KR20130059742A - Anti-fog pair glass assembly - Google Patents

Abstract

PURPOSE: A pair glass assembly unit for preventing condensation is provided to completely block condensation generated between glass panels of a pair glass. CONSTITUTION: A pair glass assembly unit comprises a glass panel(10), a club(20), and a connection unit(30). A plurality of clubs are bonded between the glass panels comprised of two or more glass panels and separates the glass panels. The connection unit simultaneously connects and seals a gap between the clubs at each edge of the glass panels. Inert gas is injected into a sealed space between the glass panels. The connection unit comprises a main body formed with a gas inlet and an insertion unit. The gas inlet comprises a sealing cap(40).

Description

Condensation prevention multilayer glass assembly {ANTI-FOG PAIR GLASS ASSEMBLY}

The present invention relates to a multilayer glass assembly for preventing condensation, and more particularly, to a condensation prevention multilayer glass assembly in which argon gas is injected to prevent condensation between glass plates of multilayer glass in which at least two glass plates are laminated.

In general, multilayer glass, especially multilayer glass, is a structure in which an air layer is formed between inner and outer glass, and thus not only reduces the loss of room energy compared to single glass, but also does not react sensitively to changes in the outside temperature. Despite the decrease or increase, the surface temperature of the inner glass is not greatly reduced or increased, so dew condensation, condensation, etc. do not easily occur, and the soundproofing function is excellent to effectively block external noise and maintain a comfortable indoor environment. .

Although the multilayered glass is relatively expensive, its use is gradually increased due to the improvement of the living environment and the development of manufacturing technology due to the improvement of economic power, and the noise from large buildings as well as small shops, private houses or refrigerators, etc. Demand is gradually increasing according to the desire of consumers to escape from condensation or dew and pursue a more comfortable living environment.

However, even in such a multilayer glass, if the temperature difference between the outside and the room is severe, there is a problem that can not completely remove the condensation phenomenon of the glass surface.

Therefore, the present invention has been made to solve the above problems, an object of the present invention, by injecting argon gas to prevent condensation between the glass plate of the multilayer glass laminated at least two glass plates completely condensation phenomenon. It is about making improvements.

In order to achieve the above object, the condensation preventing multilayer glass assembly according to the present invention comprises a glass plate made of at least two or more; A plurality of liver rods bonded between the one glass plate and another neighboring glass plate to space each of the glass plates at a predetermined interval; And, at each corner portion of the glass plate includes a separate connector for sealing at the same time connecting between the liver and the other liver between the adjacent bar, inert gas is injected into the closed space provided between the one glass plate and the other glass plate Characterized in that configured to.

The connector includes a body in which a gas injection hole is formed; And an insertion part extending into both sides of the main body and inserted into a hollow formed in the liver rod.

The main body is characterized in that the thickness is the same as the liver rod to be in close contact with the glass plate to be adhesive.

The insertion portion is characterized in that a plurality of projections are formed in a direction perpendicular to the insertion direction.

The insert is characterized in that made of a rubber material.

The gas inlet is characterized in that the sealing cap is configured to be sealed in the inert gas is injected.

The sealing cap is characterized in that the cross section is reduced toward the inner side of the gas inlet port made of a cap portion inserted into the gas inlet.

The sealing cap further comprises a handle portion detachably connected to the end of the cap portion.

The hollow of the liver is characterized in that the absorbent material is configured to be received.

The entire outer surface of the liver rod is characterized in that it is configured to seal with a sealant.

The inert gas is characterized in that it consists of any one selected from argon gas, krypton gas, xenon gas.

According to the condensation prevention multilayer glass assembly according to the present invention having the configuration as described above, there is an effect that can completely block the condensation phenomenon occurring between the glass plate of the multilayer glass.

1 is a front view showing a condensation preventing multilayer glass assembly according to the present invention.
2 is a plan view showing a condensation preventing multilayer glass assembly according to the present invention.
3 is a side view showing a condensation preventing multilayer glass assembly according to the present invention.
Figure 4 is a perspective view showing a connector for connecting between the liver and the rod of the condensation prevention multilayer glass assembly according to the present invention.
5 is a perspective view showing a sealing cap according to the present invention.
Figure 6 is a cross-sectional view showing a sealing state of the sealing cap for the gas inlet in accordance with the present invention.

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

1 to 3 is a front view, a plan view and a side view showing a condensation preventing multilayer glass assembly according to the present invention, Figure 4 shows a connector connecting between the liver and the stem of the condensation preventing multilayer glass assembly according to the present invention. Perspective view.

5 is a perspective view showing a sealing cap according to the present invention, Figure 6 is a cross-sectional view showing a sealing state of the sealing cap for the gas inlet according to the present invention.

1 to 3, the glass assembly according to the present invention is provided between the glass plate 10 made up of at least two and the one glass plate 10 and the other glass plate 10 adjacent to the Each glass plate 10 is composed of a plurality of liver rods 20 spaced apart at regular intervals.

The liver rod 20 has a rectangular parallelepiped shape extending in the longitudinal direction, and a hollow 21 is formed along the longitudinal direction therein, so as to provide a space between the glass plates 10. Used as spacers, frames, etc.

As described above, the liver rod 20 is inserted between the edges of the glass plate 10 when the multilayer glass is formed by stacking at least two glass plates 10 to maintain the glass plate 10 at a predetermined interval. It is a configuration to be bonded at.

