KR101214284B1 - Improved heat insulation of the glass structure windows - Google Patents

Abstract

PURPOSE: A glass structure of a window with improved heat insulation is provided to effectively control heat insulation by selectively and easily adding an additional insulation film to an acryl glass. CONSTITUTION: A glass structure of a window with improved heat insulation comprises first, second, and third cutoff layers(100,110,120), supports(210), air layers(200), and joints(220). The first and third cutoff layers are composed of a normal glass or low-E glass material. The second cutoff layer is located between the first and third cutoff layer and is composed of an acryl glass material. The supports are composed of an aluminum material and maintain the gaps between the first and second cutoff layers and between the second and third cutoff layers. The air layers are formed between the first and second cutoff layers and between the second and third cutoff layers. The joints seal the outer sides of the supports to prevent air leakage.

Description

Improved heat insulation of the glass structure windows

The present invention relates to a window glass structure with improved heat insulation, and more particularly to a window structure that can effectively improve the heat shielding efficiency by improving the structure of the glass used in the window structure.

In general, the windows of houses and offices are provided with windows to observe the outside and to ventilate the air in the building. In particular, many windows are formed in classrooms used by students.

In particular, the insulation windows are developed for the purpose of insulation and sound insulation, and are widely used in residential apartments, houses, or offices, and are usually coupled to a window frame fixed to a part of the wall and fixed to the window frame, and the window moves in a predetermined range. It consists of a framework. Window frames of general insulation windows are made of aluminum or PVC, and the inside of the window frame is formed of an air layer having a low thermal conductivity, thereby increasing insulation efficiency and forming a thermal cross-linking material for insulation on the window frame or window frame.

In recent years, in order to improve the thermal insulation, a double-layered insulation window is being developed.

Windows are installed in the building for the purpose of ventilation and light, and the design of the current building is using the curtain wall structure or the wide window for the beautiful aesthetics of the building and the exterior wall structure that can easily secure the wide view. In general, energy loss occurs due to low heat insulation efficiency, which is a disadvantage of curtain walls and wide glass windows. The windows and doors are largely composed of a window frame constituting the rim assembly and glass assembled to the window frame. 1 and 2 are sectional views of the window glass structure of the multilayer structure according to the prior art. Looking at this, it has a double structure or a triple structure, is provided with a glass of the same material, is formed to improve the heat insulation efficiency by forming an air layer between each glass.

However, in such a conventional glass structure, since the multilayer structure of the same material is designed using only the common glass which is the same material, the multilayer structure has a problem of poor thermal insulation according to the same thermal conductivity characteristics. In addition, to solve the problem of heat insulation by varying the thickness of the glass, if the thickness is thick, there is a problem in the light weight, manufacturing cost is very high, there is a problem in the construction problem when the light weight problem.

The present invention for solving the above problems has a glass structure configured in the window to improve the thermal insulation, but having a multi-layer structure, by applying a different material can greatly simplify the structure, improve the window structure The purpose is to provide.

In addition, the object of the present invention is to provide a glass structure capable of achieving light weight while improving insulation and providing ease of transportation and realizing manufacturing cost reduction.

In addition, it is an object of the present invention to provide a window glass structure that can be efficiently disposed in dissimilar materials to solve the durability problem.

The present invention for achieving the above object is a glass structure of the window assembly comprising a window frame and glass, wherein the glass structure is composed of two or more barrier layers, any one or two layers of the remaining barrier layer and heterogeneous material And a support layer configured along an edge to support each layer in order to maintain a space of the air layer, and a joint portion sealing the outside of the support portion. Characterized in that the configuration.

In addition, the barrier layer is composed of a triple structure comprising a first barrier layer, a second barrier layer, a third barrier layer, the second barrier layer is composed of a double acrylic glass and the middle of the double acrylic glass It is characterized in that the insulation film is inserted or composed only of acrylic glass.

In addition, the blocking layer has a triple structure including a first blocking layer, a second blocking layer, and a third blocking layer, wherein the first blocking layer and the third blocking layer are formed on the inner side of the second blocking layer. As a general layer, insulated film, acrylic glass, characterized in that formed in multiple layers.

In addition, the second barrier layer is composed of acrylic glass or double acrylic glass, characterized in that the heat insulation film is inserted into the middle of the double acrylic glass.

The blocking layer may have a quadruple structure including a first blocking layer, a second blocking layer, a third blocking layer, and a fourth blocking layer, and the second blocking layer and the third blocking layer have an air layer in the middle. Spaced apart, composed of acrylic glass, characterized in that the heat insulating film is configured to face the.

In addition, the barrier layer has a double structure consisting of a first barrier layer and a second barrier layer, the outdoor side is composed of ordinary glass or Roy glass, the interior side is composed of heterogeneous acrylic glass.

