KR20220053137A - Ultra-thin type glass and protect glass and this manufacturing method - Google Patents

Abstract

The present invention relates to ultrathin glass and protective glass, and a manufacturing method thereof, wherein a protective layer is provided on base cover glass so as to improve the durability of ultrathin glass, whereby the ultrathin glass can be prevented from being damaged. To this end, the ultrathin glass and protective glass comprises: base cover glass comprising first ultrathin glass and TPU films having a thickness of 10-80 ㎛ and attached to upper and lower surfaces of the first ultrathin glass, respectively; a silicon layer applied to an upper surface of the base cover glass; a TPU layer applied to an upper surface of the silicon layer; an optical film attached to an upper surface of the TPU layer with a folding space left in the center portion; and second ultrathin glass provided on an upper surface of the optical film with a folding space left in the center portion to coincide with the optical film.

Description

Ultra-thin glass and protective glass manufacturing method {ULTRA-THIN TYPE GLASS AND PROTECT GLASS AND THIS MANUFACTURING METHOD}

The present invention relates to an ultra-thin glass and a method for manufacturing the same.

Recently, various technologies related to a flexible body that can be applied to smart phones, tablet PCs, and other portable electronic devices have been developed. Such a flexible body is expected to be applied not only to portable electronic devices, but also to various other products such as automobiles and home appliances.

In configuring such a flexible body, a glass cover glass that can protect the body or be used as an interface with a user is also required to be made flexible.

Accordingly, by making the cover glass thin and easily foldable, the cover glass can be configured flexibly.

On the other hand, when a glass cover glass is manufactured to be ultra-thin, since the thickness of the cover glass is very thin, damage or deformation occurs in the manufacturing process, resulting in product defects in many cases.

In addition, when the process of manufacturing the ultra-thin cover glass is carried out, it must be handled with care to prevent damage or the like due to the ultra-thin structure.

In addition, in the case of the conventional ultra-thin cover glass, since a means for protecting the ultra-thin cover glass is insufficient, it is easily damaged by an external impact, and thus there is a problem in that the replacement cost of the ultra-thin cover glass increases.

Republic of Korea Patent Publication No. 10-2022450 (Title of the invention: Glass manufacturing method for manufacturing thin cover glass, 2019. 09. 18. Announcement) Republic of Korea Patent Publication No. 10-1304103 (Title of the invention: Ultra-thin glass plate manufacturing method, published on April 25, 2013)

The present invention has been devised in view of the above points, and provides an ultra-thin glass and a method for manufacturing the same, wherein a protective layer is provided on the base cover glass to improve durability of the ultra-thin glass to protect the ultra-thin glass from breakage but it has a purpose.

According to a preferred embodiment for achieving the object of the present invention described above, the ultra-thin glass (UTG) and the protective glass according to the present invention is a TPU film (TPU) having a thickness of 10-80 μm on the upper and lower surfaces of the first ultra-thin glass Film) is attached to each of the base cover glass (Base Cover glass), the silicone layer applied to the upper surface of the base cover glass (Silicon), the TPU layer applied to the upper surface of the silicon layer, and folded in the center from the upper surface of the TPU layer It includes an optical film (PSA or OCA) respectively attached with a space, and a second ultra-thin glass each provided with a folding space in the center so as to coincide with the optical film on the upper surface of the optical film.

The silicon layer may have a thickness of 5-50 μm, the TPU layer may have a thickness of 10-80 μm, and the optical film may have a thickness of 20-100 μm.

A protective TPU film having a thickness of 10-80 μm may be attached to the upper surface of the second ultra-thin glass.

In addition, the ultra-thin glass and the protective glass according to the present invention are a base cover glass to which a TPU film having a thickness of 10-80 μm is respectively attached to the upper and lower surfaces of the first ultra-thin glass, and a silicon layer applied to the upper surface of the base cover glass. , a TPU layer applied to the upper surface of the silicone layer, an optical film each attached with a folding space in the center on the upper surface of the TPU layer, a first bridge each provided with a folding space in the center on the upper surface of the optical film (Bridge) ), and a second ultra-thin glass each provided with a folding space in the center so as to coincide with the first bridge on the upper surface of the first bridge.

The silicon layer has a thickness of 5-50 μm, the TPU layer has a thickness of 10-80 μm, the optical film has a thickness of 20-100 μm, and the first bridge has a thickness of 1-10 μm. can have

On the upper surface of the second ultra-thin glass, second bridges each having a thickness of 1-10 μm with a folding space in the center may be provided.

