KR101289241B1 - Wall Having Hybrid Panel And Forming Method Of Wall Having Hybrid Panel - Google Patents

Abstract

The wall using the hybrid panel according to the present invention includes a pillar, an insertion portion inserted between the pair of pillars, a first hybrid panel having a column insulation portion covering the portion of the pillar and having a step with the insertion portion, and And a second hybrid panel having a thickness thinner than that of the pillar and inserted and installed between the pair of pillars.

Description

Wall Having Hybrid Panel And Forming Method Of Wall Having Hybrid Panel

The present invention relates to a wall using a hybrid panel and a method of forming a wall using a hybrid panel.

The largest proportion of a building's energy consumption is the heat loss through the building's exterior walls. Therefore, in order to prevent energy loss of the building, heat loss through the outer wall of the building must be prevented. In order to prevent heat loss through the building's exterior walls, the building's exterior walls are usually fitted with insulation such as styrofoam, urethane foam, glass wool, rock wool or polyester foam.

Since the heat insulator generally cannot act as a structure, it is attached to an outer wall that can serve as a structure. As such, since the insulation is attached to the outer wall of the building, there is a problem in that the overall thickness of the outer wall of the building becomes thick.

In addition, at the construction site, the work of attaching insulation to the outer wall of the building has to be performed, and thus, a considerable time is required to perform such a work, and thus, the construction period of the building as a whole is long.

On the other hand, heat loss also occurs through the pillars that act as structures in buildings. However, in the past, only a means for preventing heat loss through the joint where the pillar and the wall are joined to each other was provided, and a means for preventing heat loss through the pillar itself was not provided. .

An object of the present invention is to provide a wall using a hybrid panel and a method of forming a wall using a hybrid panel that can reduce the construction period of the building by prefabricating the wall.

Another object of the present invention is to provide a wall using a hybrid panel and a method of forming a wall using a hybrid panel capable of preventing a thermal bridge phenomenon through a column.

Still another object of the present invention is to provide a wall using a hybrid panel and a method of forming a wall using a hybrid panel, which can make the interior and exterior finish of a building beautiful.

The wall using the hybrid panel according to the present invention for achieving the above object is provided with a pillar, an insertion portion inserted between the pair of pillars, and a column heat insulation portion having a step with the insertion portion and surrounding a part of the pillar. The first hybrid panel and a second hybrid panel having a thickness thinner than the thickness of the pillar and inserted between the pair of pillars may be provided.

A fixing member installed on the pillar may be further provided to fix the first hybrid panel and the second hybrid panel to the pillar.

The fixing member may include a leaf spring for fixing the second hybrid panel to the fixing member, and the second hybrid panel may include a locking portion for locking the leaf spring.

After passing through the second hybrid panel may be further provided with a screw fastened to the fixing member.

It may be provided with a connection member for connecting the fixing member installed on one side of the pillar and the fixing member installed on the other side of the pillar.

The connection member may be formed of at least one of a wire and a square pipe.

The pillar heat insulating part may include a pillar coupling part coupled to one surface of the pillar and a panel coupling part coupled to an end portion of the first hybrid panel.

The first hybrid panel may include a vacuum insulating material embedded in both sides of the insertion portion and the pillar coupling portion.

The second hybrid panel includes a soft insulating material positioned at a central portion, a pair of hard insulating materials surrounding both sides of the soft insulating material, a pair of plates surrounding both sides of the hard insulating material, and a connecting material connecting and coupling the pair of plates to each other. It can be provided.

Wall forming method using a hybrid panel according to the present invention for achieving the above object is the step of installing a fixing member on one side of the pillar, the insertion portion inserted between the pair of the pillar, and the insertion portion and step Fixing the first hybrid panel to the fixing member, the first hybrid panel having a column insulation covering a part of the pillar, and having a thickness thinner than the thickness of the pillar and inserted into and installed between the pair of pillars; It may include the step of fixing to the fixing member.

After the fixing member is installed on one side of the pillar, the fixing member installed on one side of the pillar and the fixing member installed on the other side of the pillar may be further provided with a connecting member.

