KR101978597B1 - Multi-Function Vertical Curtain Wall Reinforcement Structure - Google Patents

Abstract

The present invention relates to a multifunctional and vertical curtain wall reinforcement structure for reinforcing a vertical curtain wall, which comprises: a vertical reinforcement frame supporting the curtain wall; at least one reinforcement unit inserted in the vertical direction of an inner space of the vertical reinforcement frame to reinforce the curtain wall; a vertical connection frame supporting the curtain wall; an insulator; and an insulation material installed to at least one side of the insulation material, and comprising wings formed outwards and at least one partition wall formed between the wings.

Description

{Multi-Function Vertical Curtain Wall Reinforcement Structure}

The present invention relates to a multifunctional vertical curtain wall reinforcing structure, and more particularly to a multifunctional vertical curtain wall reinforcing structure capable of reinforcing a curtain wall in a vertical direction.

A curtain wall is a non-structural wall of a building that generally functions to protect occupants from the outside environment without supporting the load of the building. The horizontal load caused by the vertical load applied to the building and the wind or earthquake is supported by the frame made of column and beam, where the curtain wall acts as a curtain to protect the occupants in the building from the outside environment.

These curtain walls are largely divided into a stick type and a unitized type according to the construction method. The stick type is applied to the lower layer mainly by assembling the members in the field. On the other hand, a unit type is mainly applied to a high-level part by assembling each member at a factory and transporting it to a site.

On the other hand, materials such as stainless steel, aluminum, bronze and the like are also used as the material of the curtain wall, but in recent years, the use of glass has also been increasing. The glass curtain wall not only transforms the exterior image of the building into a modern one, but also has the advantage of making the inside of the building better.

In the conventional curtain wall, a frame such as a vertical frame and a horizontal frame is installed at a predetermined distance from a skeleton of a building (structure skeleton), and holes or anchor bolts are welded to form an anchor bolt Lt; / RTI > When the anchor bolt is fixed to the frame, a predetermined portion of the multi-layer glass is punctured to fix the multi-layer glass back to the anchor bolt and is coupled to the anchor bolt.

The material of the frame is mainly aluminum, which is due to the light workability of the aluminum and the good workability that can be processed into complicated sections. However, aluminum is expensive compared to steel, has low heat insulation and fire resistance, and has a stiffness of about 1/3 of steel. Therefore, when aluminum is used, the size of the frame is inevitably enlarged.

On the other hand, the use of steel in frames has been increasing in accordance with the demand for large-sized glass surfaces, heat insulation performance and fire resistance performance improvement. The frame made of steel has various advantages such as excellent rigidity and improved structural performance, low thermal conductivity and excellent heat insulation and fire resistance, but it causes a serious problem of corrosion in the frame. Thus, despite the many advantages of conventional curtain walls, the use of steel frames made of steel has been counteracted since it causes fatal corrosion problems.

Korean Patent No. 10-1543455 (2015.08.04) Korean Patent No. 10-1468003 (Nov. 26, 2014)

One aspect of the present invention provides a multifunctional vertical curtain wall reinforcing structure capable of reinforcing a vertical frame by using a reinforcing material formed of a standard reinforcing steel and adjusting the number of reinforcing materials in correspondence with the height of the interlayer.

The technical problem of the present invention is not limited to the technical problems mentioned above, and other technical problems which are not mentioned can be understood by those skilled in the art from the following description.

A multifunctional vertical curtain wall reinforcing structure according to an embodiment of the present invention includes: a vertical reinforcing frame formed with an inner space in an empty tube shape and extending vertically and vertically to support a curtain wall; At least one reinforcing portion inserted in the vertical space in the vertical space to reinforce the curtain wall; A vertical connection frame which is opposed to the vertical reinforcing frame at regular intervals and has an inner space formed in an empty tube shape to support the curtain wall; A heat insulating material detachably installed between the vertical reinforcing frame and the vertical connection frame; And a heat insulating member mounted on at least one side of the heat insulating material between the vertical reinforcing frame and the vertical connection frame and formed of at least one partition wall formed between the vanes and the vanes formed in the outward direction.

