KR100750862B1 - Complex insulator for construction - Google Patents

Abstract

A composite insulating material for construction is provided to perform construction work without a gap by increasing adhesive strength, to prevent buckling phenomenon by increasing flexural strength and compressive strength and to minimize deformation caused by a variation of temperature. The composite insulating material for construction includes a synthetic resin foam board(10), and a synthetic resin reinforcement member(20) provided with a surface joint(21) joined to the surface of the synthetic resin foam board and side joints(22) folded perpendicularly from two edges of the surface joint and joined to two sides of the synthetic resin foam board. Hereon the synthetic resin foam board is made with Styrofoam, and the synthetic resin reinforcement member is made with a perforated synthetic resin board composed of two plates, plural connecting pieces connecting the plates and partitioning off a space between the plates into plural spaces to have reinforcement and insulation functions and a fabric sheet such as non-woven fabrics or woven fabrics attached on the surface of the plates and exposed to the surface to increase adhesive strength against the synthetic resin foam board.

Description

Complex insulator for construction

1 to 5 show a first embodiment of the composite thermal insulation for building according to the present invention,

1 is a perspective view,

2 is an exploded perspective view,

3 is a cross-sectional view,

4 and 5 is a cross-sectional view showing a construction state,

6 to 8 show a second embodiment of the composite thermal insulation for building according to the present invention,

6 is a perspective view,

7 is an exploded perspective view,

3 is a cross-sectional view,

9 to 11 show a third embodiment of the composite thermal insulation for building according to the present invention,

9 is a perspective view,

10 is an exploded perspective view,

11 is a sectional view,

12 is an exploded perspective view showing a fourth embodiment of the composite insulating material for construction according to the present invention;

13 is an exploded perspective view showing a fifth embodiment of the composite insulating material for construction according to the present invention;

14 is an exploded perspective view showing a sixth embodiment of the composite thermal insulation for building according to the present invention.

** Description of symbols for the main parts of the drawing **

10: synthetic resin foam plate 20: synthetic resin reinforcement

21: surface joint 22: side joint

23: back edge joint 24: back joint

30: synthetic resin surface bonding material 40: synthetic resin edge reinforcing material

41: surface edge joint 42: side joint

43: back edge joint

The present invention relates to a composite composite insulation for installation used for the insulation of the outer wall and interlayer slab partitioning the interior in a concrete building, in particular, can be installed without gaps due to increased mutual adhesion, buckling phenomenon is high bending strength and compressive strength The present invention relates to a composite composite insulating material that is prevented and minimizes deformation due to temperature change.

In general, walls and interlayer slabs that partition an interior of a concrete building are installed with insulation to prevent energy loss and condensation from occurring.

Conventionally, as a heat insulating material for a building, a synthetic resin foam plate material having a predetermined thickness has been widely used, and recently, in order to compensate for the weakness of the synthetic resin foam plate material, a synthetic resin surface material is applied to one surface of the synthetic resin foam plate material as disclosed in Korean Laid-Open Patent Publication No. 2002-0063084. Bonded building composite insulation has been developed and used.

The composite heat insulating material for building construction of the present invention is formed by integrally joining a synthetic resin foam plate material and a synthetic resin surface material, and is installed at a corner portion of a wall and a slab to prevent energy loss and prevent condensation caused by cooling and heating the room. At the same time, it has the advantage of being able to finish by attaching a heterogeneous finishing wallpaper through the synthetic resin surface material in the state of being embedded in the corners of the wall and the slab.

However, the composite composite heat insulating material of the present invention is installed in succession according to the area of the wall and the slab, since the synthetic foam foam material in the joint surface between the adjacent composite thermal insulation material, the synthetic resin foam material, the synthetic resin surface material is bonded to the synthetic resin surface material Bonding force between the adjacent composite heat insulating material is lowered, thereby causing a gap between the composite heat insulating material, there is a problem that the heat insulation and condensation prevention effect is greatly reduced.

In addition, the composite composite heat insulating material of the present invention is weak in flexural strength and compressive strength because the synthetic resin surface material is bonded only to one surface of the synthetic resin foam plate, which causes bending or bending when constructed on walls and slabs. There is a problem.