In the fixing of the second hybrid panel to the fixing member, a leaf spring is formed on the fixing member, and the second hybrid panel is formed by a locking portion that engages the leaf spring to fix the second hybrid panel to the fixing member. It can be fixed to the member.

According to the method of forming a wall using a hybrid panel and a wall using a hybrid panel according to the present invention, the hybrid panel is manufactured at the factory and can be easily installed at the construction site of the hybrid panel can be reduced in the construction period of the building have.

In addition, according to the method of forming a wall using a hybrid panel and a wall using a hybrid panel according to the present invention, since a high-performance heat insulating material having a high performance, such as a vacuum heat insulating material wraps around the back of the column can block the thermal bridge through the column to insulate the building It can improve performance.

In addition, according to the method of forming the wall using the hybrid panel and the wall using the hybrid panel according to the present invention, since the fixing member for fixing the hybrid panel forming the wall is not exposed to the inside and outside, the interior and exterior finish of the building is beautiful It can be done.

1 is a cross-sectional view before a second hybrid panel and a first hybrid panel are joined to a column in a wall using a hybrid panel according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view after the second hybrid panel and the first hybrid panel are coupled to the pillar in FIG. 1. FIG.
Figure 3 is a cross-sectional view before the second hybrid panel is coupled to the pillar in the wall using a hybrid panel according to another embodiment of the present invention.
4 is a cross-sectional view after the second hybrid panel is coupled to the pillar in the wall using the hybrid panel according to another embodiment of the present invention.
5 to 7 is a view showing various embodiments of the connection member for connecting the fixing member installed on the column from the wall using a hybrid panel according to an embodiment of the present invention.
8 is a flow chart showing a method of forming a wall using a hybrid panel according to an embodiment of the present invention.

Hereinafter, a wall using a hybrid panel and a method of forming a wall using a hybrid panel according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view before the second hybrid panel and the first hybrid panel is coupled to the column in the wall using a hybrid panel according to an embodiment of the present invention, Figure 2 is a second hybrid panel and the first hybrid panel in FIG. It is a cross-sectional view after joining the pillar.

1 and 2, the wall using the hybrid panel according to an embodiment of the present invention according to an embodiment of the present invention is inserted into the pillar 10 and the pair of pillars 10 ( 101 and the first hybrid panel 100 having a stepped portion and the column insulation portion 102 which has a step and surrounds a part of the column 10, and a pair having a thickness thinner than the thickness of the column 10. A second hybrid panel 200 is inserted and installed between the pillars 10.

The first hybrid panel 100 has an insertion portion 101 inserted between a pair of pillars 10, and a pillar insulation portion 102 having a step with the insertion portion 101 and surrounding a portion of the pillar 10. Equipped.

The insertion portion 101 is inserted between the pair of pillars 10 to face the second hybrid panel 200.

The pillar heat insulating part 102 includes a pillar coupling part 103 coupled to one surface of the pillar 10 and a panel coupling part 104 engaged with an end of the other first hybrid panel 100.

As described above, the first hybrid panel 100 including the insertion portion 101 and the column insulation portion 102 includes a soft heat insulating material 110 positioned at a central portion thereof, and a plate 120 covering both sides of the soft heat insulating material 110. ) And a connecting member 130 for connecting and coupling the pair of plates 120 to each other.

Meanwhile, a vacuum insulator 140 may be embedded in both sides of the insertion portion 101 and the pillar coupling portion 103 of the first hybrid panel 100.

The vacuum insulator 140 has a core material (not shown) and an outer shell (not shown) formed around the core material in a vacuum. As the core material, silica powder, urethane foam, glass wool, or the like having a continuous bubble structure may be used, and the outer film surrounding the core material may be a laminate film material or the like. In order to form the vacuum insulator 110, the outer shell surrounds the core material and heat seals the overlapping portions of the outer shell so as to maintain a vacuum inside the outer shell. Since the vacuum heat insulating material 140 is a high-performance heat insulating material exhibiting about 8 to 10 times higher heat insulating performance than general heat insulating material, it has sufficient heat insulating performance even with a thin thickness.