In one embodiment, the vertical reinforcement frame comprises: a frame having an inner space formed in an empty tube shape; And at least one pair of fastening protrusions formed at the front end and the rear end of the inner space of the frame at a distance corresponding to the width of the reinforcing portion so that the reinforcing portion can be inserted.

In one embodiment, the frame may be formed such that at least one side thereof narrows to a predetermined angle toward the front end.

In one embodiment, when the frame is applied to a wall, a space between the sloped surface of the front end and the wall may be filled with a sealant and sealed.

In one embodiment, the vertical reinforcing frame and the vertical connection frame may include an " H " type fastening portion for fastening the heat insulating material.

In one embodiment, the fastening portion is engaged with the upper blade after inserting the heat insulating material into a space between the upper blades formed on the upper portion, and the lower blades formed at the lower portion in the state where the heat insulating material is fastened are brought close to each other So that the upper blade can be opened to separate the heat insulating material.

In one embodiment, the partition wall may be formed longer than a wall formed at the outermost wall.

In one embodiment, the heat insulator is formed in the shape of a "C" tube and may serve as a guide line when inserting the glass.

In one embodiment, when the vertical reinforcing frame and the vertical connecting frame form an opening / closing window of the curtain wall, the vertical reinforcing frame and the vertical connecting frame further include an " L " -shaped lid covering the open space between the vertical reinforcing frame and the vertical connecting frame can do.

According to another aspect of the present invention, there is provided a multifunctional vertical curtain wall reinforcing structure, comprising: a vertical reinforcing frame formed by a pipe having an inner space of an empty square shape and extending vertically and vertically to support a curtain wall; First and second shock-absorbing frames installed on one side of the vertical reinforcement frame and moving in the direction of the vertical reinforcement frame when a lateral pressure is applied to the curtain wall and moving away from the vertical reinforcement frame when tension is applied; First and second vertical connection frames which are opposed to the first and second shock-absorbing frames at regular intervals and whose inner spaces are formed in an empty tube shape to support the curtain wall; First and second insulation members installed to be detachable between the first shock absorption frame, the first vertical connection frame, the second shock absorption frame and the second vertical connection frame, respectively; A heat insulating member mounted on at least one side of the first and second heat insulating members and formed of at least one partition formed between the vanes formed in the outward direction and the vanes; And a cushioning material filling between the first and second heat insulating materials.

In one embodiment, the vertical reinforcing frame may include a first fastening protrusion protruding in a front end direction or a rear end direction at each corner.

In one embodiment, the first and second shock-absorbing frames may include a second fastening protrusion protruding inward in an inlet portion of the vane facing the first fastening protrusion.

In one embodiment, the first and second shock-absorbing frames may be formed in a "C" shaped tube.

In one embodiment, the first and second vertical connection frames may be formed of " C " shaped pipes.

In one embodiment, the heat insulator may be formed in the shape of a "C" tube.

In one embodiment, the cushioning material may be formed of a flame retardant sponge material.

According to an aspect of the present invention, there is provided a method of manufacturing a flat panel display, which is easy to be reinforced by using a standard flat steel, has a structural stability relative to a volume of three times or more as compared with a physical property, Can be realized.

According to another aspect of the present invention, there is provided a non-sealing material which is excellent in workability and can be detached and adhered to a P / A insulation bar, thereby facilitating the use of a tram island & Not only excellent but also maximizes structural stability, visibility and economy.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a schematic configuration of a multifunctional vertical curtain wall reinforcing structure according to an embodiment of the present invention; FIG.
Fig. 2 is a view for explaining the vertical reinforcement frame shown in Fig. 1. Fig.
3 is a diagram showing a schematic configuration of a multifunction vertical curtain wall reinforcing structure according to another embodiment of the present invention.
4 is a diagram showing a schematic configuration of a multifunction vertical curtain wall reinforcing structure according to another embodiment of the present invention.
Fig. 5 is a view for explaining the connection relationship between the vertical reinforcing frame and the shock absorbing frame of Fig. 4;

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a schematic configuration of a multifunctional vertical curtain wall reinforcing structure according to an embodiment of the present invention; FIG.

