KR102496366B1 - Insulation composite window with improved insulation function - Google Patents

Abstract

The present invention relates to an insulation composite window with an improved insulation function, which can improve the insulation function by preventing an insulation material forming a window frame from being exposed to the outside, can prevent rails from being deformed by the load of the window, can prevent the window frame from being disassembled by external force generated when the window is opened and closed, and makes the window frame lightweight. More specifically, the insulation composite window with an improved insulation function comprises: a window frame which is installed on the wall of a building in the shape of a square frame, has a through space formed in the center thereof, and has first and second rails formed on a surface thereof sequentially facing the space from the exterior toward the interior and having a closed inner space; and a pair of windows which are guided by sliding on the first and second rails, respectively, to open and close the space. The window frame includes: a heat blocking windowsill frame which has the first and second rails formed on the surface facing the space, has fitting portions formed on both surfaces thereof facing the interior and the exterior, has fitting grooves formed on the outer surfaces of the fitting portions, has a plurality of spaces formed therein, and is made of an insulating material; an outdoor windowsill frame which has fitting grooves formed on a surface thereof facing the interior to fit the fitting portions thereinto; and an indoor windowsill frame which has fitting grooves formed on a surface thereof facing the exterior to fit the fitting portions thereinto, and has fitting protrusions formed on the fitting grooves to be fitted into the fitting grooves.

Description

Insulation composite window with improved insulation function}

The present invention relates to a heat-insulated composite window, and in particular, improves the heat insulation function while preventing the heat insulation material constituting the window frame from being exposed to the outside, prevents the rail from being deformed by the load of the window, and prevents the external force generated when opening and closing the window. It relates to a heat insulation composite window that prevents the window frame from being disassembled by the

In general, non-clerk-type windows and doors refer to windows that open and close only half of the through space of the window frame by moving the window left and right while the window is installed to slide and guide on the rail of the window frame.

In this regard, in Patent Document 1, a side insulation frame and a glass support insulation frame for blocking heat conduction are fitted to the indoor side and upper end along the length of the window frame frame constituting the window frame, and the insect screen rail and window are fitted from the outside. The frame rails are integrally and sequentially formed along the length of the upper surface to form an outer window frame frame having a fitting groove formed along the length at the inner end, and one inner window frame rail is slidably fitted into the coupling groove formed on the upper surface. The outer window frame is inserted into the fitting groove of the outer window frame to form an inner insulating window frame made of a heat insulating material that blocks heat conduction provided at the front, and the outer window frame and the inner insulating window frame are combined to form a dual structure window frame. To form a heat insulating outer window, characterized in that configured to block heat conduction indoors and outdoors.

However, in the case of Patent Document 1, since the inner insulated window frame was exposed to the outside, there was a concern that the insulation function would deteriorate when damage occurred due to contact with foreign substances.

In addition, there is a possibility that the window frame rail and the inner window frame rail may be deformed by the load of the window frame.

In addition, there is a concern that the coupling end of the inner insulated window frame is disengaged from the fitting groove of the outer window frame due to an external force generated when the window frame is opened or closed.

In addition, since the outer window frame, which is heavier than the inner insulated window frame, occupied half of the window frame, the weight of the window frame was heavy.

Patent Document 1: Korean Registered Patent No. 10-0917865 (registered on September 10, 2009)

Therefore, the present invention improves the insulation function while not exposing the insulation material constituting the window frame to the outside unlike the prior art, prevents the rail from being deformed by the load of the window compared to the prior art, and prevents the window frame from being exposed to the outside due to external force generated when opening and closing the window. It is an object of the present invention to provide a heat insulation composite window in which the decomposition is prevented compared to the prior art and the weight of the window frame is lighter than before, and the insulation function is improved.

In order to achieve the above object, the present invention is installed in the form of a square frame on the wall of a building to form a penetrating space in the center, and the first and second rails having a closed inner space sequentially move the space from the outdoor to the indoor direction. a window frame formed on the facing side; Includes a pair of windows that are slidingly guided on the first and second rails to open and close the space, the first and second rails are formed on the side of the window frame facing the space, and fittings are formed on both sides facing the inside and outside, , A heat-insulating window frame made of a heat insulating material having a fitting groove formed on the outer surface of the fitting part and having a plurality of spaces formed therein; An outdoor window frame having a fitting groove into which the fitting part is fitted on a surface facing the room, and a fitting protrusion fitted into the fitting groove in the fitting groove; Provided is a heat insulation composite window with improved insulation function, characterized in that it includes an indoor window frame having a fitting groove into which a fitting part is inserted on a surface facing the outdoors, and a fitting protrusion formed in the fitting groove to be inserted into the fitting groove.

