KR101475122B1 - Complex insulation panel and outside insulation wall constructing method and structure used the same - Google Patents

Abstract

A composite insulation board and a method and structure for constructing an outer insulation wall using the same are disclosed. According to an embodiment of the present invention, an external wall installation structure using a composite insulation board includes first and second insulation materials spaced apart from each other and a first insulation material disposed between the first insulation material and the second insulation material, A composite heat insulating board having a stiffener; A metal frame disposed on the first heat insulating material side; And a first ball screw passing through the secondary insulation to fix the reinforcing member and the metal frame.

Description

TECHNICAL FIELD [0001] The present invention relates to a composite insulation board and an insulation wall construction method using the insulation insulation board,

The present invention relates to a composite insulation board and a method for constructing an outer insulation wall using the same and a structure thereof. More particularly, the present invention relates to a composite insulation board, And a method of constructing an outer insulating wall body using the same and a structure thereof.

Wet wall construction and dry wall construction are the methods for constructing exterior walls of a building or building.

The former wet wall construction method uses mortar, and it takes much time to cure and cure the mortar, so that the air is delayed.

Therefore, a dry type construction method which does not require curing in recent years is widely used. The technology for such a dry construction method is disclosed in Korean Patent Application No. 2009-0032686 (Prior Art 1) and Korean Patent Application No. 2010-0007436 (Prior Art 2).

However, in the case of the wall constructed by the methods of the prior arts 1 and 2, the following problems arise.

First, in the case of the prior art 1, the wall was fixed by using an angle, and the gap was filled with a soft foam to improve the airtightness. Since the angle is a metal material, There is an increasing problem.

Also, the angles of the metal material are repeatedly expanded and contracted due to the temperature change. Such repeated shrinkage and expansion cause cracks in the soft foam, resulting in poor airtightness.

Next, in the case of the prior art 2, since the wall is constituted by the structure in which the heat insulating block is surrounded by the frame structure of the hexahedron using a wooden bar, a large number of bars are required.

In addition, since the nails can not be fixed to the heat insulating block such as styrofoam or urethane foam, the opposing bar and the heat insulating block therebetween are inserted through fixing members such as bolts, screws, elongated bolts, There is a problem in that the fixing member having a longer length is required as the thickness of the heat insulating block becomes thicker depending on the required heat insulating property.

Particularly, the bar necessary for the wall construction is a wood material. Since the wood shrinks or expands according to the humidity, even if the bar is adhered to the heat insulating block at the time of construction, there is no separate construction requiring tightness between the heat insulating block and the bar, There is a problem that the airtightness deteriorates over time due to the repeated shrinkage and expansion of the bar.

Prior Art 1; Korean Patent Application No. 2009-0032686 Prior Art 2; Domestic Patent Application No. 2010-0007436

It is an object of the present invention to provide a composite insulation board which can reduce the air cost and can reduce the construction cost because it is possible to construct the external insulation wall more efficiently and easily while ensuring high airtightness, Methods, and structures.

The object of the present invention can be achieved by first and second heat insulating materials which are spaced apart from each other; And a reinforcing member disposed between the first and second insulating members, the reinforcing member having stronger rigidity than the first and second insulating members.

The reinforcing material may be a wood plate, a plastic plate, an aluminum plate, or a carbon plate, and the reinforcing material and the first and second heat insulating materials may be formed by cementing or integrally molding.

The object of the present invention is also achieved by a composite heat insulating board comprising first and second heat insulating materials disposed to be spaced apart from each other and a reinforcing material disposed between the first and second heat insulating materials and having a greater rigidity than the first and second heat insulating materials; A metal frame disposed on the first heat insulating material side; And a first ball screw passing through the second heat insulating material to fix the reinforcing member and the metal frame. The present invention is also achieved by a heat insulating wall construction using a composite heat insulating board.

A screw hole through which the first ball screw is passed may be formed in the work or may be formed in advance in the second heat insulating material.

The metal frame has one side joined to the inner wall, and can be fixed to the inner wall by the bracket and the second and third ball screws.

The outer sheath may be adhered to the second heat insulating material or may be fixed to the stiffener of the composite heat insulating board by a fourth ball screw, and the fourth ball screw may be fixed to the recess of the outer casing And a finishing cap may be coupled to the depressed portion.