1, a multifunction vertical curtain wall reinforcing structure 10 includes a vertical reinforcing frame 100, at least one reinforcing portion 200, a vertical connecting frame 300, a heat insulating material 400 and an insulating material 500, .

The vertical reinforcing frame 100 has an inner space formed in the shape of an empty pipe and extends vertically and vertically to support the curtain wall. The vertical reinforcing frame 100 includes at least one reinforcing part 200, do.

The reinforcing portion 200 is inserted in the vertical space in the vertical space of the vertical reinforcing frame 100 to reinforce the curtain wall.

In one embodiment, it is preferable that the reinforced portion 200 use a commercially available standard material of 9.0 THK * 75 MM PLATE so as to improve the unit price and the convenience of the purchase.

The existing reinforced products are AL vertical members satisfying the structural calculation according to the wind load, and they have disadvantages such as cutting, welding and machining of about 25,5000 won per M when the reinforcing material satisfying the high-rise structure is attached.

In the case of the present invention, it is possible to form the flat steel reinforcing member into a structure that can be fastened without the necessity of separate manufacture and machining.

That is, a structure capable of reinforcing the number of insertions of the reinforcing portion 200 that can cope with the additional stress by 1, 2, or 3 times (AL + 27 THK) (AL + 27THK) without AL as a possible reinforcement material. Also, it is possible to easily reinforce only the necessary parts with the same standard product irrespective of the interlayer tolerance.

Accordingly, the use of the standard flat steel (reinforced portion 200) can improve the unit price and convenience of purchase and execution.

The vertical connection frame 300 is opposed to the vertical reinforcing frame 100 at regular intervals, and the inner space is formed in an empty tube shape to support the curtain wall. At this time, the gap between the vertical connection frame 300 and the vertical reinforcing frame 100 may vary according to the length of the heat insulating material 400 as shown in FIG.

The heat insulating material 400 is detachably installed between the vertical reinforcing frame 100 and the vertical connection frame 300.

In one embodiment, the heat insulator 400 is preferably formed of a material that can dissolve in a fire when a fire occurs.

Referring to FIG. 1B, the vertical reinforcing frame 100 and the vertical connecting frame 300 may include an 'H' type fastening part 600 for fastening the heat insulating material 400.

The existing product, A-ZON insulation bar and P / A insulation bar, was not recycled and was treated as a coarse material. It can not be changed into re-coating, cutting heat, other members, It has to be replaced with a new product.

1B) to the upper portion of the fastening portion 600 (that is, the portion connected to the vertical reinforcing frame 100 and the vertical connecting frame 300), which is a clip portion for fixing the heat insulating material 400, And the heat insulating material 400 can be separated from the C-shape due to warping. That is, the polyamide heat insulating material 400 having different specifications can be reused and fixed.

Therefore, it is possible to change the use of other members, change all glass standards, and re-coat interior / exterior materials.

The fastening part 600 is formed by inserting the heat insulating material 400 in the space between the upper wings formed at the upper part and then engaging with the upper wing and fastening the lower wings formed at the lower part in the state where the heat insulating material 400 is fastened So that the upper blade is opened so that the heat insulating material 400 is separated.

The heat insulating member 500 is mounted on at least one side of the heat insulating material 400 between the vertical reinforcing frame 100 and the vertical connection frame 300 and includes at least one partition wall 510) (see FIG. 1A).

In one embodiment, the heat insulator 500 is preferably formed of a sponge of flame retardant and non-combustible material.

