KR20240007306A - Construction method of curtain wall using the system for window of curtain wall - Google Patents

Abstract

The curtain wall construction method using the curtain wall window system of the present invention includes a first frame directly installed in a building, a plurality of fastening members fastened to the first frame, a pressing member provided to fix the first frame and the glass, A curtain wall construction method using a curtain wall assembly including a second frame formed to cover a pressing member, comprising: a first frame installation step of installing a first frame on a wall of a building; After the first frame installation step, a frame temporary assembly step of temporarily assembling the first frame and the pressing member through the fastening member to support the glass constituting the curtain wall; After the frame preliminary assembly step, a glass seating step of placing the glass between the first frame and the pressing member while seating the glass on the top of the fastening member; After the glass seating step, a glass fixing step of fixing the glass by pressing the pressing member through the fastening member; And after the glass fixing step, a finishing step of fastening the second frame to the externally exposed surface of the pressing member.

Description

Construction method of curtain wall using the system for window of curtain wall}

The present invention relates to a curtain wall construction method using a curtain wall window system. More specifically, it provides the effect of improving insulation performance by forming multiple air layers and improving the fastening force between members, and improving environmental friendliness by minimizing the amount of insulation used. This is about a curtain wall construction method using a curtain wall window system.

While the columns and beams that form the framework of a building are structures that support the vertical load applied to the building and the horizontal load caused by wind or earthquakes, the exterior wall that divides the interior and exterior, especially in high-rise buildings, does not support the load and is merely a space. It is a non-bearing wall that divides a bay, and is called a curtain wall because the wall acts only as a partition like a curtain. Curtain walls prevent columns and beams from being exposed to the outside, functioning as an exterior material for the beautiful exterior of a building and blocking rain, wind, noise, and heat.

Curtain walls are mainly used in high-rise buildings, and horizontal bars and vertical bars are usually installed in a grid shape, and glass is installed in the grid shape to form a wall. Since the horizontal bars and vertical bars are mass-produced to the same size at the factory and constructed on site. Although it has the advantage of shortening the construction period, it has the disadvantage of poor insulation because almost the entire exterior wall is covered with a glass finish, so improving insulation to reduce energy loss is an essential element in terms of energy efficiency.

Curtain walls mainly use horizontal and vertical bars made of aluminum, and one of the factors that reduces the window performance of curtain walls is the large heat loss of aluminum bars (frames). In the case of a glass wall, it can be supplemented by attaching an insulation film to the surface, but since the bars that make up the frame are made of aluminum, a metal material, there is still a problem of high energy loss due to heat conduction, so supplementation is urgently needed. am.

In particular, such a curtain wall is installed between the upper and lower glass walls to support the load of the glass wall on the upper floor from the bottom, but the structure to support the load of the glass wall is insufficient, so the support capacity for the load of the glass wall is reduced, so the curtain wall is installed between the upper and lower glass walls. There was also the problem that the walls separated, came off, or were deformed, and the airtightness and insulation performance between them deteriorated.

Recently, in order to solve this problem, technology has been developed to secure insulation performance by applying multiple insulation materials made of glass wool, Styrofoam, etc., but this not only has a complicated structure, but also causes a significant increase in product manufacturing costs and unnecessary waste of resources. There were many problems caused by it.

Therefore, the conventional curtain wall system has many of the above problems, so a curtain wall system with a combined structure that can minimize the use of insulation materials made of glass wool, Styrofoam, etc. while increasing airtightness between the members that make up the curtain wall system development is required.

KR 10-0652129 B1 ‘Concealed curtain wall system with insulation structure using gaskets’

The present invention relates to a method of constructing a curtain wall using a curtain wall window system. More specifically, the present invention relates to a method of constructing a curtain wall using a curtain wall window system. More specifically, the present invention relates to a method of forming a curtain wall through fastening members spaced apart from each other and insulating the heat by improving the fastening force between members through heat insulating members that change shape when combined. This relates to a curtain wall construction method using a curtain wall window system that can improve performance and improve environmental friendliness by minimizing the amount of insulation used.

The curtain wall construction method using the curtain wall window system of the present invention includes a first frame directly installed in a building, a plurality of fastening members fastened to the first frame, a pressing member provided to fix the first frame and the glass, A curtain wall construction method using a curtain wall assembly including a second frame formed to cover a pressing member, comprising: a first frame installation step of installing a first frame on a wall of a building; After the first frame installation step, a frame temporary assembly step of temporarily assembling the first frame and the pressing member through the fastening member to support the glass constituting the curtain wall; After the frame preliminary assembly step, a glass seating step of placing the glass between the first frame and the pressing member while seating the glass on the top of the fastening member; After the glass seating step, a glass fixing step of fixing the glass by pressing the pressing member through the fastening member; And after the glass fixing step, a finishing step of fastening the second frame to the externally exposed surface of the pressing member.

