KR20220058045A - Pair glass with improved insulation and a method of manufacturing the same - Google Patents

Abstract

The present invention relates to double-pane window with improved insulation, which can semi-permanently maintain a thermal management rate with a UV-blocking insulation film, and enables the UV-blocking insulation film to be installed taut, thereby preventing the beauty from being spoiled, and a method for manufacturing the same and, more specifically, to a method for manufacturing double-pane window with improved insulation, and double-pane window manufactured thereby. A first warm edge spacer which has the center penetrated therethrough, has one open side of a second inner spacer while having a first inner spacer and the second inner spacer formed in a thickness portion thereof, and has the first inner spacer filled with a moisture absorbent, a first UV-blocking insulation film, a second warm edge spacer which has the center penetrated therethrough, has a fitting portion formed on one side of the edge thereof, and has an inner spacer formed in a thickness portion and filled with a moisture absorbent, and a fixing gasket, are provided. The fitting portion of the second warm edge spacer presses the fixing gasket and the edge of the first UV-blocking insulation film to fit the same into an open side of the second inner spacer to bring the edge of the first UV-blocking insulation film into close contact with the first warm edge spacer and a portion of the inner surface of the second inner spacer so that the first UV-blocking insulation film is made taut. The edges of the double-pane window are respectively bonded to the outer surfaces of the first and second warm edge spacers not facing each other on both sides of the first UV-blocking insulation film through adhesive members. Silicon is applied to an outer spacer formed between the edges of the first and second warm edge spacers and the edges of the double-pane window to form a silicone finishing portion on the outer spacer.

Description

Pair glass with improved insulation and a method of manufacturing the same

The present invention relates to a multi-layer glass and a method for manufacturing the same, and in particular, a multi-layer with improved insulation function that allows the UV-blocking insulation film to be installed tautly so as not to impair the aesthetics while maintaining the thermal management rate semi-permanently with a UV-blocking insulating film It relates to glass and a method for manufacturing the same.

In general, double-glazed glass has a structure in which an air layer is provided between a pair of glass, and has superior thermal insulation function compared to single glass, thereby saving cooling and heating costs.

In recent years, by filling the air layer formed between a pair of glasses with argon, krypton gas, etc., the thermal insulation function has been further improved.

In this regard, Patent Document 1 discloses a first glass installed inside a building; a second glass forming the exterior wall of the building; a third glass positioned between the first glass and the second glass; a first non-metallic bar for maintaining a space between the first glass and the third glass located in the center; and a second non-metallic rod for maintaining a space between the second glass and a third glass located in the center, wherein the first non-metallic rod and the second non-metallic rod are located on the same straight line, and the first to third It is attached to the inner part 3 to 10 mm from the outermost part of the glass and is configured to further form a sealing part in a space extending to the outermost part of the first and second non-metallic rods and the first to third glass; the first non-metallic bar is an extrusion-molded product, and is composed of a first foamable resin inter-rod containing a desiccant, and the second non-metallic inter-rod is composed of a second insulating inter-rod wrapped with synthetic resin (PVC) on the outside of the aluminum reinforcement; The first foamable resin inter-rod has a thickness to separate the first and third glasses and is formed to form a loop of a size slightly smaller than the outermost circumference of the first and third glasses, and the first and third glasses a first bonding surface of both sides attached to the glass, a first inner surface facing the inner space between both glasses in a bonded state, and a first outer surface facing the outer space between both glasses; the second heat insulating rod includes a second reinforcing material made of a metal material such as aluminum, and a second PVC part surrounding the outside of the second reinforcing material, and is configured to be filled with a second moisture absorbent; The first space sealed by the first non-metallic rod to separate the first glass and the third glass, and the second space sealed by the second non-metallic rod to separate the second glass and the third glass are argon To provide a triple-layer glass using a non-metallic rod of the same type, characterized in that it is filled with gas (Ar) or krypton gas (Kr).

However, in the case of Patent Document 1, there was a risk of leakage of argon gas or krypton gas, which are insulating gases, and thus there was a fear that the thermal management rate could not be maintained.