In addition, the barrier layer has a double structure consisting of the first barrier layer and the second barrier layer, each barrier layer is characterized in that composed of acrylic glass, heat insulation film, general glass from the inner side in contact with the air layer.

In addition, the barrier layer has a double structure consisting of a first barrier layer and a second barrier layer, wherein the first barrier layer and the second barrier layer are each composed of ordinary glass, acrylic glass and ordinary glass. It is done.

In addition, the barrier layer is composed of a triple structure including a first barrier layer, a second barrier layer, a third barrier layer, each barrier layer is composed of a common glass, heat insulation film, acrylic glass, the first barrier The exposed surface of the layer and the third barrier layer is characterized by consisting of ordinary glass.

In addition, the barrier layer is composed of a triple structure including a first barrier layer, a second barrier layer, and a third barrier layer, wherein the first barrier layer and the third barrier layer are made of ordinary glass, heat insulation film, and acrylic glass. The second barrier layer is characterized in that composed of acrylic glass, normal glass, acrylic glass.

The blocking layer may have a quadruple structure including a first blocking layer, a second blocking layer, a third blocking layer, and a fourth blocking layer, wherein the second blocking layer and the third blocking layer are made of acrylic glass, It is characterized by consisting of glass and acrylic glass.

In addition, the support portion is characterized in that it comprises being provided with an aluminum material.

In addition, the first blocking layer and the third blocking layer is characterized in that it is provided with ordinary glass or Roy glass.

In addition, the air layer, characterized in that the vacuum or filled with argon gas.

The present invention constructed and functioned as described above is a window structure having a multilayer structure in which composite glass, acrylic glass, and Roy glass are selectively applied in combination, and there is an advantage that the heat insulation can be improved while greatly simplifying the structure. In addition, there is an advantage that can be more effectively controlled because the heat insulating film can be easily applied when applying the acrylic glass excellent workability.

In addition, the surface exposed to the outside, such as the indoor side or the outdoor side has the advantage that it does not cause damage by being composed of ordinary glass or Roy glass with excellent wear resistance.

In addition, since acrylic glass is very easy to apply color, there is an effect that can improve the ease of color representation or design representation on the glass through the acrylic glass.

1 and 2 are cross-sectional views of the window glass structure of the multilayer structure according to the prior art,
3 is a cross-sectional view of the window glass structure with improved heat insulation according to the present invention;
Figure 4 is a cross-sectional view of the window glass structure with improved heat insulation in another embodiment according to the present invention,
5 is a cross-sectional view of a window glass structure with improved heat insulation in another embodiment according to the present invention,
Figure 6 is a cross-sectional view of the window glass structure with improved heat insulation in another embodiment according to the present invention,
7 is a cross-sectional view of the window glass structure with improved thermal insulation in another embodiment according to the present invention,
8 to 10 is a cross-sectional view of a window glass structure adopting a different material in a glass of a double structure in another embodiment according to the present invention,
11 to 13 are cross-sectional views of window glass structures showing various embodiments in accordance with the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the window glass structure improved heat insulation according to the present invention.

The window glass structure with improved heat insulation according to the present invention includes a first barrier layer, a second barrier layer, and a third barrier layer having a triple structure from the inside to the outside in the window structure, wherein the first barrier layer and the first barrier layer are formed. Any one or two layers of the second barrier layer, the third barrier layer is composed of the remaining barrier layer and the dissimilar material, and is composed of an air layer between each of the first to third barrier layers, and each layer is formed to maintain a space of the air layer. It characterized in that it comprises a support portion configured along the edge to support and the joint portion sealing the support portion outside.

Another window glass structure with improved heat insulation according to the present invention has a structure of a plurality of double or more blocking layers, wherein the blocking layer is composed of a heterogeneous material such that common glass or Roy glass and acrylic glass are mixed to improve the thermal insulation while simplifying the structure. It is a main technical point to provide a window structure with excellent heat insulation which can satisfy the ease of manufacture according to this.

3 is a cross-sectional view of the window glass structure with improved heat insulation according to the present invention. First of the window structure of the present invention has a double or more barrier layer structure, each barrier layer is characterized by consisting of different materials.

3 is an example of the present invention, and includes a first blocking layer 100, a second blocking layer 110, and a third blocking layer 120, wherein the first blocking layer corresponds to an outdoor side. The third blocking layer 120 may correspond to the indoor side and may be applied to the third side.

The first barrier layer 100 and the second barrier layer 110 may be made of a common glass or LOW-E glass material, the common glass is a known glass is applied, Roy glass is an energy-saving type Known as glass, it corresponds to low reflection glass. In brief, the Roy glass reflects most of the infrared glass, while the glass reflects most of the infrared. Therefore, in winter, the infrared rays generated by the heating apparatus of the room is reflected and sent back to the room, and in summer, the radiant heat generated from the solar heat is prevented from entering the room, thereby improving the insulation of the windows. At the same time, UV (ultraviolet rays) are blocked, which can prevent discoloration of indoor items such as indoor appliances and carpets.