More specifically, in the frame pre-assembly step, when a plurality of fastening members are coupled to the first frame, a predetermined space is created between the fastening members so that an air insulation layer of a predetermined volume can be formed between the fastening members. It is characterized by forming.

More specifically, the curtain wall assembly further includes an insulating member provided to surround the fastening member, and the curtain wall construction method includes attaching the insulating member to the first frame after the first frame installation step. It further includes a step of fastening an insulating member to be coupled, wherein the glass fixing step further includes a step of deforming the shape of the insulating member so that the shape of the insulating member in a state coupled to the first frame is deformed. do.

The curtain wall window system according to embodiments of the present invention includes a pressing member and a fastening member, thereby improving the fastening force between the members through pressurization of the glass, thereby providing a curtain wall window system with improved insulation performance. there is.

In addition, the curtain wall window system according to embodiments of the present invention ensures insulation performance through the formation of an air insulation layer, making it possible to secure excellent insulation performance without increasing the amount of insulation materials including glass wool, Styrofoam, etc. It has the effect of improving environmental friendliness.

In addition, the curtain wall window system according to embodiments of the present invention has the effect of providing improved insulation performance by minimizing heat transfer between members by including an insulation member having physical properties different from those of the first frame and the second frame.

In addition, the curtain wall window system according to embodiments of the present invention includes a fastening member having a screw connection method, which has the effect of securing the reusability of the member compared to the plastic member applied to the conventional curtain wall joint structure. there is.

In addition, the curtain wall window system according to embodiments of the present invention includes a first insulation member, thereby improving the bonding force between members through shape deformation, and is made of a non-metallic material and provided between metal members to improve separation between metals. It can provide the effect of minimizing thermal conductivity through

In addition, the curtain wall window system according to embodiments of the present invention includes a partially applied first insulation member, thereby reducing the overall plastic usage of the curtain wall window system, thereby improving the mechanical bonding between members. At the same time, it provides the effect of improving environmental friendliness.

In addition, the curtain wall window system according to embodiments of the present invention includes a protrusion, thereby providing the effect of improving the coupling force between the first frame and the first insulation member.

In addition, the curtain wall window system according to embodiments of the present invention includes a second insulation member, thereby blocking air flowing in from the outside of the building between the first frame and the fastening member to provide an effect of improving insulation performance. You can.

In addition, the curtain wall window system according to embodiments of the present invention includes wings, thereby forming a plurality of air layers and providing the effect of improving thermal insulation performance based on this.

In addition, the curtain wall window system according to embodiments of the present invention can improve the outdoor air blocking rate of the building by including a second insulation member having a porous structure, and is made of an elastic material to prevent compression of the second insulation member. This has the effect of increasing confidentiality between members.

And, the curtain wall window system according to embodiments of the present invention can provide an effect of improving the fastening force between the first frame and the pressing member by including a fastening part.

In addition, the curtain wall window system according to embodiments of the present invention includes a protruding fastening part, so that it is possible to easily select the coupling position of the fastening member, thereby ensuring assembly and constructability, and the protruding height of the fastening part. As the area where the fastening member is fixed to the fastening part is expanded, the effect of improving the fastening force can be provided.

In addition, the curtain wall window system according to embodiments of the present invention provides the effect of securing improved fastening force between the first frame and the fastening member by inducing shape deformation of the first insulation member.

In addition, the curtain wall window system according to embodiments of the present invention includes a notch groove, thereby providing the effect of improving the fastening force between the first insulation member and the fastening part.

Figure 1 is an exploded perspective view showing a curtain wall window system according to an embodiment of the present invention.
Figure 2 is a front view showing a first frame of a curtain wall window system according to an embodiment of the present invention.
Figure 3 is a perspective view showing the air insulation layer of the curtain wall window system according to an embodiment of the present invention.
Figure 4 is a front view showing the first insulation member of the curtain wall window system according to an embodiment of the present invention.
Figure 5 is an exploded view showing a window system for a curtain wall according to a further embodiment of the present invention.
Figure 6 is a front view showing a second insulation member of a curtain wall window system according to an additional embodiment of the present invention.
Figure 7 is a block flow chart illustrating the progress of the curtain wall construction method according to an embodiment of the present invention.
Figure 8 is a block flow chart illustrating the progress of the glass fixing step of the curtain wall construction method according to an embodiment of the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely provided to ensure that the disclosure of the present invention is complete and to provide a general understanding of the technical field to which the present invention pertains. It is provided to fully inform those with knowledge of the scope of the invention, and the present invention is only defined by the scope of the claims.