The object of the present invention is also achieved by a composite heat insulating board comprising first and second heat insulating materials disposed between and spaced apart from each other and a reinforcing material disposed between the first and second heat insulating materials and having a greater rigidity than the first and second heat insulating materials, And a first ball screw passing through the second insulation to fix the reinforcing member and the inner wall to fix the composite insulation board to the wall.

Wherein the outer casing is adhered to the second insulation or fixed to the stiffener of the composite insulation board by a fourth ball screw,

The fourth ball screw may be fastened to a depressed region of the casing, and a finishing cap may be coupled to the depressed portion.

According to another aspect of the present invention, there is provided a metal frame fixing method comprising: a metal frame fixing step of fixing a metal frame to an inner wall by using a bracket and a ball screw; Preparing a composite insulation board having first and second insulation members spaced apart from each other and a reinforcing member disposed between the first and second insulation members and having a stiffness higher than that of the first and second insulation members ; Disposing the composite insulation board so that the first insulation of the composite insulation board is in contact with the other side of the metal frame; Fixing the composite heat insulation board to the metal frame; And a cover material fixing step of fixing a cover material to the second insulation material by disposing a cover material which is in contact with the second insulation material. The method of the present invention is also achieved by a method of constructing an outer insulation material using a composite insulation board.

The object of the present invention is also achieved by a method of preparing a composite insulation board comprising first and second insulation members disposed to be spaced apart from each other and a reinforcing member disposed between the first and second insulation members and having a stiffness higher than that of the first and second insulation members Preparing a composite insulation board; Disposing the composite insulation board so that the first insulation of the composite insulation board is in contact with the inner wall; A composite insulation board fixing step of fixing the composite insulation board to the inner wall; And a cover material fixing step of fixing a cover material to the second insulation material by disposing a cover material which is in contact with the second insulation material. The method of the present invention is also achieved by a method of constructing an outer insulation material using a composite insulation board.

According to the present invention, it is possible to construct the outer heat insulating wall more efficiently and easily, while securing high airtightness, thereby reducing air and reducing the construction cost.

1 is a cross-sectional structural view of an external heat insulation wall construction using a composite insulation board according to an embodiment of the present invention.
2 is an enlarged view of the area A in Fig.
3 is a perspective view of a composite insulation board.
FIGS. 4 to 8 are views showing steps of constructing an external insulation wall using a composite insulation board, respectively.
FIG. 9 is a flowchart of a method for constructing an external insulation wall using a composite insulation board according to an embodiment of the present invention.
10 is a cross-sectional structural view of an external heat insulation wall construction using a composite insulation board according to another embodiment of the present invention.
11 is an enlarged view of the area B in Fig.
FIG. 12 is a cross-sectional structural view of a heat insulating wall construction structure using a composite insulation board according to another embodiment of the present invention. FIG.

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

1 is an enlarged view of a region A of FIG. 1, FIG. 3 is a perspective view of a composite heat insulating board, and FIG. 4 And FIG. 8 is a view showing steps of an outer insulation wall construction process using a composite insulation board, and FIG. 9 is a flowchart of an outer insulation wall construction method using a composite insulation board according to an embodiment of the present invention.

1 and 2 are sectional views showing the cross-sectional structure of an external insulation wall construction using the composite insulation board 110. As shown in FIGS.

In order to install the external wall installation structure, the composite insulation board 110, the metal frame 120, and the exterior material 140 are required. Let's take a look at these first.

1 to 3, the composite heat insulating board 110 includes first and second heat insulating materials 111 and 112 disposed between the first and second heat insulating materials 111 and 112, and first and second heat insulating materials 111 and 112, And a stiffener 113 having a rigidity stronger than that of the unit walls 111 and 112. [

The stiffener 113 is applied as a wood plate so that the first ball screw B1 can be used, that is, the first ball screw B1 can be easily fastened.

However, the reinforcing material 113 does not necessarily have to be a wood, but may be applied to a plate having a fastening force such as a plastic plate, a carbon plate, or an aluminum plate in addition to wood. In the latter case, a hole may be previously formed in the reinforcing member 113.

