KR20230029184A - High-insulation triple-layer glass assembly with a synthetic resin intermediate layer - Google Patents

Abstract

The present invention relates to a high-insulation triple-layer glass assembly having a synthetic resin intermediate layer. More particularly, the present invention relates to a high-insulation triple-layer glass assembly having a synthetic resin intermediate layer which secures high thermal insulation properties by using a synthetic resin layer with low thermal conductivity to implement a triple-layer glass composed of three layers, and, in case of glass breakage, is improved to achieve long lifespan by minimizing oxidation of the synthetic resin through air contact and UV blocking while preventing safety accidents by preventing additional damage to the synthetic resin.

Description

High-insulation triple-layer glass assembly with a synthetic resin intermediate layer}

The present invention relates to a high-insulation tri-layer glass assembly having a synthetic resin intermediate layer, and more particularly, by using a synthetic resin layer with low thermal conductivity to implement a tri-layer glass composed of three layers to secure high thermal insulation, and in case of glass breakage It relates to a high-insulation triple-glazed glass assembly having an improved synthetic resin intermediate layer to achieve long lifespan by minimizing oxidation of the synthetic resin through air contact and UV blocking while preventing safety accidents by preventing additional damage of the synthetic resin.

In general, a window is a generic term for a window and a door, and a window is mainly used for lighting and ventilation, and a door is used for the purpose of entering and exiting people or objects.

Since these windows and doors perform the function of a wall dividing the outside and the inside, it is natural that airtightness, heat insulation, watertightness, sound insulation, wind pressure resistance, etc. should be high.

Such windows have been developed in various forms, such as a sliding type, a casement type, a tilt type, a so-called system window, and a complex type.

As shown in FIG. 1, the lower end of the glass is inserted into the glass installation groove 22 formed in the window 20 and then finished with a glass fixing frame (GB: Glazing Bead) 10 to firmly secure the glass in such a window. It is made in a fixed form.

However, since such a single window has poor thermal insulation performance, recently, two or three sheets of glass are arranged at regular intervals to make a double- or three-layered glass, and a double-layered window or a three-layered window glass has been disclosed.

Nevertheless, due to the thermal conductivity of the glass itself, there is a limit to increasing the insulation performance no matter how overlapped it is, resulting in a problem that only increases the cost.

In particular, in the case of three-double-floor windows, since a lot of glass is used, it is heavy and heavy, so there is a lot of inconvenience in construction, and there is also a disadvantage that the scale of damage increases when damage is caused by external force or heat (heat break).

As an improvement measure, using transparent synthetic resin (e.g. plastic) is very efficient and effective as it can be lightweight, has no risk of breakage, and can improve insulation performance. And cracking occurs due to oxidation by ultraviolet rays, and there is a limit in that it is difficult to expect long life due to the disadvantage of being easily damaged.

Domestic Patent Publication No. 20-2012-0005381 (July 25, 2012), Double-glazed glass assembly Domestic Patent Publication No. 20-2012-0005380 (July 25, 2012), Double-glazed glass assembly

The present invention was created to solve these problems in view of the various problems in the prior art as described above, and by using a synthetic resin layer with low thermal conductivity, three-layered glass is implemented to secure high thermal insulation and glass breakage. Its main purpose is to provide a high-insulation triple-glazed glass assembly having an improved synthetic resin intermediate layer to achieve long lifespan by minimizing oxidation of the synthetic resin through air contact and UV blocking while preventing safety accidents by preventing additional breakage of the synthetic resin during the test. there is

The present invention is a means for achieving the above object, a three-layered glass assembly installed on a window, a high-insulation three-layered glass assembly having a synthetic resin intermediate layer, characterized in that a synthetic resin plate is interposed at a distance between two glasses to provide.

At this time, the synthetic resin plate may be made of transparent polycarbonate resin or PET resin.

In addition, through holes for convection may be formed in the synthetic resin plate.

In addition, at least one spacer grounded to each of the two glasses may be further installed on the synthetic resin plate.

In addition, an inert gas containing Ar or Kr may be filled in the space between the synthetic resin plate and each glass.

In addition, the space between the synthetic resin plate and each glass may be treated with a vacuum.

According to the present invention, by using a synthetic resin layer with low thermal conductivity, three-layered glass is implemented to secure high thermal insulation, and when the glass is broken, the synthetic resin can prevent additional damage, preventing safety accidents while preventing air contact and ultraviolet rays. By minimizing the oxidation of the synthetic resin through blocking, an improved effect can be obtained to achieve long life.

1 is an exemplary partial perspective view showing an assembled state of a window and a glass fixing frame showing a glass installation structure of a window or door according to the prior art.
Figure 2 is an exemplary cross-sectional view showing the basic structure of the three-layered glass assembly according to the present invention.
FIG. 3 is an enlarged view of a main part of FIG. 2 .
4 and 5 are exemplary cross-sectional views showing modified examples of FIG. 2 .

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

Prior to the description of the present invention, the following specific structural or functional descriptions are only exemplified for the purpose of explaining embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as limited to the embodiments described herein.

The high-insulation triple-layer glass assembly having a synthetic resin intermediate layer according to the present invention has a basic structure as shown in FIG.

According to FIG. 2 , the three-double glazing assembly according to the present invention includes a window frame 100 .

