KR101429122B1 - High vacuum glass panel removed unpardonable element and method for manufacturing thereof - Google Patents

Abstract

A second glass plate disposed opposite to the first glass plate, and a cap member sealing the exhaust hole, the cap member having the same shape as the shape of the exhaust hole. Since the disclosed vacuum glass panel has the same shape as the shape of the exhaust hole, it is possible to prevent degradation of the appearance due to the cap member and to reduce damage of the vacuum glass panel due to external impact applied to the cap member have.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-vacuum glass panel,

The present invention relates to a vacuum glass panel capable of preventing damages and aesthetics from being hindered by a cap member sealing an exhaust hole.

Generally, the vacuum glass panels are fused with a frit seal between the first and second glass plates which are arranged to face each other and are spaced apart from each other by spacers to bond the first and second glass plates, and one of the first and second glass plates The air and gas inside the first and second glass plates bonded through the exhaust holes formed in the first and second glass plates are exhausted, and then the exhaust hole is capped through the cap member.

However, as described above, the vacuum glass panel adheres the cap member in a state of protruding to the outer surface of the glass plate to cap the exhaust hole formed in one of the first and second glass plates.

That is, when the cap member is exposed in a state protruding from the outer surface of the glass plate, the vacuum glass panel may be damaged through the cap member when an impact is applied to the cap member. In addition, since the vacuum glass panel is exposed to the outside as described above, the vacuum glass panel has a problem of poor appearance.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a vacuum glass panel capable of preventing the deterioration and damage of the aesthetic appearance of the vacuum glass panel by the cap member sealing the exhaust hole do.

According to another aspect of the present invention, there is provided a vacuum glass panel including a first glass plate having an exhaust hole formed therein, a second glass plate opposed to the first glass plate and coupled with the first glass plate, And a cap member having the same shape as the shape of the hole.

And the exhaust hole is formed such that the width of the upper end thereof is larger than the width of the lower end thereof.

The cap member includes a first cap member which is formed in a viscous liquid state and is injected from the exhaust hole and hardened, and a second cap member disposed on the upper side of the first cap member to protect the first cap member .

According to another aspect of the present invention, there is provided a method of manufacturing a vacuum glass panel, including: a first step of bonding a first glass plate having an exhaust hole in a vacuum chamber and a second glass plate opposed to the first glass plate; A second step of making a space between the first and second glass plates mutually coupled through the exhaust holes into a vacuum state; and a third step of injecting and curing a liquid first cap member having a viscosity into the exhaust holes .

And a fourth step of applying a second cap member to the remaining space of the exhaust hole into which the first cap member is injected so as to have the same plane as the surface of the first glass plate after the third step.

As described above, according to the vacuum glass panel of the present invention, since the cap member has the same shape as the exhaust hole, it is possible to prevent damage to the aesthetic appearance caused by the cap member protruding to one side of the glass plate and damage caused by external impact.

1 is a view showing a vacuum glass panel of the present invention.
Fig. 2 is an enlarged view of the cap member of the vacuum glass panel shown in Fig. 1. Fig.
Fig. 3 is an enlarged view of another embodiment of the cap member of the vacuum glass panel shown in Fig. 1. Fig.
4 is a view showing a manufacturing apparatus for manufacturing the vacuum glass panel of the present invention.
5 is a flow chart illustrating a method of manufacturing a vacuum glass panel according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. It is provided to fully inform the owner of the scope of the invention. Also, for convenience of description, the size of components may be exaggerated or reduced in the drawings, and like reference numerals refer to like elements throughout the specification.

1 and 2, a vacuum glass panel 10 according to an embodiment of the present invention includes first and second glass plates 11 and 13, a spacer 15, a frit sealing member 16, Member (17).

The first and second glass plates 11 and 13 are opposed to each other. At this time. In one of the first and second glass plates 11 and 13, an exhaust hole 12 for forming a vacuum between the first and second glass plates 11 and 13 is formed. In the embodiment of the present invention, The exhaust hole 12 is formed in the first glass plate 11 as well.

A plurality of spacers (15) are disposed between the first and second glass plates (11, 13). The plurality of spacers 15 have the same shape and size, and are regularly arranged with a certain distance therebetween. Accordingly, the plurality of spacers 15 serve to substantially separate the first and second glass plates 11 and 13 from each other.

The frit sealing member 16 is disposed at the edges of the first and second glass plates 11 and 13 to seal the first and second glass plates 11 and 13 spaced apart from each other by the plurality of spacers 15. The frit sealing member 16 is melted and hardened by a heating device (not shown) to seal the first and second glass plates 11 and 13.

The cap member 17 serves to seal the exhaust hole 12 used to make a space between the first and second glass plates 11 and 13 in a vacuum state. The cap member 17 has the same shape as that of the exhaust hole 12 as shown in Fig. In other words, the cap member 17 does not protrude from the surface of the first glass plate 11 when the exhaust hole 12 is formed in the first glass plate 11, and does not protrude from the surface of the first glass plate 11 .

The upper end of the cap member 17 has a greater width than the lower end to prevent the cap member 17 from being separated from the exhaust hole 12 into the space between the first and second glass plates 11 and 13. [ For example, the cap member 17 may be formed to have a step. In addition, the cap member 17 'may be formed to have an upper light-tight shape (see FIG. 3).