Additionally, the terms used in this specification are for describing embodiments and are not intended to limit the present invention.

As used herein, singular forms also include plural forms, unless specifically stated otherwise in the context. As used in the specification, “comprises” and/or “comprising” does not exclude the presence or addition of elements other than the mentioned elements.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains.

First, a window system for a curtain wall according to an embodiment of the present invention will be described with reference to FIG. 1.

Figure 1 is an exploded perspective view showing a curtain wall window system according to an embodiment of the present invention.

As shown in Figure 1, the window system for a curtain wall of the present invention is provided to fix glass when installed in a building, and the window system for a curtain wall 1000 includes a first frame 100, a pressing member 200, It includes a fastening member 300, a second frame 400, and an insulation member 500.

First, the first frame 100 is characterized in that at least one is provided inside the building to support one side of the glass.

In addition, the first frame 100 is characterized in that it includes a body portion 110 and a fastening portion 120.

Here, the body portion 110 is characterized by being placed inside the building to block air outside the building.

In addition, the fastening portion 120 is characterized in that it protrudes in front of the body portion 110 to fasten the fastening member 300.

Here, the front refers to the exterior direction of the building and the rear refers to the interior direction of the building.

Accordingly, the effect of improving the fastening force between the first frame 100 and the pressing member 200 can be provided through the formation of the fastening portion 120.

In addition, through the protruding fastening part 120, the coupling position of the fastening member 300 can be easily selected to ensure assembly and constructability, and the fastening member ( The area where 300) is fixed to the fastening part 120 is expanded, which can provide the effect of improving the fixing force.

In addition, the fastening portion 120 is characterized in that it protrudes at a predetermined height toward the outside of the building to induce shape deformation of the first insulation member 510.

Accordingly, by inducing shape deformation of the first insulation member 510, an effect of securing improved fastening force between the first frame 100 and the fastening member 300 is provided.

Next, with reference to FIG. 2, the first frame of the curtain wall window system according to an embodiment of the present invention will be described in more detail.

Figure 2 is a front view showing a first frame of a curtain wall window system according to an embodiment of the present invention.

As shown in Figure 2, the fastening part 120 is characterized by including a notch groove 121.

Here, the notch groove 121 is formed to a predetermined depth on the inner surface of the fastening portion 120, and is provided to accommodate a portion of the first heat insulating member 510 that has been deformed in shape.

Accordingly, the formation of the notch groove 121 provides the effect of improving the fastening force between the first heat insulating member 510 and the fastening part 120.

Here, the notch groove 121 is characterized in that at least one is provided on the inner surface of the fastening part 120.

In addition, the notch groove 121 is not shown in the drawings, such as being coupled not only to the screw fastening member 300 but also to a member of a shape corresponding to the notch groove 121, for example, a snap fit ( It is characterized by being provided to improve ease of connection by enabling easy connection with members having a snap fit structure.

Next, the pressing member 200 supports the other side of the glass and is provided to pressurize the glass.

Additionally, the fastening member 300 is provided to penetrate the pressing member and secure the pressing member and the first frame.

In addition, the fastening member 300 is characterized in that it is screwed to the first frame 100.

Accordingly, there is an effect of providing a curtain wall window system with improved thermal insulation performance by improving the fastening force between members by pressing the glass through the pressing member 200 and the fastening member 300.

In addition, the fastening member 300 having a screw coupling method has the effect of ensuring the reusability of the member compared to the plastic fastening member applied to the conventional curtain wall fastening structure.

Here, the fastening members 300 are provided in plural pieces and coupled to the first frame 100, and are spaced apart from each other at a predetermined distance in the longitudinal direction of the first frame 100 to form an air insulation layer (L) of a predetermined volume. It is characterized by:

Next, with reference to Figure 3, the air insulation layer of the curtain wall window system according to an embodiment of the present invention will be described in more detail.

Figure 3 is a perspective view showing the air insulation layer of the curtain wall window system according to an embodiment of the present invention.

In addition, the air insulation layer (L) is characterized in that it is provided to block heat transfer from the outside to the inside of the building.