In the present invention, since the heat insulating window frame is installed between the outdoor window frame and the indoor window frame, the heat insulating window frame corresponding to the heat insulating material is not exposed to the outside, that is, in the indoor and outdoor directions.

That is, while preventing damage due to contact with foreign substances, there is an effect of preventing deterioration of the insulation function compared to the prior art.

In addition, there is an effect that the heat blocking window frame, not the indoor and outdoor window frame, is installed on the wall of the building with a large area.

In other words, the transfer of heat to the inside and outside through the window frame is prevented by the heat insulating window frame, thereby improving the insulation function.

Since the first and second rails have a closed inner space and increase bearing capacity, the present invention has an effect of preventing the first and second rails from being deformed by the load of the window compared to the prior art.

In the present invention, when opening and closing a window, friction occurs between the fitting part of the heat insulating window frame and the fitting groove of the indoor and outdoor window frames, and at the same time, friction occurs between the fitting groove of the heat insulating window frame and the fitting protrusion of the indoor and outdoor window frames. has the effect of

That is, there is an effect of increasing friction between the heat blocking window frame and the indoor and outdoor window frames compared to the prior art.

In other words, there is an effect of preventing the window frame from being disassembled by an external force generated when the window is opened or closed compared to the prior art.

In the present invention, since the heat insulating window frame, which is lighter in weight than the indoor and outdoor window frames, occupies most of the window frame, the weight of the window frame is lighter than before.

In addition, since a plurality of spaces are formed inside the heat blocking window frame, the weight of the window frame has an effect of being lighter.

Due to this, there is an effect that the movement and installation of the window frame is simple.

The present invention is a protruding part of a heat insulating window frame frame, and has an effect of improving the heat insulation function by increasing the heat insulation area while preventing air from moving indoors and outdoors through a gap between the window frame and the window.

The first, second and third sealing members of the present invention have an effect of improving the heat insulation function by preventing air from moving inside and outside through the gap between the window frame and the window.

The present invention has the effect of further increasing the heat insulation area of the window frame with the first, second, third, and fourth insulation materials, and further preventing air from moving indoors and outdoors through the gap between the window frame and the window.

That is, there is an effect of further improving the heat insulating function.

The present invention has the effect of preventing contact between first and second window frame frames, window closing frame frames, and rollers by using a heat shield connection member, a heat shield frame, a support bar, and a finishing cap.

That is, there is an effect of improving the insulation function by preventing heat from moving to and from the inside through the window.

In the present invention, the fitting protrusions of the first and second window frame frames are fitted into the fitting grooves of the heat blocking connecting member, and the fitting parts of the heat blocking connecting member and the first heat blocking frame are inserted into the fitting holes of the first and second window frame frames. Since the fitting protrusion is fitted, and the second fitting protrusion of the heat blocking frame is fitted into the second fitting groove and fitting groove of the first and second window frame frames, the first and second window frame frames and the heat blocking connecting member and heat blocking There is an effect of strengthening the coupling of the frame.

In addition, there is an effect of preventing air from entering between the first and second window frame frames, the heat blocking connection member, and the heat blocking frame.

The present invention has an effect that the heat shield connection member and the heat shield frame are not exposed to the outside from the window, that is, in the indoor and outdoor directions.

That is, while preventing damage due to contact with foreign substances, there is an effect of preventing deterioration of the insulation function.

In the present invention, since the support is supported on the protrusion of the heat shield connection member and the protrusion of the second window frame frame, the support has an effect of stably supporting the load of the glass.

The present invention has an effect of preventing foreign substances from entering the inside of the heat shielding frame with a closing cap when the space of the window frame is closed with a pair of windows.

Since the present invention blocks insects or the like from entering the room with an insect screen, there is an effect of ventilation by opening a window without worrying about insects or the like entering the room.