In addition, the method for manufacturing ultra-thin glass and protective glass according to the present invention includes the ultra-thin glass, and attaching TPU films to the upper and lower surfaces of the first ultra-thin glass, respectively, to produce a basic cover glass. A silicone layer is applied to the upper surface of the cover glass, a TPU layer is applied to the upper surface of the silicone layer, and an optical film is attached to each with a folding space in the center on the upper surface of the TPU layer, and the optical film from the upper surface of the optical film A protective ultra-thin glass (Protect UTG) forming step in which a second ultra-thin glass is respectively provided with a folding space in the central portion to match the film, and a protective TPU film is attached to the upper surface of the second ultra-thin glass or from the upper surface of the optical film to the central portion and a step of reinforcing ultra-thin glass in which each of the first bridges is provided with a folding space.

In the step of reinforcing the ultra-thin glass, each of the second bridges may be provided with a folding space in the center of the upper surface of the second ultra-thin glass.

According to the method for manufacturing ultra-thin glass and protective glass according to the present invention, a protective layer and another ultra-thin cover glass are provided on the base cover glass to improve durability of the ultra-thin glass, thereby protecting the ultra-thin glass from breakage, and By minimizing breakage, it is possible to prevent the cost increase due to replacement of ultra-thin glass in advance.

In addition, it is possible to effectively suppress breakage, deformation, product defects, etc. of the ultra-thin glass, and at the same time increase the working speed, thereby significantly reducing the time, cost, and effort required for manufacturing the ultra-thin glass.

1 is a view showing a first embodiment of the ultra-thin glass according to an embodiment of the present invention.
2 is a view showing a second embodiment of the ultra-thin glass according to an embodiment of the present invention.
3 is a view showing a third embodiment of the ultra-thin glass according to an embodiment of the present invention.
4 is a view showing a fourth embodiment of the ultra-thin glass according to an embodiment of the present invention.
5 is a diagram illustrating a state in which the ultra-thin glass according to an embodiment of the present invention is applied to a foldable mobile phone.
6 is a diagram illustrating a manufacturing process of ultra-thin glass according to an embodiment of the present invention.

Hereinafter, an embodiment of the ultra-thin glass and protective glass manufacturing method 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 in order to clarify the gist of the present invention.

1 is a view showing a first embodiment of the ultra-thin glass according to an embodiment of the present invention. 2 is a view showing a second embodiment of the ultra-thin glass according to an embodiment of the present invention.

1 and 2, the ultra-thin glass 1 according to the present invention includes a base cover glass 10, a silicon layer 20, a TPU layer 30, an optical film 40, and a second ultra-thin glass ( 50), a plurality of protective layers 100 are formed on the base cover glass 10, and a second ultra-thin glass 50 is added on the protective layer 100 to improve durability. ) can be configured.

In this embodiment, the base cover glass 10 of the ultra-thin glass 1 is a TPU film 12 having a thickness of 10-80 μm attached to the upper and lower surfaces of the first ultra-thin glass 11, respectively, The first ultra-thin glass 11 can be reinforced by coating the upper and lower surfaces of the first ultra-thin glass 11 with the TPU film 12 .

The TPU layer 30 and the TPU film 12 may be used as PET or EPU urethane-based films. The optical film 40 is made of PSA or OCA.

In addition, the silicone layer 20 is applied to the upper surface of the base cover glass 10 , the TPU layer 30 is applied to the upper surface of the silicone layer 20 , and the optical film 40 is the TPU layer 30 . ) to be attached to each other with a folding space in the center of the upper surface, and the base cover glass 10 can be reinforced through lamination of the silicone layer 20, the TPU layer 30, and the optical film 40. there is.

The second ultra-thin glass 50 is provided on the upper surface of the optical film 40 with a folding space in the center so as to coincide with the optical film 40, and by adhering the second ultra-thin glass 50, the first 1 It is double installed together with the ultra-thin glass 11 to reinforce the durability of the ultra-thin glass (1).

That is, the ultra-thin glass 1 is formed by laminating a silicon layer 20, a TPU layer 30, and an optical film 40 on the base cover glass 10 to reinforce the base cover glass 10, and then a protective layer ( 100) By attaching the second ultra-thin glass 50 to the upper portion, the ultra-thin glass 1 with improved durability can be manufactured.

In this embodiment, the silicon layer 20 of the ultra-thin glass 1 has a thickness of 5-50 μm, the TPU layer 30 has a thickness of 10-80 μm, and the optical film 40 is It may have a thickness of 20-100 μm.

As another embodiment, a protective TPU film 51 having a thickness of 10-80 μm may be attached to the upper surface of the second ultra-thin glass 50 of the ultra-thin glass 1 . Through this, by protecting the second ultra-thin glass 50 with the TPU film 51 for protection, it is possible to minimize scratches or damage of the ultra-thin glass 1 due to external impact.