At this time, the window frame 100 constitutes a rectangular frame body as a profile, and a window panel commonly called a window is formed by fixing the glass 200. Here, the glass 200 is composed of a first glass 210 (see FIG. 3) and a second glass 220 (see FIG. 3).

Also, a glass installation groove 110 as shown in the example of FIG. 3 is formed on the inner surface of the window frame 100 .

In addition, the glass support 120 is seated in the glass installation groove 110, which is a means for protecting the end of the glass 200 from being damaged while buffering it.

In addition, the caulking agent 300 is applied to the glass installation groove 110, and the first glass 210 - the first inter-bar 310 - the synthetic resin plate 230 - the second inter-bar ( 312)-The second glass 220 is sequentially placed and set, and in that state, the glass fixing frame 130, that is, GB (Glazing Bead) is fitted and fixed to the window frame 100, and then the first and second glasses ( 210 and 220), the first and second glasses 210 and 220 are finally fixed by applying the sealing material 320 along the upper end of the glass fixing frame 130, which is one upper end and the other upper end of the window frame 100 in contact with each other.

Here, the caulking agent 300 is a kind of soft sealing fixing material, and polysulfide sealing compounds are used in the present invention.

Polysulfide sealing materials are excellent in oil resistance, solvent resistance, water resistance, and acid resistance, and are excellent in hardening and fixation, and are particularly effective in attaching and fixing glass to a frame.

The caulking agent 300 is deformed by the load when the first and second glasses 210 and 220, the first and second interrodes 310 and 312, and the synthetic resin plate 230 are seated, and then hardened and fixed in the shape shown in FIG. form is maintained.

And, the first and second inter-bars 310 and 312 are means for adjusting the distance between the first glass 210 - the synthetic resin plate 230 - the second glass 220 .

In addition, the synthetic resin plate 230 may be a transparent synthetic resin, preferably polycarbonate resin, PMMA, PET, etc., so as not to damage the right of view.

Of course, if necessary, opaque resin can be used to give the same effect as translucent glass (mist glass, satin glass).

These resins have a thermal conductivity lower than 1/5 of that of glass, and can increase thermal insulation properties. That is, it is interposed between the first and second glasses 210 and 220 to block heat transfer, thereby improving insulation performance.

Meanwhile, in the present invention, as shown in FIG. 4 , through holes 232 and 234 may be further formed at the upper and lower ends of the synthetic resin plate 230 , respectively.

The through holes 232 and 234 convect the air distributed in the space between the first glass 210 and the synthetic resin plate 230 and in the space between the synthetic resin plate 230 and the second glass 220 to each other so that a temperature difference occurs. It is also possible to further enhance the insulation properties while suppressing the occurrence of dew condensation.

In addition, as shown in FIG. 5, at least one spacer 330 grounded to the first and second glasses 210 and 220 is installed by vertically connecting the synthetic resin plates 230 so that the synthetic resin plates 230 are stably spaced apart. It can also be configured to hold.

To this end, a plurality of spacer through-holes H may be formed in the synthetic resin plate 230 .

In particular, since the first and second glasses 210 and 220 use glass having a UV blocking function, oxidation of the synthetic resin plate 230 can be further suppressed.

In addition, an inert gas such as Ar or Kr is filled in the space between the first glass 210 and the synthetic resin plate 230 and the space between the synthetic resin plate 230 and the second glass 220, or a vacuum is formed. By doing so, the insulation performance can be further increased and oxidation of the synthetic resin by oxygen can be prevented.

In order to confirm the thermal insulation performance of the three-layer glass according to the present invention, the thermal insulation property, that is, the thermal transmittance rate, was tested 10 times according to the KS L 2525 standard, and the average was calculated.

At this time, the general thermal transmittance specification of the triple layer glass is 0.9-1.1W/m2k.

As a result of the test, the average thermal transmittance of the three-layer glass according to the present invention was 0.6-0.7 W/m2k.

This markedly exceeded the specification, confirming that it provided very good insulation properties.

100: window frame
200: glass
300: caulking agent

Claims (6)

As a three-layered glass assembly installed on a window,
High insulation three-layer glass assembly having a synthetic resin intermediate layer, characterized in that the synthetic resin plate is interposed with a gap between the two glasses. As a three-layered glass assembly installed on a window,
A high-insulation three-layer glass assembly having a synthetic resin intermediate layer, characterized in that a synthetic resin plate made of transparent, opaque or translucent polycarbonate resin or PET or PMMA is interposed at intervals between the two glasses. According to claim 1,
High insulation three-layer glass assembly having a synthetic resin intermediate layer, characterized in that the synthetic resin plate is formed with a through hole for convection. According to claim 1,
The synthetic resin plate has a high insulation three-layer glass assembly having a synthetic resin intermediate layer, characterized in that at least one or more spacers each grounded to the two glasses are further installed. According to claim 1,
The high insulation three-layer glass assembly having a synthetic resin intermediate layer, characterized in that the space between the synthetic resin plate and each glass is filled with an inert gas containing Ar or Kr. According to claim 1,
The space between the synthetic resin plate and each glass is a high-insulation three-layer glass assembly having a synthetic resin intermediate layer, characterized in that the vacuum treatment.

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