Conventional products have a disadvantage in that the structure of the heat bridge block is fragmentary and only heat conduction is cut off, so that only one minute of heat loss from the outside air can be blocked.

Accordingly, the heat insulating body 500 according to the present invention has a structure in which the outer side of the outside air and the inside of the inside which abuts against the inside are sealed by a heat insulating material, and a phenomenon of a thermal phenomenon occurring in the hollow space remaining after sandwiching the double- A heat transfer phenomenon in the air after the heat conduction is interrupted) can be formed by using a plurality of partition walls 510 (refer to FIG. 1C).

Further, the heat insulating member 500 can form a three-dimensional heat insulating structure having a structure that covers one side or the other side of the open side of the heat insulating member 400.

Therefore, according to the present invention, it is not necessary to separately perform the inner and outer press-fitting before sealing after the glass is applied, and it is possible to automatically set the position of the glass even if the constructor does not fit the glass interval separately during the organic fitting, It is possible to make the installation of the glass convenient.

In one embodiment, the partition wall 510 may be formed longer than a wall formed at the outermost wall.

In one embodiment, the insulator 500 is formed in the shape of a "C" tube and can serve as a guideline when inserting the glass. Referring to FIG. 1C, it can be seen that the multi-layered glass is inserted into the open space, and that the hollow space is divided by the partition 510 to prevent the occurrence of a tropical flow phenomenon.

In one embodiment, the insulator 500 may form an exterior, interior, thermal barrier, double insulation, high density EPDM gasket mounting structure.

Table 1 shows the physical performance evaluation of the present invention.

As shown in Table 1, the multi-function vertical curtain wall reinforcing structure 10 having the above-described structure is excellent in the windproof performance of 150% in structural performance compared to the conventional curtain wall material of the AL material, It is possible to reduce the cost (high strength, low cost) by 58% even if the above condition is satisfied, and it is possible to distribute the stress by the individual reinforcement and to selectively reinforce the weak point according to the position (X3 reinforcement is possible) Regardless of the height, the entire building can be constructed with the minimum standard product (high and low floor height is ignored).

The multi-function vertical curtain wall reinforcing structure 10 having the above-described structure can change the reinforcing strength corresponding to the number of the reinforcing portions 200 inserted.

When the vertical reinforcement frame 100 formed with a length of 125 mm is used as a reference, when one reinforcing portion 200 is inserted, it is suitable for a low-level design standard of an interlayer height of 2500 mm to 4000 mm, When two reinforcing portions 200 are inserted, it is suitable for a high-level design having an interlayer height of 4000 mm to 4800 mm, a weak point such as a corner portion, or a selective reinforcing. When three reinforcing portions 200 are inserted, It is suitable for exhibition facility or multi-story design.

However, in the case of a skyscraper design or a floor height of 6000 mm or more, it is preferable to use a vertical reinforcing frame 100 having a length of 175 mm to improve the stiffness.

Fig. 2 is a view for explaining the vertical reinforcement frame shown in Fig. 1. Fig.

Referring to FIG. 2, the vertical reinforcement frame 100 includes a frame 110 and a pair of fastening protrusions 120.

In the frame 110, an inner space is formed in an empty tube shape, and fastening protrusions 120 are protruded from the front and rear ends of the inner space, respectively.

The fastening protrusions 120 are formed at the front end and the rear end of the inner space of the frame 110 at intervals corresponding to the width of the reinforcing portion 200 so that the reinforcing portion 200 can be inserted.

2B, the frame 110 is formed such that at least one side of the frame 110 is narrowed to a predetermined angle (for example, 5 to 25 degrees, etc.) toward the front end. When the frame 110 is installed on the wall, The space between the photographic surface and the wall can be sealed by filling the sealant. At this time, the degree of narrowing of one side of the frame 110 can be variously formed according to the amount of the sealing material filled in the space formed with the wall.