That is, there was a fear that the thermal insulation function may be lowered.

And, as shown in FIG. 1 , in the prior art, a heat insulating film 3 was attached to the glass 2 into the inside of the multilayer glass 1 .

However, in the case of the prior art, there was a fear that the insulating film 3 was wrinkled when attached, which could impair the aesthetics.

Patent Document 1: Domestic Registered Patent No. 10-1021866 (Registered on March 7, 2011)

Accordingly, the present invention is a double-layer glass with an improved insulation function that allows the UV-blocking insulation film to be installed tautly unlike the prior art so as not to impair the aesthetics while maintaining the thermal management rate semi-permanently with a UV-blocking insulating film instead of a conventional insulating gas and to a method for manufacturing the same.

In order to achieve the above object, in the present invention, one side of the second inner space is opened while the first and second inner spaces are formed in the middle and divided in the thickness portion, and the first inner space is filled with a desiccant agent. 1st insulating interstitial rod; A first UV blocking insulating film; A second insulating interstitial rod having a center penetrating through it, a fitting portion is formed on one side of the rim, and a moisture absorbent is filled in the inner space of the thick portion; and a fixed gasket prepared, and sequentially pressing the rim of the fixing gasket and the first UV-blocking insulating film with the fitting part of the second insulating interlocking rod and inserting it into the open side of the second inner space, and then attaching the rim of the first UV-blocking insulating film to the first insulating interfering rod and a pair of glass on the outer surface of the first and second heat insulating rods that do not face each other on both sides of the first UV blocking heat insulating film to form a first UV blocking insulating film in close contact with a part of the inner surface of the second inner space Insulation characterized in that the edges are adhered through an adhesive member, respectively, and silicone is applied to the external space formed between the edges of the first and second insulating rods and the edges of a pair of glass to form a silicone finish in the external space An object of the present invention is to provide a method for manufacturing a multi-layer glass with improved functions, and a multi-layer glass manufactured by the method for manufacturing a multi-layer glass.

Since the present invention uses a UV-blocking insulating film instead of a conventional insulating gas, there is an effect that the insulating gas does not need to be leaked and additional insulating gas filling due to leakage is not required.

In other words, the UV-blocking insulating film has the effect of blocking external radiant heat in summer and preventing cold air from entering in winter.

In other words, it is possible to maintain the thermal management rate semi-permanently compared to the conventional double-layer glass using the insulating gas, and at the same time, there is an effect of improving the insulating function.

In the present invention, since the edge of the UV-blocking insulating film is pulled outward by the bonding between the insulating rods and the elasticity of the fixing gasket, there is an effect that the UV-blocking insulating film is installed taut without being crumpled.

That is, there is an effect that does not impair the aesthetics.

The present invention has the effect of preventing the tearing of the edge of the UV-blocking insulating film during compression by the insulating inter-rod because it relieves the pressing force of the insulating inter-rod against the edge of the UV-blocking insulating film with the elasticity of the fixing gasket.

The present invention has the effect of improving airtightness and watertightness because it seals the space between the UV-blocking insulating film and the insulating interstitial rod with a fixed gasket.

In the present invention, even if the glass is broken, since the UV-blocking insulating film does not leak like the conventional insulating gas, there is an effect that the insulating function can be maintained as much as possible.

The present invention is effective in preventing various diseases, such as skin cancer, because the present invention blocks ultraviolet rays harmful to the human body with a UV-blocking insulating film.

The present invention has an effect of maximally preventing the scattering of glass fragments with a UV-blocking insulating film and a safety net when glass is broken.

The present invention has an effect of preventing theft because the safety net prevents outsiders from entering the room even if the glass is broken.

In the present invention, since a plurality of through-holes of the safety net are formed in a polygonal shape, there is an effect that various performances can be made between the glass.

In other words, it has the effect of maximizing the interior effect.

In the present invention, since the safety net supports the UV-blocking insulating film, there is an effect of keeping the UV-blocking insulating film taut so as not to be crumpled.

Since the present invention is made of 3 or 4 multi-layer glass using a light-weight UV-blocking insulating film, the weight and thickness are reduced compared to the conventional multi-layer glass made of 3 or 4 layers of glass.

