KR101144264B1 - Strengthened glass window manufacturing method for display and strengthened glass window using the same - Google Patents

Abstract

PURPOSE: A manufacturing method of a tempered glass window for display and a tempered glass window manufactured thereof are provided to increase intensity of edge cut out part of the tempered glass window by cutting the hardened trimmed groove part. CONSTITUTION: A manufacturing method of a tempered glass window for display comprises next steps: cutting surface part of a plate glass which is corresponded to contour of the tempered glass window plate glass(S101); forming tempered glass window pattern with specific size on a disk glass; tempering the plate glass with tempered glass window pattern(S109); cutting the tempered glass window pattern from the disk glass(S117); and obtaining the tempered glass window(S121). In step S101, arc grooves are formed on both surfaces by cutting the both surfaces with laser beam. In step 109, both cutting portions of the disk glass are tempered.

Description

Method for manufacturing tempered glass window for display, and tempered glass window manufactured by the present invention {STRENGTHENED GLASS WINDOW MANUFACTURING METHOD FOR DISPLAY AND STRENGTHENED GLASS WINDOW USING THE SAME}

The present invention relates to a method for manufacturing a tempered glass window for a display and a tempered glass window manufactured by the present invention, and more particularly, in a method of making tempered glass by cutting to a conventional original glass in a dimension, it is possible to achieve high strength even with a simple treatment process and low cost. The present invention relates to a method for manufacturing a tempered glass window for a display capable of efficiently producing tempered glass, and a tempered glass window manufactured thereby.

Electronic products such as portable terminals, laptops, and tablet PCs have a display unit, and a tempered glass window is installed on the front of the display unit.

The tempered glass window is composed of thin tempered glass and covers and blocks the surface of the display unit. Therefore, the display unit is protected from external impact and various foreign matters.

Such tempered glass panes typically polish the surface of the master glass to increase surface precision and transparency, and then chemically and physically treat the polished master glass to increase strength and hardness. And cut and cut the original glass with high strength and hardness to the desired dimensions to produce tempered glass to the desired size and shape.

However, such a conventional tempered glass window has a disadvantage that it must go through a complicated process of cutting in advance in order to make the desired size. In addition, since the glass is cut after the reinforcement treatment, there is a disadvantage that the cut portion is not reinforced.

And there is a problem that the cut is weak due to these disadvantages. In particular, as shown in Figure 1, the edge cut 1 has a disadvantage that the surface reinforcing layer (3) is not formed, due to this disadvantage that the edge cut 1 of the tempered glass (5) is easily worn or damaged A flaw is pointed out.

On the other hand, in consideration of this, there is a case where the edge cutting portion 1 of the tempered glass window 5 is chemically and physically strengthened by one to increase the strength and hardness.

However, in such a case, since the edge cutout portions 1 of the respective tempered glass windows 5 must be strengthened one by one, there is a disadvantage in that the manufacturing process is increased, and because of these disadvantages, the manufacturing time is delayed and productivity is significantly reduced. .

Alternatively, there is a "post-cut reinforcement" method in which the original glass is first cut, and then each cut glass is chemically and physically strengthened. Therefore, the edge cut part 1 of the tempered glass window 5 may also be tempered.

However, this "post-cutting reinforcement" method, because each cut glass must be chemically and physically strengthened processing individually, there is a disadvantage that the workmanship is significantly increased, the manufacturing time is delayed and production efficiency due to these disadvantages There is a problem that this is significantly reduced.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is a method for manufacturing a tempered glass window for a display that can be tempered to process the cut portion of the tempered glass window without undergoing a separate reinforcement treatment process and thereby To provide a manufactured tempered glass window.

Another object of the present invention is to configure the cutting portion of the tempered glass window without undergoing a separate reinforcement treatment process, it is possible to shorten the manufacturing process and manufacturing time, reduce the manufacturing cost, production The present invention provides a method for manufacturing a tempered glass window for a display and a tempered glass window manufactured thereby.

