KR200467261Y1 - Cladding heat insulation panel - Google Patents

Abstract

The present invention is an exterior heat insulation panel of a building which is attached to the inner wall surface or the outer wall surface of the building to perform the function of decoration and insulation at the same time, the exterior material; An insulating material attached to a rear surface of the exterior material to which an adhesive is applied to block heat transfer; A flame retardant board attached to a rear surface of the heat insulating material to which an adhesive is applied to prevent deformation of the heat insulating material, and the front surface of the heat insulating material adhered to the external material includes a groove having a predetermined width and a predetermined depth. Provides an outer heat insulating panel formed with an air circulation path so that the moisture introduced into the rear from the circulation through the side of the exterior along the groove.
According to the present invention, the air circulation path has a predetermined width on the front surface of the heat insulating material bonded to the exterior material and a groove is formed at a predetermined depth so that the moisture introduced from the front surface of the exterior material to the rear surface is circulated and discharged through the side of the exterior material along the groove. By forming the circulation path, the moisture formed between the exterior material and the heat insulating material can be discharged to the outside through the air circulation path, there is an effect that can promote the drying of the exterior material.

Description

Exterior Heat Insulation Panel {CLADDING HEAT INSULATION PANEL}

The present invention relates to an outer insulation panel. More specifically, the exterior insulation panel having an air circulation path is formed so that the grooves are formed to a certain depth and have a predetermined depth on the front surface of the heat insulating material so that moisture introduced from the front surface of the exterior material to the rear surface is circulated through the side surfaces of the exterior material along the grooves. will be.

In general, there are wet and dry methods for installing panels on building exterior walls.

In the wet method, cement mortar is applied to the exterior wall of the building and the rear surface of the panel to construct the panel on the exterior wall of the building.

And the dry method is a method of attaching the panel to the exterior wall of the building using the anchor bolt and angle.

However, the exterior materials used when constructing panels on the building exterior walls by the wet and dry methods are not completely dry, or when moisture is absorbed from the outside air after the installation is completed, moisture is formed between the exterior materials and the thermal insulation materials. There was this.

In addition, the moisture is not discharged, the adhesiveness of the adhesive applied to the back of the exterior material is weak, there was a problem that the exterior material and the heat insulating material fall.

In order to solve this problem, the present invention has a constant width on the front surface of the heat insulator and a groove is formed to a certain depth so that the air circulation path is circulated through the side of the exterior material along the grooves so that moisture introduced from the front to the back of the exterior material is circulated. The purpose of the present invention is to provide an exterior heat insulation panel capable of promoting drying of the exterior material.

In addition, the present invention is the groove is formed in a grid shape on the front surface of the heat insulating material, the width is narrowed toward the inner side from the front of the heat insulating material, so that the external force applied to the exterior material is retained in the grid-shaped groove formed on the front surface of the heat insulating material It is aimed to provide an outer insulation panel that can be dispersed in all directions by the outside, thereby preventing the exterior material and the heat insulating material from being easily damaged by an external force.

Exterior insulation panel according to the present invention to achieve the above object, the horizontal plate 151 coupled to the angle B of the B-shaped fixed to the wall surface 300 of the building, the end of the horizontal plate 151 A first protrusion 152 symmetrically protruding on the upper and lower sides, a second protrusion 154 symmetrically protruding on the upper and lower sides from the horizontal plate 151 at the rear end of the first protrusion, and the second protrusion It is attached to the outer wall surface of the building by using the panel fixing member 150 including a third protrusion 156 protruding symmetrically on the upper and lower sides from the horizontal plate 151 of the rear end to perform the function of decoration and insulation at the same time. As exterior insulation panel of building to say,
An exterior member 110 having an insertion groove 112 formed therein for allowing the first protrusion 152 to be inserted into an upper side and a lower side thereof; A heat insulator 120 for forming a jaw 122 into which the second protrusion 154 is inserted, which is attached to a rear surface of the exterior member 110 to which an adhesive is applied, to block heat transfer; And a flame retardant board 130 attached to a rear surface of the heat insulator 120 to which an adhesive is applied to prevent deformation of the exterior material 110 and damage caused by external force, and the rear surface of which is in close contact with the third protrusion 156. and,
On the front surface of the heat insulator 120 to be bonded to the exterior member 110, a plurality of grooves 140 are formed to have a predetermined width and a predetermined depth, the grooves 140 are in a diagonal direction from one side of the heat insulating material to the other side It is formed to form a diamond pattern, the groove 140 is narrower in width from the front side to the inner side to which the exterior member is attached to have a triangular cross-section, some of the grooves 140 of the plurality of grooves 140 Is connected to the jaw 122, the groove 140 is formed deeper than the jaw 122, the moisture flowing into the back from the front of the exterior member 110 along the groove 140 of the exterior material It is characterized in that the air circulation path to be discharged through the side, and to distribute the external force applied to the exterior material in all directions by the air layer retained in the groove 140.