That is, there is an effect of easy transport and installation.

The present invention has the effect of further improving the heat insulating function because the UV-blocking heat insulating film is further adhered to the inside of the glass of the double-layer glass.

In addition, when the glass is broken, there is an effect of further preventing the scattering of glass fragments with an additionally attached UV-blocking insulating film.

1 is an enlarged cross-sectional view of a conventional double-layer glass,
2 and 3 are front views of the first and second insulating interstitial bars of the multilayer glass according to the first embodiment of the present invention;
4 to 8 are diagrams of the manufacturing process of the multilayer glass according to the first embodiment of the present invention;
9 is an enlarged cross-sectional view of a laminated glass according to another embodiment of the first embodiment of the present invention;
10 is an enlarged cross-sectional view of a laminated glass according to another embodiment of the first embodiment of the present invention;
11 and 12 are front views of the first and second insulating interstitial bars of the double-layer glass according to the second embodiment of the present invention;
13 to 17 are diagrams of a manufacturing process of a multilayer glass according to a second embodiment of the present invention;
18 is an enlarged cross-sectional view of a laminated glass according to another embodiment of the second embodiment of the present invention;
19 is an enlarged cross-sectional view of a laminated glass according to another embodiment of the second embodiment of the present invention.

Accordingly, various embodiments of the present invention as described above will be described in detail based on the accompanying drawings.

The manufacturing of the double-layer glass 1000 according to the first embodiment of the present invention included in the windows installed in the building, as shown in Figs. One side of the second inner space 102 is opened while the inner space 101, 102 is formed, and the first heat insulating rod 100 filled with the desiccant 103 in the first inner space 101; 1 UV-blocking insulating film 110;, a second insulating rod having a center penetrating through it, a fitting part 121 is formed on one side of the edge, and a moisture absorbent 123 is filled in the inner space 122 of the thick part (120) and;, to provide a fixing gasket (130).

Here, the first and second heat insulating rods 100 and 120 are formed in the form of a square frame having a center penetrated therein, and are made of a non-ferrous metal material such as aluminum.

In addition, as one side of the second internal space 102 is opened, a long hole in the longitudinal direction is formed on one side of the edge of the first insulating insulating rod 100 , and the fitting part 121 is the second insulating insulating rod 120 . ) is formed to protrude long along the longitudinal direction from one side of the edge.

In addition, the first UV blocking insulating film 110 is manufactured by a sputtering method that continuously reflects heat, and the fixing gasket 130 is made of an elastic material such as rubber.

Then, by sequentially pressing the edge of the fixing gasket 130 and the first UV-blocking insulating film 110 with the fitting portion 121 of the second heat insulating rod 120, the open one side of the second inner space (102) by inserting the rim of the first UV-blocking insulating film 110 into close contact with a part of the inner surface of the first insulating rod 100 and the second internal space 102 to tighten the first UV-blocking insulating film 110 . to form

That is, by pressing the fitting portion 121 of the second heat insulating rod 120 and the fixing gasket 130 , the edge of the first UV blocking heat insulating film 110 is bent in the shape of the second inner space 102 . While being inserted into the open side, the first insulating rod 100 and the inner space of the second inner space 102 are in close contact, and the rim of the first UV blocking insulating film 110 is pulled outward, so that the first The UV-blocking insulating film 110 is formed taut.

In other words, the fitting portion 121 of the second heat insulating rod 120 and the fixing gasket 130 are fitted on one open side of the second inner space 102 of the first insulating interlocking rod 100 to block the first UV rays. The heat insulating film 110 is formed taut.

Here, the fixing gasket 130 elastically relieves the pressing force when pressing the fitting portion 121 of the second heat insulating rod 120 against the edge of the first UV blocking insulating film 110 .

In addition, the fixing gasket 130 fitted to the open side of the second inner space 102 elastically pulls the edge of the first UV blocking heat insulating film 110 .

In addition, the fixing gasket 130 seals between the first UV blocking heat insulating film 110 and the first and second heat insulating rods 100 and 120 .