In addition, the composite composite heat insulating material of the present invention is because the synthetic resin surface material is bonded only to one surface of the synthetic resin foam plate material to be bent toward the synthetic resin foam plate material or synthetic resin surface material according to the different thermal expansion coefficient of the synthetic resin foam material and the synthetic resin surface material according to the temperature change As a result, the construction is not only cumbersome, but also when the wall or the slab is installed, there is a problem such as a full stomach phenomenon or a peeling phenomenon.

Therefore, an object of the present invention is to provide a composite composite insulation material that can be installed without a gap to increase the mutual adhesive strength, high bending strength and compressive strength to prevent buckling phenomenon, and minimize deformation due to temperature change.

The present invention in order to achieve the above object, a synthetic resin foam plate material; Fabrics such as non-woven fabrics and woven fabrics on a surface of a synthetic resin porous plate composed of a plurality of plate pieces and a plurality of connecting pieces connecting the plates and partitioning the space between the plate portions into a plurality of spaces. The sheet is embedded and has a structure exposed to the surface, and has a surface joint portion bonded to the surface of the synthetic resin foam plate material, and a side joint portion bent at right angles at both edges of the surface joint portion and bonded to both sides of the synthetic resin foam plate member It provides a composite composite heat insulating material comprising a synthetic resin reinforcement.

In addition, the present invention, in order to achieve the above object, the synthetic resin foam plate material; Fabrics such as non-woven fabrics and woven fabrics on a surface of a synthetic resin porous plate composed of a plurality of plate pieces and a plurality of connecting pieces connecting the plates and partitioning the space between the plate portions into a plurality of spaces. A surface bonding material having a structure in which the sheet is embedded and exposed on the surface thereof, the surface bonding material being bonded to a portion except for a part of both edges of the surface of the synthetic resin foam sheet; Fabrics such as non-woven fabrics and woven fabrics on a surface of a synthetic resin porous plate composed of a plurality of plate pieces and a plurality of connecting pieces connecting the plates and partitioning the space between the plate portions into a plurality of spaces. The sheet is embedded and has a structure exposed to the surface, and the surface edge junction portion bonded to a part of both edges of the surface of the synthetic resin foam plate, and bent at right angles at both edges of the surface edge junction portion on both sides of the synthetic resin foam sheet It provides a composite composite heat insulating material comprising a synthetic edge reinforcement having a side joint to be bonded.

It may be configured to further include a back edge bonding portion is bent at a right angle at the side bonding portion bonded to the back edge of the synthetic resin foam plate material.

It may be configured to further include a back bonding portion is bent at a right angle at the side bonding portion bonded to the back surface of the synthetic resin foam plate.

Hereinafter, the composite composite heat insulating material according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

1 to 5 show a first embodiment of a composite thermal insulation for building according to the present invention, Figure 1 is a perspective view, Figure 2 is an exploded perspective view, Figure 3 is a sectional view, Figure 4 and Figure 5 is a cross-sectional view showing a construction state. .

Building composite heat insulating material according to this embodiment, as shown in Figures 1 to 5, synthetic resin foam plate 10; Surface joints 21 bonded to the surface of the synthetic resin foam plate 10 and side joints 22 are bent at right angles at both edges of the surface joints 21 and joined to both sides of the synthetic resin foam plate 10. The branch is configured to include a synthetic resin reinforcement (20).

The synthetic resin foam plate 10 is composed of a synthetic resin foam plate material such as conventional styrofoam.

The synthetic resin reinforcement 20 may use a simple synthetic resin plate, but as shown in the example, connecting two plate portions 1 and 2 with these plate portions 1 and 2 and between the plate portions 1 and 2. It is preferable that the synthetic resin reinforcing material 20 has a heat insulating function together with a reinforcing function by using a synthetic resin porous plate body composed of a plurality of connecting pieces 3 partitioning a space into a plurality of spaces 4.

In addition, the surface of the plate portion (1, 2) of the synthetic resin reinforcing material 20 is embedded with a nonwoven fabric or woven fabric sheet 5, such as woven fabric and the surface exposed so that the adhesive force to the synthetic resin foam plate 10 to be increased It is desirable to.

That is, after extrusion molding the synthetic resin porous plate constituting the synthetic resin reinforcing material 20, the fabric sheet (5) on both surfaces of the plate portion (1, 2) of the synthetic resin porous plate before curing of the synthetic resin porous plate body It is preferable that the fabric sheet 5 is embedded in the surface of the plate portions 1 and 2 of the synthetic resin porous plate body while the flat sheet is pressed to expose the surface thereof.