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According to the present invention, the air circulation path has a predetermined width on the front surface of the insulating material bonded to the exterior material and a groove is formed to a certain depth so that the moisture introduced from the front surface of the exterior material to the rear is circulated through the side of the exterior material along the groove. By forming the air circulation path, the moisture formed between the exterior material and the heat insulating material can be discharged to the outside through the air circulation path, there is an effect that can promote the drying of the exterior material.

In addition, according to the present invention, the groove is formed in a lattice shape on the front surface of the heat insulating material, the width is narrowed toward the inside from the front of the heat insulating material, so that the external force applied to the exterior material is retained in the grid-shaped groove formed on the front surface of the heat insulating material It is dispersed in all directions by the air layer, which is effective in preventing the exterior material and the heat insulating material from being easily damaged by external force.

1 is a perspective view showing a conventional exterior insulation panel,
2 is a cross-sectional view showing an outer insulation panel according to the present invention,
3 is a perspective view showing the front surface of the heat insulating material of the outer insulation panel according to the present invention,
Figure 4 is a cross-sectional view showing a state in which the outer insulation panel according to the present invention is installed at an angle.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the constituent elements of the drawings, it is to be noted that the same constituent elements are denoted by the same reference numerals even if they are shown in different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view showing a conventional exterior insulation panel, Figure 2 is a cross-sectional view showing an exterior insulation panel according to the present invention, Figure 3 is a perspective view showing the front surface of the heat insulating material of the exterior insulation panel according to the present invention.

Referring to Figures 2 and 3, the present invention is attached to the outer wall surface 300 of the building relates to the exterior insulation panel of the building to perform the function of decoration and insulation at the same time.

The exterior heat insulation panel of the present invention includes an exterior material 110, a heat insulating material 120, and a flame retardant board 130.

Exterior material 110 is for exterior building walls, natural stone, tiles or artificial stone is used a lot.

In addition, the front surface of the exterior member 110 may be engraved with various patterns such as brick masonry or amber stone sculpture.

In addition, the exterior member 110 may have an insertion groove 112 recessed inwardly on the upper side and the lower side, and the first protrusion 152 of the panel fixing member 150 to be described later is inserted into the insertion groove 112. Can be inserted. A description thereof will be given later.

The heat insulator 120 is attached to the back of the exterior member 110 to which the adhesive is applied.

And, the heat insulator 120 blocks the heat transfer between the wall surface 300 and the room.

The insulation 120 may be made of E.P.S (Expanded Polystyren), neopol or iso pink, but is not limited thereto.

In addition, the front surface of the heat insulating material 120 to be bonded to the exterior member 110 has a predetermined width and the groove 140 is formed to a predetermined depth.

At this time, the groove 140 is formed extending in a straight line from one side to the other side on the front surface of the heat insulating material (120). Accordingly, the air circulation path is formed such that moisture introduced from the front of the exterior member 110 to the rear surface is circulated and discharged through the left and right side surfaces or the upper and lower side surfaces of the exterior member 110.

Here, one side and the other side of the heat insulating material 120 refers to the upper side, the lower side, the left side or the right side of the heat insulating material (120).

For example, when the exterior material 110 is not completely dried when the building material is used, or absorbs moisture from the outside air after the installation is completed, moisture is formed between the exterior material 110 and the heat insulating material 120. In addition, since moisture is not discharged, adhesiveness of the adhesive applied to the rear surface of the exterior member 110 is weakened, and a safety accident occurs that the exterior member 110 and the thermal insulation member 120 fall off.

That is, the exterior insulation panel according to the present invention is formed by the air circulation path on the front surface of the heat insulating material, the moisture formed between the exterior material 110 and the heat insulating material 120 can be smoothly discharged to the outside, the drying of the exterior material 110 Not only is this accelerated, maintenance costs can be reduced even after construction.

Further, as shown in Figure 3, the groove 140 is formed from one side to the other side in an oblique direction on the front surface of the heat insulating material 120, the lattice to form a diamond pattern on the front surface of the heat insulating material 120 It may be formed in a shape.

On the other hand, the groove 140 is formed to have a profile (eg, semi-circle or triangle) that becomes narrower from the front of the heat insulating material 120 toward the inside.

That is, the groove 140 is formed in a lattice shape on the front surface of the heat insulating material 120, and is formed to be narrower from the front surface of the heat insulating material 120 toward the inner side, so that the external force applied to the exterior material 110 is increased. It is partially absorbed or dispersed in all directions by the air layer retained in the groove formed in the front surface. Accordingly, the exterior member 110 and the heat insulating material 120 is protected from external force.

In addition, in the method of forming the groove 140 on the front surface of the heat insulating material 120, a press provided with a heating wire having a desired shape on the lower surface may be formed by falling contact with the front surface of the heat insulating material 120. That is, the groove 114 is formed in contact with the front surface of the heat insulator 120 in a state where the heating wire provided on the bottom surface of the press is heated.

Forming an air circulation path in the heat insulating material 120 may be performed by an automated press system including a press driven in conjunction with a conveyor belt for transporting the heat insulating material 120, but is not limited thereto.