The present invention has an effect of preventing rainwater from entering the room because the inflowing rainwater flows outdoors by the inclined surface of the window frame.

1 is a front view of a heat-insulated composite window according to an embodiment of the present invention;
2 is a cross-sectional view of a heat-insulated composite window according to an embodiment of the present invention;
3 to 6 are partially enlarged views of a thermal insulation composite window according to an embodiment of the present invention;
7 is a cross-sectional view of an insulated composite window according to another embodiment of the present invention.

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

As shown in FIGS. 1 to 6, the insulated composite window 1000 according to the embodiment of the present invention is installed in the form of a square frame on the wall 1 of a building to form a through space 110 in the center, closed The first and second rails 121 and 122 having internal spaces 121a and 122a are formed on the surface facing the space 110 in order from the outdoor to the indoor direction.

In addition, the window frame 100 has first and second rails 121 and 122 protruding from the surface facing the space 110, and fitting parts 123 protruding from both indoor and outdoor surfaces, The fitting groove 124 is formed on the outer surface of the fitting part 123, and a heat insulating window frame 120 made of a heat insulating material having a plurality of spaces 125 formed therein is included.

Here, the heat shield window frame 120 is made of PVC (Polyvinyl chloride) material.

In addition, the fitting groove 124 is formed on the outer surface of the fitting part 123 so as to be horizontal with the wall 1 of the building.

In addition, the window frame 100 has a fitting groove 131 into which the fitting part 123 is inserted is formed on the surface facing the room, and the fitting protrusion 132 inserted into the fitting groove 124 is formed in the fitting groove 131. An outdoor window frame 130 is included.

Here, the outdoor window frame 130 is made of aluminum.

In addition, the fitting protrusion 132 protrudes from the deepest part of the fitting groove 131 toward the indoor direction.

In addition, the window frame 100 has a fitting groove 141 into which the fitting part 123 is fitted is formed on the surface facing the outdoors, and the fitting protrusion 142 fitted into the fitting groove 124 is formed in the fitting groove 141. An indoor window frame 140 is included.

Here, the indoor window frame 140 is made of aluminum.

In addition, the fitting protrusion 142 protrudes from the deepest part of the fitting groove 141 toward the outdoor direction.

In addition, the heat-insulated composite window 1000 includes a pair of windows 200 that are slidably guided to the first and second rails 121 and 122 to open and close the space 110 .

In addition, an insect screen rail 133 protrudes from the surface of the outdoor window frame 130 facing the space 110 .

Here, the insect screen rail 133 covers the edge of the window 200 seen from the outdoor direction.

In addition, the heat-insulated composite window 1000 includes an insect screen 300 provided with a roller slidingly guided to the insect screen rail 133.

In addition, a protruding portion 143 having a fitting groove 143a formed on an outer surface thereof protrudes from a surface of the indoor window frame 140 facing the space 110 .

Here, the protrusion 143 covers the edge of the window 200 seen from the indoor direction.

In addition, the heat-insulated composite window 1000 includes a first sealing member 500 that is inserted into the fitting groove 143a and closely adhered to the window 200 .

Here, the first sealing member 500 is made of mohair or gasket.

In addition, a protrusion 126 is protruded between the first and second rails 121 and 122 on the surface of the heat blocking window frame 120 facing the space 110 .

Here, the protrusion 126 is inserted between the pair of windows 200, and a space is formed therein.

In addition, fitting grooves 126a are formed on both sides of the protrusions 126 facing the pair of windows 200, respectively.

In addition, the heat-insulating composite window 1000 includes a second sealing member 510 that is inserted into the fitting groove 126a and closely adhered to the window 200 .

Here, the second sealing member 510 is made of mohair or gasket.

In addition, an inclined surface 150 is formed on the surface of the window frame 100 facing the space 110.

That is, the inclined surface 150 is formed on the window frame 100, that is, the heat blocking window frame 120, the outdoor window frame 130, and the indoor window frame 140 so that rainwater flows outdoors.

Here, the window frame 100 is formed with a rainwater drainage hole.

And, the window 200 is formed in the form of a square frame in which a space 211 is formed through the center, a first fitting groove 212 is formed on the surface facing the space 211, and a space 213 is formed therein. ) is formed, and one side of the side adjacent to the first fitting groove 212 is opened to include a first window frame frame 210 having a fitting hole 214 connected to the space 213.