And, on the outer surfaces of the first and second heat insulating rods 100 and 120 that do not face each other on both sides of the first UV blocking heat insulating film 110, an adhesive member 141 is attached to the edge of a pair of glass 140 are attached to each other through

Here, an external space 151 is formed between the edges of the first and second heat insulating rods 100 and 120 and the edges of the pair of glasses 140 , and the adhesive member 141 is made of an adhesive or the like.

In addition, silicone is applied to the outer space 151 formed between the edges of the first and second insulating rods 100 and 120 and the edges of the pair of glasses 140 , and the silicone is applied to the outer space 151 . The finishing part 150 is formed.

Then, the multilayer glass 1000 according to the first embodiment of the present invention is completed.

So, the double-layer glass 1000 is included in the windows installed in the building to block the inflow of moisture with the desiccant 103 and 123, and the first UV blocking insulation film 110 to block UV rays and heat inside and outside. inhibits movement.

And, in the manufacture of the multilayer glass 1000 according to another embodiment of the first embodiment of the present invention, as shown in FIG. 9, after further providing a second UV blocking insulating film 160, a pair of glass ( 140) is adhered to one of the adhesive members 161 through the adhesive member 161.

Here, the second UV-blocking insulating film 160 is adhered to one side of one glass 140 installed close to the outdoors through an adhesive member 161 .

In addition, the second UV blocking insulating film 160 is manufactured by a sputtering method that continuously reflects heat, and the adhesive member 161 is made of an adhesive or the like.

Then, a pair of glasses 140 are respectively positioned on both sides of the first and second heat insulating rods 100 and 120 that are first coupled to fix the first UV blocking insulating film 110 .

And, on the outer surfaces of the first and second heat insulating rods 100 and 120 that do not face each other on both sides of the first UV blocking heat insulating film 110, an adhesive member 141 is attached to the edge of a pair of glass 140 are attached to each other through

Here, the second UV-blocking insulating film 160 adhered to the single glass 140 is positioned between the pair of glasses 140 .

In addition, silicone is applied to the outer space 151 formed between the edges of the first and second insulating rods 100 and 120 and the edges of the pair of glasses 140 , and the silicone is applied to the outer space 151 . The finishing part 150 is formed.

Then, the multilayer glass 1000 according to another embodiment of the first embodiment of the present invention is completed.

Thus, the double-layer glass 1000 is included in the windows installed in the building to further block UV rays with the first and second UV blocking insulating films 110 and 160, and further suppress the movement of heat indoors and outdoors. .

And, as shown in FIG. 10, the manufacturing of the multilayer glass 1000 according to another embodiment of the first embodiment of the present invention further provides a safety net 170 having a plurality of through holes 171 formed on the outer surface. After that, it is sandwiched between the first and second heat insulating rods 100 and 120 together with the first UV blocking heat insulating film 110 .

Here, the safety net 170 supports the first UV-blocking insulating film 110 .

Also, the through hole 171 is formed in a polygonal shape such as a triangle, a square, or a hexagon.

And, on the outer surfaces of the first and second heat insulating rods 100 and 120 that do not face each other on both sides of the first UV blocking heat insulating film 110, an adhesive member 141 is attached to the edge of a pair of glass 140 are attached to each other through

Here, the second UV blocking insulating film 160 may be adhered to one of the pair of glasses 140 through an adhesive member 161 so as to be positioned between the pair of glasses 140 .

In addition, silicone is applied to the outer space 151 formed between the edges of the first and second insulating rods 100 and 120 and the edges of the pair of glasses 140 , and the silicone is applied to the outer space 151 . The finishing part 150 is formed.

Then, the multilayer glass 1000 according to another embodiment of the first embodiment of the present invention is completed.

Therefore, the double-glazed glass 1000 is included in the windows installed in the building, and when the glass 140 is damaged, the safety net 170 prevents outsiders from entering the room.

