion process 410 may be performed by forming 1 ~ 5㎛.

In addition, the glass strengthening process 500 is to secondary strengthen the shape glass 10 in which the pattern is formed through the pattern etching process 400 from potassium nitrate.

The glass tempering process 500 preheats the shape glass 10 at 210 to 280 ° C., immerses it in potassium nitrate solution at 380 to 460 ° C. and strengthens it, and then cools it with hot water at 90 to 170 ° C. to 30 to 45 μm. It is strengthened to have surface stress of 650 ~ 850MPa by depth.

In addition, the base color line printing process 600 is to print the base color layer 30 on the opposite side of the pattern to the glass 2 strengthened second through the glass strengthening process (500).

The base color layer 30 may be implemented in black or color.

In addition, the AF coating process 700 is to form the AF coating layer 40 on the pattern side of the shape glass 10 before or after the base cal printing process (600).

Hereinafter, the operational effects of the application of the present invention will be described.

In the method of manufacturing a patterned glass for a mobile terminal as described above, the film jig arrangement process of cutting and processing the shape glass 10 subjected to the primary reinforcement treatment according to the size of the mobile terminal at regular intervals to the film jig 20. Through the pattern masking process 200 for masking the non-pattern forming surface on the surface of the shape glass 10 arranged at equal intervals through the film jig array process 100 and the pattern masking process 200. The formed pattern mask layer 11 is in close contact with the surface of the shape glass 10 so that the hard break process 300 for pressing the etching solution in the pattern etching process 400 does not penetrate into the pattern mask layer 11, the pattern A pattern etching process 400 for forming a pattern groove 12 by etching the surface of the shape glass 10 exposed through the masking process 200, a shape glass 10 having a pattern formed through the pattern etching process 400. ) In potassium nitrate secondary The base glass printing process 600 for printing the base color layer 30 on the opposite side of the pattern through the glass strengthening process 500, the glass strengthening process 500 to the secondary strengthened shape glass 10, and the According to an exemplary embodiment of the present invention, an AF coating process 700 for forming an AF coating layer 40 on a pattern side of a second strengthened shape glass 10 through a glass strengthening process 500 is performed. When manufactured, the pattern formed on the surface of the shape glass 10 is formed clearly and vividly.

On the other hand, the present invention is to improve the gloss effect gradient effect and three-dimensional effect of the pattern forming surface in the pattern etching process (400).

In addition, the pattern formed through the present invention improves the contact texture of the user, and has the effect of preventing mold pressing when the portable terminal is formed in three dimensions.

In addition, according to the present invention, the shape glass 10 is adhered to the film jig 20 through the film jig arrangement process 100 so that the base glass layer 30 is formed in the pattern etching process 400. The surface to be formed is not etched and smoothness is formed so that the base color layer 30 is clearly and uniformly formed in the base callining process 600.

In addition, according to the present invention, the shape glass 10 is secondly strengthened through the glass strengthening process 500 to improve durability of the shape glass 10.

In addition, according to the present invention, the AF coating layer 40 is formed on the pattern surface of the shape glass 10 through the AF coating process 700, thereby improving fingerprint resistance.

10: shape glass
11: pattern mask layer
12: pattern groove
13: photomask
14a: UV printing layer 14b: DFR lamination layer
20: film jig
21: PET film 22: adhesive layer
30: base color layer
40: AF coating layer
100: film jig alignment process
200: pattern masking process
210: UV pattern masking process
211: UV ink printing process 212: UV drying process
213: UV exposure process 214: UV development process
220: DFR Laminating Masking Process
221: DFR Lami process 222: Lamino exposure process 223: Lami phenomenon process
300: Hard Brake Process
400: pattern etching process
410: etching immersion process 420: etching cleaning process 430: masking peeling process
500: glass strengthening process
600: base knife line printing process
700: AF coating process

Claims (4)

In the method for producing a patterned glass for a mobile terminal;
Non-pattern is formed on the surface of the shape glass arranged at equal intervals through the film jig array process and the film jig array process where the shape glass, which is cut and processed according to the size of the mobile terminal, is attached to the film jig at regular intervals. Pattern masking process for masking the surface, the pattern mask layer formed through the pattern masking process is in close contact with the surface of the shape glass hard brake process for pressing the etching solution does not penetrate into the pattern mask layer during the pattern etching process, the pattern masking A pattern etching process for forming a pattern groove by etching the surface of the shape glass exposed through the process, a glass strengthening process for secondaryly strengthening the shape glass with a pattern through potassium nitrate through the pattern etching process, and the glass strengthening process The base color layer is printed on the opposite side of the pattern with the second strengthened shape glass. An AF coating process of forming an AF coating layer on the side of the pattern of the second-strength strengthened shape glass through a base callining process and the glass strengthening process;
The pattern etching process includes an etching immersion process in which a shape groove is formed by immersing the shape glass in an etching bath filled with an etchant made of a hydrofluoric acid mixture to melt a non-pattern masking portion of the shape glass and forming a pattern groove. After the glass is separated from the film jig, the etching cleaning process of washing and removing the etching liquid remaining in the shape glass, and loading the shape glass in which the etching cleaning process is completed in the cassette, and then immersing it in the stripping solution containing 3 to 5% by weight of sodium hydroxide. A masking peeling process for removing the pattern mask layer on the surface of the glass;
The film jig is composed of a pressure-sensitive adhesive layer 22 is formed on the upper surface of the PET film 21;
The glass is hot air preheated at 210 ~ 280 ℃, immersed in 380 ~ 460 ℃ potassium nitrate solution and strengthened, and then cooled by hot water of 90 ~ 170 ℃ to surface stress 400 ~ 600MPa to a depth of 20 ~ 30㎛ To be strengthened;
The etching groove of the etching immersion process is made by forming 1 ~ 5㎛;
The glass tempering process preheats the shape glass 10 at 210 to 280 ° C., immerses it in potassium nitrate solution at 380 to 460 ° C., strengthens it, and then cools it with hot water at 90 to 170 ° C. to a surface of 30 to 45 μm. A patterned glass manufacturing method for a portable terminal using a shaped glass, characterized in that the stress is made to have a strength of 650 ~ 850MPa. The method of claim 1;
The pattern masking process is made of a UV pattern masking process of printing the pattern mask by UV ink,
The UV pattern masking process is a UV ink printing process for forming a UV printing layer by coating and printing a UV ink on the shape glass and a UV drying process for drying the printed UV printing layer through the UV ink printing process, the glass is applied to the shape glass Shaped glass comprising a UV exposure process for irradiating the UV to the formed UV printed layer using a photomask and a UV development process for removing the ink of the unexposed part after the UV exposure process to form a pattern mask layer Pattern glass manufacturing method for a portable terminal using.
The method of claim 1;
The pattern masking process is a pattern glass manufacturing method for a portable terminal using a shape glass, characterized in that consisting of a DFR laminating masking process patterned by laminating with DFR (photosensitive film).
The method of claim 3;
The DFR lamasking process is a DFR lamination process of laminating a DFR film on a shape glass to form a DFR lamination layer and a laminating process of irradiating UV light using a photomask to the DFR lamination layer laminated through the DFR lamination process. And a lamination phenomenon in which a pattern mask layer is formed by removing the lamination of the pattern etching portion after the lamination process.

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