In order to achieve the above object, a method for manufacturing a display tempered glass window of an electronic product according to the present invention is a method of manufacturing a tempered glass window installed on a display surface of an electronic product, the method comprising: a) a pattern of tempered glass window of a specific size on a disc glass; Forming a; b) reinforcing the original glass on which the tempered glass window pattern is formed; c) cutting the tempered glass pattern from the disc glass to obtain a tempered glass window from the disc glass; In the step a), cutting the surface portion of the disc glass corresponding to the outline of the tempered glass window to form the tempered glass window pattern; In step b), reinforcing the cutout portion of the disc glass to form the tempered glass window pattern; In the step c), by cutting the cut portion of the tempered glass to obtain the tempered glass window.

Preferably, in the step a), the tempered glass window pattern is formed in a groove shape by cutting to a predetermined depth along the surface portion of the disc glass corresponding to the outline of the tempered glass window; In step b), reinforcing the cutout portion of the disc glass in the form of a groove forming the tempered glass window pattern; In the step c), it is characterized in that to cut the cut portion of the disc glass of the reinforced groove shape to obtain the tempered glass window.

And before the step c), forming a touch sensor layer on the tempered glass window pattern of the disc glass.

According to the method for manufacturing a tempered glass window for a display according to the present invention and the tempered glass window manufactured by the present invention, after forming a cutout groove in the shape of tempered glass window appearance on the original glass, and then reinforce the process, cut the reinforced groove cut portion reinforced Since the structure of obtaining the glass window, there is an effect that the edge cut portion of the tempered glass window corresponding to the cutting groove portion. Therefore, the intensity | strength of the edge cutting part of a tempered glass window can be raised.

In addition, since the edge pattern of the tempered glass window is automatically strengthened in the process of forming a pattern of the shape of the tempered glass window on the original glass, strengthening it, and cutting the patterned part to obtain the tempered glass window, There is an effect that can increase the strength of the cut portion of the edge of the tempered glass window even without reinforcing treatment.

Therefore, the manufacturing process and manufacturing time can be significantly shortened, the manufacturing cost can be reduced, and the production efficiency can be remarkably improved, compared to the conventional technology in which the edge portion of the tempered glass window must be separately strengthened. There is.

1 is a cross-sectional view showing a tempered glass window manufactured by a conventional method for manufacturing a tempered glass window for a display,
Figure 2 is a block diagram showing each step of the method for manufacturing a tempered glass window for display according to the present invention,
3A to 3K are views schematically showing each step of the method for manufacturing a tempered glass window for a display according to the present invention;
4 is a cross-sectional view showing a tempered glass window for a display manufactured by the manufacturing method according to the present invention.

Hereinafter, a preferred embodiment of a method for manufacturing a tempered glass window for a display according to the present invention and a tempered glass window manufactured thereby will be described in detail with reference to the accompanying drawings.

First, referring to Figures 2 and 3a and 3b, the method of manufacturing a tempered glass window of the present invention, when the original glass 10 is received (S101), the original glass glass 10 is inspected (S103).

The inspection of the original glass 10 is a step of examining whether the original glass 10 contains scratches or foreign matters, and the visual inspection or device inspection or visual inspection and device inspection are simultaneously performed.

When the inspection of the original glass 10 is completed, as illustrated in FIGS. 2, 3C, and 3D, the inspected original glass 10 is polished (S105), and the polished original glass 10 is removed. It is cleaned (S107).

In the polishing treatment of the original glass 10, the surface of the original glass 10 is polished using a conventional polishing apparatus. In particular, both surfaces 10a and 10b of the original glass 10 are polished. Therefore, the surface flatness and surface precision and transparency of the original glass 10 are improved.

Cleaning of the original glass 10 is a step of cleanly removing the abrasive powder, foreign matter, etc. generated during the polishing process, by spraying the cleaning liquid to the original glass 10 to clean or to precipitate the original glass 10 in the cleaning liquid Clean.

When the cleaning of the original glass 10 is completed, as shown in FIGS. 2 and 3E, the tempered glass window pattern 20 is formed on the cleaned original glass 10 (S109).

Formation of the tempered glass window pattern 20 is a process of displaying the outer shape of the tempered glass window to be manufactured on the original glass 10, which is divided into individual tempered glass windows by cutting the outline 22 of the displayed tempered glass window. Make it possible. Hereinafter, the outline 22 of the tempered glass window pattern 20 displayed on the disc glass 10 will be referred to as a "pattern outline 22".