3 is a view showing a third embodiment of the ultra-thin glass according to an embodiment of the present invention. 4 is a view showing a fourth embodiment of the ultra-thin glass according to an embodiment of the present invention.

3 and 4 , the ultra-thin glass 1A according to the present invention includes a base cover glass 10 , a silicon layer 20 , a TPU layer 30 , an optical film 40 , and a first bridge 52 . and a second ultra-thin glass 50 , a plurality of protective layers 200 are formed on the base cover glass 10 , and a second ultra-thin glass 50 is attached on the protective layer 100 . The ultra-thin glass 1A with improved durability can be configured.

In this embodiment, the base cover glass 10 of the ultra-thin glass 1A has a TPU film 12 having a thickness of 10-80 μm attached to the upper and lower surfaces of the first ultra-thin glass 11, respectively, and the The silicone layer 20 is applied on the upper surface of the base cover glass 10 , the TPU layer 30 is applied on the upper surface of the silicone layer 20 , and the optical film 40 is the upper surface of the TPU layer 30 . Each is attached with a folding space in the center, and the first bridge 52 may be provided with a folding space in the center on the upper surface of the optical film 40 .

The ultra-thin glass 1A may reinforce the base cover glass 10 through lamination of the silicon layer 20 , the TPU layer 30 , the optical film 40 , and the first bridge 52 . .

In addition, the ultra-thin glass 1A may include second ultra-thin glasses 50 each provided with a folded space in the center so as to coincide with the first bridge 52 on the upper surface of the first bridge 52 .

That is, the ultra-thin glass 1A is formed by laminating a silicon layer 20 , a TPU layer 30 , an optical film 40 , and a first bridge 52 on the base cover glass 10 to form the base cover glass 10 . After reinforcement, the ultra-thin glass 1A with improved durability may be manufactured by attaching the second ultra-thin glass 50 to the upper portion of the protective layer 200 .

In this embodiment, the silicon layer 20 of the ultra-thin glass 1A has a thickness of 5-50 μm, the TPU layer 30 has a thickness of 10-80 μm, and the optical film 40 is It may have a thickness of 20-100 μm, and the first bridge 52 may have a thickness of 1-10 μm.

As another embodiment, second bridges 53 having a thickness of 1-10 μm with a folding space in the center on the upper surface of the second ultra-thin glass 50 of the ultra-thin glass 1A may be provided, respectively. Through this, by protecting the second ultra-thin glass 50 with the second bridge 53 , scratches or damage to the ultra-thin glass 1A due to external impact can be minimized.

5 is a diagram illustrating a state in which the ultra-thin glass according to an embodiment of the present invention is applied to a foldable mobile phone.

Referring to FIG. 5 , the ultra-thin glass 1 is applied to the foldable mobile phone 2 in a state where durability is reinforced through the protective layer 100, and the base cover glass 10 of the ultra-thin glass 1 is A silicon layer 20 is attached thereon, a TPU layer 30 is attached on the silicon layer 20, and an optical film 40 is attached on the TPU layer 30 to protect the protective layer 100. will achieve

In addition, a second ultra-thin glass 50 is installed on the optical film 40 and a protective TPU film 51 is attached to the upper portion of the second ultra-thin glass 50 to protect the second ultra-thin glass 50 . can do. Accordingly, by protecting the second ultra-thin glass 50 with the TPU film 51 for protection, it is possible to minimize scratches or damage of the ultra-thin glass 1 due to external impact.

6 is a diagram illustrating a manufacturing process of ultra-thin glass according to an embodiment of the present invention.

Referring to FIG. 6 , the method for manufacturing ultra-thin glass according to the present invention includes the ultra-thin glass 1 and 1A, and includes a basic cover glass forming step (S1), a protective ultra-thin glass forming step (S2), and additional reinforcement of ultra-thin glass Step S3 is included.

The basic cover glass forming step (S1) is a process of manufacturing the basic cover glass 10 by attaching the TPU film 12 to the upper and lower surfaces of the first ultra-thin glass 11, respectively.

In the protective ultra-thin glass (Protect UTG) forming step (S2), a silicon layer 20 is applied on the upper surface of the base cover glass 10, and a TPU layer 30 is applied on the upper surface of the silicon layer 20, On the upper surface of the TPU layer 30, each optical film 40 is attached with a folding space in the center, and a folding space is placed in the center to match the optical film 40 on the upper surface of the optical film 40. 2 This is a process of providing each of the ultra-thin glass 50.

