KR101658731B1 - A composite insulation - Google Patents

Abstract

The present invention relates to a composite insulation structure which improves insulation efficiency compared with a conventional insulation material as the composite insulation structure comprises an insulation material and a heat insulating board filled with air, and is directly fastened to the heat insulating board and a building outer wall through a fastening member by forming a fastening part rubbing with the building outer wall as the composite insulation structure protrudes from the gap between the insulation materials through the heat insulating board, thereby improving workability. Moreover, the composite insulation structure securely maintains the fastening structure with the building outer wall.

Description

{A composite insulation}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a composite heat insulation structure used in an outer wall of a building, and more particularly, to a composite insulation structure in which insulation is improved and construction is facilitated.

Generally, a large number of materials such as polystyrene foam, glass surface, rock surface, urethane foam, foamed concrete, etc. are usually used as exterior walls of a building such as an apartment building, a villa, and an office building.

The outer wall constructed using these materials is designed considering the strength and construction periods of the building, and the insulation efficiency is maintained at a general level.

In recent years, the value of buildings has been changing according to the cooling and heating efficiency of the residential space. As a result, interest in building insulation materials for improving cooling and heating efficiency is increasing.

Accordingly, the development of a composite insulation having good heat insulation performance has been actively carried out, and a representative form of the composite insulation is disclosed in Published Patent Application No. 10-2011-0029242.

In this method, the smoothness is controlled by sanding the outer wall of the building where the composite insulation is installed, and the insulation is attached to the outer wall of the building by attaching an adhesive to the outer wall of the building or the composite insulation.

However, in the above-mentioned method, since the installation work of the composite insulation should be performed by hand, there is a problem that the work quality is varied according to the skill of the worker and the work process is troublesome because the work is carried out at various stages. The adhesive has a disadvantage in that the smoothness of the entire wall of the building is uneven and the appearance of the composite insulation is deteriorated due to unevenness.

It is an object of the present invention to provide a composite heat insulating structure which includes a heat insulating material and an insulating plate filled with air to improve the heat insulating efficiency as compared with the conventional heat insulating material.

It is a further object of the present invention to provide a joining structure for joining a joining member to an outer wall of a building by directly fixing the joining member to the outer wall of the building by being protruded between the heat insulating materials by the insulating plate to improve workability, The present invention provides a composite heat insulating structure which is firmly held by a heat sink.

The composite heat insulating structure according to the present invention is a composite heat insulating structure provided on an outer wall of a building. The composite heat insulating structure is composed of a heat insulating material made of a polystyrene type foam, an air flow forming part made of a polypropylene plate on one surface of the heat insulating material, And a surface plate made of a nonwoven fabric as one surface of the insulating plate.

Further, the insulating plate is formed with a fastening portion which extends in a vertical direction to a surface on which the heat insulating material is formed, and is fastened together with the outer wall of the building by the fastening member.

As described above, according to the present invention, there is an advantage that the heat insulating material primarily insulates the outside air, and the air flow part, which is filled with the air in the secondary, blocks the inflow of the outside air to improve the heat insulating efficiency.

In addition, since the fastening portion formed on the insulating plate and the outer wall of the building are fastened and fixed by the fastening member, the existing adhesive is removed from the construction method of adhering to the outer wall of the building, So that there is an advantage that there is no fear of breakage and dropout due to external force.

1 is a perspective view showing a preferred embodiment of the present invention;
2 is an exploded perspective view showing a preferred embodiment of the present invention.
3 (a) and 3 (b) are explanatory diagrams showing the state of use
4 (a) and 4 (b) are views showing an example of a first identification part and a coating part according to the present invention
5 is an exemplary diagram showing a second identification unit according to the present invention.

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

FIG. 1 is a perspective view showing a preferred embodiment of the present invention. The present invention relates to a composite heat insulating structure provided on an outer wall of a building.

1 and 2, the present invention includes a heat insulating material 10, an insulating plate 20 formed on one surface of the heat insulating material 10, a surface plate 30 formed on one surface of the insulating plate 20, ).

The heat insulating material 10 is made of a polystyrene-based foam using an extrusion method.

The heat insulating plate 20 is formed of a polypropylene (PP) plate on one side of the heat insulating material 10 and a plurality of air flowing portions 21 through which air flows into the heat insulating plates 20 are formed, And is configured to block external air.

That is, the heat insulating material 10 primarily insulates the outside air, and the air flowing part 21, through which the air flows secondarily, blocks inflow of the outside air to improve the heat insulating efficiency.

More specifically, the air flowing in the air flow portion 21 flows when the air flow portion 21 is artificially introduced and discharged to the air flow portion 21 Note that the air is always filled.

The insulating plate 20 is formed as a fastening part 23 which is formed by protruding in a vertical direction between the heat insulating materials 10 on the surface on which the heat insulating material 10 is formed to divide the heat insulating material 10 on both sides.

