KR101932658B1 - Insulation windows frame - Google Patents

Abstract

In the present invention, not only the heat transfer rate of the heat transmitted from the outdoor side frame and the indoor side frame to the glass window is reduced by supporting the glass window by contacting the insulating window with the glass window, but also the heat insulating frame supporting the outdoor side frame and the indoor side frame And the heat insulating window frames are arranged to be spaced apart from each other to increase the heat insulating performance.
The present invention relates to a heat insulating window frame for supporting a window for intercepting inside and outside of a building, comprising: an interior frame for supporting the window within a building; an outdoor side frame for supporting the window from outside the building; And a heat insulating block interposed between the frame and the outdoor side frame, the heat insulating frame supporting the windshield, and the heat insulating block disposed on a side of the heat insulating frame to support the windshield, A heat insulating frame engaging groove for engaging the heat insulating frame engaging groove is formed in a longitudinal direction of the indoor frame and a lower end of the heat insulating frame is provided with a heat insulating frame engaging protrusion for engaging with the heat insulating frame engaging groove, It can be bent in one direction and coupled to the heat insulating frame latching groove in only one direction The lock is formed, the insulating frame is made of a plurality of jidoe, there is provided a heat-insulating frame, it characterized in that windows are arranged separately from each other in the longitudinal direction of the inner side frame.

Description

Insulation window frame {Insulation windows frame}

The present invention relates to a heat insulating window frame, and more particularly, to a heat insulating window frame in which a heat insulating block is in contact with a window glass to support a window glass to reduce the heat transfer rate from the outdoor frame to the window glass, Heat-insulating frame frames for supporting the side frames are spaced apart from each other with a predetermined distance therebetween, thereby improving heat insulation performance.

Generally, a window (window) is a window or door that is installed in an opening of a window or an entrance to block the inside of the building from the outside.

Generally, a window having a single glass is not good in heat insulation and soundproofing performance. Therefore, a double glass such as a pair glass is mostly used for a window installed in a public office, a school, a hospital, or a shopping mall where a certain degree of heat insulation or soundproofing is required do.

A window frame used for fixing the double glass is generally formed by a rectangular frame when a door, a window or an inner partition of the room is installed, and the double glass is installed in the inside of the rectangular frame, A door for the door is installed.

However, in the conventional window frame, both sides of the window frame are brought into contact with the indoor side frame and the outdoor side frame, respectively, based on the double glass. Such a window frame is made of a single metal plate so that the heat conduction is good, There is a problem in that the condensation due to the heat is lost and the heat loss is lost due to the loss of heat to the outside.

Korean Registered Patent No. 10-1183990 (Title of the Invention: Window Frame with High Airtight and Insulation Effectiveness, Date of Notification: September 12, 2012)

A problem to be solved by the present invention is to not only reduce the heat transfer rate from the outdoor side frame and the indoor side frame to the window due to the insulation block being in contact with the glass window to thereby support the outdoor side frame and the indoor side frame, And to provide a heat insulating window frame in which the heat insulating performance is improved by disposing the frames at regular intervals and spaced apart from each other.

In order to solve the above-mentioned problems, the present invention provides a heat-insulating window frame for supporting a window for intercepting inside and outside of a building, comprising: an interior frame for supporting the window within a building; A heat insulating frame interposed between the indoor side frame and the outdoor side frame for supporting the window glass and a heat insulating block disposed on a side surface of the heat insulating frame and supporting the windshield, A heat insulating frame engaging groove for engaging with the heat insulating frame is formed at an upper end of the frame in a longitudinal direction of the indoor frame and a heat insulating frame engaging protrusion is formed at a lower end of the heat insulating frame for engaging with the heat insulating frame engaging groove, The heat insulating frame engaging projection is bent at one end in one direction, A is formed to be coupled only in one direction, the heat insulating frame is made of a plurality of jidoe, there is provided a heat-insulating frame, it characterized in that windows are arranged separately from each other in the longitudinal direction of the inner side frame.

In the heat insulating window frame according to the present invention, a first projection extending from both sides of an upper end is protruded from the upper side of the inner side frame, the heat insulating block is disposed between the first projection and the heat insulating frame, The height may be higher than the height of the first protrusion.