Here, the first window frame frame 210 has a space not connected to the space 213 formed therein, and is made of aluminum.

In addition, the window 200 is formed in the form of a square frame in which a space 221 is formed through the center, and a protrusion 222 protrudes from the surface facing the space 221, and a space 223 is formed therein. The second window frame frame 220 is formed so that one side of the side adjacent to the protrusion 222 is open and the fitting hole 224 connected to the space 223 faces the fitting hole 214.

Here, the second window frame frame 220 has a space not connected to the space 223 formed therein, and is made of aluminum.

In addition, the window 200 has a fitting part 231 inserted into the fitting holes 214, 224 and the space 213, 223 protruding from both sides, and is formed on the side adjacent to the fitting part 231. The protruding portion 232 is formed to protrude, and a heat blocking connection member 230 made of a heat insulating material positioned between the first fitting groove 212 and the protruding portion 222 is included.

Here, the thermal insulation connecting member 230 is formed in a shape similar to 'c' and is made of a polystyrene material.

And, the window 200 includes a window closing frame frame 240 fitted into the first fitting groove 212 .

Here, the window closing frame frame 240 is made of aluminum.

In addition, the window 200 is installed between the first and second window frame frames 210 and 220, the heat blocking connection member 230, and the window closing frame frame 240 to create a space 211 and 221. A closing glass 250 is included.

Here, the glass 250 is installed between the first and second window frame frames 210 and 220, the heat shield connection member 230, and the window closing frame frame 240 through a backup member and silicone. .

In addition, the window 200 is inserted and installed between the first and second window frame frames 210 and 220 and the heat shield connection member 230 on the opposite side of the glass 250, and faces the window frame 100. a heat blocking frame 260 made of an insulating material with an open viewing surface; A roller 270 is inserted and installed inside the heat shield frame 260 and is guided to the first and second rails 121 and 122 .

Here, the heat blocking frame 260 is made of a polyamide material.

In addition, the heat shielding frame 260 and the roller 270 are installed by being fastened to the heat shielding connection member 230 with a fastening member such as a screw.

In addition, fitting grooves 261 are formed on both sides of the open inlet of the heat blocking frame 260 .

In addition, the heat-insulated composite window 1000 includes a third sealing member 520 inserted into the fitting groove 261 and brought into close contact with the first and second rails 121 and 122.

Here, the third sealing member 520 is made of mohair or gasket.

In addition, fitting protrusions 215 and 225 protrude from the spaces 213 and 223.

Here, the fitting protrusions 215 and 225 protrude from the spaces 213 and 223 so as to be horizontal with the wall 1 of the building.

In addition, fitting grooves 233 into which the fitting protrusions 215 and 225 are fitted are formed on the outer surface of the fitting part 231 .

And, like the fitting part 231, a first fitting protrusion 262 fitted into the fitting holes 214 and 224 is protruded from the outer surface of the heat blocking frame 260.

That is, the first fitting protrusions 262 are formed on both sides of the outer surface of the thermal insulation frame 260, respectively.

In addition, a second fitting groove 216 is formed on one side of the surface of the first window frame frame 210 located on the opposite side of the fitting hole 214, and a second window frame located on the opposite side of the fitting hole 224 On one side of the surface of the frame 220, a fitting groove 226 is formed.

In addition, a second fitting groove 216 and a second fitting protrusion 263 fitted into the fitting groove 226 protrude around the fitting groove 261 on the outer surface of the heat blocking frame 260 .

That is, the second fitting protrusions 263 are formed on both sides of the outer surface of the thermal insulation frame 260, respectively.

In addition, the window 200 includes a support 280 made of an insulating material supported by the protrusions 222 and 232 to support the glass 250 .

Here, the support 280 is formed in a 'b' shape and is made of a rubber material.

In addition, the window 200 includes a closing cap 290 made of a heat insulating material installed on the side of the window 200 to close the open entrance of the heat shielding frame 260 .

Here, the closing cap 290 is installed on one side adjacent to each other of the pair of windows 200 when the space 110 of the window frame 100 is closed with the pair of windows 200, and polyamide ( Polyamide) material.

