KR20150115701A - Outer wall decoration panel of building - Google Patents

Abstract

The present invention relates to an insulation finish material for an external wall of a building, having a vacuum insulation plate inserted in an interior thereof to surely secure an insulation performance and allowing a thickness thereof to be thicker. The insulation finish material comprises: a ceramic panel (102); a glass panel (104); an interval maintaining rod (106); the vacuum insulation plate (108); and a structural silicon layer (110). The glass panel (104) is positioned to be spaced from the ceramic panel (102) at a predetermined interval in such a manner that the glass panel (104) is in opposite to the ceramic panel (102). The interval maintaining rod (106) is installed in a space between the ceramic panel (102) and the glass panel (104) to maintain an interval between the ceramic panel (102) and the glass panel (104). The vacuum insulation plate (108) is in contact with one side surface of the interval maintaining rod (106) and is positioned in the space between the ceramic panel (102) and the glass panel (104) to provide an insulation performance. The structural silicon layer (110) is applied along the interval between the ceramic panel (102) and the glass panel (104) to prevent an air from flowing into the vacuum insulation plate (108).

Description

{OUTER WALL DECORATION PANEL OF BUILDING}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an outer wall finishing material for a building, and more particularly, to an outer wall thermal insulation finishing material for inserting a vacuum insulation board into the interior of the building to reduce the thickness thereof.

Generally, on the outer wall of a building, a finishing material for blocking the outside and the inside is installed. As shown in FIG. 1, the finishing material is made of a transparent material 1 And a decorative material 2 for beautifully directing the exterior wall of the building.

In the case of the decorative material 2, a ceramic panel is used to attach to the outer wall of the building, or a panel made of metal or stone is fastened to the outer wall of the building by separate fastening means so that the appearance of the building is beautifully rendered .

However, since the decorative material 2 is formed of a single material, it is necessary to fill the space between the decorative material and the outer wall of the building with glass fiber or another heat insulating material such as styrofoam to increase the heat insulating effect of the building. There is a problem in that the heat insulating effect of the heat insulating material is not properly exhibited when the period elapses.

In addition, when a panel made of a material such as a metal plate or a tile is used as a decorative material, there is a problem that external electromagnetic waves penetrate into the interior to cause a fatal error in office equipment such as a computer in an office.

In addition, various methods have been used for constructing the decorative material on the outer wall of the building. In the construction method, an anchor bolt is fastened to an outer wall of a building, and the decorative material is fastened to one side of the fastened anchor bolt. Such an installation method is to install the anchor bolts on the outer wall of the building and then attach the decorative material directly to the outer wall of the high-rise building using the high-priced work equipment, There is a risk that the operator is exposed to the risk of a safety accident such as falling off.

In addition, when a worker accidentally drops a work tool while performing a high-level work, there is a problem that a pedestrian or a worker may be injured by a serious injury.

Recently, in constructing a building, after building a skeleton of an H-beam-shaped steel frame with little use of concrete, after constructing a frame on the outer wall of the skeleton of the steel frame, Since the conventional finishing material does not have its own thermal insulation effect, it is necessary to construct a separate heat insulating structure, so that not only the construction period is extended but also the working efficiency is lowered, and the construction unit There is a problem in that an increase of

In order to solve the above-mentioned problems, Japanese Patent Application No. 10-2007-0015121 filed on Feb. 14, 2007 (the title of the invention: the exterior wall surface finish material of a building) was filed with the Korean Intellectual Property Office, A ceramic panel 10 and a glass panel 20 separated from each other by a predetermined distance on the other side of the ceramic panel 10. The ceramic panel 10 and the glass panel 20 are spaced apart from each other by a predetermined distance, The space 30 is formed between the ceramic panel 10 and the glass panel 20 while the space 30 is formed between the ceramic panel 10 and the glass panel 20, And a space retaining member 40 for supporting the inner wall of the building to be firmly supported.

However, in the conventional exterior wall surface finishing material of the building, since air is contained in the space formed between the ceramic panel and the glass panel, there is a problem in that the air contained in the space part does not provide good heat insulation.

As a result, the conventional outer wall surface finishing material of the building has a problem in that it is thicker in accordance with the regulation strength of the heat conduction ratio, and is also expensive. Here, the thermal transmittance is a coefficient of the perfusion calorific value due to thermal perfusion. When the fluid temperature of the both sides of the solid wall is a unit temperature difference per unit time through the unit surface area, the calorific value transferred from one fluid to the other fluid . Also referred to as heat transfer rate.