In the heat insulating window frame according to the present invention, a first heat insulating frame connecting portion for connecting to the heat insulating frame may be formed at the lower end of the outdoor side frame in the longitudinal direction of the outdoor side frame.

The heat insulating window frame according to the present invention is characterized in that the heat insulating frame has a heat insulating frame engaging projection formed at a lower end thereof and an engaging portion engaging recess formed at an opposite side of the heat insulating frame engaging projection, And a second heat insulating frame connecting part connected to the first heat insulating frame connecting part is formed at an upper end of the second heat insulating frame connecting part and the second heat insulating frame connecting part is formed at an upper end thereof so as to cover at least a part of the outer side surface of the inner side frame fastening structure. Side frame assembly structure.

The heat insulating window frame according to the present invention is characterized in that the indoor side frame includes a frame body portion and an adapter portion for connecting the frame body portion and the heat insulating frame, A protrusion can be formed.

In the heat insulating window frame according to the present invention, a third projection extending from both sides of the lower end of the indoor side frame protrudes and is inserted into the third projection, And a second structural stiffener inserted in the interior side frame and coupled to the interior side frame and having a vertical direction with respect to the first structural stiffener.

In the heat insulating window frame according to the present invention, a first fastening groove is formed on both sides of the lower end of the indoor frame, a lighting fixture includes a lighting fixture having a first fastening protrusion As shown in FIG.

A heat insulating window frame according to the present invention is characterized by comprising: a casing member disposed along the outer side surfaces of the indoor side frame and the outdoor side frame; and a cover member disposed between the indoor side frame or the outdoor side frame and the casing, And a joining agent for joining the outdoor side frame to the exterior material.

The heat insulating window frame according to the present invention has the following effects.

First, the glass window does not come into direct contact with the frame, and the heat insulating block is connected to the frame through the heat insulating block by supporting the glass window, thereby reducing the heat transfer rate from the outside.

Second, since the outdoor side frame and the heat-insulating frame supporting the indoor side frame are spaced apart from each other with a predetermined distance therebetween, an air gap is formed between the outdoor side frame and the indoor side frame, thereby improving the heat insulation performance.

Third, by including the adapter part, it is possible to combine the frame member such as the ready-made forming bar, the square pipe, and the built-up bar widely used in the existing field with the heat insulating frame.

Fourth, there is an advantage of improving the tensile strength performance of the frame by attaching a structural reinforcement material such as carbon fiber to the frame.

Fifth, there is an advantage that prevention of corrosion of the frame and improvement of aesthetics can be performed by joining the exterior material to the outside of the frame.

Sixth, there is an advantage that environment composition and aesthetic improvement can be performed by including light in the exterior material bonded to the outside of the frame.

1 is a perspective view of a first embodiment of a heat insulating window frame according to the present invention.
Fig. 2 is a sectional view of the heat insulating window frame of Fig. 1. Fig.
Fig. 3 is a view specifically showing a heat insulating frame of the heat insulating window frame of Fig. 1;
Fig. 4 is a diagram specifically showing an outdoor side frame of the heat insulating window frame of Fig. 1. Fig.
Fig. 5 is a diagram specifically showing an indoor side frame of the heat insulating window frame of Fig. 1;
Fig. 6 is a view showing an arrangement structure of an indoor side frame and a heat insulating frame of the heat insulating window frame of Fig. 1. Fig.
Fig. 7 is a view showing an arrangement structure of the indoor side frame, the heat insulating frame and the heat insulating block of the heat insulating window frame of Fig. 1;
FIG. 8 is a view showing a second embodiment of a heat insulation window frame according to the present invention.
9 is a view showing a third embodiment of the heat insulating window frame according to the present invention.
10 is a view showing a fourth embodiment of a heat insulation window frame according to the present invention.
Fig. 11 is a diagram specifically showing an illumination unit of the heat insulation window frame of Fig. 10; Fig.