The existing products were sealed after inserting the first fastener, but it required the work of the skilled workers and the quality had to be different according to the proficiency.

The vertical reinforcement frame 100 having the above-described structure is formed by: 1) cutting the guide line after tape installation, 2) removing the guide line after the vertical sealing, and 3) the asymmetric surface widening the contact surface between the wall and the window frame It is possible to lower the probability of occurrence of separation,

In addition, it is possible to secure the field of view by reducing the thickness of the front window window, to enable the uniform sealing process, to provide uniform high-quality construction at low cost, It is possible to exert a strong bearing capacity of the gap material.

The vertical reinforcement frame 100 having the above-described structure may be formed in various types corresponding to the kind of the curtain wall to be installed as shown in FIG. 2C.

3 is a diagram showing a schematic configuration of a multifunction vertical curtain wall reinforcing structure according to another embodiment of the present invention.

3, the multifunction vertical curtain wall reinforcing structure 20 includes a vertical reinforcing frame 100, at least one reinforcing portion 200, a vertical connecting frame 300, a heat insulating material 400, an insulating material 500, And a lid unit 700. The vertical reinforcing frame 100, the at least one reinforcing part 200, the vertical connecting frame 300, the heat insulating material 400 and the heat insulating material 500 are the same as those of FIG. 1, .

The lid part 700 is a part of the vertical reinforcing frame 100 and the vertical connecting frame 300 when the vertical reinforcing frame 100 and the vertical connecting frame 300 form an opening and closing window of the curtain wall (See Fig. 3B).

In existing products, there is no choice but to cause a phenomenon of infiltration into the interior of the project window. More than 90% of the causes of leakage of the exterior window material occur in the window.

The multifunctional vertical curtain wall reinforcing structure 20 having the above-described structure covers the open space of the vertical reinforcing frame 100 and the vertical connecting frame 300 as shown in FIG. 3B, It is possible to form an inflow preventing structure that does not infiltrate, can double the gap between the metal material and the heat insulating material, and can form a gasket inserting hole between the other members to prevent the heat insulation and the inflow of good.

As a result, the present invention can provide a beautiful design with an integral P / A insulation and prevent dust and contamination by a non-sealing method, economically reduce the sealing finish by one-touch construction, The existing construction time can be reduced to 5 minutes or less.

4 is a diagram showing a schematic configuration of a multifunction vertical curtain wall reinforcing structure according to another embodiment of the present invention.

4, the multifunction vertical curtain wall reinforcing structure 30 includes a vertical reinforcing frame 800, first and second shock-absorbing frames 900-1 and 900-2, first and second vertical connecting frames < RTI ID = 0.0 & First and second heat insulating materials 1100-1 and 1100-2, a heat insulating material 1200 and a buffer material 1300. The first and second heat insulating materials 1000-1 and 1000-2,

The vertical reinforcement frame 800 is formed by a tube having an empty space in an inner space, and extends vertically up and down to support the curtain wall.

The first and second shock absorbing frames 900-1 and 900-2 are installed on one side of the vertical reinforcement frame 800 and move in the direction of the vertical reinforcement frame 800 when the lateral pressure is applied to the curtain wall , Fig. 4b) and away from the vertical reinforcement frame 800 when tension is applied.

In one embodiment, the first and second shock-absorbing frames 900-1, 900-2 may be formed as a "C" shaped tube.

The first and second vertical connection frames 1000-1 and 1000-2 are opposed to the first and second shock absorption frames 900-1 and 900-2 at regular intervals, Thereby supporting the curtain wall.

In one embodiment, the first and second vertical connection frames 1000-1 and 1000-2 may be formed as tubes of the "C" type.

The first and second heat insulating materials 1100-1 and 1100-2 are connected to the first shock absorbing frame 900-1, the first vertical connecting frame 1000-1 and the second shock absorbing frame 900-2, And the second vertical connection frame 1000-2, respectively.