Insulating the wall (W) of the building using the composite heat insulating material for building according to the present invention configured as described above has a height equivalent to the height of the wall (W) of the building as shown in FIG. It is manufactured to a standard having a width, for example, about 90 cm or 120 cm, and is bonded to the inner surface of the wall W of the building by an adhesive A, and the side surfaces of adjacent building composite thermal insulation materials are bonded to each other.

At this time, in the composite heat insulating material for building according to the present invention, since the surface bonding portion 21 is bonded to the surface of the synthetic resin foam plate 10, and the side bonding portion 22 is bonded to both sides of the synthetic resin foam sheet 10, the synthetic resin foam sheet 10. ) And the synthetic resin reinforcement 20 is not bent by the different thermal expansion coefficients, but also the side joints 22 to increase the flexural strength and compressive strength of the building composite insulation material does not occur buckling phenomenon.

In addition, the side of the composite insulating material for building according to the present invention is covered with the side joint portion 22 constituting the synthetic resin reinforcement 20, the adjacent composite resin composite heat insulating material is bonded through the side joint 22 so that the adjacent composite resin composite There is no gap between the insulation.

In addition, since the fabric sheet 5 is embedded on both surfaces of the plate parts 1 and 2 of the synthetic resin reinforcing material 20 and the surface thereof is exposed, the synthetic resin foam plate 10 and the synthetic resin reinforcing material 20 are bonded by an adhesive. When bonding, the adhesive force is increased so that the synthetic resin foam plate material 10 and the synthetic resin reinforcement material 20 are not separated from each other.

On the other hand, if there is a pillar (B) in the corner portion of the wall (W) of the building on the site, the synthetic foam sheet 10 and the synthetic resin reinforcement (20) in accordance with the specifications of the pillar (B) portion is cut and joined together Can be used.

6 to 8 show a second embodiment of the building composite heat insulating material according to the invention, Figure 6 is a perspective view, Figure 7 is an exploded perspective view, Figure 3 is a cross-sectional view.

6 to 8, the composite insulating material according to the present embodiment is bent at a right angle at the side joint 22 of the first embodiment as described above, and is joined to the back edge of the synthetic resin foam plate 10. It further includes an edge joint 23, the side joint 22 of the composite composite heat insulating material for construction on one side wall when constructed on the wall (W) perpendicular to each other is constructed on the other side wall of the rear joint ( 23) so as not to have a gap therebetween, and other configurations are the same as those in the above-described first embodiment, and the same reference numerals are assigned to the same parts, and detailed description thereof will be omitted.

9 to 11 show a third embodiment of the building composite heat insulating material according to the present invention, Figure 9 is a perspective view, Figure 10 is an exploded perspective view, Figure 11 is a cross-sectional view.

9 to 11, the building composite heat insulating material according to the present embodiment is bent at a right angle at the side joint portion 22 of the first embodiment as described above, and joined to the back surface of the synthetic resin foam plate 10 in half. It further includes a back joint 24, which is a side joint 22 of the composite composite heat insulating material for construction on one side wall when constructed on the wall (W) formed at right angles to each other ( 24) to prevent the formation of gaps between them, and to increase the flexural strength and the compressive strength, and the other configuration is the same as the first embodiment described above, the same reference numerals are assigned to the same parts and detailed description Omit.

12 is an exploded perspective view showing a fourth embodiment of the composite insulating material for construction according to the present invention.

Building composite heat insulating material according to the present embodiment, as shown in Figure 12, synthetic resin foam plate 10; A surface bonding material 30 bonded to a portion except a part of both edges of the surface of the synthetic resin foam plate 10; The surface edge joint portion 41 is joined to a part of both edges of the surface of the synthetic resin foam plate 10 and bent at right angles at both edges of the surface edge joint portion 41 to be bonded to both sides of the synthetic resin foam plate 10. It comprises a synthetic resin edge reinforcement 40 having a side joint portion 42.

This is the same as the structure in which the surface joint 21 is cut at both edge portions in the first embodiment described above.

Figure 13 is an exploded perspective view showing a fifth embodiment of the composite insulating material for construction according to the present invention.

As shown in FIG. 13, the composite thermal insulation material according to the present embodiment is bent at a right angle at the side joint portion 42 of the fourth embodiment, and is joined to a rear edge portion bonded to a part of the rear edge of the synthetic resin foam plate 10. (43) is further included, and the rest of the configuration is the same as in the fourth embodiment described above, the same reference numerals are assigned to the same parts, and detailed description thereof will be omitted.

