KR102161499B1 - Thermal Insulation - Google Patents

Abstract

According to one aspect of the present invention, a thermal insulating window sash includes: a pair of horizontal frames; a pair of vertical frames formed to be perpendicular to the pair of horizontal frames; glass coupled and fixed to the horizontal frames and the vertical frames; a thermal insulating material maximizing an effect of heat bridge prevention by being coupled to the horizontal frames and the vertical frames so as to be positioned on a straight line with the glass; a connection bracket coupled to the thermal insulating material in an insertion manner to be coupled to a sash roller; and a corner bracket inserted into the horizontal frames and the vertical frames at corner portions where the horizontal frames and the vertical frames come in contact with each other and allowing the horizontal frames and the vertical frames to be integrated by being coupled to the thermal insulating material in the insertion manner so as to be positioned in parallel with the connection bracket.

Description

Thermal Insulation}

The present invention relates to an insulated window panel, and more particularly, to an insulation window panel capable of maximizing the heat bridge blocking effect and assembling property of the window panel forming the miseogi window.

In general, as residential and business buildings are becoming more advanced, window systems are also improving airtightness, insulation, and sound insulation effects in various ways. Window refers to a window and a door, and is used for indoor ventilation or indoor ventilation while blocking wind by isolating indoors and outdoors. If you look closely at its structure, it consists of a window frame that forms a frame and a window frame that is mounted inside the frame.

Depending on the method of opening, the windows are divided into an opening type, a sliding type, or a fixed type.

Here, the Miseogi window consists of heating the corresponding ends of the window frame to be joined so as to couple the obliquely cut ends to each other, bonding the two heated ends, and then flatly cutting the protruding adhesive portion by heating and pressing. .

The adhesive structure of the frame using adhesive is to apply adhesive to the corresponding ends of the window frame to be joined so as to join the both ends of the inclinedly cut window frame, and after bonding the two ends to which the adhesive is applied, until they are completely attached to each other. Time passes. In addition, the adhesive protruding outside the adhesive surface is cut to keep the outer surface of the joint smooth.

Such thermal bonding method or attachment method using an adhesive has a problem that the working process is complicated, delaying the working time and increasing labor costs, and not only spoiling the aesthetics of the window due to the unclean attachment part, and the adhesive part easily falling off. .

In addition, the metal window has a problem that the insulating material is inserted in order to improve the weak insulating performance, but because the size of the insulating material is limited due to the fixing method of the roller and the glass load, the insulating performance is inevitably weak compared to the synthetic resin material.

Korean Patent Registration No. 10-0406678 (2003.12.01)

The present invention has been conceived to solve the above problems, and an object of the present invention is to provide an insulating window that can maximize the insulation effect of the window.

In addition, it is to provide an insulation window that can improve the assembly convenience of the window.

Insulated window panes according to an embodiment of the present invention for achieving the above object include a pair of horizontal frames, a pair of vertical frames forming perpendicular to the pair of horizontal frames, the horizontal frame and the vertical A glass that is fixed by being combined with a frame, an insulating material that maximizes the effect of blocking heat bridges by combining with the horizontal frame and the vertical frame so as to be positioned in a straight line with the glass, and a connection that is combined with the heat-insulating material in a fitting way The bracket and the horizontal frame and the vertical frame are inserted into the horizontal frame and the vertical frame at a corner where the vertical frame is butted, and are coupled to the insulating material in a fitting manner so that the horizontal frame and the vertical frame are positioned side by side with the connection bracket, thereby forming the horizontal frame and the vertical frame. A corner bracket to be integrated may be provided.

The insulating material includes a first body positioned in a straight line with the glass, a pair of first insulating protrusions extending from the first body and coupled to the horizontal frame or vertical frame, and from the first body toward the corner bracket. A pair of extending second insulating protrusions and a first coupling groove formed between the pair of second insulating protrusions and into which a part of the corner bracket and a part of the connection bracket are inserted may be provided.

The connection bracket has a second body positioned in a straight line with the insulating material and abutted with the second insulating protrusion, and a first body extending from one surface of the second body and inserted into the first coupling groove to abut the first body. A bracket protrusion, a pair of second bracket protrusions extending from the other surface of the second body, a second coupling groove formed between the pair of second bracket protrusions to insert the door car, and the second body and the second 2 A pair of third bracket protrusions may be provided in combination with the bracket protrusions to increase structural rigidity of the corner bracket.