Hereinafter, preferred embodiments of the present invention in which the above-mentioned problems to be solved can be specifically realized will be described with reference to the accompanying drawings. In describing the embodiments, the same names and the same symbols are used for the same configurations, and additional description thereof will be omitted in the following.

A first embodiment of the heat insulating window frame according to the present invention will be described with reference to FIGS. 1 to 7 as follows.

As shown in FIGS. 1 to 7, the heat insulating window frame according to the present embodiment includes an inner frame 1100, an outdoor frame 1200, a heat insulating frame 1300, a heat insulating block 1500, (B1), a cushioning material (1610), a second silicon bonding portion (1620), a sheathing material (C) and a bonding agent (A).

As shown in FIGS. 1, 2 and 4, the indoor side frame 1100 has a heat insulating frame engagement groove formed along the longitudinal direction at the upper center portion thereof with respect to the frame body, 1 protrusions 1103 are protruded.

At this time, the heat insulating frame latching groove includes a first heat insulating frame latching groove 1101 and a second heat insulating frame latching groove 1102 formed as opposite latching grooves with respect to the center of the frame body, Will be described later.

As shown in FIGS. 1, 2 and 3, the outdoor side frame 1200 has a first heat insulation frame connection portion 1211 formed at a lower center portion thereof. Specifically, the outdoor side frame 1200 includes a first And includes an outdoor side frame 1210 and a second outdoor side frame 1220.

As described above, the first outdoor frame 1210 has a first heat-insulating frame connection part 1211 formed at its central portion. Both ends of the first outdoor-side frame 1210 extend upward, One outdoor side frame engaging portion 1212 is protruded and the first outdoor side frame engaging portion 1212 is provided with concave and convex portions.

The second outdoor side frame 1220 is formed in a U-shape and has opposite ends connected to a second outdoor side frame engaging portion 1221 formed in a shape corresponding to the recesses and protrusions formed in the first outdoor side frame engaging portion 1212 And the first outdoor side frame 1210 and the second outdoor side frame 1220 are coupled to each other so that the first outdoor side frame 1210 and the second outdoor side frame 1220 are coupled do.

The indoor side frame 1100 and the outdoor side frame 1200 may be formed of a metal material such as aluminum or SUS or a material having strength corresponding to the metal material. The frame 1200 can have a structural shape through extrusion and forming according to the material.

As shown in FIG. 2, the exterior material C is disposed along the outer sides of the indoor side frame 1100 and the outdoor side frame 1200 to prevent corrosion of the frame and improve aesthetics. The exterior material C may be made of steel, aluminum, SUS, PVC, aluminum composite panel, or the like.

The bonding agent A is disposed between the interior side frame 1100 and the outdoor side frame 1200 and the exterior material C so as to cover the interior side frame 1100 and the outdoor side frame 1200, (A) is inserted into a joint groove formed on the inner side surface of the inner side frame (1100) or the outer side surface of the outdoor side frame (1200), and the joining material (C) The outdoor side frame 1200 and the exterior material C may be joined.

The heat insulating frame 1300 is disposed between the indoor side frame 1100 and the outdoor side frame 1200 as shown in FIGS. 1, 2 and 5 to 7, Side frame 1100 and the outdoor-side frame 1200 are connected to the heat-insulating frame-engaging groove and the first heat-insulating-frame connecting portion 1211, respectively.

Specifically, the heat insulating frame 1300 includes an inner side frame fastening structure 1310, an outer side portion 1330, and an outdoor side frame fastening structure 1320.

The indoor side frame fastening structure 1310 has a heat insulating frame fastening protrusion 1311 formed at the lower end thereof to be engaged with the heat insulating frame fastening protrusion 1311. On the opposite side of the surface on which the heat insulating frame fastening protrusion 1311 is formed, (1312) is formed.

The heat insulating frame engaging protrusions 1311 are formed to be bent in one direction so as to be coupled to the heat insulating frame engaging grooves only in one direction so that the first heat insulating frame engaging grooves 1101 and the second heat insulating frame engaging grooves 1102 are formed, Lt; / RTI >

That is, the heat insulating frame engaging protrusion 1311 is formed as a single protruding portion, so that the heat insulating frame engaging protrusion 1311 is engaged with the first heat insulating frame engaging recess 1101 or the second heat insulating frame engaging recess 1102, So that more easy coupling can be achieved.

