KR102039140B1 - Super windows and doors for high rise building and construction method - Google Patents

Abstract

The present invention, the first frame 10 is disposed facing the room and forming one surface of the window frame 100; A second frame 30 disposed to face the first frame 10 so as to form the other surface of the window frame 100; A connection member 50 connecting the first frame 10 and the second frame 30; A frame main body 70 slidably installed along the first frame 10 or the second frame 30 and having a glass member 202 installed therein; An insulation member 80 installed on the frame body 70 to block heat transmitted from the frame body 70; And it characterized in that it comprises a cover member 90 which is installed on the frame body 70 to surround the heat insulating member (80).

Description

Super Insulation Window for High-Rise Building and Construction Method of It {SUPER WINDOWS AND DOORS FOR HIGH RISE BUILDING AND CONSTRUCTION METHOD}

The present invention relates to a super window for a high-rise building and its construction method, and more particularly, to satisfy the flame retardant performance required by the window of a high-rise building, to reduce heat loss due to heat conduction, and to facilitate the manufacture and construction of the window. It relates to a super window for a high-rise building that can be carried out and a construction method thereof.

In general, composite windows are windows and doors on ground structures that can receive air or sunlight and look outwards.

Composite windows are divided into window frames having rails and windows having window frames so as to slide along rails of the window frames, and the window frames and window frames are generally made of nonferrous metals such as aluminum.

The non-ferrous metal used as the window frame and the material of the window frame has a problem of deteriorating the insulation of the composite window because of excellent corrosion resistance to withstand snow or rain, and excellent heat conductivity to transfer cold or heat.

In order to solve the above-mentioned problems, a technique of combining heat insulation with a window frame of a composite window has been recently disclosed, and in the related art, cold air or heat through the window frame may be blocked to some extent by the heat insulating material, but most contact with the ground structure. There was a problem that can not block the cold air or heat through a large window frame.

In order to solve the above problems, a composite window has been developed, and the composite window according to the prior art is made of a window frame body and a heat insulating material, which are formed to be spaced apart from each other by an inner rail coupling groove, an intermediate frame coupling groove, and an outer rail coupling groove. A window frame including inner and outer rails and an intermediate frame formed to be coupled to a rail coupling groove and an intermediate frame coupling groove, respectively, an inner window having an inner window frame slidably coupled to the inner rail, and an outer window slidably coupled to the outer rail Includes exterior windows with door frames.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-2016-0009964 (January 27, 2016, the name of the invention: composite window).

Composite windows according to the prior art, because the window frame is made of a heat insulator, there is a problem that can increase the damage in the event of a fire because the flame can spread as the heat insulating material constituting the window frame when the fire occurs, building law 6 In a high-rise building with more than one floor, windows or windows of non-combustible or flame-retardant materials are not to be burned for 1 hour after the fire, and the composite windows according to the prior art have a problem that it is difficult to construct them so that they do not burn for 1 hour after the fire.

Therefore, there is a need for improvement.

The present invention satisfies the flame retardant performance required for windows of high-rise buildings, reduces heat loss due to heat conduction, and provides a super-window for high-rise buildings and a construction method thereof, which can easily manufacture and construct windows. have.

The present invention, the first frame disposed to face the room and forming one surface of the window frame; A second frame disposed to face the first frame to form the other surface of the window frame; A connection member connecting the first frame and the second frame; A frame body slidably installed along the first frame or the second frame and provided with a glass member; An insulation member installed on the frame body to block heat transferred from the frame body; And a cover member installed on the frame body to surround the heat insulating member.

In addition, the frame body of the present invention has a coupling groove portion in which the heat insulating member is press-fitted, and a seating groove portion in which a heat insulating support member seated on the rail portion of the window frame or a roller member moved along the rail portion of the window frame is installed. It is characterized by including.

In addition, the cover member of the present invention, characterized in that it comprises a support bending portion that is bent to support the heat insulating member, the engaging projection portion pressed into the heat insulating member and the locking bent portion is coupled to the heat insulating member and bonded to the glass member. It is done.

