KR102211971B1 - Cover glass for using shock-absorbing ink - Google Patents

Abstract

The present invention relates to cover glass using impact-reducing ink, in which the impact-reducing ink is applied onto the cover glass for a display, thereby minimizing scattering of cover glass pieces generated when the cover glass is broken, while reducing the impact applied to the cover glass. To this end, the cover glass using impact-reducing ink comprises: a glass panel formed of any one of thin glass and curved glass, for a display of an electronic device; and an ink layer constituting a layer having a predetermined thickness on a surface of the glass panel by applying the impact-reducing ink obtained by mixing polyester, an ester solvent, and polyisocyanate onto one surface or both surfaces of the glass panel.

Description

Cover glass using shock-reducing ink{COVER GLASS FOR USING SHOCK-ABSORBING INK}

The present invention relates to a cover glass using an impact reducing ink.

Recently, consumers have increased demands for slimmer portable terminals such as mobile phones, smartphones, tablet PCs, personal digital assistants (PDAs), portable multimedia players (PMPs), and notebook computers. have.

For slimming, the main window disposed on the outermost side of the display screen may be a tempered glass having a thin thickness and high strength. However, even if tempered glass is used, there is a concern that the cover glass may be broken or scratches may occur due to external impact while using the portable terminal. Thus, a protective film attached to the display screen was used for the purpose of protecting the cover glass, but since the protective film is generally made of polymer material, it has the effect of preventing scratches, but the cover glass is cracked or cracked. There was a problem that the shock could not stand.

That is, conventionally, to protect the cover glass, a protective film, OCA (optical transparent adhesive film), and OCR (optical transparent adhesive resin) are attached to the back side of the cover glass (the inner surface of the display screen in the glass). do.

However, the above method is difficult to apply to a thin film cover glass or a curved cover glass applied to a flexible product, and even if applied, it has difficulty in reducing the impact of the cover glass or preventing scattering of cover glass fragments.

Republic of Korea Patent Publication No. 10-1531671 (Name of invention: protective glass manufacturing method, 2015. 06. 26. Announcement) Republic of Korea Patent Publication No. 10-1453756 (Name of the invention: thin film paste composition and method of manufacturing a cover glass protective film using the same, 2014. 03. 28. Publication)

The present invention was invented in consideration of the above points, and applied shock-reducing ink to the cover glass for display to mitigate the impact applied to the cover glass and at the same time prevent the scattering of pieces of the cover glass that occur when the cover glass is damaged. Its purpose is to provide a cover glass using impact-reducing ink that can be minimized.

According to a preferred embodiment for achieving the object of the present invention described above, the cover glass using the impact reducing ink according to the present invention is a glass panel made of either thin glass or curved glass for display of electronic devices, and polyester, It may include an ink layer forming a layer having a predetermined thickness on the surface of the glass panel by being applied to one or both surfaces of the glass panel using an impact reducing ink in which an ester solvent and polyisocyanate are mixed.

The ink layers formed on both sides of the glass panel are characterized in that the front thickness of the display screen is greater than the rear thickness of the glass panel.

The ink layer formed on the rear surface of the glass panel is characterized in that the thickness is 2 ~ 30㎛.

The ink layer formed on the front surface of the glass panel is characterized in that the thickness is 2 ~ 10㎛.

The glass panel may be formed of a thin flexible glass of 100 μm or less.

According to the cover glass using the impact relief ink according to the present invention, damage to the display cover glass product can be prevented by applying the impact relief ink to the display cover glass to minimize the impact applied to the cover glass, and external impact. It is possible to minimize the scattering of pieces of the cover glass that occurs along with the damage of the cover glass for the display.

In addition, by improving the durability of various electronic device products using a cover glass for display, it is possible to extend the life of the product and provide more improved convenience to consumers.

1 is a view showing a cover glass using an impact reducing ink according to an embodiment of the present invention.
FIG. 2 is a diagram showing the structure of a curved glass using impact relief ink according to an embodiment of the present invention.

Hereinafter, an embodiment of a cover glass using the impact reducing ink according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of known functions or configurations may be omitted to clarify the gist of the present invention.

1 is a view showing a cover glass using an impact reducing ink according to an embodiment of the present invention.

Referring to FIG. 1, the cover glass 1 using the impact relief ink according to the present invention forms an ink layer 20 by coating impact relief ink on the surface of the glass panel 10, the ink layer 20 Through this, it is possible to mitigate the impact applied to the cover glass (1) and minimize glass fragments scattered when the cover glass (1) is damaged.

In this embodiment, the glass panel 10 of the cover glass 1 may be made of either a thin glass or a curved glass 30 (refer to FIG. 2) for display of an electronic device. The thin glass may include a flat glass and a flexible glass.

In addition, the ink layer 20 of the cover glass 1 is applied to one or both sides of the glass panel 10 by using an impact reducing ink in which polyester, ester solvent, and polyisocyanate are mixed. The ink layer 20 of a predetermined thickness is formed on the surface of 10).

That is, the cover glass 1 is coated with impact-reducing ink on one or both sides of the glass panel 10 to mitigate the impact upon external impact of the glass panel 10, and fragments when the cover glass 1 is damaged. You can prevent the pieces from scattering.

In addition, the ink layers 20 formed on both sides of the glass panel 10 are characterized in that the thickness t2 of the rear surface of the display screen is greater than the thickness t1 of the front surface based on the glass panel 10, It is preferable that the rear ink layer 20B of the glass panel 10 has a thickness larger than that of the front ink layer 20A.