The auxiliary portion 1330 is disposed inside the inner side frame fastening structure 1310 and is made of a polyurethane material so that the auxiliary portion 1330 is included in the heat insulating frame 1300, The heat insulation performance is improved by blocking the heat transmission of the cold air.

At this time, the material of the auxiliary part 1330 may be polyamide or polyurethane, and the material of the auxiliary part 1330 may be a material having a heat insulating property other than the above-mentioned materials and a material having good mechanical properties according to temperature It is possible.

That is, the auxiliary portion 1330 is configured simultaneously with the outdoor side frame fastening structure 1320 to be described later, thereby maximizing the effect of heat insulation.

The outdoor side frame fastening structure 1320 is formed with a fastening portion coupling protrusion 1321 to be coupled with the fastening portion coupling recess 1312 at the lower end, A second heat insulating frame connecting portion 1322 is formed.

The indoor side frame fastening portion 1310 is inserted into the outdoor side frame fastening portion 1320 and the fastening portion engaging recess 1312 and the fastening portion engaging projection 1321 are engaged with each other, The structure 1320 is formed to surround at least a part of the outer side surface of the inner side frame fastening structure 1310.

The outdoor side frame fastening structure 1320 may be made of polyamide, and the outdoor side frame fastening structure 1320 may be made of a material having heat insulation performance other than the above-mentioned materials and having good mechanical properties depending on temperature Replaceable.

6 and 7, the heat insulating frame 1300 includes a first heat insulating frame 1300a, a second heat insulating frame 1300b disposed apart from the first heat insulating frame 1300a, And a third adiabatic frame 1300c disposed apart from the second adiabatic frame 1300b.

The heat insulating frames 1300 are not integrally formed and are spaced apart from each other by a predetermined distance between the heat insulating blocks 1500 as described above so that the heat insulating frames 1300 from the indoor side frame 1100 or the outdoor side frames 1200, It is possible to reduce the heat or cool air that is transferred through the frame 1300 and moves.

In addition, since the heat insulating frame 1300 is spaced apart, an air gap is formed between the first heat insulating frame 1300a and the third heat insulating frame 1300c, So that the effect of blocking the heat transfer is increased to improve the heat insulating performance.

The glass window 1400 is located between the inside frame 1100 and the outdoor frame 1200 and is connected to the end of the window 1400, that is, the first silicon connector 1440 included in the window 1400 Or the glass window fixing part 2460 and the side surface of the heat insulating frame 1300 face each other. The concrete structure of the glass window 1400 and the fixing of the glass window 1400 will be described later.

At least a portion of the heat insulating block 1500 is disposed between the first projections 1103 to support the glass window 1400. That is, the lower end of the heat insulating block 1500 is in contact with the upper end of the indoor side frame 1100, and the upper end of the heat insulating block 1500 is in contact with the glass window 1400. At this time, the height of the heat insulating block 1500 is higher than the height of the first protrusion 1103.

In addition, the material of the heat insulating block 1500 is formed of a foam plate-shaped heat insulating material, and the material of the heat insulating block 1500 can be replaced with a material having a heat insulating property other than the above-mentioned materials and having good mechanical properties in accordance with temperature and stress .

Further, although not shown, the heat insulating block 1500 may be formed of a plurality of layers to further increase the heat insulating effect, and the heat insulating blocks having a plurality of layers may be made of different materials.

The first engaging member B1 sequentially passes through the first outdoor side frame 1210, the heat insulating frame 1300 and the indoor side frame 1100, and as a result, the outdoor side frame 1200, Thereby joining the frame 1300 and the inside-side frame 1100 together.

As shown in FIG. 2, the first joint member B1 may be formed of a screw, and the first outdoor side frame 1210, the heat insulating frame 1300, And the inner side frame 1100 may be threaded to be screwed with the first engaging member B1.

