KR102439315B1 - Vacuum glass window - Google Patents

Abstract

The present invention is to provide a vacuum glass window (1) to improve durability while significantly improving the heat insulation and sound insulation effect by renewing the structure between the inner and outer glass panels (2). A pair of glass panels (2) configured to be positioned, a transparent support panel (3) configured to be inserted between the inner and outer glass panels (2), and a gap maintaining protrusion (31) protruding from both sides of the support panel (3) ) to be in contact with the inner and outer glass panels 2, so that the gap created between both sides of the inner and outer glass panels 2 and the support panel 3 is vacuum-sucked. According to this, heat insulation and sound insulation efficiency can be improved by the pair of vacuum layers 6 and the support panel 3, and for vacuum suction while minimizing damage to the inner and outer glass panels 2 due to external impact, etc. Instead of forming a hole in the glass panel 2, a number of effects can be expected, such as being able to significantly improve the overall durability by installing the vacuum suction port 10 on the side of the edge.

Description

Vacuum glass window

The present invention is to realize a more effective vacuum glass window, and to explain this in more detail, two vacuum spaces are formed between the inner and outer glass panels to significantly improve the heat insulation and sound insulation effect, while improving durability and even having a crime prevention window function. it's about

In general, windows made of glass used in various buildings, etc., when made of single glass, have poor thermal insulation properties, so if the outside temperature is high, the cooling efficiency will be significantly reduced even if the inside of the building is cooled. It had a problem that the cost of cooling and heating became severe as a result of the drop. In order to minimize the transfer of the outside temperature to the room even if there is a large temperature difference between the indoor and outdoor, the structure of the double-glazed window and gas injection or vacuum suction It was a situation in which the insulation was maximized.

In order to improve the insulation as described above, a double-glazed window with improved insulation effect has been developed as disclosed in Korean Patent Application Laid-Open No. 107164 (published on November 11, 2005), which is simply a spacer installed between the inner window and the outer window. and the space between the outer windows to have an insulating effect, but since the outdoor temperature is transferred to the indoor by the air between the inner window and the outer window, there is a disadvantage that the insulating effect is not high.

Contrary to this, as disclosed in Republic of Korea Patent Publication No. 22736 (published on March 26, 2001), a technology configured to depressurize the void while the spacer forming the void between the pair of glass plates is formed in two or more curved surfaces has been developed. In addition, as disclosed in Korean Patent Publication No. 64289 (published on June 10, 2019), a technology in which a vacuum layer is provided through a columnar spacer between the first and second panes of glass has been developed. As there was, a reduced pressure void or vacuum layer was formed, not an air layer, between the double-glazed windows to improve the insulation effect, but when the reduced pressure void and the vacuum layer were formed, the gap between the plate glass was narrow and a hole was formed in one plate glass to reduce the pressure. And it had a number of problems, such as the difficulty in filling the hole in the plate glass, while filling the hole in the plate glass, along with the disadvantage that the durability of the plate glass is significantly lowered by vacuum suction.

KR 10-2005-0107164 A 2005. 11. 11. KR 10-2001-0022736 A 2001. 3. 26. KR 10-2019-0064289 A 2019. 6. 10.

In the present invention, a new technology has been devised to solve the problems of the prior art, and the present invention is not a simple spacer installed between the glass panels in forming a vacuum glass with a pair of glass panels, but a transparent synthetic resin insulating property. A vacuum glass window in which a support panel is inserted, and a vacuum layer is formed between the heat insulation support panel and both sides of the glass panel by a gap maintaining protrusion protruding from both sides of the heat insulation support panel so that a pair of vacuum layers are provided on the entire vacuum glass It was completed with the task to be solved in the invention in order to provide it.

In addition, the space between the glass panels is widened compared to the conventional vacuum glass by the insulating support panel, so that a vacuum suction port can be installed on one side of the edge between the glass panels without forming a hole for vacuum suction of the vacuum layer in the glass panel. it could be done

In addition, although not separately described, other objects within the range that can be inferred in consideration of the specific contents, claims, drawings, etc. will be included in the assignment.

In the present invention, a vacuum glass window is constituted as a specific means for solving the problems of the present invention, but the vacuum glass window of the present invention is provided with a pair of glass panels configured to be positioned to be spaced apart on the inside and outside, the inner and outer glass panels A transparent support panel configured to be inserted between the support panels is provided, and the gap maintaining protrusions protruding from both sides of the support panel are in contact with the inner and outer glass panels so that the gap created between the inner and outer glass panels and both sides of the support panel is vacuum sucked. It is characterized in that a pair of vacuum layers are provided.