The surface plate 30 is composed of a nonwoven fabric as one surface of the insulating plate 20, and is configured to attach wallpaper and coated paper to determine the appearance of the interior of the room.

The external wall W of the building and the fastening portion 23 are fastened together through a known fastening member B as shown in Figs. 3 (a) and 3 (b) So that the fastening part 23 can be easily assembled so that workability is improved. As a result, not only shortening of air but also fastening of the fastening member B can be firmly secured, There is no fear of dropping out.

At least one of the fastening portions 23 is formed at intervals in the heat insulating plate 20 so that the fastening member B can be easily installed regardless of the width of the heat insulating plate 20. [

The protruding length of the fastening part 23 is made lower than the thickness of the heat insulating material 10 so that the fastening part 23 and the outer wall of the building W) is adjusted and the precision construction of the composite heat insulating structure is achieved.

On the other hand, in order to prevent the air flow portion 21 from lowering the strength of the composite heat insulating structure when the fastening member B is fastened, the air flow portion 21 is formed on both sides of the rear side of the fastening portion 23 .

Therefore, the air flow portion 21 formed on both sides of the rear side of the fastening portion 23 allows the airtightness of the fastening portion 23 to be fastened with the heat insulating function of the composite heat insulating structure, Ensure that the structure is firmly installed.

As shown in FIG. 4, the insulator 20 is provided with a first identification portion 24 having an engraved or embossed shape at the rear portion where the fastening portion 23 is formed, The first identification portion 24 of the embossed shape is identified.

5, the second identification unit 34 is identified by a dotted line or a color in a portion of the surface plate 30 where the coupling unit 23 is formed, When the surface plate 30 is produced, the position of the fastening portion 23 may be determined in advance.

Therefore, the first and second identification portions 24 and 34 can easily identify the fastening position of the fastening member B, thereby improving the convenience of the operation.

As shown in FIG. 4, the insulating plate 20 has a coating part 25 formed on one surface of the fastening part 23 to prevent rusting by the fastening member B.

The insulating plate 20 and the surface plate 30 are bonded to each other through a binder. The binder includes 65 to 75 parts by weight of an acrylic binder, 10 to 20 parts by weight of a flame retardant, 5 to 10 parts by weight of a fluorine- And 5 to 8 parts by weight of an eco-friendly substance consisting of loess powder.

Among the components constituting the binder, the acrylic binder is an emulsion binder which can be cured at room temperature and can be provided with other functions as a binder in an adhesive composition.

The flame retardant dilutes the concentration of the substances that can burn on the gas among the constituents of the binder, and significantly reduces the amount of smoke released during the combustion of the combustion material, so that it can be prepared against fire.

The fluorine-based water repellent agent is designed to impart water repellency to the composite heat-insulating structure of the present invention. When the water-repellent agent is installed on the outer wall W of the building, rapid water- .

An auxiliary insulating material impregnated with a glass fiber having excellent heat insulating property is formed between the insulating plate 20 and the surface plate 30 so as to have a heat insulating function together with the insulating material 10 and the insulating plate 20. [

10: Insulation 20: Insulating plate
21: air flow portion 23: fastening portion
24: first identification part 25: coating part
30: surface plate 34: second identification part

Claims (7)

A composite heat insulating structure provided on an outer wall of a building,
A heat insulating material 10 made of a polystyrene type foam;
A plurality of air flow portions 21 formed by a polypropylene plate on the one side of the heat insulating material 10 and through which air flows are formed and protrude vertically from the surface on which the heat insulating material 10 is formed, (20) having a fastening part (23) fastened together with an outer wall (W) of the building due to the fastening plate (20).
And a surface plate (30) made of a nonwoven fabric as one surface of the insulating plate (20)
The insulating plate 20 and the surface plate 30 are bonded to each other through a binder. The binder is composed of 65 to 75 parts by weight of an acrylic binder, 10 to 20 parts by weight of a flame retardant, 7 to 10 parts by weight of a fluorine- And 5 to 8 parts by weight of an eco-friendly material consisting of the above-mentioned materials. The method according to claim 1,
Wherein the air flow portion (21) is formed on both sides of the rear side of the fastening portion (23). The method according to claim 1,
Wherein the insulating plate (20) is formed with a first identification part (24) formed at a rear surface of the fastening part (23). The method according to claim 1,
Wherein the surface plate (30) is formed with a second identification portion (34) which is identified by a dotted line or a hue at a portion where the fastening portion (23) is formed. The method according to claim 1,
Wherein the insulating plate (20) has a coating part (25) formed on one side of the fastening part (23). delete The method according to claim 1,
Characterized in that an auxiliary insulating material formed by impregnating the glass fiber with the binder is formed between the insulating plate (20) and the surface plate (30).

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