Of course, the first outdoor side frame 1210, the adiabatic frame 1300, and the indoor side frame 1100 included in the heat insulating window frame according to the present invention may be structurally fitted and fixed or fixed by a bonding agent The configuration of the first engagement member B1 may be omitted.

The cushioning material 1610 is disposed between the first outdoor side frame 1210 and the glass window 1400 so as to perform a buffering function and at the same time the glass window 1400 can be structurally more rigid, Thereby preventing the windshield 1400 from being damaged by an external force.

The second silicon bonding portion 1620 is disposed between the first outdoor side frame 1210 and the glass window 1400 so that the second silicon bonding portion 1620 surrounds the first outdoor side frame 1210, And prevents the outside air from entering between the first outdoor side frame 1210 and the windshield 1400 by defects of the first outdoor side frame 1210 and the windshield 1400.

As described above, the outdoor side frame 1200, the heat insulating frame 1300 and the indoor side frame 1100 of the heat insulating window frame according to the present embodiment are joined by the first engaging member B1, The glass window 1400 disposed between the outdoor side frame 1200 and the indoor side frame 1100 is fixed by the heat insulating block 1500 and the cushioning material 1610 and the second silicon coupling portion 1620 do.

At this time, since the height of the heat insulating block 1500 is higher than the height of the first projecting portion 1103, the glass window 1400 is in contact with the heat insulating block 1500 rather than the inside frame 1100 The heat insulating block 1500 supports the glass window 1400 to minimize heat transfer between the inner frame 1100 and the glass window 1400 to increase the heat insulating effect.

A second embodiment of the heat insulating window frame according to the present invention will be described with reference to FIG.

The outdoor side frame, the heat insulating frame and the indoor side frame of the heat insulating window frame according to the present embodiment are joined by the first engaging member, and the glass window, which is disposed between the outdoor side frame and the indoor side frame, The contents fixed by the heat insulating block and the buffering material and the second silicon coupling portion are the same as those of the first embodiment, and therefore, detailed description thereof will be omitted.

However, the indoor side frame of the heat insulating window frame according to the present embodiment includes the frame body portion, the adapter portion, the second engagement member, and the cover portion.

The frame body part includes an existing square pipe, a built-up bar, a forming bar, and the like which are widely used as a frame in the existing field.

The adapter portion 2110 connects the frame body portions 2150, 2160 and 2170 to the heat insulating frame 2300. The adapter portion 2110 is provided with the heat insulating frame fastening grooves 2111 and 2112 and the first protrusion 2113 are formed on the top.

8 (a) and 8 (b), when the frame body part is composed of the square pipe 2150 and the built-up bar 2160, the lower end of the adapter part 2110 is connected to the frame body part 2150 And 2160 and the second engaging member B2 penetrates through the adapter unit 2110 and the frame body portions 2150 and 2160 to engage with each other.

At this time, the second engaging member B2 is coupled between the heat insulating frame engaging grooves 2111 and 2112 formed in the adapter unit 2110 and the first protruding portion 2103.

Of course, the second coupling member B1 may be omitted when the adapter unit 2110 and the frame body portions 2150 and 2160 are structurally fitted and fixed or fixed by a bonding agent.

The lid portions 2114 and 2124 are disposed between the heat insulating frame latching grooves 2111 and 2112 and the first protruding portion 2113 and are engaged with the adapter portion 2110, The second engagement member B2 is covered so as not to be exposed to the outside.

8 (c), when the frame body is formed by the forming bar 2170, the lower end of the adapter portion 2120 is connected to the frame body portion 2120. In addition, in the present embodiment, the adapter portion is not limited thereto, A structure 2120 may be formed for coupling with the substrate 2170.

Referring to FIG. 9, a third embodiment of the heat insulating window frame according to the present invention will be described below.

The heat insulating window frame according to the present embodiment is configured such that the outdoor side frame 3200, the heat insulating frame 3300 and the indoor side frame 3100 are coupled by the first engaging member B1, The glass window 3400 disposed between the inner side frame 3100 and the inner side frame 3100 is fixed by the heat insulating block 3500 and the cushioning material 3610 and the second silicon coupling portion 3620, The same as in the first embodiment, and a detailed description thereof will be omitted.