By installing the vacuum insulator 140 having the high heat insulating performance in both sides of the insert portion 101 and the pillar coupling portion 103, the vacuum insulator 140 surrounds a part of the pillar 10, thereby covering the pillar 10. It is possible to prevent the thermal bridges through it can improve the overall insulation performance of the building.

Meanwhile, the second hybrid panel 200 surrounds both sides of the soft heat insulating material 210 positioned at the center portion, a pair of hard heat insulating materials 220 surrounding both sides of the soft heat insulating material 210, and both sides of the hard heat insulating material 220. It may be provided with a pair of plates 230 and a connecting member 240 for connecting and coupling the pair of plates 230 to each other.

As the soft insulation 210, any one of relatively inexpensive glass wool, cellulose foam for thermal insulation, fumed silica, and polyester foam may be used. .

Since the soft heat insulating material 210 has a weak rigidity, both sides of the soft heat insulating material 210 are wrapped with a pair of hard heat insulating materials 220. As described above, the pair of hard thermal insulators 220 are installed to cover both sides of the soft thermal insulator 210, so that the soft thermal insulator 210 may have a certain rigidity. Therefore, when the second hybrid panel 200 is installed vertically, the soft heat insulating material 210 having weak rigidity is bent to prevent wrinkles from occurring. On the other hand, a urethane foam board or the like may be used as the hard insulation 220.

As such, the second hybrid panel 200 may have sufficient heat insulating performance by using the soft heat insulating material 210 and the hard heat insulating material 220 overlapping each other.

Meanwhile, the second hybrid panel 200 includes a pair of metal plates 230 surrounding both sides of the hard insulation 220, and the pair of metal plates 230 so that the second hybrid panel 200 can serve as a structure. It is provided with a connecting member 240 for connecting to combine with each other.

The pair of metal plates 230 may be made of a material such as an iron plate to have sufficient rigidity, and the connection member 240 for coupling the pair of metal plates 230 to each other may be formed of a metal material having sufficient rigidity.

The pair of metal plates 230 may have a higher rigidity because they are coupled to and integrated with each other by the connecting member 240. In addition, when the pair of metal plates 230 are coupled to each other by the connecting member 240, the soft insulation 210 and the hard insulation 220 positioned inside the pair of metal plates 230 are compressed to provide a pair of metal plates 230. It becomes integral with and has sufficient rigidity.

In the above, it was shown that the second hybrid panel 200 includes the soft insulator 210, the hard insulator 220, and the pair of plates 230, but is provided in the pair of plates 230 as necessary. Some of the 210 and the hard insulation 220 may be omitted. Alternatively, a high performance heat insulator such as a vacuum insulator may be embedded in the pair of plates 230.

Meanwhile, in order to fix the above-described first hybrid panel 100 and the second hybrid panel 200 to the pillar 10, a fixing member 300 is installed on the pillar 10.

As the fixing member 300, an iron having a C shape may be used. Accordingly, the fixing member 300 includes a first fixing part 310 fixed to the pillar 10 and a second fixing part 320 fixing the first hybrid panel 100 and the second hybrid panel 200. do.

The first fixing part 310 of the fixing member 300 is installed on the pillar 10 using a fastening member such as a screw or an anchor bolt.

After the fixing member 300 is installed in the pillar 10, the second member of the fixing member 300 is connected to the connecting member 130 of the first hybrid panel 100 by using a fastening member such as a screw or welding. Secure to government 320. In addition, the fastening member such as a screw passes through the connecting member 240 of the second hybrid panel 200 at the outdoor side and then is fixed to the first fixing part 310 of the fixing member 300 or fixed by welding. It is fixed to the member 300.

In this manner, when the first hybrid panel 100 and the second hybrid panel 200 are fixed to the pillar 10, the fixing member 300 is disposed between the first hybrid panel 100 and the second hybrid panel 200. It is located at. Therefore, since the fixing member 300 is not exposed to the inside and outside, the interior and exterior finish of the building can be beautiful.

As described above, after the first hybrid panel 100 and the second hybrid panel 200 are fixed to the pillar 10, the first hybrid panel 100 and the second hybrid panel 200 may be finished. In addition, sealing performance may be improved by sealing the portion where the pillar 10, the first hybrid panel 100, and the second hybrid panel 200 are coupled to each other.