In addition, on the outer surface of the closing cap 290, a fitting projection inserted into the fitting groove 261 in which the third sealing member 520 is not installed protrudes from the center, and the first and second windows facing the window frame 100 Fitting protrusions fitted into fitting grooves formed on the surfaces of the frame frames 210 and 220 protrude from both sides.

In addition, the window 200 includes an auxiliary insulation material made of an insulation material filling an empty space between the second window frame frame 220 and the support 280 .

And, as shown in FIG. 7, the heat insulation composite window 1000 according to another embodiment of the present invention includes a first insulation material 400 sandwiched between a first rail 121 and an insect screen rail 133 and ; a second insulating material 410 sandwiched between the second rail 122 and the protrusion 143; a third insulator 420 sandwiched between the first rail 121 and the protrusion 126; A fourth insulator 430 sandwiched between the second rail 122 and the protrusion 126 is included.

Here, the first, second, third, and fourth insulators 400, 410, 420, and 430 are made of polystyrene.

The operation of the present invention configured as described above is described as follows.

1 to 6, in the heat insulating composite window 1000 according to the embodiment of the present invention, the fitting part 123 of the heat blocking window frame 120 is inserted into the fitting groove of the outdoor window frame 130. 131 and the fitting groove 141 of the indoor window frame frame 140, respectively, to form the window frame 100, and then install the window frame 100 on the wall 1 of the building.

Here, the fitting protrusion 132 of the outdoor window frame 130 and the fitting protrusion 142 of the indoor window frame 140 are inserted into the fitting groove 124 of the heat blocking window frame 120, respectively.

In addition, a through space 110 is formed in the center of the window frame 100 .

In addition, the heat blocking window frame 120 is not exposed to the outside by the outdoor window frame 130 and the indoor window frame 140 .

Then, the second sealing member 510 is inserted into the fitting groove 126a of the protruding part 126 while inserting the first sealing member 500 into the fitting groove 143a of the protruding part 143 .

Then, the fitting part 231 of the heat blocking connecting member 230 is connected to the fitting hole 214 and the space 213 of the first window frame frame 210 and the fitting hole of the second window frame frame 220 ( 224) and space 223, respectively.

Here, the fitting protrusions 215 of the first window frame frame 210 and the fitting protrusions 225 of the second window frame frame 220 are inserted into the fitting grooves 233 of the heat blocking connecting member 230, respectively. .

In addition, a through space 211, 221 is formed in the center of the first and second window frame frames 210, 220.

Then, after the support 280 is installed to be supported by the protrusions 222 and 232, the window closing frame frame 240 is inserted into the first fitting groove 212 of the first window frame frame 210.

In addition, the glass 250 is installed between the first and second window frame frames 210 and 220, the heat shield connection member 230, and the window closing frame frame 240 through a backup member and silicone. .

Here, the spaces 211 and 221 are closed by the glass 250, and the glass 250 is supported by the support 280 supported by the protrusions 222 and 232.

In addition, a heat blocking frame 260 is inserted between the first and second window frame frames 210 and 220 and the heat blocking connection member 230 on the opposite side of the glass 250 to pass through the fastening member. However, it is installed by fastening to the connecting member 230.

Here, the first fitting protrusion 262 of the heat blocking frame 260 is fitted into the fitting holes 214 and 224 together with the fitting part 231, respectively, and the second fitting protrusion of the heat blocking frame 260 (263) are fitted into the second fitting groove 216 and the fitting groove 226, respectively.

In addition, after the roller 270 is inserted into the inside through the open entrance of the heat shield frame 260, the roller 270 is connected to the heat shield frame 260 and the heat shield connecting member 230 through a fastening member. fasten and install

In addition, the third sealing member 520 is inserted into the fitting groove 261 of the heat shielding frame 260, and the closing cap 290 is used as a pair of windows 200 in the space 110 of the window frame 100 When closed, it is installed on one side of the pair of windows 200 located next to each other to form the window 200.

Here, the closing cap 290 closes the open entrance of the heat blocking frame 260 formed on the side of the window 200 .

In addition, while the rollers 270 of the pair of windows 200 are installed to be slidingly guided to the first and second rails 121 and 122, the insect screen 300 is installed to be slidingly guided to the insect screen rail 133 .