Particularly, since the above-mentioned conventional exterior wall surface finishing material of a building is thickened, transportation problems and installation time are prolonged.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a vacuum insulation board in which a heat insulation is reliably formed and a thickness of the insulation board is reduced And to provide an outer wall thermal insulation finishing material of the building.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an outer wall insulation finishing material for a building,

A ceramic panel (102);

A glass panel (104) positioned facing the ceramic panel (102) at regular intervals;

A gap holding rod 106 provided between the ceramic panel 102 and the glass panel 104 to maintain a gap between the ceramic panel 102 and the glass panel 104;

A vacuum insulation board 108 which is placed between the ceramic panel 102 and the glass panel 104 to contact the one side of the gap maintaining rods 106 and provides heat insulation;

And a structural silicon layer 110 applied between the ceramic panel 102 and the glass panel 104 to prevent air from flowing into the vacuum insulation board 108 formed therein.

As described above, the outer wall thermal insulation material of the building according to the present invention has the effect of inserting a vacuum insulation board between the ceramic panel and the glass panel to ensure insulation.

In addition, since the thickness of the present invention can be reduced, it is possible to reduce the installation time as well as to facilitate the transportation and storage.

In particular, the present invention has the effect of maximizing the area of use due to its thin thickness.

In addition, there is an advantage of preventing vacuum insulation cracking problem due to fine scratches and scratches, which are the greatest disadvantages of existing vacuum insulation materials.

1 is a schematic view showing the appearance of a general building,
2 is a view illustrating an outer wall thermal insulation finishing material of a building according to the present invention,
3 is a cross-sectional view of the main part of the outer wall thermal insulation finishing material of the building of FIG.

Hereinafter, a preferred embodiment of the outer wall thermal insulation finishing material of a building according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a view showing an outer wall thermal insulation finishing material of a building according to the present invention, and FIG. 3 is a sectional view showing a main part of an outer wall thermal insulation finishing material of the building of FIG.

2 to 3, the outer wall thermal insulation finishing material 100 of a building according to the present invention includes:

A ceramic panel (102);

A glass panel (104) positioned facing the ceramic panel (102) at regular intervals;

A gap holding rod 106 provided between the ceramic panel 102 and the glass panel 104 to maintain a gap between the ceramic panel 102 and the glass panel 104;

A vacuum insulation board 108 which is placed between the ceramic panel 102 and the glass panel 104 to contact the one side of the gap maintaining rods 106 and provides heat insulation;

And a structural silicon layer 110 applied between the ceramic panel 102 and the glass panel 104 to prevent air from flowing into the vacuum insulation board 108 formed therein.

Here, the vacuum insulation board 108 is preferably made of fumed silica.

The vacuum insulating plate 108 is formed of a plate-shaped plate material of fumed silica, the outer surface of the plate-shaped plate material is wrapped with an aluminum sheet, and then the plate is vacuumed.

When the inside of the insulating plate is kept in a vacuum state, the flow of air molecules is suppressed and the moisture content in the inside is reduced, thereby maximizing the adiabatic effect.

The assembling process and the use state of the outer wall thermal insulation finishing material of the building according to the present invention will be described as follows.

Here, the assembling process of the outer wall thermal insulation finishing material of the building according to the present invention can be changed as much as possible depending on the assembler.

First, the ceramic panel 102 is placed.

After the glass panel 104 is positioned to face the ceramic panel 102 with a predetermined gap therebetween, a spacer 106 is provided between the ceramic panel 102 and the glass panel 104.

Here, the interval maintaining rods 106 maintain the gap between the ceramic panel 102 and the glass panel 104.

After the vacuum insulation panel 108 is positioned, the outer surface of the vacuum insulation panel 108 is wrapped with an aluminum foil, and then a vacuum insulation panel 108 having an aluminum foil wrapped thereon is disposed between the ceramic panel 102 and the glass panel 104).

The structural silicon layer 110 is applied to prevent the air from flowing into the vacuum insulation board 108 formed between the ceramic panel 102 and the glass panel 104.

The reason why the silicon layer 110 is formed is to prevent air from flowing into the vacuum insulation board.

Then, the outer wall thermal insulation finishing material 100 of the building is installed on the outer wall of the building.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: External wall panel
2: Wristband panel
100: exterior wall insulation of buildings
102: Ceramic panel
104: glass panel
106:
108: Vacuum insulation board
110: Structural silicon layer

Claims (3)

A ceramic panel (102);
A glass panel (104) positioned facing the ceramic panel (102) at regular intervals;
A gap holding rod 106 provided between the ceramic panel 102 and the glass panel 104 to maintain a gap between the ceramic panel 102 and the glass panel 104;
A vacuum insulation board 108 which is placed between the ceramic panel 102 and the glass panel 104 to contact the one side of the gap maintaining rods 106 and provides heat insulation;
And a structural silicon layer (110) applied along the space between the ceramic panel (102) and the glass panel (104) to prevent air from flowing into the vacuum insulation board (108) formed therein. . The method according to claim 1,
The vacuum insulation board material 108 positioned between the ceramic panel 102 and the glass panel 104,
Fumed silica, and fumed silica. The method according to claim 1,
The outer surface of the vacuum insulation board 108 is,
And the outer wall of the building is covered with an aluminum foil.

Images