In the above, the first hybrid panel 100 is installed in the indoor side and the second hybrid panel 200 is installed in the outdoor side. On the contrary, the first hybrid panel 100 is installed in the outdoor side, and the indoor side is installed. The second hybrid panel 200 may be installed.

Meanwhile, since the first hybrid panel 100 is installed before the second hybrid panel 200, the first hybrid panel 100 is easily fixed to the fixing member 300 by using a fastening member such as a screw, but the second hybrid panel 100 is installed in the second hybrid panel 100. The hybrid panel 200 is difficult to fix to the fixing member 300 by using a fastening member such as a screw.

Therefore, the second hybrid panel 200 may be installed in other ways. Hereinafter, another method of fixing the second hybrid panel 200 to the fixing member 300 will be described.

Figure 3 is a cross-sectional view before the second hybrid panel is coupled to the pillar in the wall using a hybrid panel according to another embodiment of the present invention, Figure 4 is a second hybrid in the wall using a hybrid panel according to another embodiment of the present invention Sectional view after the panel is joined to the column.

Referring to FIG. 3, in order to easily fix the second hybrid panel 200 to the fixing member 300, a plate spring 311 is installed at the first fixing part 310 of the fixing member 300, and Both end portions of the second hybrid panel 200 may be provided with a locking portion 250 to allow the leaf spring 311 to engage.

In order to form the locking part 250, the width of the plate 230a facing the first hybrid panel 100 is narrower than the width of the other plate 230b so that one plate 230a and the other plate 230b are formed. The connecting member 240 to be connected to be inclined.

Next, the operation of the second hybrid panel 200 on the fixing member 300 will be described with reference to FIG. 4.

As described above, the plate spring 311 is formed on the fixing member 300 and the locking part 250 is provided on the second hybrid panel 200 so that the first hybrid panel 100 is installed in the fixing member 300. 2 When the hybrid panel 200 is pushed toward the first hybrid panel 100, the leaf spring 311 is contracted, and the leaf spring 311 is positioned at the engaging portion 250 formed in the first hybrid panel 100. When the leaf spring 311 is elastically restored again, the leaf spring 311 is caught by the locking portion 250.

Through this operation, the second hybrid panel 200 may be easily fixed to the fixing member 300. In addition, when the second hybrid panel 200 is fastened by using a fastening member such as a screw, the screw portion must be separately processed, but the second hybrid panel 200 is fixed to the second hybrid panel 200 by using a leaf spring 311. By fixing to, the work process is reduced because there is no need to finish separately.

Meanwhile, in order to structurally reinforce the pillar 10 to which the first hybrid panel 100 and the second hybrid panel 200 are fixed, fixing members 300 coupled to one pillar 10 and the other pillar 10, respectively, may be used. It may be provided with a connecting member connected to each other.

5 to 7 is a view showing various embodiments of the connection member for connecting the fixing member installed on the column in the wall using a hybrid panel according to an embodiment of the present invention.

Referring to FIG. 5, a plurality of fixing members 300 are installed on the pillars 10, and a wire 400a is used as a connecting member connecting the plurality of fixing members 300 to each other. At this time, the wires 400a are installed in diagonal directions to each other to connect the fixing members 300 to each other.

The turnbuckle 410 is installed in the middle of the wire 400a to form tension in the wire 400a. After the pair of fixing members 300 are connected to each other using the wire 400a, tension is generated in the wire 400a using the turnbuckle 410.

Referring to FIG. 6, a plurality of fixing members 300 are installed on the pillars 10, and each pipe 400b is used as a connection member connecting the plurality of fixing members 300 to each other.

At this time, the fixing member 300 installed on one side pillar 10 is to be continuously installed in the vertical direction. In addition, the plurality of angle pipes 400b may be connected to each other by the fixing member 300 installed on the one side pillar 10 and the fixing member 300 installed on the other side pillar 10. Meanwhile, a reinforcing member 420 may be installed to connect the plurality of angular pipes 400b that connect the plurality of fixing members 300 to each other.