In addition, the first frame constituting the bottom of the window frame of the present invention, the first frame constituting both ends of the window frame are formed in the same cross-sectional shape, the second frame constituting the bottom of the window frame, the window frame The second frame forming both end portions of the cross-sectional shape is characterized in that the same form each other.

In addition, the main body frame, the insulation member and the cover member constituting the top, bottom and both ends of the window of the present invention is characterized in that the cross-sectional shape is formed to be the same.

In addition, the present invention, (a) manufacturing and assembling a first frame constituting one surface of the window frame, a second frame constituting the other surface of the window frame and a connecting member connecting the first frame and the second frame by an extrusion process. Doing; (b) manufacturing and assembling a frame body having a glass member to form a window, a heat insulating member installed on the frame body, and a cover member surrounding the heat insulating member by an extrusion process; And (c) constructing the window frame in the opening of the building, and assembling the window slidably to the rail part of the door frame.

In addition, the step (a) of the present invention, forming a first connection inclined portion at the end of the first frame, the second frame and the connecting member forming the corner of the door frame, the first connection inclined to each other It is characterized in that for producing the window frame of the square shape by joining parts.

In addition, the step (b) of the present invention, forming a second connecting inclined portion to the ends of the main body frame, the heat insulating member and the cover member forming the corner of the window, and joining the second connecting inclined portion facing each other It characterized in that for producing the window of the square shape.

In the high-rise building super window and the construction method thereof according to the present invention, a plurality of frames made of a metal material is connected by a connecting member made of a heat insulating material to form a window frame, the fire by the frame forming the outer wall of the window frame There is an advantage that can prevent the window frame from burning at the time of occurrence.

In addition, the super window for a high-rise building and the construction method according to the present invention, a heat insulating support member including a heat insulating material is installed on the frame of the metal material to form a window, covering the heat insulating support member, the cover member comprising a metal material Since it is usually installed to prevent the external cold or warm air is conducted along the cover member, there is an advantage that can prevent the spread of the flame along the window in the event of a fire.

In addition, the super window for a high-rise building and the construction method thereof according to the present invention, both sides and the lower side of the window frame is made of the same cross-sectional shape, and both sides, the lower portion and the upper side of the window is made of the same cross-sectional shape, so in the extrusion process By assembling the frame of the same cross-sectional shape produced by the window frame and the window can be easily manufactured, there is an advantage that can reduce the time and cost required to manufacture the window frame and window.

In addition, the super window and the construction method for a high-rise building according to the present invention, because the cover member including a metal material is installed so as to surround the insulating member is installed on the inner wall of the window installed in the window is the window is burned when a fire occurs There is an advantage that can be prevented to suppress the spread of the flame.

In addition, the high-rise building super window and the construction method according to the present invention, by combining a plurality of frames without a separate fastening member to produce a window frame and the window has the advantage of reducing the time and cost required for the window construction have.

1 is a front view and a cross-sectional view showing a super window for a high-rise building according to an embodiment of the present invention.
Figure 2 is a plan sectional view showing a window frame and a window of a super window for a high-rise building according to an embodiment of the present invention.
3 is a side sectional view showing a window frame and a window of a super window for a high-rise building according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a high-rise building super window and its construction method according to the present invention.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom.

Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a front view and a cross-sectional view showing a super window for a high-rise building according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a window frame and a window of a super window for a high-rise building according to an embodiment of the present invention 3 is a side sectional view showing a window frame and a window of a super window for a high-rise building according to an embodiment of the present invention.

1 to 3, a super window for a high-rise building according to an embodiment of the present invention includes a first frame 10 and a window frame 100 that are disposed to face the interior and form one surface of the window frame 100. A second frame 30 disposed to face the first frame 10 to form the other surface of the second frame 30, a connecting member 50 connecting the first frame 10 and the second frame 30, and a first frame 10) or the frame body 70 which is slidably installed along the second frame 30 and the glass member 202 is installed, and the frame body 70 to block heat transferred from the frame body 70. And a cover member 90 installed on the frame body 70 to surround the heat insulating member 80 and the heat insulating member 80.