In the embodiment of Figure 3, the second barrier layer positioned between the first barrier layer and the third barrier layer is composed of acrylic glass, not ordinary glass or Roy glass. Acrylic has a very high transparency with 92 ~ 98% light transmittance, and the spectral light transmittance has a granularity in the wavelength range of 2500A. There is a light advantage. The acrylic glass having such characteristics can be placed on the second barrier layer of the window structure, that is, the middle layer, to improve the thermal insulation, to secure the transparency corresponding to the existing glass, and to reduce the weight significantly because it is about half lighter than the glass. It has an effect. In addition, the biggest characteristic of the acrylic glass is a low thermal conductivity is very good thermal barrier effect. Therefore, as the second barrier layer is made of acrylic glass, the insulation layer may be implemented through acrylic glass configured in an insulating layer not formed of the first barrier layer made of glass.

Table 1 below is a table comparing the thermal conductivity of ordinary glass, Roy glass, acrylic glass.

No
material
Thermal Conductivity (K)
Remarks
One
Plain glass
0.67 Kcal / m? H? ℃
2
Roy glass
0.29Kcal / m? H? ℃
3
Acrylic glass
0.125Kcal / m? H? ℃

In other words, the present invention preferably comprises a barrier layer or more of a double structure, it is an advantage that the heat insulation can be improved by constituting the window with a heterogeneous material composed of glass or acrylic glass of each barrier layer.

Meanwhile, in order to maintain the first to third blocking layers at a predetermined interval, an aluminum support part 210 is provided along an edge thereof, and the first blocking layer, the second blocking layer, and the third blocking layer have a predetermined interval. Inside the air layer 200 is formed. One air layer is provided between the first blocking layer and the second blocking layer, and another air layer is prepared between the second blocking layer and the third blocking layer.

The air layer 200 may be configured by filling a vacuum or argon gas, and argon gas may reduce heat loss by slowing convection activity of a space when injected between sealed glasses. At this time, the injection space of the argon gas is preferably 12mm to 14mm width of the air layer.

The junction 220 is configured to seal the outside of the support to prevent the air layer from leaking to the outside.

On the other hand, in the drawings of the present invention, only the support portion of the assembly constituting the barrier layer and the air layer and windows, but the illustration of the various assemblies for the final window assembly is omitted, it corresponds to a known general structure of the structure of this assembly.

5 is a cross-sectional view of a window glass structure with improved heat insulation in another embodiment according to the present invention. In Figure 5 is designed to have a higher barrier properties than the barrier layer structure proposed in the structure of Figure 3, the second barrier layer is composed of a double acrylic glass, the insulating film 103 is inserted therebetween. The first barrier layer and the second barrier layer are made of ordinary glass or Roy glass. By interposing the insulating film between the acrylic glass, it is permanent, there is no discoloration, and it is possible to secure even higher thermal insulation.

6 is a cross-sectional view of the window glass structure with improved heat insulation in another embodiment according to the present invention. This is a structure in which the second barrier layer is made of acrylic glass, and the acrylic glass 102 and 122 are further bonded to an air layer surface in contact with the first barrier layer and the second barrier layer made of ordinary glass or Roy glass. In this case, the first barrier layer corresponding to the outdoor side can further increase the heat insulating property, and the thermal conductivity transferred from the second barrier layer to the third barrier layer corresponding to the indoor side is applied to the acrylic glass bonded to the third barrier layer. This can lower the conductivity. In addition, if necessary, the insulating films 103 and 123 may be further configured between the acrylic glass bonded to the first and third blocking layers.

6 is a cross-sectional view of the window glass structure with improved heat insulation according to another embodiment according to the present invention. 6 corresponds to a window structure combining the structures of FIGS. 4 and 5, wherein the first barrier layer 100 and the third barrier layer 120 are made of ordinary glass or Roy glass-> insulation film-> acrylic glass. It is configured, the second barrier layer 110 is composed of acrylic glass-> heat insulation film-> acrylic glass corresponds to the structure to maximize the thermal insulation.

7 is a cross-sectional view of a window glass structure with improved heat insulation in another embodiment according to the present invention. It is designed as a quadruple structure applying glass and acrylic, and includes a first blocking layer 100, a second blocking layer 110, a third blocking layer 120, and a fourth blocking layer 130. It is composed. Here, the first barrier layer and the fourth barrier layer are made of ordinary glass or Roy glass, and the second barrier layer and the third barrier layer are made of acrylic glass to which an insulating film is bonded. Therefore, the embodiment of Figure 7 has a quadruple structure, characterized in that formed by three air layers.