Referring to FIG. 7, a plurality of fixing members 300 are installed on the pillars 10, and each pipe 400c is used as a connection member connecting the plurality of fixing members 300 to each other.

At this time, the fixing member 300 installed on one side pillar 10 is continuously installed in the up and down direction, and a plurality of angle pipes 400c are installed on the fixing member 300 and the other side pillar 10 installed on one side pillar 10. The fixing member 300 is installed to connect to each other. Meanwhile, in order to reinforce corner portions formed by the fixing member 300 and the square pipe 400c, braces 430 connecting the fixing member 300 and the square pipe 400c to each other are installed.

As described above, by providing connection members 400a, 400b, and 400c which connect the fixing members 300 coupled to the one side pillar 10 and the other side pillar 10, respectively, structural reinforcement in response to lateral force and distortion. It can have the effect of improving the seismic performance. On the other hand, since the connecting members 400a, 400b, and 400c are installed between the first hybrid panel 100 and the second hybrid panel 200, the interior and exterior finishing of the building can be beautiful.

Next, the method of forming the wall using the above-mentioned hybrid panel is demonstrated.

8 is a flowchart illustrating a method of forming a wall using a hybrid panel according to an embodiment of the present invention.

As shown in FIG. 8, the method of forming a wall using a hybrid panel according to an embodiment of the present invention includes installing a fixing member 300 on one side of the pillar 10 (S110), and a pair of the pillars. The first hybrid panel 100 having an insertion portion 101 inserted between the 10 and a pillar insulation portion 102 having a step with the insertion portion 101 and surrounding a part of the pillar 10. Fixing to the fixing member 300 (S120), and having a thickness thinner than the thickness of the pillar 10 and the second hybrid panel 200 is inserted and installed between the pair of the pillar 10 is fixed Fixing to the member 300 (S130).

A plurality of fixing members 300 are installed on the pillars 10, and the fixing members 300 installed on one pillar 10 and the fixing members 300 installed on the other pillar 10 are connected to the members 400a and 400b, 400c) can be connected to each other to reinforce the structure.

Meanwhile, in the step (S120) of fixing the second hybrid panel 200 to the fixing member 300, a leaf spring 311 is formed on the fixing member 300, and the leaf spring 311 is formed on the second hybrid panel 200. The second hybrid panel 200 can be easily fixed to the fixing member 300 by forming a locking part 250 for locking.

In the above described the wall using the hybrid panel and the method of forming the wall using the hybrid panel according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. within the scope of the same idea, but this also falls within the scope of the invention something to do.

10: pillar 100: first hybrid panel
101: insertion portion 102: column insulation portion
200: second hybrid panel 300: fixing member

Claims (12)

Pillar,
A first hybrid panel having an insertion portion inserted between the pair of pillars, a pillar insulation portion having a step with the insertion portion and surrounding a portion of the pillar;
A second hybrid panel having a thickness thinner than that of the pillar and inserted and installed between the pair of pillars;
And a fixing member installed on the pillar to fix the first hybrid panel and the second hybrid panel to the pillar.
The pillar heat insulating part includes a pillar coupling part coupled to one surface of the pillar, and a panel coupling part coupled to an end of the first hybrid panel.
The fixing member has a leaf spring for fixing the second hybrid panel to the fixing member, the second hybrid panel has a locking portion for engaging the leaf spring,
The first hybrid panel
It is provided with a vacuum insulating material embedded in both sides of the insertion portion and the column coupling portion,
The second hybrid panel
Soft heat insulating material located in the center,
A pair of hard heat insulating materials surrounding both sides of the soft heat insulating material,
A pair of plates surrounding both sides of the hard insulation,
And a connecting material for connecting and coupling the pair of plates to each other. delete delete The method of claim 1,
And a screw fastened to the fixing member after passing through the second hybrid panel. The method of claim 1,
Wall using a hybrid panel, characterized in that it comprises a connecting member for connecting the fixing member is installed on one side and the fixing member is installed on the other side of the pillar. 6. The method of claim 5,
The connecting member is a wall using a hybrid panel, characterized in that at least one of the wire, angular pipe. delete delete delete delete delete delete

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