Accordingly, by securing insulation performance through the formation of an air insulation layer (L), excellent insulation performance can be secured without increasing the amount of insulation materials including glass wool, Styrofoam, etc., and environmental friendliness can be improved. There is.

Next, the second frame 400 is coupled to the pressing member 200 and is characterized in that at least one is provided on the outside of the building to surround the exposed surface of the pressing member 200.

In addition, the insulation member 500 is made of a different material from the first frame 100 and the second frame 400 and is provided between the first frame 100 and the fastening member 300 to block mutual heat transfer. It is characterized by being provided in .

Accordingly, there is an effect of providing improved insulation performance by minimizing heat transfer between members through the insulation member 500 having physical properties different from those of the first frame 100 and the second frame 400.

Here, the insulation member 500 is characterized in that it further includes a first insulation member 510 and a second insulation member 520.

In addition, the first insulation member 510 is coupled with the fastening member 300 to surround the fastening member 300, and when the fastening member 300 is coupled with the first frame 100, the first heat insulating member 510 has a shape It is characterized in that it is formed to be deformed.

Accordingly, through the first insulation member 510, the shape is modified to improve the bonding force between the members, and by being made of a non-metallic material and provided between the metal members, it provides the effect of minimizing thermal conductivity through separation between metals. You can.

Here, the first insulation member 510 is not applied in the form of a bar but is only partially applied to the area where the fastening member 300 is applied.

Accordingly, through partial application of the first insulation member 510, the total amount of plastic used during construction of the curtain wall window system can be reduced, providing the effect of securing significantly higher environmental friendliness.

Next, with reference to Figure 4, the first insulation member of the curtain wall window system according to an embodiment of the present invention will be described in more detail.

Figure 4 is a front view showing the first insulation member of the curtain wall window system according to an embodiment of the present invention.

As shown in FIG. 4, the first insulation member 510 is characterized by including a protrusion 511.

Here, the protrusion 511 is formed on the outer periphery of the first insulation member 510 and is provided so that the protrusion height is variable depending on the progress of coupling between the fastening member 300 and the first frame 100. It is characterized by

In addition, the protrusion 511 is characterized in that it is provided in plural numbers on the outer periphery of the first heat insulating member 510.

Accordingly, the formation of the protrusion 511 provides the effect of improving the coupling force between the first frame 100 and the first insulation member 510.

In addition, the second heat insulating member 520 is provided between the first frame 100 and the pressing member 200, and is provided to contact the glass while coupled to the fastening member 300. do.

Accordingly, through the formation of the second insulation member 520, it is possible to provide an effect of improving insulation performance by blocking air flowing in from the outside of the building between the first frame 100 and the fastening member 300.

In addition, the second insulation member 520 is characterized by being made of an elastic material having a porous structure.

Accordingly, the external air blocking rate of the building can be improved by having a porous structure through the second insulation member 520, and the air tightness between members can be increased through compression of the second insulation member 520 by being made of an elastic material. There is an effect.

Next, with reference to FIGS. 5 and 6 , the second insulation member of the curtain wall window system according to an additional embodiment of the present invention will be described in detail.

Figure 5 is an exploded view showing a window system for a curtain wall according to an additional embodiment of the present invention, and Figure 6 is a front view showing a second insulation member of a window system for a curtain wall according to an additional embodiment of the present invention.

As shown in Figure 5, the curtain wall window system according to an additional embodiment of the present invention includes a first frame 100, a pressing member 200, a fastening member 300, a second frame 400, and an insulation member ( 500).

In proceeding with the description of additional embodiments of the present invention, expressions that overlap with one embodiment of the present invention described above will be omitted for the sake of concise description of the invention.

Next, as shown in FIG. 6, the second heat insulating member 520 is characterized by including a body portion 521 and a wing portion 522.

Here, the body portion 521 is characterized in that it is provided to be coupled to the fastening member 300.

In addition, the wing portion 522 is formed to protrude outward from the body portion 521 and has at least one end so as to contact the glass to form an air layer.

In addition, the wing portion 522 is formed to become thinner in thickness from the center of the body portion 521 toward the end.

Accordingly, it is possible to form a plurality of air layers through the wings 522, thereby providing the effect of improving insulation performance.

Next, a curtain wall construction method according to an embodiment of the present invention will be described with reference to FIG. 7.

Figure 7 is a block flow chart illustrating the progress of the curtain wall construction method according to an embodiment of the present invention.

As shown in Figure 7, the curtain wall construction method according to the present invention is characterized in that it is carried out based on the curtain wall window system of the present invention described above.