As described above, according to the building composite heat insulating material of the present invention, the surface bonding portion or the surface bonding material is bonded to the surface of the synthetic resin foam plate, the side joints are bonded to both sides of the synthetic resin foam plate material, or the back edge bonding portion or the back bonding portion to the back surface of the synthetic resin foam plate material Is not bonded to each other due to the different thermal expansion coefficients of the synthetic resin foam plate and the synthetic resin reinforcement, and the flexural strength and the compressive strength of the composite insulating material for building are increased by the side joints or the rear edge joints or the rear joints. There is no work, and there is no gap between adjacent building composite insulating materials, so that the effect of preventing heat and condensation is reliably ensured.

In addition, according to the building composite heat insulating material of the present invention, by further comprising a back edge joint or a back joint bonded to a part or the entire back edge of the synthetic foam sheet material, the flexural strength and the compressive strength are further increased so that buckling does not occur. However, when the joints are installed on the walls perpendicular to each other, the side joints of the building composite heat insulating material installed on one wall are joined to the back edge joints or the back joints of the building composite heat insulating material installed on the other wall so that there is no gap between them. It works.

In addition, according to the composite heat insulating material for construction of the present invention, the fabric sheet is embedded on both surfaces of the synthetic resin reinforcement, surface bonding material or synthetic resin edge reinforcement, and the surface is exposed, so that the synthetic resin foam plate material and synthetic resin reinforcement material, synthetic resin surface bonding material or When the edge reinforcement made of resin is bonded by an adhesive, the adhesive force is increased, so that the synthetic resin foam plate material, the resin reinforcement material, the synthetic resin surface bonding material or the resin edge reinforcement are not separated from each other.

Claims (5)

Synthetic resin foam plate (10); Consists of a plurality of connecting pieces (3) connecting the two plate portions (1,2) and these plate portions (1,2) and partitioning the space between the plate portions (1,2) into a plurality of spaces (4). A porous sheet of synthetic resin and a fabric sheet 5 such as a nonwoven fabric or a woven fabric are embedded in the surface of the synthetic sheet of porous resin, and have a structure exposed to the surface thereof, and bonded to the surface of the synthetic foam sheet 10 It comprises a synthetic resin reinforcement (20) having a surface bonding portion 21 and the side bonding portion 22 which is bent at right angles at both edges of the surface bonding portion 21 and bonded to both sides of the synthetic resin foam plate (10) Building composite insulation. The building composite heat insulating material according to claim 1, further comprising a back edge joining portion (23) which is bent at a right angle at the side joining portion (22) and bonded to the back edge of the synthetic resin foam plate (10). The composite heat insulating material according to claim 1, further comprising a back joint part (24) which is bent at a right angle at the side joint part (22) and bonded to the back surface of the synthetic resin foam plate (10). Synthetic resin foam plate (10); Consists of a plurality of connecting pieces (3) connecting the two plate portions (1,2) and these plate portions (1,2) and partitioning the space between the plate portions (1,2) into a plurality of spaces (4). A porous sheet of synthetic resin and a fabric sheet 5 such as a nonwoven fabric or a woven fabric are embedded in the surface of the synthetic sheet of porous resin and exposed to the surface thereof, and both edges of the surface of the synthetic foam sheet 10 A surface bonding material 30 bonded to a portion except a part; Consists of a plurality of connecting pieces (3) connecting the two plate portions (1,2) and these plate portions (1,2) and partitioning the space between the plate portions (1,2) into a plurality of spaces (4). A porous sheet of synthetic resin and a fabric sheet 5 such as a nonwoven fabric or a woven fabric are embedded in the surface of the synthetic sheet of porous resin and exposed to the surface thereof, and both edges of the surface of the synthetic foam sheet 10 Synthetic resin edge reinforcing material having a surface edge joint portion 41 bonded to a part and side joint portions 42 which are bent at right angles at both edges of the surface edge joint portion 41 and bonded to both sides of the synthetic resin foam plate 10 ( Building composite insulation, including 40). The composite heat insulating material according to claim 4, further comprising a back edge joint portion (43) which is bent at a right angle at the side joint portion (42) and bonded to the back edge of the synthetic resin foam plate (10).

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