That is, the glass plate 10 and the liver rod 20 may be fixed to each other by applying an adhesive, and maintain the airtightness between the glass plate 10 and the liver rod 20.

On the other hand, as shown in Figure 1, between the one bar 20 and the other neighboring bar 20, that is, each corner portion of the glass plate 10, a separate connector 30 for sealing at the same time connecting the space therebetween ) Is provided.

As shown in FIG. 4, the connector 30 extends to both sides of the main body 31 in which the gas injection port 31a is formed, and is inserted into the hollow 21 of the liver rod 20. It consists of an insertion part (32).

The main body 31 is a part exposed to the outside between the one liver bar 20 and the other neighboring liver bar 20, the thickness of the main body 31 is the same as the thickness of the liver bar 20, the glass plate They are also in close contact with (10).

When the insertion portion 32 is inserted into the hollow 21 of the liver rod 20, a plurality of protrusions 32a are formed in the insertion portion 32 in a direction orthogonal to the insertion direction. By increasing the coefficient of friction between the inner surface and the projection (32a) of the connector 30 is not easily separated from the liver rod 20.

At this time, the material of the insert 32 is preferably made of a rubber material having elasticity so as to increase the coefficient of friction of the insert 32.

At least one gas injection hole 31a is formed among the connector 30 coupled between the liver rods 20 of each corner portion of the multilayer glass.

Injecting argon gas, krypton gas, and xenon gas, which are inert gases, through the gas injection port 31a, prevents heat exchange from occurring in the temperature difference of the multilayer glass, thereby preventing condensation.

Thus, a sealing cap 40 capable of sealing the gas injection hole 31a in a state in which an inert gas is injected into the sealed space of the hermetically sealed multilayer glass is provided.

As shown in FIGS. 5 and 6, the sealing cap 40 has a cap section 41 inserted into the gas inlet 31a and the cross section is reduced toward the inside of the gas inlet 31a.

In addition, the sealing cap 40 is further connected to the end of the cap portion 41, the handle portion 42 can be held by the user's hand so that the cap portion 41 can be easily inserted into the gas inlet (31a) further It will be included.

The handle part 42 is connected to the cap part 41 so as to be easily detachable, and is configured to be easily separated from the cap part 41 when rotated in one direction with respect to the cap part 41 (FIG. 6 (a) and 6 (b)).

On the other hand, the liver rod 20 is made of a metal material, preferably lightweight aluminum material that can withstand the load of the glass.

The aluminum material is a temperature difference between the outer surface and the hollow 21 surface of the liver bar 20 when the temperature difference between the indoor and outdoor occurs significantly, condensation may occur on the hollow 21 surface, to solve this problem In the hollow 21 of the liver rod 20, a moisture absorbent 50 such as silica gel is accommodated.

In addition, the entire outer surface of the liver rod 20 is sealed with a sealant 60 such as silicone rubber so as to further reduce the temperature difference generated between the outer surface of the liver rod 20 and the hollow 21 surface. Done.

Therefore, in the glass assembly according to the present invention, the inert gas is filled in the sealed space between the multilayered glass and the entire outer surface of the liver rod 20 is sealed with the sealant 60 to maximize condensation prevention and have a beautiful appearance. It can be maintained.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications to the embodiments are also within the scope of the claims of the present invention.

10: glass plate 20: liver bar
21: hollow 30: connector
31: main body 31a: gas inlet
32: insert 40: sealing cap
41: cap portion 42: handle portion
50: absorbent 60: sealant

Claims (11)

A glass plate composed of at least two or more;
A plurality of liver rods bonded between the one glass plate and another neighboring glass plate to space each of the glass plates at a predetermined interval; And
At each corner of the glass plate includes a separate connector for sealing at the same time connecting between the liver and the other neighboring rods,
The condensation preventing multilayer glass assembly of claim 1, wherein an inert gas is injected into the closed space provided between the glass plate and the other glass plate.
The method of claim 1,
The connector includes:
A main body having a gas injection hole formed therein; And
Condensation prevention multilayer glass assembly, characterized in that consisting of an insertion portion extending to both sides of the main body is inserted into the hollow formed in the liver rod.
The method of claim 2,
The main body is a multilayer glass assembly for preventing condensation, characterized in that the thickness is the same as the liver bar to be in close contact with the glass plate to be bonded.
The method of claim 2,
The insertion portion is a condensation preventing multilayer glass assembly, characterized in that a plurality of projections are formed in a direction perpendicular to the insertion direction.
The method according to claim 2 or 4,
Condensation prevention multilayer glass assembly, characterized in that the insertion portion made of a rubber material.
The method of claim 2,
The gas inlet is a condensation prevention multilayer glass assembly, characterized in that the sealing cap is configured to be sealed in an inert gas injected state.
The method according to claim 6,
The sealing cap is a condensation prevention multi-layer glass assembly, characterized in that the cross section is reduced toward the inside of the gas inlet and the cap is inserted into the gas inlet as a whole.
The method of claim 7, wherein
And the sealing cap further comprises a handle part detachably connected to an end of the cap part.
The method of claim 1,
The condensation prevention multilayer glass assembly, characterized in that the moisture absorbent is configured to be accommodated in the hollow of the liver rod.
10. The method of claim 1 or 9,
Condensation prevention multilayer glass assembly, characterized in that the entire outer surface of the liver bar is configured to seal with a sealant.
The method of claim 1,
The inert gas is a condensation preventing multilayer glass assembly, characterized in that consisting of any one selected from argon gas, krypton gas, xenon gas.

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