On the other hand, the pattern outline 22 of this tempered glass window pattern 20 is formed by partially cutting the surface 10a of the original glass 10, as in the partially enlarged sectional view. In particular, the surface 10a portion of the disc glass 10 is cut to a predetermined depth and formed into a groove shape.

As such, the reason for forming the pattern outline 22 of the tempered glass window pattern 20 in the form of a groove is as shown in FIGS. 3K and 4, and each of the tempered glass windows 30 in the original glass 10. When cutting the pattern outline 22 to separate the (), the cut surface (22a) is to be minimized.

The reason for minimizing the cut surface 22a of the pattern outline 22 is that the cut surface 22a of the pattern outline 22 is formed in the step (see FIG. 3H) (described later) of reinforcing the disc glass 10. Except for all parts of the tempered glass window pattern 20 is reinforced, in order to minimize the cutting surface (22a) that is not reinforced.

Thus, when manufacturing the tempered glass window 30, it is possible to minimize the edge cut portion 32 that is not reinforced (see Fig. 4). As a result, it is possible to increase the strength of the edge cut portion 32 of the tempered glass window.

On the other hand, it is preferable to cut the part of the surface 10a of the disc glass 10 as deep as possible to form the pattern outline 22. In particular, the pattern outline 22 is preferably formed by cutting as deep as possible within the extent that the original glass 10 is not damaged.

In some cases, the pattern outline 22 may be formed simultaneously on both surfaces 10a and 10b of the disc glass 10, as shown in FIG. 3F.

In addition, the pattern outline 22 of the tempered glass window pattern 20 may be formed through the disc glass 10, as shown in FIG. 3G.

In this case, the pattern outline 22 penetrating the disc glass 10 is cut in the form of a continuous hole at regular intervals along the tempered glass window pattern 20.

On the other hand, the process for forming the tempered glass window pattern 20, it is preferable to use a laser (Laser) equipment. Laser equipment (not shown) cuts the surface 10a by irradiating a laser beam to the surface 10a of the original glass 10, thereby making the pattern outline 22 of the tempered glass window pattern 20 more efficient. It helps to form well.

2 and 3H, when the tempered glass window pattern 20 is formed on the disc glass 10, the tempered glass window pattern 20 is formed on the disc glass 10. Reinforcing treatment (S111).

The reinforcement treatment of the original glass 10 is a step of increasing the strength and hardness of the original glass 10 by chemically and physically treating the original glass 10. The finished glass 10 has a high surface density. High and surface compression occurs.

In particular, the original glass 10, which has a high surface density and surface compression, increases strength and hardness while the reinforcing layer 12 is formed on the surface thereof. Since the strengthening process of the original glass 10 through chemical and physical treatment is a known technique, a detailed description thereof will be omitted.

On the other hand, in the process of reinforcing the original glass 10, the pattern outline 22 of the tempered glass window pattern 20 is also reinforced. In particular, the surface reinforcement layer 12 is also formed in the groove-shaped pattern outline 22.

The surface reinforcement layer 12 of the pattern outline 22 formed as described above is cut through the pattern outline 22 and separated into individual tempered glass windows 30 (see FIGS. 3K and 4). Wrap most of the edge cut portion 32).

This increases the strength of the edge cut portion 32 of the tempered glass window 30. In particular, it increases the strength of the edge cut portion 32 of the tempered glass window 30 without a separate strengthening treatment.

As a result, the manufacturing process and manufacturing time can be significantly shortened, the manufacturing cost can be reduced, and the production efficiency is remarkably improved, compared to the conventional technology in which the edge cutout portion of the tempered glass window 30 must be separately strengthened. You can.

Meanwhile, as shown in FIG. 3F, when the pattern outline 22 of the tempered glass window pattern 20 is formed on both surfaces 10a and 10b of the disc glass 10, the disc glass 10 may be formed. After the reinforcement treatment, the surface reinforcement layer 12 is formed on both of the pattern outlines 22 of both surfaces 10a and 10b.

3G, when the pattern outline 22 of the tempered glass window pattern 20 is formed in the shape of a hole on the disc glass 10, after the tempered treatment of the disc glass 10, the hole is formed. The surface reinforcement layer 12 is also formed inside the pattern outline 22 of the shape.