Since the composite heat insulating board 110 has a structure in which the reinforcing member 113 is interposed between the first and second heat insulating materials 111 and 112 such as styrofoam and the like, 111, the second heat insulating material 112, and the reinforcing material 113 are bonded together by an adhesive or the like to form the composite heat insulating board 110. The composite insulation board 110 may be prepared in advance, or may be made in the process of building an external insulation wall. The reinforcing member 113 and the first and second heat insulating materials 111 and 112 may be integrally molded.

The first and second heat insulating materials 111 and 112 constituting the composite thermal insulating board 110 may be inorganic thermal insulating materials including asbestos, glass surface, fine powder and the like, , Foamed polystyrene (aka, styrofoam), flame retardant expanded polystyrene, urethane foam, and the like.

The reinforcing material 113 is formed by processing wood in the form of a plate having the shape of a rectangular plate like the first and second heat insulating materials 111 and 112. The reinforcing material 113 may be a hardwood board, a MDF board, a medium density fiberboard board, Particle board (PB), OSB (Oriented Strand Board), a plate made by sticking small pieces of wood about two inches wide and three inches at right angles to each other with liquid phenolic resin or powdered phenol) Or the like, or a composite board processed into a board form by processing wood, or the like can be used.

The metal frame 120 is fixed to the composite insulation board 110 by being in contact with the first insulation material 111 of the composite insulation board 110.

The metal frame 120 may be a hollow square pipe structure as shown and may be used to connect the composite insulation board 110 and the inner wall 130 or to connect the inner wall 130 and the composite insulation board 110, And may be provided for connection between the composite thermal insulation board 110 and the inner wall 130 while maintaining an interval between the inner wall 130 and the composite insulation board 110.

Of course, the metal frame 120 may not be used as shown in FIG. However, when the metal frame 120 is used, since a space is generated between the metal frames 120, electric wiring and the like can be performed through the space, thereby providing another advantageous effect. It should be within the scope of the present invention.

The metal frame 120 is fixed to the inner wall 130 and the composite insulation board 110 between the inner wall 130 and the composite insulation board 110, respectively.

The metal frame 120 can be fixed to the inner wall body 130 by the L-shaped bracket L and the ball screws B2 and B3.

At this time, the inner wall 130 may be applied to a gypsum board, a wood panel or the like, but it may be the inner wall itself of the building as shown. In the case of this embodiment, the latter is taken as an example.

The metal frame 120 can be easily fixed to the inner wall 130 by using the L-shaped bracket L and the ball screws B2 and B3. However, the metal frame 120 may be directly fixed to the inner wall 130 without the L-shaped bracket L. [

On the other hand, for the composite heat insulating board 110, the metal frame 120 is fixed by the first ball screw B1. The metal frame 120 is fixed to the first heat insulator 111 in such a manner that the first ball screw B1 passes through the second heat insulator 112 to fix the reinforcing member 113 and the metal frame 120 .

At this time, a screw hole H through which the first ball screw B1 passes is formed in the second heat insulating material 112. The screw hole H may be previously formed in the second heat insulating material 112 , Or it may be formed at the time of operation.

In the latter case, that is, even if the screw through hole H is not previously formed in the second heat insulator 112, when the operator presses the first ball screw B1 toward the second heat insulator 112, the first ball screw B1 The reinforcing member 113 can reach the side of the reinforcing member 113 while digging the second heat insulating material 112 and then the reinforcing member 113 and the metal frame 120 can be fixed.

In the case where the first and second heat insulating materials 111 and 112 are disposed on the composite heat insulating board 110 and the reinforcing material 113 such as wood board is provided therebetween, the first and second heat insulating materials 111 and 112 and the stiffener 113 ). In particular, the connecting operation with the metal frame 120 is advantageously facilitated.

The casing member 140 is a member that is in contact with the second heat insulating member 112. A stone such as marble or a tile may be applied to the exterior material 140 or both the exterior material 140 and the dry paint or the paint may be regarded as the exterior material 140.

The exterior material 140 may be a nonflammable material such as a magnesium board, a cement board, a fiber reinforced cement board, a gypsum board, or a steel plate. In addition, a nonwoven fabric or fabric may be used as the facing material 140.