The insulating material includes a first body positioned in a straight line with the glass, a pair of first insulating protrusions extending from the first body and coupled to the horizontal frame or vertical frame, and from the first body toward the corner bracket. A pair of extending second insulating protrusions, a first coupling groove formed between the pair of second insulating protrusions and into which a part of the corner bracket is inserted, and the first coupling groove in the pair of second insulating protrusions A pair of third insulating protrusions extending in the direction may be provided.

The connection bracket is positioned in a straight line with the insulating material and abutted with the second insulating protrusion, and extends from one surface of the second body and is inserted into the first coupling groove to provide the first body and the third insulating material. A first bracket protrusion abutting the protrusion, a pair of second bracket protrusions extending from the other surface of the second body, and a second coupling groove formed between the pair of second bracket protrusions to insert the door car may be provided. have.

The insulating material includes a first body positioned in a straight line with the glass, a pair of first insulating protrusions extending from the first body and coupled to the horizontal frame or vertical frame, and from the first body toward the corner bracket. A pair of extending second insulating protrusions, a first coupling groove formed between the pair of second insulating protrusions and into which a part of the corner bracket is inserted, and the first coupling groove in the pair of second insulating protrusions A pair of third insulating protrusions extending in a direction, and a fourth insulating protrusion extending from the first body in the direction of the corner bracket may be provided in the first coupling groove.

The connection bracket is positioned in a straight line with the insulating material and abutted with the second insulating protrusion, and extends from one surface of the second body and is inserted into the first coupling groove to provide the first body and the third insulating material. A first bracket protrusion abutting the protrusion, a second bracket protrusion extending from the first bracket protrusion and abutting the fourth insulating protrusion, a pair of third bracket protrusions extending from the other surface of the second body, and the pair of first 3 It is formed between the bracket protrusion may be provided with a second coupling groove into which the door car is inserted.

The corner bracket includes a horizontal body inserted into the horizontal frame, a vertical body extending from the horizontal body and inserted into the vertical frame so as to form perpendicular to the horizontal body, and one surface of the horizontal body and one surface of the vertical body. It may be provided with an insertion protrusion inserted into the first coupling groove.

According to the insulation window pane according to the present invention, it is possible to maximize the insulation effect of the window pane.

In addition, it is possible to improve the assembly convenience of the window.

1 is a view showing an insulating window panel according to an embodiment of the present invention.
Figure 2 is a perspective view showing a portion of the insulation window shown in Figure 1;
Figure 3 is a cross-sectional view showing the insulation window shown in Figure 1;
4 and 5 are cross-sectional views showing a modified example of the insulating window panel shown in FIG. 3.

Hereinafter, with reference to the accompanying drawings will be described in detail for the insulating window panel according to an embodiment of the present invention.

1 is a view showing an insulated window panel according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a part of the insulation window panel shown in FIG. 1.

1 and 2, the insulating window panel 10 according to an embodiment of the present invention includes a horizontal frame 11, a vertical frame 12, glass 13, an insulating material 100, a connection bracket ( 200), it may be provided with a corner bracket (300) and a door roller (14).

The horizontal frame 11 and the vertical frame 12 determine the overall frame of the insulated window panel 10, and are provided as a pair, respectively, and may form perpendicular to each other.

The glass 13 is combined with the horizontal frame 11 and the vertical frame 12 and fixed to the horizontal frame 11 and vertical frame 12, and various types such as double or triple windows according to the installation environment of the insulating window 10 It can be equipped with.

The insulating material 100 is combined with the horizontal frame 11 and the vertical frame 12, like the glass 13, and may be located inside the horizontal frame 11 and the vertical frame 12.

Here, the heat insulating material 100 may be provided by combining the horizontal frame 11 and the vertical frame 12 to be positioned in a straight line with the glass 13 when combined.

Accordingly, it is possible to maximize the heat bridge blocking effect of the insulating door by preventing the occurrence of a thermal bridge phenomenon due to the gap between the horizontal frame 11 and the vertical frame 12 and the glass 13.

The connection bracket 200 is coupled with the heat insulating material 100 by a fitting method, and the door car 14 may also be coupled with the connection bracket 200 by a fitting method.