However, a third projection 3105 protruding from both sides of the lower end of the inner frame 3100 is protruded from the inner frame 3100 of the heat insulating window frame according to the present embodiment, and the first structural stiffener 3701, A cover portion 3703 and a second structural stiffener 3702.

The first structural stiffener 3701 is inserted into at least one of the third protrusions 3105 or between the upper end of the inner frame 3100 and the heat insulating block 3500 to be coupled with the inner frame 3100 Thereby reinforcing the tensile strength of the interior side frame 3100.

In addition, since the first structural stiffener 3701 is formed of reinforcing fibers such as carbon fiber and glass fiber, it can be expected that the tensile strength increase effect is stronger than that of iron (Fe) Can be manufactured to have a light and high tensile strength.

For example, when the first structural stiffener 3701 is made of carbon fibers, the compressive force and the tensile force are about ten times stronger than steel and about 30 times stronger than aluminum, and the specific gravity is about 1/10 times that of steel, / 3 times lighter, so the structural performance is better.

The cover portion 3703 is inserted into the third protrusion 3105 and disposed outside the first structural reinforcement 3701 to prevent the first structural reinforcement 3701 from being exposed. The cover portion 3703 can prevent the first structural stiffener 3701 from being corroded by disposing the outside of the first structural stiffener 3701 and the cover portion 3703 can be made of an OLED or a design sheet It is possible to improve the environmental composition and aesthetics.

The second structural stiffener 3702 is inserted into the interior side frame 3100 and coupled with the interior side frame 3100 and has a vertical direction with respect to the first structural stiffener 3701, 3100), and is inserted into the inside-side frame 3100 by regulating the quantity and thickness according to the structural performance.

At this time, the second structural stiffener 3702 may be made of a metal such as steel, aluminum, or SUS.

10 to 11, a fourth embodiment of the heat insulating window frame according to the present invention will be described below.

The heat insulating window frame according to the present embodiment is configured such that the outdoor side frame 4200, the heat insulating frame 4300 and the indoor side frame 4100 are coupled by the first engaging member, The glass window 1400 disposed between the inner side frames 4100 is fixed by the heat insulating block, the buffer material, and the second silicon coupling portion, as described in the first embodiment. Is omitted.

However, the first fastening groove 4106 is formed on both sides of the lower end of the inner frame 4100 of the heat insulating window frame according to the present embodiment, and the heat insulating window frame according to the present embodiment further includes the illuminating unit 4800.

The lighting unit 4800 has a first fastening protrusion 4801 coupled to the first fastening recess 4106 at an upper end thereof and an electronic component receiving unit at a lower end thereof.

11, the electronic component accommodating portion is composed of an outer electronic component accommodating portion 4802 and an inner electronic component accommodating portion 4803, and the outer electronic component accommodating portion 4802 and the inner electronic component accommodating portion 4802, A light guide plate 4806, a light guide plate 4806, a PCB 4804, a light guide plate 4805 and a light guide plate 4806 are positioned from the inside of the outer electronic component accommodating portion 4803 to an illumination diffusing portion 4807, 4800), it is possible to improve the environment composition and aesthetics.

The illumination unit 4800 according to the present embodiment can be replaced with the second outdoor side frame and combined with the first outdoor side frame.

As described above, the present invention is not limited to the above-described specific preferred embodiments, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention as claimed in the claims. And such variations are within the scope of the present invention.

