KR101437089B1 - Curtain wall window and constructing method of horizontal frame of curtain wall window - Google Patents

Abstract

A horizontal frame construction method of a curtain wall composite window and a curtain wall composite window is disclosed. A horizontal frame construction method for a curtain wall composite window according to an exemplary embodiment of the present invention includes: (a) fixing a bracket to the vertical frame; (b) inserting an end region of the horizontal frame into the bracket; And (c) connecting the horizontal frame to the bracket, wherein at least one of the side surfaces of the horizontal frame, the other side of the horizontal frame facing the one side, and at least one screw coupling hole formed in the bracket Using at least one screw having a predetermined length. According to the embodiment of the present invention, at least one screw is used so as to pass through at least one screw coupling hole formed in one side of the horizontal frame, the other side of the horizontal frame facing one side and the bracket, So that it is possible to perform a quick construction work by shortening the time required for the construction work.

Description

TECHNICAL FIELD [0001] The present invention relates to a curtain wall composite window frame and a curtain wall composite window construction method.

The present invention relates to a horizontal frame construction method for a curtain wall composite window frame and a curtain wall composite window, and more particularly, to a horizontal frame construction method for a curtain wall composite window frame and a curtain wall composite window, To a method of constructing a curtain wall composite window frame and a curtain wall composite window in which the construction work can be carried out and a part of the components can be unified to reduce manufacturing cost.

Generally, the curtain wall composite window frame includes a vertical frame provided with a first closing member and a horizontal frame provided with a second barge member. Here, the horizontal frame is fixed to the vertical frame via the bracket.

Conventionally, in order to fix the horizontal frame to the vertical frame, the bracket is first coupled to the vertical frame, and then the horizontal frame is fixedly coupled to the bracket.

Specifically, in order to fix the horizontal frame to the bracket, a plurality of screws are coupled to one side of the bracket in one lateral direction of the horizontal frame. Further, a plurality of screws are coupled to the other side of the bracket in the other lateral direction of the horizontal frame. That is, a screw fastening operation was performed on one side and the other side of the horizontal frame. In this case, for example, the head of the screw, which is fastened to one side of the horizontal frame positioned in the outdoor side direction, is capable of blocking external exposure by windows and other structures, The screw head is exposed to the outside. In order to prevent this, a separate closing member for preventing exposure of the screw head described above was further required in the horizontal frame. That is, after completion of a plurality of screw fastening operations, a finishing member for preventing exposure of the screw head is additionally coupled to the horizontal frame.

Since the conventional joining and construction method has to perform a screw fastening operation in the indoor and outdoor directions and then a finishing member installation work for preventing external exposure of the screw, A rise was inevitable.

SUMMARY OF THE INVENTION An object of the present invention is to provide a curtain wall composite window frame and a horizontal frame construction method for a curtain wall composite window that enables a construction work to be carried out easily and quickly by an operator, .

Another object of the present invention is to provide a method of constructing a curtain wall composite window frame and a curtain wall composite window in which a part of the components is unified to reduce manufacturing cost by a certain amount or more.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

The above object is achieved by a method of fixing a horizontal frame to a vertical frame, the method comprising: (a) fixing the bracket to the vertical frame; (b) inserting an end region of the horizontal frame into the bracket; And (c) connecting the horizontal frame to the bracket, wherein at least one of the side surfaces of the horizontal frame, the other side of the horizontal frame facing the one side, and at least one screw coupling hole formed in the bracket At least one screw having a length of at least one of the lengths of the curtain wall composite window.

In the step (b), one side of the horizontal frame is disposed near one side of the bracket, and the other side of the horizontal frame is disposed near the other side of the bracket. In the step (c) One screw may be coupled to one side and the other side of the horizontal frame and the screw coupling holes formed along the length direction of the bracket.

In the step (b), the horizontal frame may have a state in which at least one first and second screw insertion holes are formed in advance at positions corresponding to the screw engagement holes of the bracket on one side surface and the other side surface, respectively have.