The heat insulating member 1200 is formed on at least one side of the first and second heat insulating members 1100-1 and 1100-2 and formed as at least one partition 1210 formed between the wings and the vanes formed in the outward direction do. At this time, the heat insulating member 1200 may have the same structure as the heat insulating member 500 of FIG.

In one embodiment, the heat insulator 1200 may be formed in the shape of a "C" tube.

The cushioning material 1300 fills the spaces between the first and second heat insulating materials 1100-1 and 1100-2.

In one embodiment, the cushioning material 1300 is formed of a flame retardant sponge material. When the lateral pressure is applied to the curtain wall, the cushioning material 1300 collapses due to the movement of the first and second shock-absorbing frames 900-1 and 900-2, .

5, the vertical reinforcement frame 800 includes first fastening protrusions 810 protruding in the front or rear direction at respective corner portions, and the first and second shock-absorbing frames 900-1 And 900-2 may include a second fastening protrusion 910 protruding inward in an inlet portion of a blade that faces the first fastening protrusion 810. [

The multifunction vertical curtain wall reinforcing structure 30 having the above-described structure is configured such that when no pressure is applied to the curtain wall, the first and second vertical connection frames 1000-1 and 1000-2, as shown in FIG. 4A, The first and second vertical connection frames 1000-1 and 1000-2 are spaced apart from each other by a distance equal to the space in which the first and second vertical connection frames 1000-1 and 1000-2 are inserted, The cushioning material 1300 can be crushed and the pressure can be absorbed.

The multifunctional vertical curtain wall reinforcing structure 30 having the above-described structure can be provided with an upper and lower drive type of 50 mm and a left and right interlayer separation type shock absorber when an earthquake and interstress stress are generated. Accordingly, it is possible to prevent damages and scattering of the glass and the exterior material by canceling the unusual stress from the building structure, to form the exterior material that protects the internal floor material and the electric field finishing material from deformation contacting with the exterior material, , And the shock can be absorbed by the dedicated bracket and the reinforcement gap.

In the case of the multifunction vertical curtain wall reinforcing structure 30 having the above-described structure, the first and second shock-absorbing frames 900-1 and 900-2 and the first and second vertical connecting frames 1000-1 And 1000-2 can form an "H" type fastening portion for fastening the first and second heat insulating materials 1100-1, 1100-2 as shown in FIG. 1B.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims. You will understand.

According to the present invention, there is provided a multi-function vertical curtain wall reinforcing structure that reinforces a vertical frame using a reinforcing material formed of a standard reinforcement and adjusts the number of reinforcing materials corresponding to the height of the interlayer, It is easy to use, has more than 3 times the structural stability compared to the volume, and can realize a wide view compared to existing curtain wall bars. It is excellent in workability due to non-sealing, A insulation bar can be attached and detached, so that it is easy to use the tram island & hidden bar, and not only the recycling performance is excellent, but also the structural stability, visibility and economical efficiency can be maximized.

100: vertical reinforcement frame
110: frame
120: fastening projection
200:
300: vertical connection frame
400: Insulation
500:
510: partition wall
600: fastening portion
700:
800: Vertical reinforcement frame
810: first fastening projection
900-1, 900-2: Shock absorption frame
910: second fastening projection
1000-1, 1000-2: Vertical connection frame
1100-1, 1100-2: Insulation
1200:
1300: Cushioning material

Claims (14)