In the ultra-thin glass additional reinforcing step (S3), a protective TPU film 51 is attached to the upper surface of the second ultra-thin glass 50, or a first bridge 52 is formed with a folding space in the center of the upper surface of the optical film 40 It is a process that makes each one available.

In addition, in the step of reinforcing the ultra-thin glass ( S3 ), second bridges 53 may be provided with a folding space in the center of the upper surface of the second ultra-thin glass 50 . Through this, by protecting the second ultra-thin glass 50 with the second bridge 53 , scratches or damage to the ultra-thin glass 1 and 1A caused by an external impact can be minimized.

Therefore, the ultra-thin glass 1, 1A manufactured as described above is provided with the protective layers 100 and 200 and another ultra-thin cover glass on the base cover glass 10 to improve the durability of the ultra-thin glass 1, 1A. (1, 1A) can be protected from breakage, and by minimizing the breakage of the ultra-thin glass (1, 1A), it is possible to prevent an increase in cost due to replacement of the ultra-thin glass (1, 1A) in advance.

In addition, it is possible to effectively suppress the breakage, deformation, product defect, etc. of the ultra-thin glass (1, 1A), and at the same time increase the working speed, significantly reducing the time, cost, effort, etc. required for manufacturing the ultra-thin glass (1, 1A) can

In the foregoing, the present invention has been shown and described in connection with preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the construction and operation as shown and described as such. Rather, it will be apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims.

1, 1A: Ultra-thin glass 2: Clamshell phone
10: base cover glass 11: first ultra-thin glass
12: TPU film 20: silicone layer
30: TPU layer 40: optical film
50: second ultra-thin glass 51: TPU film for protection
52: first bridge 53: second bridge
100, 200: protective layer

Claims (8)

a base cover glass to which a TPU film having a thickness of 10-80 μm is respectively attached to the upper and lower surfaces of the first ultra-thin glass;
a silicon layer applied to the upper surface of the base cover glass;
a TPU layer applied to the upper surface of the silicon layer;
Optical films attached to each other with a folding space in the center of the upper surface of the TPU layer; and
Ultra-thin glass and protective glass comprising a; second ultra-thin glass each provided with a folding space in the center to coincide with the optical film on the upper surface of the optical film. The method of claim 1,
The silicon layer has a thickness of 5-50 μm, the TPU layer has a thickness of 10-80 μm, and the optical film has a thickness of 20-100 μm Ultra-thin glass and protective glass. The method of claim 1,
Ultra-thin glass and protective glass, characterized in that a protective TPU film having a thickness of 10-80 μm is attached to the upper surface of the second ultra-thin glass. a base cover glass to which a TPU film having a thickness of 10-80 μm is respectively attached to the upper and lower surfaces of the first ultra-thin glass;
a silicon layer applied to the upper surface of the base cover glass;
a TPU layer applied to the upper surface of the silicon layer;
Optical films attached to each other with a folding space in the center of the upper surface of the TPU layer;
a first bridge each provided with a folding space in the center of the upper surface of the optical film; and
Ultra-thin glass and protective glass comprising a; second ultra-thin glass each provided with a folding space in the center so as to coincide with the first bridge on the upper surface of the first bridge. 5. The method of claim 4,
The silicon layer has a thickness of 5-50 μm, the TPU layer has a thickness of 10-80 μm, the optical film has a thickness of 20-100 μm, and the first bridge has a thickness of 1-10 μm. Ultra-thin glass and protective glass, characterized in that having a. 5. The method of claim 4,
Ultra-thin glass and protective glass, characterized in that the second bridge having a thickness of 1-10㎛ with a folding space in the center of the upper surface of the second ultra-thin glass is provided, respectively. The ultra-thin glass and protective glass of claim 1 or 4,
A base cover glass forming step of manufacturing a base cover glass by attaching a TPU film to the upper and lower surfaces of the first ultra-thin glass, respectively;
A silicone layer is applied to the upper surface of the base cover glass, a TPU layer is applied to the upper surface of the silicone layer, and an optical film is attached to each with a folding space in the center from the upper surface of the TPU layer, and from the upper surface of the optical film forming a protective ultra-thin glass in which a second ultra-thin glass is provided with a folded space in the center to match the optical film; and
Ultra-thin glass and protective glass manufacturing method comprising; an ultra-thin glass additional reinforcing step in which a protective TPU film is attached to the second ultra-thin glass upper surface or a first bridge is provided with a folding space in the center of the upper surface of the optical film. 8. The method of claim 7,
The ultra-thin glass and protective glass manufacturing method, characterized in that in the step of reinforcing the ultra-thin glass, each of the second bridges is provided with a folding space in the center of the upper surface of the second ultra-thin glass.

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