Wherein the horizontal frame is further provided with a thermal insulation material for heat insulation, the thermal insulation material is formed in a pair, and each of the thermal insulation materials has a shape for preventing the end portion of the at least one screw from being exposed in the lateral direction .

In the step (b), the finishing thermal insulation material may have a state already bonded to the horizontal frame.

The finishing heat insulating material includes: a first finishing heat insulating material provided to cover the first surface of the horizontal frame; And a second finishing thermal insulation material covering the second surface of the horizontal frame facing the first surface, the first finishing thermal insulation material and the second finishing thermal insulation material covering the at least one screw end, It is possible to prevent the end of the screw from being exposed.

Wherein the first finishing thermal insulation material comprises a first horizontal finishing thermal insulation material and a first vertical finishing thermal insulation material that is integrally connected to the ends of the first horizontal finishing thermal insulation material so as to be folded to cover the at least one screw end, May include a second horizontal finishing thermal insulation material and a second vertical finishing thermal insulation material that is integrally bent and integrally connected to the ends of the second horizontal finishing thermal insulation material to cover the at least one screw end.

The first and second finishing thermal insulation materials may each be provided with concave grooves to prevent interference with the at least one screw end.

The first finishing thermal insulation material and the second finishing thermal insulation material may be formed with curved surfaces at least in part to form the concave grooves.

The horizontal frame construction method of the curtain wall composite window frame and the curtain wall composite window according to the embodiment of the present invention has the following effects.

First, at least one screw is used to penetrate both of the opposite side surfaces of the horizontal frame and at least one screw coupling hole formed in the bracket, so that the operator can perform the construction work easily and promptly, It is possible to shorten the time required for the construction work.

Secondly, by improving the shape of the finishing thermal insulation material of the horizontal frame so as to cover the end of the screw, the number of parts can be reduced as compared with the prior art, thereby making it possible to maintain the same structural stability while speeding up construction work.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

FIG. 1 is a flowchart showing a horizontal frame construction method of a curtain wall composite window according to an embodiment of the present invention.
2 to 4 are perspective views illustrating a process of assembling a horizontal frame through a horizontal frame construction method of a curtain wall composite window according to an embodiment of the present invention.
5 and 6 are cross-sectional views illustrating a curtain wall composite window in a state in which construction has been completed through a horizontal frame construction method of a curtain wall composite window according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

FIG. 1 is a flowchart showing a method of constructing a horizontal frame of a curtain wall composite window according to an embodiment of the present invention. FIGS. 2 to 4 are views showing a horizontal frame construction method of a curtain wall composite window according to an embodiment of the present invention, FIGS. 5 and 6 are cross-sectional views illustrating a curtain wall composite window in a state in which construction has been completed through a horizontal frame construction method of a curtain wall composite window according to an embodiment of the present invention.

The horizontal frame construction method (hereinafter, referred to as 'construction method') of the curtain wall composite window according to the preferred embodiment of the present invention allows the horizontal frame to be more quickly and easily combined with the vertical frame of the curtain wall composite window Thereby reducing the cost due to the shortening of the construction period. In addition, the present embodiment integrates materials (finishing members to be described later) to facilitate parts management as the number of parts of the material decreases, and to reduce the material cost.

As shown in FIG. 1, a construction method according to an embodiment of the present invention is a construction method in which a horizontal frame 200 is fixedly coupled to a vertical frame 100, including: (a) 300) (S100); (b) inserting an end region of the horizontal frame 200 into the bracket 300; and (c) coupling the horizontal frame 200 to the bracket 300, Using at least one screw 320 having a length equal to or greater than a predetermined length to pass through the other side of the horizontal frame 200 facing one side and the screw coupling hole 310 formed in the bracket 300 S300).