The outer sheath 140 may be fixed to the second heat insulating material 112 by a separate fastening member such as a screw or may be fixed to the second heat insulating material 112 by an adhesive or the like.

Particularly, when the exterior material 140 is paint, the paint as the exterior material 140 may be applied to the surface of the second insulation material 112 directly. According to the embodiment, it may be coated with a spraying composition including a dry bit, stone, etc. in addition to the casing member 140 to be finished.

Hereinafter, a method of constructing an external insulation wall using the composite insulation board 110 will be described in detail with reference to FIGS. 4 to 9. FIG.

The metal frame 120 is disposed on one side of the inner wall 130 and then the metal frame 120 is attached to the inner wall 130 using the bracket L and the ball screws B2 and B3 as shown in FIG. (S11).

On the other hand, as shown in FIG. 5, the composite insulation board 110 is prepared (S12). The first and second heat insulating materials 111 and 112 and the reinforcing material 113 disposed between the first and second heat insulating materials 111 and 112 and having a higher rigidity than the first and second heat insulating materials 111 and 112 The composite insulation board 110 is prepared.

The composite insulation board 110 is manufactured in advance in a factory and has a unit size, so that it can be connected laterally.

Here, steps S11 and S12 may be performed in parallel with each other and may be reversed in order.

Next, as shown in FIG. 6, the composite heat insulating board 110 is disposed so that the first heat insulating material 111 of the composite thermal insulating board 110 is brought into contact with the other side of the metal frame 120 (S13).

When the first heat insulating material 111 of the composite heat insulating board 110 is disposed in contact with the other side of the metal frame 120, they may be adhered to each other.

Then, the composite heat insulating board 110 is fixed to the metal frame 120 as shown in FIG. 7 (S14). That is, the first ball screw B1 is used to fix the reinforcing member 113 and the metal frame 120 through the second heat insulator 112 (S13).

At this time, a screw through hole H through which the first ball screw B1 is passed is formed in the second heat insulator 112. The screw through hole H may be formed in advance in the second heat insulator 112, It may be formed at the time of work.

In the latter case, that is, even if the screw through hole H is not previously formed in the second heat insulator 112, when the operator presses the first ball screw B1 toward the second heat insulator 112, the first ball screw B1 The reinforcing member 113 can reach the side of the reinforcing member 113 while digging the second heat insulating material 112 and then the reinforcing member 113 and the metal frame 120 can be fixed.

Then, the exterior material 140 that is in contact with the second insulation material 112 is disposed as shown in FIG. 8 to fix the exterior material 140 to the second insulation material 112 (S15).

As described above, the case member 140 may be fixed to the second heat insulating member 112 by a separate fastening member such as a screw or may be fixed to the second heat insulating member 112 by an adhesive or the like.

Particularly, when the exterior material 140 is paint, the paint as the exterior material 140 may be applied to the surface of the second insulation material 112 directly.

According to the present embodiment having such a structure and function, it is possible to construct the outer heat insulating wall more efficiently and easily, while securing a high airtightness, thereby reducing air and reducing the construction cost.

10 is a cross-sectional structural view of an external heat insulation wall construction using a composite insulation board according to another embodiment of the present invention, and FIG. 11 is an enlarged view of a region B in FIG.

In this embodiment, the outer sheath 240 is fixed to the stiffener 113 of the composite heat insulating board 110 by the fourth ball screw B4.

11, the cover member 240 may be directly fixed to the stiffener 113 of the composite heat insulating board 110 by the fourth ball screw B4. In this case, the head of the fourth ball screw B4 is fixed to the outside The fourth ball screw B4 can be formed in the casing member 240 through the region of the depressed portion 241 via the second heat insulator 112 to prevent the reinforcement member 113).

At this time, the finishing cap 250 may be further coupled to the depressed portion 241 to prevent the depression 241 from being exposed to the outside.

The finishing cap 250 may be press-fit in place or otherwise bonded.

According to the present embodiment having such a structure, it is possible to construct the outer heat insulating wall more efficiently and easily than before, so that the air can be reduced and the construction cost can be reduced.

FIG. 12 is a cross-sectional structural view of a heat insulating wall construction structure using a composite insulation board according to another embodiment of the present invention. FIG.