In this way, by coupling the connection bracket 200 to the heat insulating material 100 through a fitting method, and by coupling the door car 14 to the connection bracket 200, the coupling force can be increased, and an effect of being easily installed can be exhibited.

The corner bracket 300 is provided at a corner portion where the horizontal frame 11 and the vertical frame 12 are butted, that is, a portion corresponding to the corner of the insulating window panel 10, respectively, and the horizontal frame 11 and the vertical frame 12 ) Is inserted into the horizontal frame 11 and the vertical frame 12 by connecting the horizontal frame 11 and the vertical frame 12 can play a role of integrating.

To this end, the corner bracket 300 extends from the horizontal body 310 so as to form perpendicular to the horizontal body 310 and the horizontal body 310 inserted into the horizontal frame 11 and is inserted into the vertical frame 12. The body 320 may be provided.

The horizontal body 310 and the vertical body 320 may be provided in the form of an integral'a' shape, and an insertion protrusion 330 may be provided on one surface of the horizontal body 310 and one surface of the vertical body 320.

The insertion protrusion 330 is provided on one side of the horizontal body 310 and one side of the vertical body 320 and is inserted into the first coupling groove 100a to be described later, so that the corner bracket 300 is fitted with the insulating material 100. Can be combined through.

Accordingly, by combining the corner bracket 300 with the horizontal frame 11 and the vertical frame 12 as well as the heat insulating material 100, the effect of increasing the bonding force between the horizontal frame 11 and the vertical frame 12 may be exhibited.

The door car 14 may be combined with the insulating material 100 provided on the horizontal frame 11 located at the bottom of the insulating window 10 so that the insulating window 10 slides in the window frame (not shown).

The following will be described in detail for the heat insulating material 100 and the connection bracket 300 of the insulating window pane 10 according to an embodiment of the present invention. In the following description, only parts different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

Figure 3 is a cross-sectional view showing the insulating window shown in Figure 1;

1 to 3, the insulating window panel 10 according to an embodiment of the present invention is a pair of horizontal frames 11, a pair of horizontal frames 11 and a pair of vertical frames forming a vertical (12), the horizontal frame (11) and the vertical frame (12) and the glass (13) that is fixed in combination with the horizontal frame (11) and the vertical frame (12) to be positioned in a straight line to Insulation material 100 that maximizes the effect of blocking, the connection bracket 200 that is combined with the door roller 14 by combining with the insulation material 100 in a fitting manner, the corner part where the horizontal frame 11 and the vertical frame 12 are butted The corner is inserted into the horizontal frame 11 and the vertical frame 12 of the, and combined with the insulating material 100 in a fitting manner so as to be positioned parallel to the connection bracket 200 to integrate the horizontal frame 11 and the vertical frame 12 Bracket 300 may be provided.

In addition, the insulating material 100 may include a first body 110, a first insulating protrusion 120, a second insulating protrusion 130, and a first coupling groove 100a.

The first body 110 is positioned in a straight line with the glass 13 and may have an empty space (unsigned) therein.

The first insulating protrusions 120 are formed of a plurality of maintaining a certain distance from each other, are provided as a pair and extend in a direction corresponding to each other from the first body 110, thereby being combined with the horizontal frame 11 or the vertical frame 12 can do.

The second insulating protrusion 130 may form a pair and may be provided in a form extending from the first body 110 in the direction of the connection bracket 200.

Here, the pair of second insulating protrusions 130 may be provided in a state that maintains a predetermined distance from each other so that a first coupling groove 100a may be formed between the pair of second insulating protrusions 130.

A part of the corner bracket 300 is inserted into the first coupling groove 100a, so that the insulating material 100 and the connection bracket 200 may be coupled in a fitting manner.

Meanwhile, the connection bracket 200 may include a second body 210, a first bracket protrusion 220, a second bracket protrusion 230, a second defect groove 200a, and a third bracket protrusion 240. have.

The second body 210 may be positioned in a straight line with the heat insulating material 100 so that one surface thereof may be abutted with the second insulating protrusion 130.

The first bracket protrusion 220 extends from one surface of the second body 210 and may be inserted into the first coupling groove 100a of the insulating material 100 to be abutted with the first body 110.