First, as shown in FIGS. 1 and 2, the bracket 300 is fixed to the vertical frame 100 (S100). The first closure member 110 is coupled to the vertical frame 100 for heat insulation and the first closure member 110 is fixed to the vertical frame 100 through a method such as a hook- ). In step S100, the plurality of coupling bolts 330 are used to fix the bracket 300. The coupling bolt 330 is coupled to the vertical frame 100 through the first closing member 110, (300) is engageable with the vertical frame (100).

On the other hand, the bracket 300 and the horizontal frame 200 described later are coupled to both sides of the vertical frame 100.

In this embodiment, as shown in FIG. 2, the bracket 300 has a substantially 'C' channel shape, and at the end of the channel shape, two screw coupling holes 310 are provided continuously along the longitudinal direction have. However, the present invention is not limited to this, and it is needless to say that the number of the screw coupling holes 310 can be further increased by changing the shape and structure of the bracket 300. Hereinafter, a case where two screw coupling holes 310 are provided in the bracket 300 will be described.

Next, as shown in Figs. 1 and 3, an end region of the horizontal frame 200 is inserted into the bracket 300 (S200). One side of the horizontal frame 200 is disposed in the vicinity of one side of the bracket 300 and the other side of the horizontal frame 200 is disposed in the vicinity of the other side of the bracket 300 in step S200. At step S200, the horizontal frame 200 is provided with at least one first and second screw insertion holes 201 and 202, respectively, at positions corresponding to the screw coupling holes 310 of the bracket 300 on one side surface and the other side surface thereof ) Are preliminarily formed. This is to facilitate the fastening operation of at least one screw 320 in S300 which will be described later. When the end portion of the horizontal frame 200 is normally inserted into the bracket 300, the at least one first screw insertion hole 201 and the screw coupling hole 310 are in a state of communicating with each other And at least one second screw insertion hole 202 and the screw coupling hole 310 are also in communication with each other.

3, 5 and 6, the horizontal frame 200 is further provided with a finishing heat insulating material 210 for heat insulation, that is, a second finishing member similarly to the vertical frame 100 . Specifically, the finishing heat insulating material 210 includes a pair of a first finishing thermal insulating material 220 covering the first surface of the horizontal frame 200 and a second finishing thermal insulating material 220 covering the first surface of the horizontal frame 200 facing the first surface. And a second finishing thermal insulation material 230 provided to cover the second surface.

On the other hand, in step S200, the finishing thermal insulating material 210 is already bonded to the horizontal frame 200. In detail, in the process of preparing the horizontal frame 200 before the step S200, the finishing heat insulating material 210 is preliminarily bonded or attached to the horizontal frame 200 by a line operation. In the present embodiment, characteristic portions of the thermal insulation material 210 provided in the horizontal frame 200 will be described later.

Next, as shown in FIGS. 1 and 4, the horizontal frame 200 is coupled to the bracket 300 using at least one screw 320 (S300). The at least one screw 320 includes a screw hole 310 formed in one side of the horizontal frame 200 and the other side of the horizontal frame 200 facing one side and the bracket 300 And is formed to have a length equal to or longer than a predetermined length. In operation S300, at step S200, at least one of the first screw insertion hole 201 and the screw insertion hole 310, the second screw insertion hole 202 and the screw insertion hole 310 are connected to each other, (I.e., first screw insertion hole and second screw insertion hole) of the horizontal frame 200 and a screw coupling hole 310 formed along the longitudinal direction of the bracket 300 (Not shown). In this embodiment, at least one screw 320 is provided in the same number as the number of the screw holes 310 formed in the bracket 300, but is not limited to this, and corresponds to the change in the number of the screw holes 310 .

The horizontal frame 200 can be fixed to the brackets 300 and 300 by using two screws 320 having a length enough to penetrate both the one side surface and the other side surface of the horizontal frame 200, In other words, since it can be fixedly coupled to the vertical frame 100, there is an advantage that the workforce of the operator can be quickly reduced and the work speed can be increased.