In the case of high-rise buildings with six or more floors, non-flammable or flame-retardant materials are used to prevent the spread of the flames in the event of a fire.In the case of using an insulating material, the flames may spread along the insulating material in the event of a fire. For example, since the cover member 90 surrounding the heat insulating member 80 is installed, it is possible to prevent the heat insulating member 80 and the connection member 50 from burning even when a fire occurs.

Since the window frame 100 of the present embodiment is connected by the connecting member 50 so that the first frame 10 and the second frame 30 are spaced from each other, the cold or warm air transmitted from the first frame 10 It is possible to prevent the second frame 30 from being conducted to prevent the heat energy of the indoors from being lost to the outdoors by conduction in the winter, and to prevent the heat energy of the outdoors from entering the room by conduction during the summer cooling You can do it.

The first frame 10 is formed in a hollow rectangular pipe shape, and a first rail portion 14 on which the window 200 is seated is formed on one surface of the first frame 10 opposite to the window 200. A first finishing panel 16 and a gap protrusion 18 are formed to maintain a gap in front and rear with respect to the center 14 so that one window 200 is disposed between the first finish panel 16 and the gap protrusion 18. ) Is installed to seat.

The gap protrusion 18 is provided with a sealing member 18a that is slidably in close contact with the window 200 to prevent the hot or cold air from being lost at intervals between the window 200 and the gap protrusion 18.

One surface of the first frame 10 opposite to the second frame 30 is formed with a first connection groove 12 into which the connection member 50 is pressed, and a second frame facing the first frame 10 ( 30, one connection member 50 is pressed into the first connection groove 12 and the second connection groove 32 because the second connection groove 32 is formed to press the connection member 50. The first frame 10 and the second frame 30 are connected by the connecting member 50.

The second frame 30 is formed with a second rail portion 34 on which the window 200 is seated, and maintains a distance from the second rail portion 34 to form a second finishing panel 36. An interference groove 38 is formed between the finishing panel 36 and the second rail 34 so that the insect screen 204 can be installed without interference.

The frame body 70 has a coupling groove portion 72 into which the heat insulating member 80 is press-fitted, and moves along the rail portion of the heat insulating member 80 or the window frame 100 seated on the rail portion of the window frame 100. It is provided with a seating groove 76 in which the roller member 78 is installed.

Frame body 70 is formed in a rectangular pipe shape hollow inside, a glass member 202 is installed on one surface, the coupling groove portion 72 is formed on the surface opposite to the heat insulating member 80, the window frame 100 Seating groove 76 is formed on the surface opposite to the heat insulating support member 77 or the roller member 78 is installed.

One side of the frame body 70 is provided with an outer wall portion 74 in which the first installation groove portion 74a is formed, and a second installation groove portion 74b is formed in the inner wall of the outer wall portion 74 so that the first installation groove portion is provided. The blocking member 74c, which is made of a fiber material or an elastic material and protrudes in a brush shape, is installed in the 74a or the second installation groove portion 74b, and thus the gap between the window 200 and the window 200, the window 200 The gap between the rail and the rail unit prevents hot or cold air from being lost.

Since a space portion is formed inside the outer wall portion 74, and a seating groove portion 76 is formed to face the space portion, the heat insulating support member 77 or the roller member 78 is installed.

As shown in FIG. 2, a heat insulation support member 77 is installed in the seating groove 76 at a portion at which the side end portion of the window 200 is connected to the side end portion of the window frame 100 to the first rail portion 14. When the window 200 is closed, the heat insulating support member 77 is in close contact with the first rail unit 14 to close the gap between the window 200 and the window frame 100 when the window 200 is closed.

As shown in FIG. 3, when the lower end of the window 200 is slidably seated on the window frame 100, the roller member 78 is installed in the seating groove 76, and the roller member 78 is the first ray. When the user opens the window 200 while being rotatably seated on the part, the roller member 78 rotates along the first rail part 14 so that the window 200 can be easily opened.