The flame retardant board 130 is attached to the back of the heat insulating material 120 is coated with an adhesive.

The flame retardant board 130 supports the rear surface of the heat insulator 120 to prevent breakage of the heat insulator 120 due to deformation and external force such as distortion of the heat insulator 120.

In addition, the flame-retardant board 130 may be made of a non-flammable material or magnesium beam to prevent fire and can block the spread of fire.

Here, the adhesive may be a urethane bond or an epoxy.

4 is a cross-sectional view showing a state in which the outer insulation panel according to the present invention is installed on the wall surface (300).

Referring to FIG. 4, the exterior insulation panel according to the present invention is constructed to be supported by the panel fixing member 150 coupled to the angle 200 fixed to the wall surface 300 to form a gap with an adjacent exterior insulation panel. .

The panel fixing member 150 is a member that is coupled to the 'b' shaped angle 200 fixed to the wall surface 300 to fix the exterior member 110, the heat insulating member 120, and the flame retardant board 130 at the top and bottom thereof. The horizontal plate, the first protrusion 152 and the third protrusion 156 is included.

First, the horizontal plate is bolted to the angle 200 is fixed to the wall surface (300).

In addition, the first protrusion 152 is protruded symmetrically on the upper and lower sides of the horizontal plate is inserted into the insertion groove 112.

The third protrusion 156 is spaced apart from the second protrusion 154 so that the space portion 157 corresponding to the thickness of the heat insulating material 120 and the flame retardant board 130 is formed. Support the back of 130.

The panel fixing member 150 may further include a second protrusion 154 between the first protrusion 152 and the third protrusion 156, and the second protrusion 154 is symmetrical to the upper and lower sides of the horizontal plate. Protruded to be inserted between the exterior member 110 and the heat insulating material 120.

When the panel fixing member 150 further includes the second protrusion 154, the jaw 122 may be formed on the front surface of the heat insulating material 120 so that the second protrusion 154 may be inserted therein, and the second protrusion 154 may be inserted into the panel fixing member 150. Even in the part of the jaw 122 into which the protrusion 154 is inserted, the groove 140 may be formed deeper than the thickness of the jaw 122 so that the air circulation path is formed.

The panel fixing member 150 is coupled to each of the angles 200 fixed to the wall surface 300 to support and fix the outer insulation panels located on the upper and lower sides.

At this time, the outer insulation panels are located on the upper and lower sides of the panel fixing member, the gap is formed by the horizontal plate of the panel fixing member.

Accordingly, moisture in the air circulation path formed in the heat insulator 120 is easily discharged to the outside through the gap formed by the panel fixing member 150. Accordingly, it is possible to prevent drying of the exterior member 110 and the safety accident that the exterior member 110 falls from the heat insulating member 120.

The description above is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in this specification are intended to illustrate rather than limit the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the same scope should be interpreted as being included in the scope of the present invention.

110: exterior material 112: insertion groove
120: insulation 130: flame retardant board
140: groove 150: panel fixing member
152: first protrusion 154: second protrusion
156: third projection 200: angle
300: wall panel

Claims (5)

A horizontal plate 151 coupled to an angle 200 of the b-shape fixed to the wall surface 300 of the building, a first protrusion 152 symmetrically protruding from the upper and lower sides of the end of the horizontal plate 151, Protruding symmetrically from the horizontal plate 151 of the rear end of the first protrusion symmetrically protruding from the upper and lower side from the horizontal plate 151 of the rear end of the second protrusion and symmetrically protruding As an external insulation panel of a building that is attached to the outer wall surface of the building using a panel fixing member 150 including a third protrusion 156 to perform the function of decoration and heat insulation at the same time,
An exterior member 110 having an insertion groove 112 formed therein for allowing the first protrusion 152 to be inserted into an upper side and a lower side thereof;
A heat insulator 120 for forming a jaw 122 into which the second protrusion 154 is inserted, which is attached to a rear surface of the exterior member 110 to which an adhesive is applied, to block heat transfer; And
It is attached to the back of the heat insulating material 120 is coated with an adhesive to prevent the deformation of the exterior material 110 and the damage caused by external force and the flame-retardant board 130, the back is in close contact with the third protrusion 156; ,
On the front surface of the heat insulating material 120 to be bonded to the exterior member 110, a plurality of grooves 140 having a predetermined width and a predetermined depth,
The groove 140 is formed diagonally from one side of the heat insulating material to the other side to form a diamond pattern shape,
The groove 140 is narrow in width toward the inner side from the front surface to which the exterior member is attached, so that the cross section is triangular in shape,
Some of the grooves 140 of the plurality of grooves 140 are connected to the jaw 122,
The groove 140 is formed deeper than the jaw 122,
Moisture introduced from the front of the exterior member 110 to the rear surface is circulated through the side of the exterior member along the groove 140, and the external force applied to the exterior member in all directions by the air layer held in the groove 140 Exterior insulation panel, characterized in that the air circulation path is formed.
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