In the present embodiment, in step S300, the operator can fix the horizontal frame 200 using the two screws 320 toward the indoor side in the outdoor direction. In this case, And the end of the screw 320 is positioned toward the inside of the room. Here, the head portion of the screw 320 may block exposure to the outside by the glass coupled to the horizontal frame 200 and the vertical frame 100, a separate bracket, and the like.

In the present embodiment, the end of the screw 320 is blocked from exposure in the direction of the room by the finishing heat insulating material 210. In addition, each finishing heat insulating material 210 has a shape that prevents the end portion of at least one screw 320 from being exposed in the lateral direction of the room. 5 and 6, the first and second thermal insulation materials 220 and 230 cover at least one end of the screw 320 to prevent exposure of the end of the screw 320 do.

5 and 6, the first finishing thermal insulator 220 is connected to the ends of the first horizontal finishing thermal insulator 221 and the first horizontal finishing thermal insulator 221 in a bent state, And a first vertical finishing thermal insulation material 222 covering the end of one of the screws 320 of the screw 320. The second finishing thermal insulating material 230 is connected to the second horizontal finishing thermal insulating material 231 and the second horizontal finishing thermal insulating material 231 in a bent state so as to cover the end of the remaining screw 320, Lt; / RTI > The first horizontal finishing thermal insulator 221 and the first vertical finishing thermal insulator 222 are integrally formed and the second horizontal finishing thermal insulator 231 and the second vertical finishing thermal insulator 232 are integrally formed.

That is, in this embodiment, the first vertical finishing thermal insulator 222 and the second vertical finishing thermal insulator 232, which are integrally connected to the first horizontal finishing thermal insulator 221 and the second horizontal finishing thermal insulator 231, A separate cover member for preventing exposure of the end portion of the screw 320 to the indoor side is not required. Thus, the manufacturing cost can be reduced due to the reduction in the number of components, The time required can be reduced.

Further, in the related art, when the curtain wall composite window is viewed from the front side in the indoor side direction, the first closing member, the additional closing member, and the second closing member are sequentially arranged. However, The first vertical finishing thermal insulator 222 and the second vertical finishing thermal insulator 232 are disposed.

In addition, conventionally, a portion between the first closing member and the additional closing member due to the arrangement of the three first closing members, the additional closing member and the second closing member, the portion between the second closing member and the additional closing member, that is, A joint portion is formed. Accordingly, the heat in the frame can be transmitted to the room side through the connecting portion (the portion between the two places), so that the heat insulating property of the window can be weakened.

However, in this embodiment, since the first vertical finishing thermal insulator 222 and the second vertical finishing thermal insulator 232 are disposed, a single connection part is formed unlike the prior art. Accordingly, the present embodiment can further increase the heat insulating property of the window by reducing the number and the area of the connecting portion as compared with the related art.

6, the first and second thermal insulation materials 220 and 230 are provided with concave grooves 240 to prevent interference with the ends of the two screws 320, respectively do. The concave groove 240 is formed along the longitudinal direction of the first finishing thermal insulator 220 and the second finishing thermal insulator 230 and specifically along the longitudinal direction of the first vertical finishing thermal insulator 222 and the second vertical finishing thermal insulator 232 Respectively.

With this structure, when the operator completes the joining of the two screws 320 in S300, the ends of the two screws 320 are not inserted into the first vertical finishing thermal insulator 222 and the second vertical finishing thermal insulator 232 , It is only in contact with the bottom surface of the concave groove 240 or at a position spaced from the bottom surface by a certain distance.

Meanwhile, as described above, interference occurs between the first vertical finishing thermal insulation material 222 and the end of one screw 320, and between the second vertical finishing thermal insulating material 232 and the other end of the one screw 320, respectively . 6, a curved surface is formed on at least a part of the first finishing heat insulating material 220 and the second finishing heat insulating material 230 so as to form the concave groove 240. In this embodiment,

Hereinafter, a curtain wall composite window frame according to an embodiment of the present invention will be described.