In this way, as the first bracket protrusion 220 of the connection bracket 200 is inserted into the first coupling groove 100a of the insulation material 100, the heat insulation material 100 and the connection bracket 200 are coupled to each other and the horizontal frame 11 ) And the vertical frame 12 can exhibit the effect of increasing the bonding force.

The second bracket protrusions 230 form a pair, and may be provided to extend in a direction corresponding to the other surface of the second body 210, that is, the first bracket protrusion 220.

Here, the pair of second bracket protrusions 230 may be provided to maintain a predetermined distance from each other, and a second defect groove 200a may be formed between the pair of second bracket protrusions 230.

The door car 14 is inserted into the second defect groove 200a, so that the connection bracket 200 and the door car 14 may be coupled in a fitting manner.

Accordingly, it is possible to increase the coupling force between the connection bracket 200 and the door car 14, and when the door car 14 is coupled to the connection bracket 200, it is easily removed through a pair of second bracket protrusions 230. 2 Since it can be located in the defect groove (200a), it is possible to exert the effect of easily installing the door car 14 to the connection bracket 200.

The third bracket protrusion 240 forms a pair and may be coupled to the second body 210 and the second bracket protrusion 230.

The third bracket protrusion 240 coupled with the second body 210 and the second bracket protrusion 230 supports the second body 210 and at the same time serves to prevent the flow of the second bracket. It can exert an effect of increasing structural rigidity.

Next, a modified example of the insulating material 100 and the connection bracket 200 mentioned above will be described. In the following description, only parts different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

4 is a cross-sectional view showing a modified example of the insulating window panel shown in FIG. 3.

1 to 4, the insulating window panel 10 according to an embodiment of the present invention is a pair of horizontal frames 11, a pair of horizontal frames 11 and a pair of vertical frames forming a vertical (12), the horizontal frame (11) and the vertical frame (12) and the glass (13) that is fixed in combination with the horizontal frame (11) and the vertical frame (12) to be positioned in a straight line to Insulation material 100 that maximizes the effect of blocking, the connection bracket 200 that is combined with the door roller 14 by combining with the insulation material 100 in a fitting manner, the corner part where the horizontal frame 11 and the vertical frame 12 are butted The corner is inserted into the horizontal frame 11 and the vertical frame 12 of the, and combined with the insulating material 100 in a fitting manner so as to be positioned parallel to the connection bracket 200 to integrate the horizontal frame 11 and the vertical frame 12 Bracket 300 may be provided.

In addition, the insulating material 100 may include a first body 110, a first insulating protrusion 120, a second insulating protrusion 130, a third insulating protrusion 140, and a first coupling groove 100a.

The first body 110 is positioned in a straight line with the glass 13 and may have an empty space (unsigned) therein.

The first insulating protrusions 120 are formed of a plurality of maintaining a certain distance from each other, are provided as a pair and extend in a direction corresponding to each other from the first body 110, thereby being combined with the horizontal frame 11 or the vertical frame 12 can do.

The second insulating protrusions 130 form a pair and may be provided in a form extending from the first body 110 in the direction of the connection bracket 200, respectively.

Here, the pair of second insulating protrusions 130 may be provided in a state that maintains a predetermined distance from each other so that a first coupling groove 100a may be formed between the pair of second insulating protrusions 130.

A part of the connection bracket 200 is inserted into the first coupling groove 100a, so that the heat insulating material 100 and the connection bracket 200 may be coupled in a fitting manner.

The third insulating protrusions 140 form a pair and may be provided in a form extending from the pair of second insulating protrusions 130 in the direction of the first coupling groove 100a.

Meanwhile, the connection bracket 200 may include a second body 210, a first bracket protrusion 220, a second bracket protrusion 230, and a second defect groove 200a.

The second body 210 may be positioned in a straight line with the heat insulating material 100 so that one surface thereof may be abutted with the second insulating protrusion 130.

The first bracket protrusion 220 extends from one surface of the second body 210 and is inserted into the first coupling groove 100a of the insulating material 100 to face the first body 110 and the third insulating protrusion 140. I can lose.

Here, when the first bracket protrusion 220 is inserted into the first coupling groove 100a, a pair of third insulating protrusions 140 connects the first bracket protrusion 220 to the center of the first coupling groove 100a. By serving as a pusher it is possible to increase the bonding force between the heat insulating material 100 and the connection bracket 200.