The heat insulating member 80 is formed in a long panel shape in the left and right direction to close the inner wall of the frame body 70, and the indentation protrusion 82 is formed on one surface opposite to the coupling groove 72, the heat insulating member 80 When coupling to the frame body 70, the press-fit projection 82 is pressed into the coupling groove 72 is installed so that the heat insulating member 80 covers the inner wall of the frame body 70.

Since the stepped portion 86a is formed on the bottom of the heat insulating member 80 to be seated in the third installation groove 92a, when the cover member 90 is engaged with the heat insulating member 80, it is formed at the end of the cover member 90. The third installation groove portion 92a and the fourth installation groove portion 92b which surround the stepped portion 86a are seated to closely contact the heat insulating member 80 and the cover member 90.

The cover member 90 is engaged with the support bent portion 92 that is bent to support the heat insulating member 80, the coupling protrusion 94 and the heat insulating member 80 pressed into the heat insulating member 80, and the glass member 202. It includes a locking bent portion 96 is bonded to the).

One end of the cover member 90 is bent to surround the stepped portion 86a of the heat insulating member 80, and the third installation groove 92a and the fourth installation groove 92b are continuously formed at the bent portion thereof to be blocked. Since the member 74c is installed, it is possible to prevent the warm or cold air from being lost at the interval between the window 200 and the window frame 100.

In addition, in the present embodiment, the first frame 10 constituting the lower end of the window frame 100, the first frame 10 constituting both ends of the window frame 100 are formed in the same cross-sectional shape, the window frame 100 The second frame 30 constituting the bottom of the), the second frame 30 constituting both ends of the window frame 100 is formed in the same cross-sectional shape with each other, so that the first frame 10 manufactured by one extrusion process , By cutting the second frame 30 and the connecting member 50 to form four first frames 10, four second frames 30 and four connecting members 50, each connected to a square shape The window frame 100 can be manufactured.

The first connection inclined portion 54 is machined on both ends of the first frame 10, the second frame 30, and the connection member 50, which are cut into four, so as to form the same inclination, and the first connection inclination opposite to each other. After the part 54 is in close contact with each other, the rectangular window frame 100 is assembled by welding or bonding.

At this time, a gap in which light passes may be generated between the pair of first connecting inclined portions 54 connected to each other. In the present invention, the first connecting inclined portion 54 may also be molded by the connecting member 50. After attaching the pair of connecting members 50 with an adhesive, the four first frames 10 are continuously connected to cover the joint portions of the connecting members 50, and the first connecting inclined portion of the connecting members 50 is connected. After the bonding 54, the four second frames 30 are continuously connected to complete the assembly of the window frame 100.

Therefore, it is possible to prevent the external light from entering the room through the connection between the first frame 10, the connection between the second frame 30, that is, the first connection inclined portion 54. .

In addition, the main body frame, the heat insulating member 80 and the cover member 90 forming the top, bottom and both ends of the window 200 are formed in the same cross-sectional shape, so that the main body frame is manufactured by performing a single extrusion process, heat insulation When the four members 80 and the cover member 90 are cut into four pieces, and the second connection inclined portion 79 is formed at both ends thereof and the four pieces are continuously connected to each other, a square window 200 can be assembled.

At this time, after forming the second connecting inclined portion 79 at both ends of the heat insulating member 80, the four heat insulating members 80 are continuously joined to form a square, and then the frame body 70 is connected to each other. When the heat insulating member 80 is press-fitted into the frame body 70, the heat insulating member 80 may cover the gap between the frame bodies 70, that is, the space between the second connection inclined portions 79. .

Therefore, it is possible to prevent the external light and heat from entering the room through the second connection inclined portion 79.

Looking at the construction method of a super window for a high-rise building according to an embodiment of the present invention configured as described above are as follows.

Construction method of a super window for a high-rise building according to an embodiment of the present invention, the first frame 10 forming one surface of the window frame 100, the second frame 30 forming the other surface of the window frame 100 and the first Producing and assembling the connecting member 50 connecting the frame 10 and the second frame 30 by an extrusion process, and the frame body 70 in which the glass member 202 is installed to form a window 200. And manufacturing and assembling the heat insulating member 80 and the cover member 90 surrounding the heat insulating member 80 to be installed in the frame body 70 by the extrusion process, and constructing the window frame 100 in the opening of the building , Assembling the window 200 to be slidable in the rail of the window frame 100.