8 to 10 is a cross-sectional view of the window glass structure adopting a different material in the glass of the double structure in another embodiment according to the present invention. In FIG. 8, a very simple window glass structure proposal has a double structure, and the outdoor side is composed of ordinary glass or Roy glass, and the indoor side is composed of acrylic glass to minimize external heat conduction to the indoor side. This dual structure has the advantage of improving the thermal insulation at a low manufacturing cost in the present invention.

9 to 10 are diagrams illustrating various embodiments. In Figure 9 has a double structure, the first barrier layer and the second barrier layer is composed of ordinary glass, heat insulation film, acrylic glass in order, and the impact resistance by complementing the impact resistance by placing the acrylic glass, which is relatively durable than ordinary glass in the inner direction can do. In a preferred embodiment according to the present invention, a glass structure is proposed as a dissimilar material to which acrylic glass is applied, and acrylic glass is most preferably located inside. FIG. 10 has a double structure as shown in FIGS. 8 and 9, wherein the first barrier layer and the second barrier layer have a three-layer structure in order of glass, acrylic glass, and glass, and each barrier layer is formed.

11 to 13 are cross-sectional views of window glass structures showing various embodiments according to the present invention. Here, similarly, acrylic glass is applied in combination to propose a glass structure. In the case of Figure 11 has a triple structure as a barrier layer consisting of glass, heat insulation film, acrylic glass, the position of the acrylic glass in the second barrier layer is configured to be located to the outdoor side. In the case of Figure 12 is the same as Figure 11, the second blocking layer located in the center is composed of acrylic glass, ordinary glass, acrylic glass in order.

13 is a quadruple structure, wherein the second and third blocking layers may be made of acrylic glass, ordinary glass, and acrylic glass layers, and the first and fourth blocking layers may be made of ordinary glass.

Accordingly, the present invention proposes a glass structure of windows and windows, having a double, triple, quadruple, etc. structure of two or more, and proposes a window glass structure of a heterogeneous material mixed with ordinary glass and acrylic glass, the thermal conductivity By applying this low acrylic glass to a glass structure that occupies a large area in the window structure, there is an advantage that the thermal insulation can be improved at low cost. In addition, the present invention to which the acrylic glass is applied has an advantage of improving the design of the glass because it is easy to apply color in the nature of the acrylic material.

According to the present invention configured as described above, the barrier layers of the windows and doors have a triple structure, and each barrier layer is composed of heterogeneous materials to increase thermal insulation, and to reduce manufacturing costs and simplify manufacturing by simplifying the structure. There is this.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. On the contrary, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100: first barrier layer
101: glass
102: acrylic
103: heat insulation film
110: second barrier layer
111: heat insulation film
112: acrylic
113: glass
120: third barrier layer
121: glass
122: acrylic
123: heat insulation film
130: fourth barrier layer
131: glass
132: acrylic
133: heat insulation film
200: air layer
210: support part
220: junction

Claims (14)

In the glass structure of the window assembly comprising a window frame and glass,
The glass structure is composed of two or more blocking layers, either one or two layers of the remaining blocking layer and the dissimilar material, between each blocking layer is provided with an air layer of a predetermined interval,
It is configured to include; a support portion configured along an edge to support each layer to maintain the space of the air layer, and a joint portion sealing the outer side of the support portion,
The blocking layer has a triple structure including a first blocking layer, a second blocking layer, and a third blocking layer,
The first barrier layer is composed of a multilayer in order of ordinary glass or ordinary glass, heat insulation film, acrylic glass,
The second barrier layer is an insulating film is inserted between the acrylic glass or double acrylic glass and double acrylic glass,
The third barrier layer is composed of a multilayer of acrylic glass or ordinary glass, heat insulation film, acrylic glass in order,
The air layer is a window glass structure with improved insulation, characterized in that the vacuum or filled with argon gas. delete delete delete The method of claim 1, wherein the blocking layer,
It has a quadruple structure including a first barrier layer, a second barrier layer, a third barrier layer, and a fourth barrier layer, wherein the second barrier layer and the third barrier layer are spaced apart to have an air layer in the middle, and made of acrylic glass. The window glass structure with improved heat insulating properties, characterized in that the heat insulating film is composed of, and the opposite surface. delete delete delete delete delete The method of claim 1, wherein the blocking layer,
It has a quadruple structure including a first barrier layer, a second barrier layer, a third barrier layer, and a fourth barrier layer, wherein the second barrier layer and the third barrier layer are made of acrylic glass, ordinary glass, and acrylic glass. Window glass structure with improved heat insulation, characterized in that. delete The method of claim 1, 5, 11, wherein the first blocking layer and the third blocking layer,
Window glass structure with improved thermal insulation, characterized in that provided with ordinary glass or Roy glass. delete

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