That is, the heat-insulated composite window 1000 according to the embodiment of the present invention is installed on the wall 1 of the building.

Here, the first and second sealing members 500 and 510 are in close contact with the window 200, and the third sealing member 520 is in close contact with the first and second rails 121 and 122.

Then, the heat blocking window frame 120 prevents heat from moving inside and outside through the window frame 100 .

In addition, the heat blocking connection member 230, the heat blocking frame 260, the support 280, and the closing cap 290 prevent heat from moving inside and outside through the window 200.

In addition, the first and second rails 121 and 122 having the closed inner spaces 121a and 122a support the load of the window 200 .

In addition, the support 280 supported by the protrusions 222 and 232 supports the load of the glass 250 .

In addition, the first, second, and third sealing members 500, 510, and 520 prevent air from moving indoors and outdoors through a space between the window frame 100 and the window 200.

In addition, the insect screen 300 prevents insects such as mosquitoes and moths from entering the room.

And, when rainwater flows in between the window frame 100 and the window 200, the rainwater flows outdoors by the inclined surface 150.

And, as shown in FIG. 7, the heat insulation composite window 1000 according to another embodiment of the present invention while inserting the first insulation material 400 between the first rail 121 and the insect screen rail 133 , The second insulating material 410 is inserted between the second rail 122 and the protrusion 143.

Then, while the third insulator 420 is sandwiched between the first rail 121 and the protrusion 126, the fourth insulator 430 is inserted between the second rail 122 and the protrusion 126. .

Then, the first, second, third, and fourth insulators 400, 410, 420, and 430 further prevent heat from moving inside and outside through the window frame 100, and the window frame 100 and Through the space between the windows 200, air is further prevented from moving indoors and outdoors.

In the above, the present invention has been shown and described as specific preferred embodiments, but the present invention is not limited to the above embodiments and is common knowledge in the art to which the present invention belongs within the scope of not departing from the spirit of the present invention. Various changes and modifications will be possible by the person who has it.

100: window frame 110: space
120: heat blocking window frame 121: first rail
121a: inner space 122: second rail
122a: inner space 123: fitting part
124: fitting groove 125: space
126: protrusion 126a: fitting groove
130: outdoor window frame 131: fitting groove
132: fitting protrusion 133: screen rail
140: indoor window frame 141: fitting groove
142: fitting protrusion 143: protrusion
143a: fitting groove 150: inclined surface
200: window 210: first window frame frame
211: space 212: first fitting groove
213: space 214: fitting hole
215: fitting protrusion 216: second fitting groove
220: second window frame frame 221: space
222: protrusion 223: space
224: fitting hole 225: fitting protrusion
226: fitting groove 230: heat blocking connection member
231: fitting part 232: protrusion part
233: fitting groove 240: window closing frame frame
250: glass 260: heat blocking frame
261: fitting groove 262: first fitting protrusion
263: second fitting protrusion 270: roller
280: support 290: closing cap
300: insect screen 400: first insulation
410: second insulation 420: third insulation
430: 4th insulating material 500: 1st sealing member
510: second sealing member 520: third sealing member
1000: Insulation composite window

Claims (17)