The cap members 17 and 17 'may include a first cap member 18 and 18' that is injected into the exhaust hole 12 in a viscous liquid state and a second cap member 18 and 18 ' And a second cap member 19, 19 'applied to one side of the cap member 19, 19'.

At this time, the first cap member 18, 18 'may be made of the same frit material as the frit sealing member 16 described above. That is, the first cap member 18, 18 'is injected into the exhaust hole 12 in a liquid state so as to be prevented from being damaged by an external impact, and then hardened.

The second cap member 19, 19 'is applied to one side of the first cap member 18, 18' which is filled in the exhaust hole 12 as described above. At this time, the direction in which the second cap members 19 and 19 'are applied is applied to the outer surfaces of the first and second glass plates 11 and 13 to buffer the first cap members 18 and 18' .

The second cap members 19 and 19 'are preferably made of a silicone material to smoothly cushion the first cap members 18 and 18' from external impacts.

Hereinafter, a method of manufacturing a vacuum glass panel according to the present invention will be described in detail.

4 and 5, the first and second glass plates 11 and 13 are first introduced into the vacuum chamber 20 to form the vacuum glass panel 10, . The vacuum glass panel 10 is vacuum bonded to the first and second glass plates 11 and 13 by a plurality of spacers 15 and a plurality of frit sealing members 16, (10).

Then, the frit sealing member 16 of the vacuum glass panel 10 assembled as described above is heated and cured to seal the first and second glass plates 11 and 13. At this time, the vacuum glass panel 10 is sealed except for the exhaust hole 12 formed in any one of the first and second glass plates 11 and 13.

In the above process, the frit sealing member 16 may be cured by using a separate cooling member, or may be left without using any cooling member (S110).

Next, after the vacuum glass panel 10 is sealed as described above, the vacuum pump 21 is operated to exhaust the air inside the vacuum chamber 20 to the outside. At this time, since the sealed vacuum glass panel 10 is also sealed except for the exhaust hole 12, the vacuum glass panel 10 is formed as a vacuum space (S120).

After the internal space of the vacuum glass panel 10 is evacuated, the first cap member 18 is injected into the exhaust hole 12 using the injector 23. At this time, the first cap member 18 is preferably a frit member made of a viscous liquid material. And the first cap member 18 may be left in a separate cooling member (not shown) as in the case of the frit sealing member 16 or may be cured

Specifically, as described above, the injection of the first cap member 18, that is, the frit member into the exhaust hole 12 is performed inside the vacuum chamber 20. In this way, in the vacuum state, Injection into the exhaust hole 12 may not be easy.

To this end, a visual field is secured in the vacuum chamber 20 through a camera member (not shown), and a frit member is accurately attached to the exhaust hole 12 by a separate moving device (not shown) for automatically positioning the injector 23 (S130).

Next, the second cap member 19 is applied to the remaining space of the exhaust hole 12. The second cap member 19 is made of a silicon material for buffering the first cap member 18 from an external impact.

Even if the second cap member 19 is applied to one side of the first cap member 18 as described above, the second cap member 19 does not protrude from the surface of the first glass plate 11 do. In other words, the cap member 17 including the first and second cap members 18 and 19 has a flat surface with the surface of the first glass plate 11 (S140).

Therefore, the vacuum glass panel of the present invention can prevent a decrease in the appearance of the vacuum glass panel due to the cap member having the same shape as that of the exhaust hole, and also, by the external impact applied to the cap member, Can be reduced.

In addition, since the vacuum glass panel of the present invention includes the first cap member of the frit material and the second cap member of the silicon material, it is possible to further reduce the damage of the vacuum glass panel due to an external impact applied to the cap member .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention. . Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: vacuum glass panel 11: first glass plate
12: exhaust hole 13: second glass plate
15: spacer 16: frit sealing member
17, 17 ': cap member 18, 18': first cap member
19, 19 ': second cap member 20: vacuum chamber
21: Vacuum pump 23: Injector

Claims (5)

A first glass plate on which an exhaust hole is formed,
A second glass plate coupled to the first glass plate so as to face the first glass plate,
And a cap member sealing the exhaust hole,
Wherein the cap member comprises:
A first cap member made of a liquid having a viscosity and cured after being injected from the exhaust hole;
And a second cap member disposed on the first cap member to protect the first cap member and having a flat surface with the first glass plate without protruding from the surface of the first glass plate. Vacuum glass panel. The method according to claim 1,
Wherein a width of the upper end of the exhaust hole is larger than a width of the lower end of the exhaust hole. 3. The method according to claim 1 or 2,
Wherein the cap member has the same shape as the exhaust hole. A first step of bonding a first glass plate having an exhaust hole in a vacuum chamber and a second glass plate opposed to the first glass plate,
A second step of making a space between the first and second glass plates mutually coupled through the exhaust hole into a vacuum state,
A third step of injecting a first cap member in a liquid state having viscosity into the exhaust hole and curing the injected first cap member,
And a fourth step of applying a second cap member to the remaining space of the exhaust hole into which the first cap member is injected so as to have the same surface as the surface of the first glass plate to protect the first cap member. Of the vacuum glass panel. delete

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