5 and 6, the curtain wall composite window frame according to the present embodiment includes a vertical frame 100 provided with a first closing member 110, a bracket 300 coupled to the vertical frame 100, A horizontal frame 200 in which an end region is inserted and fixed to the bracket 300 and is provided with a second closing member, and a side wall of the horizontal frame 200, And at least one screw 320 provided to have a length equal to or greater than a predetermined length to pass through the screw holes 310 formed in the bracket 300. Other configurations and coupling relationships have been described above, and a detailed description thereof will be omitted.

Reference numeral 400 is glass, reference numeral 500 is a backup material, reference numeral 600 is a caulking sealing material, and reference numeral 700 is a lotion (sealing material).

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the spirit of the following claims.

100: vertical frame 110: first closing member
200: Horizontal frame 201: First screw insertion hole
202: second screw insertion hole 210: finishing insulator
220: first finishing insulation material 230: second finishing insulation material
240: concave groove 300: bracket
310: screw coupling hole 320: screw
400: glass 500: backup material
600: caulking sealing material 700:

Claims (10)

A construction method for fixing a horizontal frame to a vertical frame,
(a) fixing the bracket to the vertical frame;
(b) inserting an end region of the horizontal frame into the bracket; And
(c) connecting the horizontal frame to the bracket, wherein at least one side of the horizontal frame, the other side of the horizontal frame facing the one side, and at least one screw coupling hole formed in the bracket, With at least one screw having at least one < RTI ID = 0.0 >
Wherein the horizontal frame is further provided with a heat insulating material for heat insulation, the finishing heat insulating material is formed in a pair, and each of the finishing heat insulating materials has a shape preventing the end portion of the at least one screw from being exposed in the lateral direction Construction method of horizontal frame of curtain wall composite window. The method according to claim 1,
In the step (b), one side of the horizontal frame is disposed in the vicinity of one side of the bracket, the other side of the horizontal frame is disposed in the vicinity of the other side of the bracket,
In the step (c), the at least one screw may include at least one of a horizontal frame and a horizontal frame of the curtain wall composite window, which is coupled to the horizontal frame through all the screw holes formed along the longitudinal direction of the bracket, Construction method. The method according to claim 1,
In the step (b), the horizontal frame may include curtains having a state in which at least one first and second screw insertion holes are formed in advance at positions corresponding to the screw engagement holes of the bracket on one side surface and the other side surface of the bracket, A Horizontal Frame Construction Method for a Monthly Composite Window. delete The method according to claim 1,
Wherein the finishing thermal insulation material is already bonded to the horizontal frame in the step (b). The method according to claim 1,
The finishing heat insulating material includes: a first finishing heat insulating material provided to cover the first surface of the horizontal frame; And
And a second finishing thermal insulation material covering the second surface of the horizontal frame facing the first surface,
Wherein the first and second finishing thermal insulation materials cover the at least one screw end to prevent exposure of the end of the screw. The method according to claim 6,
Wherein the first finishing thermal insulation material comprises a first horizontal finishing thermal insulation material and a first vertical finishing thermal insulation material that is integrally connected to the ends of the first horizontal finishing thermal insulation material so as to be folded to cover the at least one screw end,
Wherein the second finishing thermal insulation material comprises a second horizontal finishing thermal insulation material and a second vertical finishing thermal insulation material which is bent integrally with the ends of the second horizontal finishing thermal insulation material and covers the at least one screw end, Frame construction method. The method according to claim 6,
Wherein the first and second finishing thermal insulation materials are each provided with concave grooves to prevent interfering with the at least one screw end and the horizontal end of the curtain wall composite window. 9. The method of claim 8,
Wherein the first finishing thermal insulation material and the second finishing thermal insulation material have curved surfaces formed at least in part to form the concave grooves. Vertical frame; And
A curtain wall composite window frame comprising a horizontal frame coupled to the vertical frame through a horizontal frame construction method of a curtain wall composite window according to any one of claims 1 to 9.

Images