It is installed in the form of a square frame on the wall (1) of the building to form a through space 110 in the center, and the first and second rails 121 and 122 with closed internal spaces 121a and 122a are installed outdoors. a window frame 100 formed on a surface facing the space 110 sequentially in an indoor direction;
Including a pair of windows 200 that are slidingly guided to the first and second rails 121 and 122 to open and close the space 110,
The window frame 100 has first and second rails 121 and 122 formed on the surface facing the space 110, and fitting parts 123 formed on both surfaces facing the inside and outside, and the fitting part ( 123), a heat blocking window frame 120 made of a heat insulating material having a fitting groove 124 formed on the outer surface and having a plurality of spaces 125 formed therein;
The fitting groove 131 into which the fitting part 123 is inserted is formed on the surface facing the room, and the fitting protrusion 132 inserted into the fitting groove 124 is formed in the fitting groove 131. 130) and;
The fitting groove 141 into which the fitting part 123 is inserted is formed on the surface facing the outdoors, and the fitting protrusion 142 inserted into the fitting groove 124 is formed in the fitting groove 141. 140),
An insect screen rail 133 is formed on the surface of the outdoor window frame 130 facing the space 110,
Including an insect screen 300 sliding and guided to the insect screen rail 133,
On the surface of the indoor window frame 140 facing the space 110, a protrusion 143 is formed with a fitting groove 143a formed on the outer surface,
It includes a first sealing member 500 inserted into the fitting groove 143a and in close contact with the window 200,
A protrusion 126 is formed between the first and second rails 121 and 122 on the surface of the heat blocking window frame 120 facing the space 110,
Fitting grooves 126a are formed on both sides of the protrusions 126 facing the pair of windows 200, respectively,
It includes a second sealing member 510 inserted into the fitting groove 126a and in close contact with the window 200,
The window 200 is formed in the form of a square frame in which a through space 211 is formed in the center, a first fitting groove 212 is formed on a surface facing the space 211, and a space 213 is formed therein. a first window frame frame 210 formed with a fitting hole 214 connected to a space 213 by opening one side of a side adjacent to the first fitting groove 212;
It is formed in the form of a square frame with a space 221 passing through the center, a protrusion 222 is formed on the surface facing the space 221, a space 223 is formed inside, and the protrusion 222 a second window frame frame 220 formed so that one side of the adjacent side is open and the fitting hole 224 connected to the space 223 faces the fitting hole 214;
Fitting parts 231 fitted into the fitting holes 214, 224 and spaces 213, 223 are formed on both sides, and protrusions 232 are formed on surfaces adjacent to the fitting parts 231, 1 a thermal insulation connection member 230 made of a heat insulating material positioned between the fitting groove 212 and the protrusion 222;
a window closing frame frame 240 fitted into the first fitting groove 212;
The glass 250 installed between the first and second window frame frames 210 and 220, the heat blocking connection member 230, and the window closing frame frame 240 to close the spaces 211 and 221, and ;
It is inserted and installed between the first and second window frame frames 210 and 220 and the heat blocking connecting member 230 on the opposite side of the glass 250, and the surface facing the window frame 100 is an open insulating material. a thermal insulation frame 260 made of;
It includes rollers 270 inserted and installed inside the heat shield frame 260 and guided to the first and second rails 121 and 122,
Fitting grooves 261 are formed on both sides of the open entrance of the heat shielding frame 260,
It includes a third sealing member 520 inserted into the fitting groove 261 and in close contact with the first and second rails 121 and 122,
Fitting protrusions 215 and 225 are formed in the spaces 213 and 223,
On the outer surface of the fitting part 231, fitting protrusions 215 and 225 are fitted with fitting grooves 233,
A first fitting protrusion 262 inserted into the fitting holes 214 and 224 is formed on the outer surface of the heat blocking frame 260, like the fitting part 231,
A second fitting groove 216 is formed on one side of the surface of the first window frame frame 210 located on the opposite side of the fitting hole 214,
An fitting groove 226 is formed on one side of the surface of the second window frame frame 220 located on the opposite side of the fitting hole 224,
A second fitting groove 216 around the fitting groove 261 and a second fitting protrusion 263 fitted into the fitting groove 226 are formed on the outer surface of the heat blocking frame 260,
The window 200 includes a support 280 made of an insulating material supported by the protrusions 222 and 232 to support the glass 250,
It includes a first insulating material 400 sandwiched between the first rail 121 and the insect screen rail 133,
It includes a second insulating material 410 sandwiched between the second rail 122 and the protrusion 143,
It includes a third insulating material 420 sandwiched between the first rail 121 and the protrusion 126,
It includes a fourth insulator 430 sandwiched between the second rail 122 and the protrusion 126,
An inclined surface 150 is formed on the surface of the window frame 100 facing the space 110,
The window 200 includes a closing cap 290 made of a heat insulating material installed on the side of the window 200 to close the open entrance of the heat shield frame 260,
The innermost surface of the fitting groove 131 is formed to be close to the insect screen rail 133,
A fitting protrusion 132 is formed on the innermost surface of the fitting groove 131,
The innermost surface of the fitting groove 141 is formed close to the protrusion 143,
Insulation composite window with improved insulation function, characterized in that the fitting protrusion 142 is formed on the innermost surface of the fitting groove 141. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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