The rear ink layer 20B formed on the rear surface of the glass panel 10 is characterized in that the thickness is 2 to 30 μm or less.

The front ink layer 20A formed on the front surface of the glass panel 10 is characterized in that the thickness is 2 to 10 μm or less.

The printing apparatus for printing the impact relief ink on the glass panel 10 may be a gravure offset printer or a pad printer.

FIG. 2 is a diagram showing the structure of a curved glass using impact relief ink according to an embodiment of the present invention.

Referring to FIG. 2, the front and rear surfaces of the curved glass 30 are coated with impact relief ink, respectively, so that a front ink layer 20A and a rear ink layer 20B may be formed. It is preferable to perform the coating operation of the impact reducing ink so that the front ink layer 20A and the rear ink layer 20B have the same thickness or the rear ink layer 20B has a thicker thickness.

The front ink layer 20A and the rear ink layer 20B are also formed on the curved portions 30a forming both ends of the curved glass 30. The ink layer 20 having a uniform thickness may also be formed on the curved portion 30a of the curved glass 30 through the impact reducing ink coated on the curved glass 30.

Therefore, it is possible to manufacture flexible glass, thin glass, curved glass, and flat glass products having the effect of reducing impact and preventing scattering by coating the ink on the glass panel 10 using the impact reducing ink.

In particular, the glass panel may be made of a thin flexible glass of 100 μm or less, and when an impact-relieving ink is coated on a thin flexible glass of 100 μm or less, the effect of reducing impact and preventing scattering may be more excellent.

In this embodiment, the following impact strength may be tested in order to confirm the impact strength and scattering prevention effect of the cover glass 1 using the impact relief ink.

First, in the ball drop test, products coated with impact-relieving ink and non-coated products are tested respectively while the cover glass is fixed. A steel ball weighing 130g is dropped on the cover glass from a designated height and tested. At this time, the ink-coated surface of the cover glass is brought to the bottom.

It starts to fall from a height of 10cm and proceeds while changing the height at 5cm intervals if it is not damaged. After the steel ball falls, it is checked whether the cover glass is broken.

Second, in the pen drop test, products coated with impact-relieving ink and non-coated products are tested respectively while the cover glass is fixed. The test is performed by dropping a pen on the cover glass from a designated height, and at this time, the ink-coated surface of the cover glass is brought to the bottom.

It starts to fall from a height of 3cm and proceeds while changing the height at 1cm intervals if it is not damaged. After the pen falls, it is checked whether the cover glass is broken.

That is, the test data through the drop test can be expressed in a table as follows.

division Test method Frequency
(Front/Back) Coating thickness
(Front/Back) Fall height Damage or not Remark Uncoated product Ball drop - - 100 cm Unbroken Pen drop - - 3 cm damage Single-sided coating Ball drop 2 4㎛ 100 cm Unbroken Pen drop 2 5㎛ 25 cm damage Has anti-scattering effect Double-sided coated product Ball drop 2/2 4㎛/4㎛ 100 cm Unbroken Pen drop 2/2 5㎛/4㎛ 40 cm Unbroken

Therefore, as a result of the pen drop test, the drop height that is damaged when a special coating is applied increases, and it can be seen that there is no more than 40 cm of the damaged height when coated on both sides.

In addition, it can be seen that the impact strength increases when applying a special coating, and when uncoated, it is damaged at a height of 3cm, when coated on one side, it is damaged at a height of 25cm, and when coated on both sides, it can be seen that it is damaged at a height of 40cm.

Therefore, it is possible to prevent damage to the product of the display cover glass 1 by applying the shock-relieving ink to the cover glass 1 for display to minimize the impact applied to the cover glass 1, and It is possible to minimize the scattering of pieces of the cover glass (1) that occur with the damage of the cover glass (1) for use.

In addition, by improving the durability of various electronic device products using the cover glass for display 1, it is possible to extend the life of the product and provide improved convenience to consumers.

Above, the present invention has been shown and described in connection with a preferred embodiment for illustrating the principle of the present invention, but the present invention is not limited to the configuration and operation as shown and described as such. Rather, it will be well understood by those skilled in the art that a number of changes and modifications to the present invention can be made without departing from the spirit and scope of the appended claims.

1: cover glass 10: glass panel
20: ink layer 20A: front ink layer
20B: back ink layer 30: curved glass
30a: curved portion
t1: front thickness
t2: back thickness

Claims (5)

A glass panel made of either thin glass or curved glass for display of electronic devices; And
Including; an ink layer forming a layer having a predetermined thickness on the surface of the glass panel by being applied to one or both sides of the glass panel using an impact reducing ink in which polyester, ester solvent, and polyisocyanate are mixed; and
The ink layers formed on both sides of the glass panel have a thickness of a rear surface of the display screen greater than that of the front surface based on the glass panel,
A cover glass using impact relief ink, characterized in that the rear ink layer of the glass panel has a thickness larger than that of the front ink layer. delete The method of claim 1,
The cover glass using impact relief ink, characterized in that the ink layer formed on the back surface of the glass panel has a thickness of 2 to 30 μm or less. The method of claim 1,
The ink layer formed on the front surface of the glass panel is a cover glass using impact reducing ink, characterized in that the thickness is 2 ~ 10㎛ or less. The method of claim 1,
The glass panel is a cover glass using impact reducing ink, characterized in that made of a thin flexible glass of less than 100㎛.

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