Again, referring to Figures 2 and 3i, the tempered glass window manufacturing method of the present invention, when the tempered glass plate 10 is completed, cleaning and drying the tempered glass plate 10 (S113).

The cleaning and drying of the original glass 10 is a step of cleanly removing foreign substances generated in the tempering treatment process, by cleaning the cleaning liquid by spraying the cleaning liquid on the original glass 10 or by precipitating the original glass 10 in the cleaning liquid. . And blows the wind of high degree to the original glass 10 and dry.

When the cleaning and drying of the original glass 10 are completed, as shown in FIGS. 2 and 3J, a touch sensor layer 40 is formed on the tempered glass window pattern 20 of the original glass 10. It forms (S115).

Forming the touch sensor layer 40 is a step for providing a touch input function to the tempered glass window, and attaching a conductive touch film and a touch sensor pattern to the tempered glass window pattern 20 of the original glass 10 and forming a pattern. do.

The touch sensor layer 40 is preferably formed on the surface 10b opposite to the surface 10a on which the pattern outline 22 is formed, among the surfaces 10a and 10b of the tempered glass window pattern 20.

Meanwhile, when the formation of the touch sensor layer 40 is completed, as shown in FIGS. 2 and 3K, the pattern outline 22 of the tempered glass window pattern 20 is cut (S117).

The cutting of the pattern outline 22 is a process of dividing the part of the tempered glass window pattern 20 from the disc glass 10, and the one tempered glass window 30 having the surface tempered layer 12 and the touch sensor layer 40. ) Step.

Preferably, when cutting the pattern outline 22 of the tempered glass window pattern 20, it is preferable to cut the portion of the pattern outline 22 having the thinnest thickness.

This is because the cut surface 22a of the pattern outline 22 can be minimized only by cutting the portion of the pattern outline 22 having the thinnest thickness, so that the cut surface 22a in which the surface reinforcement layer 12 is not formed is cut. ) Can be minimized. Here, it is preferable to use the laser cutting machine for the cutting | disconnection of the pattern outline 22. As shown in FIG.

On the other hand, when the separation of the tempered glass window 30 is completed, the edge edge portion of the separated tempered glass window 30 is subjected to an edge (Edge) processing (S119). In particular, the edge cut surface 22a of the tempered glass window 30 is polished and processed. Therefore, the precision of the tempered glass window 30 is increased.

As illustrated in FIG. 4, the tempered glass window of the present invention manufactured as described above has a surface reinforcement layer 12 and a touch sensor layer 40.

The surface reinforcement layer 12 is also formed at the edge cut portion 32. Therefore, the strength of the edge cut portion 32 is increased and the impact resistance and wear resistance of the edge cut portion 12 are improved. As a result, the edge cut portions 32 of the tempered glass window 30 are not easily damaged or worn out despite external impact and frictional contact.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope of the claims.

10: disc glass 10a, 10b: surface of disc glass
12: surface tempered layer 20: tempered glass window pattern
22: pattern outline 22a: cut surface
30: tempered glass window 32: magnetic cutting part
40: touch sensor layer

Claims (8)

a) cutting the surface portion of the disc glass 10 corresponding to the outline of the tempered glass window 30 to form a tempered glass window pattern 20 having a specific size on the disc glass 10;
b) strengthening the original glass 10 on which the tempered glass window pattern 20 is formed;
c) a step of cutting the tempered glass pattern 20 from the disc glass 10 to obtain a tempered glass window 30 from the disc glass 10. In the method of manufacturing),
In step a), both surfaces 10a and 10b of the disc glass 10 corresponding to the outline of the tempered glass window 30 are cut with a laser beam to a predetermined depth to form arc-shaped grooves on both surfaces;
In step b), both the cutout portions of the circular glass 10 in the form of arc-shaped grooves forming the tempered glass window pattern 20;
In the step c), by cutting the cut portion of the disk glass 10 of the reinforcement arc-shaped groove shape, the upper and lower portions of the cut surface to each have a rounded arc-shaped curved surface, characterized in that Glass window manufacturing method. delete delete delete delete The method of claim 1,
Before step c),
Method of manufacturing a tempered glass window for display, further comprising the step of forming a touch sensor layer (Touch Sensor) 40 on the tempered glass window pattern 20 of the disc glass (10). delete Tempered glass window for display manufactured by the method of claim 1.

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