In addition to this, the present invention further includes an adhesive means that is attached to the edge of the support panel to be attached to the inner and outer glass panels, or is attached to the outside of the support panel while being inserted between the edges of the inner and outer glass panels to allow moisture between the glass panels. A sealant configured to prevent the inflow may be further included.

In addition, a vacuum suction port fixed to the sealant may be further included so as to communicate with the pair of vacuum layers on one side between the edges of the pair of glass panels to vacuum the inside of the vacuum layer.

According to the specific means for solving the above-mentioned problems, in the vacuum glass window of the present invention, a synthetic resin insulating support panel such as a transparent polycarbonate is inserted between a pair of glass panels facing outward and outward, and the insulating support panel protrudes from both sides. The vacuum layer is formed as a single layer by forming a pair of vacuum layers opposite to the inside of the pair of glass panels by maintaining a gap so that a vacuum layer is respectively formed between both surfaces of the pair of glass panels and the heat insulating support panel by the spacing protrusion Compared to the conventional vacuum glass, in the present invention, as the vacuum layer is made of multiple layers, the insulating support panel is inserted between the vacuum layers of the multiple layers, so that the insulating effect is significantly improved and the sound insulation effect is also improved.

At the same time, the vacuum glass window of the present invention is not made of only a glass panel, but has a synthetic resin insulating support panel inside. It is possible to maintain the vacuum layer inside and outside while minimizing it, thereby maximizing the durability of the vacuum glass window, thereby providing the effect of prolonging the life of the product.

In addition, in the present invention, the gap between the inner and outer glass panels is greatly thickened compared to the conventional vacuum glass by the gap maintaining protrusions protruding from both sides of the insulating support panel and the insulating support panel inserted between the inner and outer glass panels to face the inside. By installing a vacuum suction port on one side of the edge of a pair of glass panels without making a hole in the glass panel in order to create a vacuum state of the formed vacuum layer, the double-layered vacuum layer inside the glass panel can be made into a vacuum state, A vacuum suction hole is formed in the vacuum glass window while providing the effect of improving durability by not making a hole in the vacuum glass window, as opposed to blocking the view even if the hole for vacuum suction in the conventional vacuum glass is filled with transparent It is a great invention in which a number of effects are expected, such as a vacuum suction port is formed in the sealant part to which the window frame of the rim is coupled to the outside, so that the vacuum glass window can be seen through clearer and clearer.

1 is a three-dimensional view showing a preferred example of the present invention;
Figure 2 is a three-dimensional view of the separated state of Figure 1;
3 is a front view of FIG. 1
FIG. 4 is a cross-sectional view taken along line AA of FIG. 3 ;
5 is an enlarged cross-sectional view of part B of FIG. 4 ;

An object of the present invention is to provide a vacuum glass window in which two vacuum spaces are formed between the inner and outer glass panels in realizing a vacuum glass window to significantly improve the heat insulation and sound insulation effect while also improving the durability to have a crime prevention window function. However, the accompanying drawings are only examples for easily explaining the content and scope of the technical idea of the present invention, and are not limited thereto, and the terms used are also used to describe the embodiment in detail. It should not be construed as being limited to the term.

The vacuum glass window 1 of the present invention is a pair of glass panels 2 spaced apart from the inside and outside as shown in the three-dimensional view of the combined state of FIG. 1 and the three-dimensional view of the separated state of FIG. It is made of a support panel (3).

Looking at this in more detail, the pair of glass panels 2 have a predetermined thickness and are configured to be spaced apart from each other at regular intervals, and the support panel 3 inserted between the inner and outer glass panels 2 is transparent. It is made of a synthetic resin such as polycarbonate and has a configuration having thermal insulation properties.

In this invention, as shown in the plan view of FIG. 3 , the adhesive means 4 is configured to be attached to the glass panel 2 on the edge of the support panel 3 , and the adhesive means 4 has a waterproof function. By using a butyl adhesive tape, etc., it is possible to double the adhesive force between the glass panel 2 and the synthetic resin support panel 3 and prevent moisture from entering between the inner and outer glass panels 2 and the support panel 3 . have.