A vertical reinforcing frame formed in an empty tube shape and extending in the vertical direction to support the curtain wall;
At least one reinforcing portion inserted in the vertical space in the vertical space to reinforce the curtain wall;
A vertical connection frame which is opposed to the vertical reinforcing frame at regular intervals and has an inner space formed in an empty tube shape to support the curtain wall;
A heat insulating material detachably installed between the vertical reinforcing frame and the vertical connection frame; And
And a heat insulating member mounted on at least one side of the heat insulating material between the vertical reinforcing frame and the vertical connection frame and formed of at least one partition wall formed between the vanes and the vanes formed in the outward direction,
The reinforcing portion
The structure is inserted into the reinforcing frame according to the magnitude or position of the stress applied to the vertical reinforcing frame so that the vertical reinforcing frame can be vertically extended And thus reinforced locally or globally,
The vertical reinforcing frame includes:
At least one pair of fastening protrusions formed at the front end and the rear end of the inner space of the frame so as to allow insertion of the reinforcing portion at an interval corresponding to the width of the reinforcing portion and,
The frame includes:
And at least one side is formed to be narrowed at a predetermined angle toward the front end, and when the wall is constructed, a sealant is filled in the space between the inclined surface of the front end and the wall,
The heat insulating member
A multifunctional vertical curtain wall reinforcing structure which is formed as a "c" tube shape and serves as a guide line when inserting glass.
delete delete delete [2] The apparatus of claim 1,
And an " H " type fastening portion for fastening the heat insulating material.

6. The connector according to claim 5,
And a lower blade formed at a lower portion of the upper blade in a state in which the heat insulating material is fastened is applied with a force in a direction of approaching the upper blade, So that the heat insulating material is separated from the heat insulating material.
The plasma display apparatus according to claim 1,
Characterized in that the innermost wall is formed longer than the wall formed on the outer side.
delete The method according to claim 1,
Further comprising an " L " -shaped lid that covers an open space between the vertical reinforcing frame and the vertical connection frame when the vertical reinforcing frame and the vertical connection frame form an opening / closing window of the curtain wall. Multifunction vertical curtain wall reinforcement structure.
A vertical reinforcing frame which is formed by a pipe having an empty space in an inner space and extends vertically up and down to support the curtain wall;
First and second shock-absorbing frames installed on one side of the vertical reinforcement frame and moving in the direction of the vertical reinforcement frame when a lateral pressure is applied to the curtain wall and moving away from the vertical reinforcement frame when tension is applied;
First and second vertical connection frames which are opposed to the first and second shock-absorbing frames at regular intervals and whose inner spaces are formed in an empty tube shape to support the curtain wall;
First and second insulation members installed to be detachable between the first shock absorption frame, the first vertical connection frame, the second shock absorption frame and the second vertical connection frame, respectively;
A heat insulating member mounted on at least one side of the first and second heat insulating members and formed of at least one partition formed between the vanes formed in the outward direction and the vanes;
A cushioning material filling between the first and second heat insulating materials; And
The structure is inserted into the reinforcing frame according to the magnitude or position of the stress applied to the vertical reinforcing frame so that the vertical reinforcing frame can be vertically extended And a reinforcing portion reinforcing the reinforcing portion locally or wholly,
The vertical reinforcing frame includes:
At least one pair of fastening protrusions formed at the front end and the rear end of the inner space of the frame so as to allow insertion of the reinforcing portion at an interval corresponding to the width of the reinforcing portion and,
The frame includes:
And at least one side is formed to be narrowed at a predetermined angle toward the front end, and when the wall is constructed, a sealant is filled in the space between the inclined surface of the front end and the wall,
The heat insulating member
A multifunctional vertical curtain wall reinforcing structure which is formed as a "c" tube shape and serves as a guide line when inserting glass.
[12] The method of claim 10,
And a first fastening protrusion protruding in a front end direction or a rear end direction at each corner portion.
12. The shock absorber according to claim 11, wherein the first and second shock-
And a second fastening protrusion protruding inwardly from an inlet portion of the vane facing the first fastening protrusion.
11. The method of claim 10,
Wherein the first and second shock-absorbing frames are formed of " C " shaped pipes,
Characterized in that the first and second vertical connection frames are formed by " C " shaped pipes.
The cushioning material as claimed in claim 10,
Characterized in that it is formed of a flame retardant sponge material.

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