Since the heat insulating member 80 installed on the window 200 is covered by the cover member 90, the cover member 90 can prevent the heat insulating member 80 from being exposed to a flame when a fire occurs. When the fire occurs it can be prevented from spreading the flame through the window and window frame 100.

Assembling the window frame 100 of the present embodiment, the first connection inclined portion 54 at the end of the first frame 10, the second frame 30 and the connecting member 50 forming the corner of the window frame 100. ) And to form a rectangular window frame 100 by joining the first connecting inclined portion 54 opposed to each other.

Through the extrusion process, the first frame 10, the second frame 30, and the connecting member 50 are manufactured, and each is cut into four pieces to form the first connecting inclined portion 54 at both ends, and then the four connections are made. The member 50 is continuously joined to manufacture a rectangular connecting member 50.

The first frame 10 and the second frame 30 are also continuously welded to form a square frame, and one side of the connecting member 50 is connected to the first connecting groove 12 of the first frame 10. Press-fitting the protruding support portion 52, and protruding support portion 52 on the other side of the connecting member 50 into the second connecting groove portion 32 of the second frame 30 to press-fit the first frame 10 and the second frame. 30 is connected to the front and rear of the window frame 100 by the connecting member 50.

In this case, the thickness of the connecting member 50 is formed longer than the length of the sum of the depth of the first connecting groove 12 and the depth of the second connecting groove 32, so that the first frame 10 and the second frame 30 A gap is formed between the gaps, and the gap is blocked between the first frame 10 and the second frame 30 to prevent heat transfer by conduction.

Therefore, when the window frame 100 of the present embodiment is installed in a six-storey high-rise building, heat or cold from outside the building is transmitted from the second frame 30 to the first frame 10 so as not to be transferred to the room, thereby reducing heat loss. Reduced.

As described above, the assembled window frame 100 is constructed at the edge of the opening of the building to form the window frame 100 or the window frame 100.

Assembling the window 200, forming the second connecting inclined portion 79 at the ends of the main body frame, the heat insulating member 80 and the cover member 90 forming the corner of the window 200, and are opposed to each other The second connection inclined portion 79 is bonded to manufacture a window 200 having a square shape.

The main frame, the heat insulating member 80 and the cover member 90 are manufactured by an extrusion process, and after cutting into four pieces, the second connecting slopes 79 are formed at both ends, and the second connecting slopes ( The four main body frame, four heat insulating members 80 and four cover members 90 are continuously joined to each other so that 79 is bonded to each other.

Accordingly, the frame body 70, the heat insulating member 80, and the cover member 90 having a square shape are formed, and the heat insulating support member 77 or the roller member 78 is disposed in the seating groove 76 of the frame body 70. After installation, the heat insulating member 80 is press-fitted into the coupling groove 72 to connect the frame body 70 and the heat insulating member 80, and press the cover member 90 to the heat insulating member 80 to couple the protrusions 94. ) Is pressed into the press-in groove 84.

At this time, while the cover member 90 covers all of the outer surface of the heat insulating member 80, the support bending portion 92 of the cover member 90 is engaged with the step portion 86a of the heat insulating member 80, and the cover member ( After the locking bent portion 96 of the 90 is engaged with the other end of the heat insulating member 80, the glass member 202 is disposed to face the end of the heat insulating member 80 and the locking bend 96, and the heat insulating member 80 is disposed. The glass member 202 and the heat insulation member 80 and the locking bend 96 are bonded to each other by applying a liver rod and a silicon member between the end portion and the locking bend 96 and the glass member 202.

As described above, the assembly of the window frame 100 and the window 200 is completed by mounting the completed window 200 to the first rail part 14 or the second rail part 34 of the window frame 100. .