In addition, in FIG. 3 , a sealant 5 (sealant) is internally attached between the outermost edges of the inner and outer glass panels 2 to the outside of the bonding means 4 attached to the edge of the support panel 3, and the support panel 3 ) and is attached to the outside of the support panel 3 while attaching and fixing the inner and outer glass panels 2 to prevent moisture from entering between the glass panels 2 .

As shown in the overall cross-sectional view of the present invention in Fig. 4, on both sides of the support panel 3, the gap maintaining protrusions 31 in contact with the inner and outer glass panels 2 are formed to protrude in a rectangular shape obtained by cutting a cylinder in cross section. However, it may be configured in various forms, such as a trapezoidal shape, a hemispherical shape, or a hemispherical shape obtained by cutting a truncated cone, or curved to protrude in the middle to protrude in a semicircular or arc shape when cut.

Here, a pair of opposing vacuum layers 6 are formed by vacuum sucking the gap created by the gap maintaining protrusion 31 between both sides of the inner and outer glass panels 2 and the support panel 3, but in this case, As shown in the enlarged cross-sectional view of 5, it is possible to form and maintain a vacuum state inside the vacuum layer 6 by the adhesive means 4 attached to the inner and outer glass panels 2 and attached to the edge of the support panel 3 .

To this end, a vacuum suction port 10 installed in communication with a pair of vacuum layers 6 on one side between the edges of the pair of glass panels 2 is fixedly installed in the sealant 5, and through the vacuum suction port 10 It is configured to be able to vacuum the inside of the vacuum layer 6 .

In the vacuum glass window (1) of the present invention configured as described above, a transparent support panel (3) is inserted, not a general spacer between the inner and outer glass panels (2), but on both sides of the support panel (3). The gap maintaining protrusion 31 is formed to protrude, so that a gap is formed between both sides of the support panel 3 and the inner and outer glass panels 2, and the edge of each gap is closed with an adhesive means 4 and a sealant 5 During construction, each interval is vacuum-sealed through the vacuum suction port 10 attached to one side of the sealant 5 so that each interval is vacuum-sealed, so that each interval is made of a vacuum layer 6 .

In this way, by a pair of opposing vacuum layers 6 formed on each inner side of the inner and outer glass panels 2, it doubles the transfer of the outdoor temperature to the indoor, thereby maximizing the insulation and significantly improving the noise blocking function. The support panel 3 supported on the inside of the inner and outer glass panels 2 is provided to prevent the vacuum glass window 1 from being bent or damaged by strong winds, and it is resistant to impacts such as wind pressure or earthquake. It is possible to minimize the damage of the outer glass panel 2, and compared to the conventional vacuum suction by drilling a through hole in the plate glass for the vacuum of the inner vacuum layer 6, the inner and outer glass panels 2 at the edge of the vacuum glass window 1 ), since the vacuum suction port 10 for vacuum suction is installed between them, damage to the glass panel 2 can be minimized due to external impact, thereby improving the durability of the vacuum glass window 1 and prolonging the life of the product.

As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications are possible without departing from the technical scope of the present invention. It is not limited to the example, but the scope of protection should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

1: vacuum glass window
2: Glass panel
3: support panel 31: gap maintaining projection
4: Adhesive means
5: Sealant
6: vacuum layer
10: vacuum inlet

Claims (4)

A pair of glass panels (2) configured to be spaced apart on the inside and outside;
A synthetic resin support panel 3 having a transparent heat insulating property configured to be inserted between the inner and outer glass panels 2 ;
Support the inner and outer glass panels 2 and the inner and outer glass panels 2 while supporting the inner and outer glass panels 2 without shaking by making the gap maintaining protrusions 31 protruding from both sides of the support panel 3 contact the inner and outer glass panels 2 . a pair of vacuum layers 6 configured to vacuum suction the gap created between both surfaces of the panel 3;
It is attached to the edge of the support panel (3) so that the inner and outer glass panels (2) and the support panel (3) are attached, and waterproof to prevent moisture from entering between the inner and outer glass panels (2) and the support panel (3) Adhesive means (4) composed of an adhesive tape having a function;
A sealant (5) attached to the outside of the support panel (3) while being inserted between the edges of the inner and outer glass panels (2) to prevent moisture from entering between the glass panels (2);
The inside of the vacuum layer 6 is vacuum sucked by the adhesive means 4 attached to the edge of the support panel 3 so as to communicate with the pair of vacuum layers 6 on one side between the edges of the pair of glass panels 2 a vacuum inlet 10 fixed to the sealant 5 so as to be able to;
Vacuum glass window, characterized in that it contains.
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