In this way, as the first bracket protrusion 220 of the connection bracket 200 is inserted into the first coupling groove 100a of the insulation material 100, the heat insulation material 100 and the connection bracket 200 are coupled to each other and the horizontal frame 11 ) And the vertical frame 12 can exhibit the effect of increasing the bonding force.

The second bracket protrusions 230 form a pair, and may be provided to extend in a direction corresponding to the other surface of the second body 210, that is, the first bracket protrusion 220.

Here, the pair of second bracket protrusions 230 may be provided to maintain a predetermined distance from each other, and a second defect groove 200a may be formed between the pair of second bracket protrusions 230.

The door car 14 is inserted into the second defect groove 200a, so that the connection bracket 200 and the door car 14 may be coupled in a fitting manner.

Accordingly, it is possible to increase the coupling force between the connection bracket 200 and the door car 14, and when the door car 14 is coupled to the connection bracket 200, it is easily removed through a pair of second bracket protrusions 230. 2 Since it can be located in the defect groove (200a), it is possible to exert the effect of easily installing the door car 14 to the connection bracket 200.

Next, another modified example of the insulating material 100 and the connection bracket 200 mentioned above will be described. In the following description, only parts different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar parts will be omitted.

5 is a cross-sectional view showing a modified example of the insulation window shown in FIG. 3.

1 to 5, the insulating window panel 10 according to an embodiment of the present invention includes a pair of horizontal frames 11, a pair of horizontal frames 11 and a pair of vertical frames forming a vertical shape. (12), the horizontal frame (11) and the vertical frame (12) and the glass (13) that is fixed in combination with the horizontal frame (11) and the vertical frame (12) to be positioned in a straight line to Insulation material 100 that maximizes the effect of blocking, the connection bracket 200 that is combined with the door roller 14 by combining with the insulation material 100 in a fitting manner, the corner part where the horizontal frame 11 and the vertical frame 12 are butted The corner is inserted into the horizontal frame 11 and the vertical frame 12 of the, and combined with the insulating material 100 in a fitting manner so as to be positioned parallel to the connection bracket 200 to integrate the horizontal frame 11 and the vertical frame 12 Bracket 300 may be provided.

And the insulating material 100 includes a first body 110, a first insulating protrusion 120, a second insulating protrusion 130, a third insulating protrusion 140, a fourth insulating protrusion 150, and a first coupling groove ( 100a) may be provided.

The first body 110 is positioned in a straight line with the glass 13 and may have an empty space (unsigned) therein.

The first insulating protrusions 120 are formed of a plurality of maintaining a certain distance from each other, are provided as a pair and extend in a direction corresponding to each other from the first body 110, thereby being combined with the horizontal frame 11 or the vertical frame 12 can do.

The second insulating protrusions 130 form a pair and may be provided in a form extending from the first body 110 in the direction of the connection bracket 200, respectively.

Here, the pair of second insulating protrusions 130 may be provided in a state that maintains a predetermined distance from each other so that a first coupling groove 100a may be formed between the pair of second insulating protrusions 130.

A part of the corner bracket 300 is inserted into the first coupling groove 100a, so that the insulating material 100 and the connection bracket 200 may be coupled in a fitting manner.

The third insulating protrusions 140 form a pair and may be provided in a form extending from the pair of second insulating protrusions 130 in the direction of the first coupling groove 100a.

The fourth insulating protrusion 150 may extend from the first body 110 in the direction of the connection bracket 200 to be positioned in the first coupling groove 100a.

Meanwhile, the connection bracket 200 may include a second body 210, a first bracket protrusion 220, a second bracket protrusion 230, a third bracket protrusion 240, and a second defect groove 200a. have.

The second body 210 may be positioned in a straight line with the heat insulating material 100 so that one surface thereof may be abutted with the second insulating protrusion 130.

The first bracket protrusion 220 extends from one surface of the second body 210 and is inserted into the first coupling groove 100a of the insulating material 100 to face the first body 110 and the third insulating protrusion 140. I can lose.

Here, when the first bracket protrusion 220 is inserted into the first coupling groove 100a, a pair of third insulating protrusions 140 connects the first bracket protrusion 220 to the center of the first coupling groove 100a. By serving as a pusher it is possible to increase the bonding force between the heat insulating material 100 and the connection bracket 200.