And, the manufacturing of the multilayer glass 1000 according to the second embodiment of the present invention, as shown in Figs. 11 to 17, the center is penetrated, the first and second internal spaces 201 divided into the thickness portion. As the 202 is formed, one side of the second internal space 202 is opened, and a pair of first insulating rods 200 filled with a desiccant 203 in the first internal space 201; A second insulating interstitial rod 210 in which a fitting portion 211 is formed on one side of the edge and one side opposite to the edge, respectively, and a moisture absorbent 213 is filled in the inner space 212 of the thick portion; A pair of first UV-blocking insulating films 220 and a pair of fixing gaskets 230 are provided.

Here, the first and second insulating interstitial rods 200 and 210 are formed in the form of a square frame through which the center is penetrated, and are made of a non-ferrous metal material such as aluminum.

In addition, as one side of the second inner space 202 is opened, a long hole is formed on one side of the edge of the first insulating interleaving rod 200 in the longitudinal direction, and the fitting part 211 is the second insulating interfering rod 210 . ) is formed to protrude long from one side of the edge and one side opposite to the edge in the longitudinal direction, respectively.

In addition, the first UV blocking insulating film 220 is manufactured by a sputtering method that continuously reflects heat, and the fixing gasket 230 is made of an elastic material such as rubber.

Then, by sequentially pressing the edges of the pair of fixing gaskets 230 and the pair of first UV-blocking insulating films 220 with the fitting portion 211 of the second heat insulating rod 210, respectively, the second inner space By inserting into the open side of the 202, the edge of the first UV-blocking insulating film 220 is in close contact with a part of the inner surface of the first insulating rod 200 and the second internal space 202, the first UV-blocking insulation The film 220 is formed taut.

That is, the edge of the first UV blocking insulating film 220 is bent by the pressing of one fitting portion 211 and one fixing gasket 230 of the second insulating interstitial rod 210 in a bent shape. While being inserted into the open side of the inner space 202, the first insulating rod 200 and the inner portion of the second inner space 202 are in close contact, and the edge of the first UV blocking insulating film 220 is outward. By being pulled, the first UV blocking heat insulating film 220 is formed taut.

In addition, the second inner space ( 202) while being inserted into the open side of the first insulating rod 200 and in close contact with a part of the inner surface of the second internal space 202, the edge of the first UV blocking insulating film 220 is pulled outward. The first UV blocking insulating film 220 is formed taut.

In other words, a pair of fitting portions 211 and a pair of fixing gaskets ( 230) is inserted, respectively, a pair of first UV blocking heat insulating film 220 is formed taut.

Here, the fixing gasket 230 elastically relieves the pressing force when the fitting portion 211 of the second heat insulating rod 210 is pressed against the edge of the first UV blocking insulating film 220 .

In addition, the fixing gasket 230 fitted to one open side of the second inner space 202 elastically pulls the edge of the first UV blocking heat insulating film 220 .

In addition, the fixing gasket 230 seals between the first UV blocking heat insulating film 220 and the first and second heat insulating rods 200 and 210 .

And, on the outer surface of the pair of first heat insulating rods 200 that do not face each other on both sides of the pair of first UV blocking insulating films 220, the edges of the pair of glasses 230 are attached to the adhesive member 231. are attached to each other through

Here, an external space 241 is formed between the rim of the pair of first insulating interlocking rods 200 and the rim of the second insulating interfering rod 210 and the rim of the pair of glass 230, and an adhesive member ( 231) is made of an adhesive or the like.

And, by applying silicone to the outer space 241 formed between the rim of the pair of first insulating interlocking rods 200 and the rim of the second insulating interfering rod 210, and the rim of the pair of glass 230, A silicone finishing part 240 is formed in the external space 241 .

Then, the multilayer glass 1000 according to the second embodiment of the present invention is completed.

So, the double-layer glass 1000 is included in the windows and doors installed in the building to block the inflow of moisture with the desiccant 203 and 213, and the first UV blocking insulating film 220 to block UV rays and heat inside and outside. inhibits movement.

And, in the manufacture of the multilayer glass 1000 according to another embodiment of the second embodiment of the present invention, as shown in FIG. 18, after further providing a second UV blocking insulating film 250, a pair of glass ( 230) is adhered to one of the adhesive members 251.