More specifically, the curtain wall construction method includes a first frame installation step (S100), an insulation member fastening step (S200), a frame pre-assembly step (S300), a glass seating step (S400), a glass fixing step (S500), and finishing. It is characterized by including step (S600).

First, the first frame installation step (S100) is a step of installing the first frame on the wall of the building.

And, the insulating member fastening step (S200) is a step of coupling the insulating member to the first frame after the first frame installation step (S100).

In addition, the frame temporary assembly step (S300) is a step of temporarily assembling the first frame and the pressing member through the fastening member to support the glass constituting the curtain wall after the first frame installation step (S100). .

Here, in the frame temporary assembly step (S300), when a plurality of fastening members are coupled to the first frame, a predetermined space is formed between the fastening members so that an air insulation layer of a predetermined volume can be formed between the fastening members. It is characterized by:

Next, the glass seating step (S400) is a step of placing the glass between the first frame and the pressing member while seating the glass on the top of the fastening member after the frame preliminary assembly step (S300).

And, the glass fixing step (S500) is a step of fixing the glass by pressing the pressing member through the fastening member after the glass seating step (S400).

Next, with reference to FIG. 8, the glass fixing step of the curtain wall construction method according to an embodiment of the present invention will be described in more detail.

Figure 8 is a block flow chart illustrating the progress of the glass fixing step of the curtain wall construction method according to an embodiment of the present invention.

As shown in FIG. 8, the glass fixing step (S500) further includes a heat insulating member shape modifying step (S510).

Here, the step of deforming the shape of the insulating member (S510) is a step in which the shape of the insulating member in a state combined with the first frame is deformed.

At this time, the heat insulating member shape modifying step (S510) is performed so that the shape of the heat insulating member before being combined with the first frame is different from the shape when it is combined with the first frame.

In addition, the step of modifying the shape of the insulation member (S510) is characterized in that the diameter of the insulation member is expanded and the extension length is reduced.

Next, the finishing step (S600) is a step of fastening the second frame to the externally exposed surface of the pressing member after the glass fixing step (S500).

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for illustrating the invention, and those skilled in the art may make various modifications or equivalents from the detailed description of the invention. It will be appreciated that one embodiment is possible.

Therefore, the true scope of rights of the present invention must be determined by the technical spirit of the patent claims.

1000: Window system for curtain wall
100: 1st frame
110: body part
120: fastening part
121: Notch groove
200: Pressure member
300: fastening member
400: 2nd frame
500: insulation member
510: first insulation member
511: protrusion
520: Second insulation member
521: body part
522: wing part
L: air insulation layer
S100: First frame installation step
S200: Insulating member fastening step
S300: Frame pre-assembly stage
S400: Glass seating step
S500: Glass fixing stage
S510: Insulation member shape deformation stage
S600: Finishing stage

Claims (2)

A first frame 100 installed directly in a building, a plurality of fastening members 300 fastened to the first frame 100, a pressing member 200 provided to fix the first frame 100 and the glass, In the curtain wall construction method using a curtain wall assembly including a second frame 400 formed to cover the pressing member 200 and an insulating member 500 provided to surround the fastening member 300,
A first frame installation step (S100) of installing the first frame 100 on the wall of a building;
After the first frame installation step (S100), an insulating member fastening step (S200) of coupling the insulating member 500 to the first frame 100;
After the insulation member fastening step (S200), a frame temporary assembly step of temporarily assembling the first frame 100 and the pressing member 200 through the fastening member 300 to support the glass constituting the curtain wall ( S300);
After the frame preliminary assembly step (S300), a glass seating step (S400) of placing the glass between the first frame 100 and the pressing member 200 while seating the glass on the top of the fastening member 300. ;
After the glass seating step (S400), a glass fixing step (S500) of fixing the glass by pressing the pressing member 200 through the fastening member 300; and
After the glass fixing step (S500), a finishing step (S600) of fastening the second frame 400 to the externally exposed surface of the pressing member 200,
The glass fixing step (S500) is
A curtain wall construction method using a curtain wall window system, comprising an insulating member shape deforming step (S510) in which the shape of the insulating member 500 in a state coupled to the first frame 100 is deformed. . According to claim 1,
In the frame pre-assembly step (S300),
When a plurality of fastening members 300 are coupled to the first frame 100, a predetermined spacing is maintained between the fastening members 300 so as to form an air insulation layer of a predetermined volume between the fastening members 300. A curtain wall construction method characterized by forming a space.