1100, 3100, 4100: indoor side frame
2150, 2160, 2170:
2110, 2120:
1101, 2111, 2121, 3101: a first heat insulating frame fastening groove
1102, 2112, 2122, 3102:
1103, 2113, 2123, 3103:
2114, 2124:
3105: third projection
4106: first fastening groove
1200, 3200, 4200: outdoor side frame
1210: first outdoor side frame
1211: first insulating frame connection part
1212: first outdoor side frame engaging portion
1220: second outdoor side frame
1221: the second outdoor side frame engaging portion
1300, 2300, 3300, 4300: Insulating frame
1300a: first insulating frame
1300b: second insulating frame
1300c: third insulating frame
1310: indoor side frame fastening structure
1311: Insulation frame coupling projection
1312: fastening portion coupling groove
1320: outdoor side frame fastening structure
1321: fastening portion coupling projection
1322: second insulation frame connection part
1330:
1400, 3400: Windshield
1410: 1st window
1420: 2nd window
1430: Spacer
1440: first silicon bonding portion
1500, 3500: Insulation block
1610, 3610: Cushioning material
1620, 3620: the second silicon bonding portion
3701: First structural stiffener
3702: Second structural stiffener
3703: Cover part
4800:
4801: first fastening projection
4802: outer electronic component accommodating portion
4803: Inner electronic component accommodating portion
4804: PCB
4805: Lighting
4806: Light guide plate
4807:
C: Outer material
A: Bonding agent
B1: first coupling member
B2: second coupling member

Claims (8)

Claims [1] A heat insulating window frame for supporting a window for blocking an inside and an outside of a building,
An indoor side frame for supporting the windshield inside the building;
An outdoor side frame supporting the windshield from outside the building;
A heat insulating frame interposed between the indoor side frame and the outdoor side frame and supporting the windshield; And
And a heat insulating block disposed on a side surface of the heat insulating frame to support the window,
And a heat insulating frame engaging groove for engaging with the heat insulating frame is formed in an upper end of the indoor side frame in a longitudinal direction of the indoor side frame,
Wherein the heat insulating frame latching grooves include a first heat insulating frame latching groove and a second heat insulating frame latching groove formed in opposite directions,
The heat insulating frame coupling protrusion is formed at a lower end of the heat insulating frame, and the heat insulating frame coupling protrusion is formed as a single protruding portion. The end of the heat insulating frame coupling protrusion is bent in one direction to be coupled to the heat insulating frame latching groove in only one direction Lt; / RTI >
The heat insulating frame engaging projection is selectively inserted into the first heat insulating frame engaging groove or the second heat insulating frame engaging groove,
Wherein the plurality of heat insulating frames are disposed spaced apart from each other in a longitudinal direction of the indoor side frame. The method according to claim 1,
A first projection extending from both sides of an upper end is protruded from the inner side frame,
Wherein the heat insulating block is disposed between the first projection and the heat insulating frame,
Wherein the height of the heat insulating block is higher than the height of the first projecting portion. The method according to claim 1,
And a first heat insulating frame connection part for connecting to the heat insulating frame is formed at a lower end of the outdoor side frame in the longitudinal direction of the outdoor side frame. The method of claim 3,
The heat insulating frame
An inner side frame fastening structure in which the heat insulating frame fastening protrusion is formed at the lower end and the fastening portion coupling recess is formed at the opposite side of the heat insulating frame fastening protrusion; And
And a second heat insulating frame connecting part connected to the first heat insulating frame connecting part is formed at an upper end of the second heat insulating frame connecting part. At least a part of the external side surface of the interior side frame fastening structure And an outdoor side frame fastening structure formed to enclose the outdoor side frame fastening structure. 3. The method of claim 2,
The indoor-
A frame body portion
And an adapter unit for coupling the frame main body and the heat insulating frame,
And the heat insulating frame engaging groove and the first protruding portion are formed on the upper end of the adapter portion. The method according to claim 1,
A third projection extending from both sides of the lower end of the indoor side frame protrudes from the inner side frame,
A first structural reinforcing member inserted into the third projection and coupled with the interior side frame; And
Further comprising: a second structural reinforcement member inserted into the interior side frame and coupled to the interior side frame and having a vertical direction with respect to the first structural reinforcement member. The method according to claim 1,
A first fastening groove is formed on both sides of the lower end of the indoor frame,
Further comprising: an illumination unit including an illumination unit and a first fastening protrusion formed at an upper end thereof to be coupled to the first fastening groove. The method according to claim 1,
An exterior material disposed along outer sides of the indoor side frame and the outdoor side frame; And
Further comprising a bonding agent disposed between the interior side frame or the outdoor side frame and the exterior material to bond the exterior material to the indoor side frame or the outdoor side frame.

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