Here, the second UV-blocking insulating film 250 is adhered to one side of a single glass 230 installed close to the outdoors through an adhesive member 251 .

In addition, the second UV blocking insulating film 250 is manufactured by a sputtering method that continuously reflects heat, and the adhesive member 251 is made of an adhesive or the like.

Then, a pair of glasses 230 are respectively positioned on both sides of the first and second heat insulating rods 200 and 210 that are first coupled to fix the pair of the first UV blocking insulating films 220 .

And, on the outer surface of the pair of first heat insulating rods 200 that do not face each other on both sides of the pair of first UV blocking insulating films 220, the edges of the pair of glasses 230 are attached to the adhesive member 231. are attached to each other through

Here, the second UV-blocking insulating film 250 adhered to the single glass 230 is positioned between the pair of glasses 230 .

And, by applying silicone to the outer space 241 formed between the rim of the pair of first insulating interlocking rods 200 and the rim of the second insulating interfering rod 210, and the rim of the pair of glass 230, A silicone finishing part 240 is formed in the external space 241 .

Then, the multilayer glass 1000 according to another embodiment of the second embodiment of the present invention is completed.

Therefore, the double-layer glass 1000 is included in the windows installed in the building to further block UV rays with the first and second UV blocking insulating films 220 and 250, and further suppress the movement of heat indoors and outdoors. .

And, as shown in FIG. 19, the manufacturing of the double-layer glass 1000 according to another embodiment of the second embodiment of the present invention is a pair of safety nets 260 having a plurality of through-holes 261 formed on the outer surface thereof. After further providing, a pair of first UV-blocking insulating films 220 and put them together

Here, the safety net 260 supports the first UV-blocking insulating film 220 .

In addition, the through hole 261 is formed in a polygonal shape such as a triangle, a square, or a hexagon.

And, on the outer surface of the pair of first heat insulating rods 200 that do not face each other on both sides of the pair of first UV blocking insulating films 220, the edges of the pair of glasses 230 are attached to the adhesive member 231. are attached to each other through

Here, the second UV blocking insulating film 250 may be adhered to one of the pair of glasses 230 through an adhesive member 251 to be positioned between the pair of glasses 230 .

And, silicone is applied to the outer space 241 formed between the rim of the pair of first insulating interlocking rods 200 and the rim of the second insulating interfering rod 210 and the rim of the pair of glass 230, A silicone finishing part 240 is formed in the external space 241 .

Then, the multilayer glass 1000 according to another embodiment of the second embodiment of the present invention is completed.

Therefore, the double-glazed glass 1000 is included in the windows installed in the building, and when the glass 230 is damaged, the safety net 260 prevents an outsider from entering the room.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and common knowledge in the technical field to which the invention pertains within the scope not departing from the spirit of the present invention Various changes and modifications will be possible by the possessor.

100: first heat insulating rod 101: first inner space
102: second inner space 103: moisture absorbent
110: first UV-blocking insulating film 120: second insulating rod
121: fitting part 122: internal space
123: desiccant 130: fixing gasket
140: glass 141: adhesive member
150: silicone finish 151: external space
160: second UV-blocking insulating film 161: adhesive member
170: safety net 171: through hole
200: first insulating interstitial rod 201: first inner space
202: second inner space 203: moisture absorbent
210: second insulating interstitial rod 211: fitting part
212: interior space 213: desiccant
220: first UV-blocking insulating film 230: glass
231: adhesive member 240: silicone finish
241: external space 250: second UV-blocking insulating film
251: adhesive member 260: safety net
261: through hole 1000: double-layer glass

Claims (10)