As described above, since the assembly is performed by the engagement, fitting and application of the adhesive without a separate fastening member when assembling the window frame 100 and the window 200, the assembly is performed in comparison with the assembly using the fastening member. This will reduce the time and cost required.

As a result, it is possible to provide a super-window for a high-rise building and a construction method thereof, which can satisfy the flame-retardant performance required by the windows of a high-rise building, reduce heat loss due to heat conduction, and can easily manufacture and construct the window.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. Will understand.

In addition, the super window for a high-rise building and its construction method has been described as an example, but this is merely illustrative, and the window and the construction method of the present invention can be used in other products other than the super-window for a high-rise building and its construction method. .

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: first frame 10 12: first connection groove
14: first rail portion 16: the first closing panel
18: gap projection 18a: sealing member
30: second frame 32: second connection groove
34: 2nd rail part 36: 2nd finishing panel
38: interference groove 50: connection member
52: protruding support 54: first connection inclined portion
70: frame body 72: coupling groove
74: outer wall portion 74a: first mounting groove
74b: second installation groove portion 74c: blocking member
76: seating groove 77: heat insulating support member
78: roller member 79: second connecting inclined portion
80: heat insulation member 82: indentation protrusion
84: indentation groove 86: support protrusion
86a: stepped portion 90: cover member
92: support bending portion 92a: third installation groove
92b: fourth installation groove 94: engaging projection
96: hanging bend 100: window frame
200: window 202: glass member
204: insect screen 206: deadline

Claims (8)