In this way, as the first bracket protrusion 220 of the connection bracket 200 is inserted into the first coupling groove 100a of the insulation material 100, the heat insulation material 100 and the connection bracket 200 are coupled to each other and the horizontal frame 11 ) And the vertical frame 12 can exhibit the effect of increasing the bonding force.

The second bracket protrusions 230 form a pair, and may extend from the first bracket protrusion 220 to the fourth insulating protrusion 150 to be abutted with the fourth insulating protrusion 150.

Here, the second bracket protrusion 230 serves to push the fourth insulating protrusion 150 from both sides, thereby increasing the bonding force between the heat insulating material 100 and the connection bracket 200.

In this way, as the first bracket protrusion 220 of the connection bracket 200 is inserted into the first coupling groove 100a of the insulation material 100, the heat insulation material 100 and the connection bracket 200 are coupled to each other and the horizontal frame 11 ) And the vertical frame 12 can exhibit the effect of increasing the bonding force.

The third bracket protrusions 240 form a pair, and may be provided to extend in a direction corresponding to the other surface of the second body 210, that is, the first bracket protrusion 220.

Here, the pair of third bracket protrusions 240 may be provided to maintain a predetermined distance from each other, so that a second defect groove 200a may be formed between the pair of third bracket protrusions 240.

The door car 14 is inserted into the second defect groove 200a, so that the connection bracket 200 and the door car 14 may be coupled in a fitting manner.

Accordingly, it is possible to increase the coupling force between the connection bracket 200 and the door car 14, and when the door car 14 is coupled to the corner bracket 300, it is easily removed through a pair of third bracket protrusions 240. 2 Since it can be located in the defect groove (200a), it is possible to exert the effect of easily installing the door car 14 to the connection bracket 200.

In the above, the insulating window panel according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily propose other embodiments by adding, changing, deleting, adding, etc., components within the scope of the same idea, but this also falls within the scope of the present invention will be.

10: insulated window panel 11: horizontal frame
12: vertical frame 13: glass
14: door car 100: insulation
100a: first coupling groove 110: first body
120: first insulating protrusion 130: second insulating protrusion
140: third insulating protrusion 150: fourth insulating protrusion
200: connection bracket 200a: second coupling groove
210: second body 220: first bracket protrusion
230: second bracket protrusion 240: third bracket protrusion
300: corner bracket 310: horizontal body
320: vertical body 330: insertion protrusion

Claims (8)

A pair of horizontal frames,
A pair of vertical frames forming perpendicular to the pair of horizontal frames,
Glass that is fixed in combination with the horizontal frame and the vertical frame,
Insulation material for maximizing the effect of blocking thermal bridges by combining with the horizontal frame and the vertical frame to be positioned in a straight line with the glass,
A connecting bracket that is coupled with the heat insulator and fitted with a door roller,
A corner that is inserted into the horizontal frame and the vertical frame at a corner portion where the horizontal frame and the vertical frame are abutted, and is coupled to the insulating material in a fitting manner so as to be positioned parallel to the connection bracket to integrate the horizontal frame and the vertical frame Equipped with a bracket,
The insulating material includes a first body positioned in a straight line with the glass, a pair of first insulating protrusions extending from the first body and coupled to the horizontal frame or vertical frame, and from the first body toward the corner bracket. An insulating window panel comprising: a pair of extending second insulating protrusions, and a first coupling groove formed between the pair of second insulating protrusions and into which a part of the corner bracket and a part of the connection bracket are inserted.
delete The method of claim 1,
The connection bracket is positioned in a straight line with the insulating material and a second body that is abutted with the second insulating protrusion,
A first bracket protrusion extending from one surface of the second body and inserted into the first coupling groove to abut the first body,
A pair of second bracket protrusions extending from the other surface of the second body,
A second coupling groove formed between the pair of second bracket protrusions into which the door car is inserted,
Insulated window panes comprising a pair of third bracket protrusions coupled with the second body and the second bracket protrusion to increase structural rigidity of the corner bracket.
delete delete delete delete The method of claim 3,
The corner bracket and a horizontal body inserted into the horizontal frame,
A vertical body extending from the horizontal body and inserted into the vertical frame so as to form perpendicular to the horizontal body,
An insulated window pane comprising an insertion protrusion provided on one surface of the horizontal body and one surface of the vertical body and inserted into the first coupling groove.

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