In the method for manufacturing double-layer glass,
One side of the second internal space 102 is opened while the first and second internal spaces 101 and 102 divided in the middle are penetrated, and the first and second internal spaces 101 and 102 are formed in the thickness portion, and the desiccant 103 is placed in the first internal space 101. The first insulating rod 100 filled with; and the first UV blocking insulating film 110; the center is penetrated, the fitting part 121 is formed on one side of the edge, and the inner space of the thick part ( A second heat insulating rod 120 filled with a desiccant 123 in 122), and a fixing gasket 130 is provided,
By sequentially pressing the edges of the fixing gasket 130 and the first UV blocking insulating film 110 with the fitting portion 121 of the second heat insulating rod 120, the second inner space 102 is inserted into the open side. , forming the first UV blocking insulating film 110 in close contact with a portion of the inner surface of the first heat insulating rod 100 and the second inner space 102, the edge of the first UV blocking heat insulating film 110, ,
The edges of the pair of glasses 140 on the outer surfaces of the first and second heat insulating rods 100 and 120 that do not face each other on both sides of the first UV blocking insulating film 110 are respectively attached through the adhesive member 141 . glued,
Silicone is applied to the outer space 151 formed between the edges of the first and second heat insulating rods 100 and 120 and the edges of a pair of glass 140, so that the silicone finish part in the outer space 151 (150) A method of manufacturing double-layer glass with improved heat insulation, characterized in that it forms. According to claim 1,
An insulating function characterized in that the second UV blocking heat insulating film 160 is attached to one of the pair of glasses 140 through an adhesive member 161 so as to be positioned between the pair of glasses 140 . An improved method for manufacturing double-layer glass. According to claim 1,
A method of manufacturing double-layer glass with improved heat insulation function, characterized in that a safety net 170 having a plurality of through-holes 171 formed on the outer surface is sandwiched between the first and second heat insulating rods 100 and 120. 4. The method of claim 3,
The through-hole 171 is a method of manufacturing double-layer glass with improved heat insulation, characterized in that it is formed in a polygonal shape. [Claim 5] Multi-layer glass with improved thermal insulation function manufactured by the method for manufacturing the multi-layer glass of any one of claims 1 to 4. In the method for manufacturing double-layer glass,
One side of the second internal space 202 is opened while the first and second internal spaces 201 and 202 divided in the middle are penetrated, and the first and second internal spaces 201 and 202 are formed in the thickness portion, and the desiccant 203 is formed in the first internal space 201 . A pair of first insulating interstitial rods 200 filled with; and the center is penetrated, and fitting portions 211 are respectively formed on one side of the rim and one side opposite to the rim, and the inner space 212 of the thick portion ) and a second heat insulating rod 210 filled with a desiccant 213; A pair of first UV blocking insulating films 220; A pair of fixing gaskets 230 are provided,
The second inner space 202 by sequentially pressing the edges of the pair of fixing gaskets 230 and the pair of first UV blocking insulating films 220 with the fitting portion 211 of the second heat insulating rod 210, respectively. ), by inserting the edge of the first UV-blocking insulating film 220 into close contact with a part of the inner surface of the first insulating rod 200 and the second internal space 202, the first UV-blocking insulating film ( 220) is formed taut,
The edges of the pair of glasses 230 on the outer surface of the pair of first heat insulating rods 200 that do not face each other on both sides of the pair of the first UV blocking insulating films 220 are attached through the adhesive member 231. each glued together,
Silicone is applied to the outer space 241 formed between the rim of the pair of first insulating insulating rods 200 and the rim of the second insulating insulating rod 210 and the rim of the pair of glass 230, A method of manufacturing double-layer glass with improved heat insulation function, characterized in that the silicone finish portion 240 is formed in the space 241 . 7. The method of claim 6,
A heat insulating function characterized in that the second UV blocking insulating film 250 is attached to one of the pair of glasses 230 through an adhesive member 251 so as to be positioned between the pair of glasses 230 . An improved method for manufacturing double-layer glass. 7. The method of claim 6,
A safety net 260 having a plurality of through-holes 261 formed on the outer surface between the second insulating interlocking rod 210 and the second insulating interfering rod 210 and a pair of adjacent first insulating interfering rods 200 is inserted. A method for manufacturing double-layer glass with improved insulation, characterized in that. 9. The method of claim 8,
The through-hole 261 is a method of manufacturing double-layer glass with improved heat insulation, characterized in that it is formed in a polygonal shape. [10] The laminated glass with improved heat insulation function manufactured by the method for manufacturing the laminated glass according to any one of claims 6 to 9.

Images