A first frame 10 disposed to face the room and forming one surface of the window frame 100;
A second frame 30 disposed to face the first frame 10 so as to form the other surface of the window frame 100;
A connection member 50 connecting the first frame 10 and the second frame 30;
A frame main body 70 slidably installed along the first frame 10 or the second frame 30 and having a glass member 202 installed therein;
An insulation member 80 installed on the frame body 70 to block heat transmitted from the frame body 70; And
It includes a cover member 90 which is installed on the frame body 70 to surround the heat insulating member 80,
The frame body 70 has a coupling groove 72 into which the heat insulating member 80 is press-fitted, and the heat insulating support member 77 or the window frame 100 seated on the rail of the window frame 100. It is provided with a seating groove 76, the roller member 78 is moved along the rail,
The frame body 70 is formed in the shape of a square pipe hollow inside, a glass member 202 is installed on one surface, the coupling groove portion 72 is formed on the surface opposite to the heat insulating member 80, The seating groove 76 is formed on a surface opposite the window frame 100 so that the heat insulating support member 77 or the roller member 78 is installed.
One side of the frame body 70 is provided with an outer wall portion 74 having a first installation groove 74a formed therein, and an inner wall of the outer wall 74 has a second installation groove 74b formed therein. 1, the installation groove portion 74a or the second installation groove portion 74b is formed of a fiber material or elastic material and is provided with a blocking member 74c protruding in a brush shape, the distance between the window 200 and the window 200, Prevent the loss of hot or cold air at the interval between the window 200 and the rail,
The cover member 90 is engaged with the support bending portion 92 that is bent to support the heat insulating member 80, the coupling protrusion 94 press-fitted into the heat insulating member 80, and the heat insulating member 80. It includes a locking bent portion 96 is bonded to the glass member 202,
The first frame 10 forming the lower end of the window frame 100, the first frame 10 forming both ends of the window frame 100 are formed in the same cross-sectional shape,
The second frame 30 forming the lower end of the window frame 100, the second frame 30 forming both ends of the window frame 100 are formed in the same cross-sectional shape,
By cutting the first frame 10, the second frame 30 and the connecting member 50 produced by one extrusion process, the four first frames 10, four second frames ( 30) and the four connecting members 50, respectively, are connected to produce the window frame 100 of the square shape,
The first connecting inclined portion 54 is machined so as to have the same inclination on both ends of the first frame 10, the second frame 30, and the connecting member 50, which are cut into four, and are opposed to each other. After the first connecting inclined portion 54 is in close contact with each other to assemble or weld the window frame 100 of the square shape,
The first connecting inclined portion 54 is also formed in the connecting member 50 to prevent light from passing between the pair of the first connecting inclined portions 54 connected to each other. After the 50 is bonded with an adhesive, the four first frames 10 are continuously connected to cover the joint portions of the connecting members 50, and the first connecting slopes 54 of the connecting members 50 are connected. 4) The super window for high-rise buildings, characterized in that assembling the window frame 100 by connecting the four second frame 30 continuously after bonding.
delete delete delete delete (a) the first frame 10 forming one surface of the window frame 100, the second frame 30 forming the other surface of the window frame 100, the first frame 10 and the second frame 30. Manufacturing and assembling a connecting member 50 to be connected by an extrusion process;
(b) The glass member 202 is installed to form a window body 200, the frame body 70, the heat insulating member 80 is installed on the frame body 70 and the cover member 90 surrounding the heat insulating member 80 ) Is prepared and assembled by an extrusion process; And
(c) constructing the window frame 100 in an opening of the building, and assembling the window 200 to be slidable in the rail portion of the window frame 100,
In the step (a), the first connecting slope 54 is formed at the ends of the first frame 10, the second frame 30, and the connecting member 50 forming the corners of the window frame 100. Molding and bonding the first connection inclined portions 54 opposed to each other to manufacture the window frame 100 having a square shape,
In the step (b), forming the second connection inclined portion 79 at the ends of the main body frame, the heat insulating member 80 and the cover member 90 forming an edge of the window 200, and are opposed to each other. Bonding the second connecting inclined portion 79 to manufacture the window 200 of the square shape,
The frame body 70 has a coupling groove 72 into which the heat insulating member 80 is press-fitted, and the heat insulating support member 77 or the window frame 100 seated on the rail of the window frame 100. It is provided with a seating groove 76, the roller member 78 is moved along the rail,
The frame body 70 is formed in the shape of a square pipe hollow inside, a glass member 202 is installed on one surface, the coupling groove portion 72 is formed on the surface opposite to the heat insulating member 80, The seating groove 76 is formed on a surface opposite the window frame 100 so that the heat insulating support member 77 or the roller member 78 is installed.
One side of the frame body 70 is provided with an outer wall portion 74 having a first installation groove 74a formed therein, and an inner wall of the outer wall 74 has a second installation groove 74b formed therein. 1, the installation groove portion 74a or the second installation groove portion 74b is formed of a fiber material or elastic material and is provided with a blocking member 74c protruding in a brush shape, the distance between the window 200 and the window 200, Prevent the loss of hot or cold air at the interval between the window 200 and the rail,
The cover member 90 is engaged with the support bending portion 92 that is bent to support the heat insulating member 80, the coupling protrusion 94 press-fitted into the heat insulating member 80, and the heat insulating member 80. It includes a locking bent portion 96 is bonded to the glass member 202,
The first frame 10 forming the lower end of the window frame 100, the first frame 10 forming both ends of the window frame 100 are formed in the same cross-sectional shape,
The second frame 30 forming the lower end of the window frame 100, the second frame 30 forming both ends of the window frame 100 are formed in the same cross-sectional shape,
By cutting the first frame 10, the second frame 30 and the connecting member 50 produced by one extrusion process, the four first frames 10, four second frames ( 30) and the four connecting members 50, respectively, are connected to produce the window frame 100 of the square shape,
The first connecting inclined portion 54 is machined so as to have the same inclination on both ends of the first frame 10, the second frame 30, and the connecting member 50, which are cut into four, and the opposite sides of the first frame 10 After the first connecting inclined portion 54 is in close contact with each other to assemble or weld the window frame 100 of the square shape,
The first connecting inclined portion 54 is also formed in the connecting member 50 to prevent light from passing between the pair of first connecting inclined portions 54 connected to each other. After the 50 is bonded with an adhesive, the four first frames 10 are continuously connected to cover the joint portions of the connecting members 50, and the first connecting slopes 54 of the connecting members 50 are connected. 4) The method of constructing a super window for a high-rise building, characterized in that assembling the window frame (100) by connecting four second frames (30) continuously after bonding. delete delete

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