In the case of this embodiment, the composite heat insulating board 110 is directly fixed to the inner wall body 130 through the first ball screw B1 without the metal frame 120 described above. Such a structure is sufficiently possible.

In other words, the structure as shown in FIG. 12 can also construct the outer wall in a more efficient and easy way than before, thereby reducing the air cost and reducing the construction cost.

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 invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

110: composite insulation board 111: primary insulation
112: secondary insulation material 113: stiffener
120: metal frame 130: inner wall
140: Outer material B1, B2, B3: Ball screw
H: screw through hole

Claims (10)

delete delete And a reinforcing member disposed between the first and second heat insulating members and having a greater rigidity than the first and second heat insulating members, wherein the reinforcing member and the first and second heat insulating members The reinforcing member may be a plastic plate, an aluminum plate, or a carbon plate having a fastening force, or may be formed of a plastic plate, an aluminum plate, or a carbon plate, and the holes may be formed in advance so that the first ball screw can be fastened Machined composite insulation board; A metal frame connected to and fixed to the first heat insulator so as to connect the first heat insulator and the inner wall while maintaining an interval between the first heat insulator and the inner wall by an empty pipe structure; A first ball screw passing through the second heat insulating material to fix the reinforcing member and the metal frame; And a bracket for fixing the metal frame to the inner wall while one side of the metal frame is in contact with the inner wall, and second and third ball screws; A screw through hole through which the first ball screw is passed is formed or preformed at the time of work;
Wherein the outer casing is adhered to the second insulation or fixed to the reinforcement by a fourth ball screw, and the fourth ball screw is fastened to a depression area of the casing, A finishing cap is coupled to the depression; Wherein the exterior material is coated with a spray composition containing dry bit or stone and is finished.
delete delete delete delete delete A metal frame fixing step of fixing one side of a hollow square pipe-shaped metal frame to the inner wall by using a bracket and a ball screw; And a reinforcing member disposed between the first and second heat insulating members and having a greater rigidity than the first and second heat insulating members, wherein the reinforcing member and the first and second heat insulating members The reinforcing member may be a plastic plate, an aluminum plate, or a carbon plate having a fastening force, or may be formed of a plastic plate, an aluminum plate, or a carbon plate, and the holes may be formed in advance so that the first ball screw can be fastened A step of preparing a composite insulation board to prepare a processed composite insulation board; Disposing the composite heat insulation board so that the first heat insulation material is in contact with the other side of the metal frame so as to connect the first heat insulation material and the inner wall body while maintaining a gap between the first heat insulation material and the inner wall body; Fixing the composite heat insulation board to the metal frame; And a cover material fixing step of fixing a cover material to the second insulation material by disposing a cover material which is in contact with the second insulation material;
Wherein the outer casing is adhered to the second heat insulating material or fixed to the reinforcing member by a fourth ball screw, the fourth ball screw is fastened to a depressed region of the outer casing, and the finishing cap is coupled to the depressed portion; Wherein the exterior material is coated with a spray composition containing dry bit or stone to finish the exterior wall.
And a reinforcing member disposed between the first and second heat insulating members and having a greater rigidity than the first and second heat insulating members, wherein the reinforcing member and the first and second heat insulating members The reinforcing member may be a plastic plate, an aluminum plate, or a carbon plate having a fastening force, or may be formed of a plastic plate, an aluminum plate, or a carbon plate, and the holes may be formed in advance so that the first ball screw can be fastened A step of preparing a composite insulation board to prepare a processed composite insulation board; Wherein the composite insulation board is disposed such that the first insulation of the composite insulation board is in contact with the inner wall so as to connect the first insulation with the inner wall while maintaining a gap between the first insulation and the inner wall, ; A composite insulation board fixing step of fixing the composite insulation board to the inner wall; And a cover material fixing step of fixing a cover material to the second insulation material by disposing a cover material which is in contact with the second insulation material;
Wherein the outer casing is adhered to the second heat insulating material or fixed to the reinforcing member by a fourth ball screw, the fourth ball screw is fastened to a depressed region of the outer casing, and the finishing cap is coupled to the depressed portion; Wherein the exterior material is coated with a spray composition containing dry bit or stone to finish the exterior wall.

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