KR200210963Y1 - Insulating plate for construction - Google Patents

Abstract

The present invention relates to a building insulation plate that provides a thermal insulation effect by simply installing on the inner wall, the outer wall, the insulation plate of the present invention is a reinforcing mesh is disposed on one side or both sides of the plate-shaped insulation made of polyurethane foam or styrofoam, Mortar layer having a layer of 1.5 mm to 5 mm thickness is applied on the reinforcing mesh so that the heat insulating material, the reinforcing mesh and the mortar layer are integrally bonded to each other, in one direction or cross direction to one or both surfaces of the heat insulating material. A plurality of valleys having a predetermined width and depth are formed at equal intervals, and the valleys are filled with mortar flowing down when the mortar layer is formed to form mortar ribs integrally.

The present invention maximizes the adhesive surface of the mortar layer attached by the bone formed at equal intervals in the heat insulating material, and is reinforced by the rib of the mortar layer is formed integrally inserted into the heat insulating bone, and the ribs of the mortar layer The bones of the heat insulating material are meshed with each other to increase durability.

Description

Building insulation boards {INSULATING PLATE FOR CONSTRUCTION}

The present invention relates to a building insulation plate constituting the outer wall and the inner wall for the insulation of the building, in particular to firmly adhere to the mortar layer adhered to the insulating material, such as polyurethane foam or styrofoam, but to maximize the durability while minimizing its own weight The present invention relates to a building insulation board.

Currently, the insulation board to increase the decoration and insulation effect of the walls of the building and to obtain the convenience of construction, after applying the adhesive layer to the insulation material, such as polyurethane foam or styrofoam, attach a reinforcing mesh, and apply a mortar layer thereon, It is made by applying the finishing material to the surface of the mortar layer, such technology is Republic of Korea Patent Publication No. 93-13398 (application date 1993.7.21) 'Building insulation board material' and Publication No. 98-87583 (application date 1998.7. 24) Known as 'color-proof insulation board for interior and exterior of buildings'.

The conventional heat insulating plate is attached to the reinforcing mesh of the glass fiber to the heat insulating material such as polyurethane foam or styrofoam to increase the durability while preventing the weak heat insulating material from being easily damaged from the external impact, but actually the reinforcing mesh is a heat insulating material Since the reinforcing mesh does not increase the strength of the insulating material and solidifies with the mortar layer and the finishing material because it is attached to the outer side of the adhesive layer attached to the insulating material without contacting the insulating material, there is a problem that the desired effect is not obtained. In addition, the adhesive layer adhered to the surface of the heat insulating material such as polyurethane foam or styrofoam in a plane has a problem of being easily peeled off from the surface of the heat insulating material having a weak surface strength by vibration and impact.

Patent Publication No. 2000-7624 (filed date 1998.7.6) selected by the person to solve the above problems 'building insulation plate' is a reinforcing mesh 12 as shown in Figure 9 attached to the surface of the heat insulating material (11) By reducing the coating process of the adhesive layer to be attached, it is possible to obtain the effect of improving the productivity and reducing the manufacturing cost, and in order to increase the durability, the mortar layer 13 to which the adhesive is added while directly contacting the reinforcing mesh 12 to the surface of the heat insulating material 11. ) So that the mortar penetrates and attaches to the mesh of the reinforcing mesh 12 so that the reinforcing mesh 12 is positioned on the surface of the heat insulating material 11. However, the insulation plate (1) can increase the durability of the heat insulating material because the reinforcing mesh is in contact with the surface of the heat insulating material, but since the mortar attached to the surface of the heat insulating material is limited to only the portion passed through the reinforcing mesh mesh, also on the surface of the heat insulating material on the plane The attached mortar layer has a problem of peeling from the heat insulating material having a weak surface strength.

The present invention was devised to solve the conventional problems as described above, the object of the present invention is to maximize the adhesive surface of the mortar layer to be bonded by forming a bone at equal intervals in the insulating material, such as polyurethane foam or styrofoam Minimized to be firmly adhered to, as well as to provide a building insulation plate that can be inserted into the heat insulating material ribs of the solidified mortar layer to further increase the durability.

1 is an exploded perspective view showing a state that the reinforcing mesh is attached to the building insulation board according to the present invention,

Figure 2 is a perspective view showing a partially cut state of the reinforcing mesh and mortar layer is coupled to the building insulation board according to the present invention,

3 is a longitudinal cross-sectional view of FIG.

4 to 7 is a front view of a heat insulating plate showing another embodiment according to the present invention,

8 is a cross-sectional view of a heat insulating plate showing another embodiment according to the present invention,

9 is a longitudinal cross-sectional view of a heat insulating plate showing a conventional embodiment.

* Description of the code for the main parts of the drawings *

1: insulation 11: insulation

12: reinforcing mesh 13: mortar layer

14 Goals 15 Rib

In order to achieve the above object, the heat insulating plate of the present invention has a reinforcing mesh disposed on one side or both sides of a plate-shaped heat insulating material made of polyurethane foam or styrofoam, and a mortar layer having a thickness of 1.5 mm to 5 mm on the reinforcing mesh. In the heat insulating plate which is applied and the heat insulating material, the reinforcing mesh and the mortar layer are integrally bonded to each other, a plurality of valleys having a predetermined width and depth are formed at equal intervals in one direction or in the cross direction on one or both surfaces of the heat insulating material, It is characterized in that the mortar flowing down when the mortar layer is formed is filled to form a mortar rib integrally.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the building insulation plate of the present invention in detail.

The building insulation board 1 of the present invention is reinforced with a heat insulating material 11 having a nominal density of 15 to 30 kg / cm and a top surface of the heat insulating material 11, which are made of polyurethane foam or styrofoam as shown in FIG. And a reinforcing mesh (12) having a weight of 140 to 160 kg / m 3 (NET ＃ 180) and a reinforcing mesh (12) on which the reinforcing mesh (12) is placed. It consists of a mortar layer 13 formed by coating and drying mortar mixed with silicon, epoxy, urethane, silica sand, and portant cement, and applying a finishing material (not shown) to the surface of the mortar layer 13 as necessary. It is made by drying or applying and drying the wall.

As shown in FIG. 1, a plurality of the valleys 14 having a predetermined width and depth are formed at equal intervals and are formed at equal intervals on the surface of one side, as shown in FIG. 1, and flows into the valleys 14 of the insulation 11. The mortar to be filled down becomes a rib 15 to increase the durability is formed integrally with the mortar layer (13).

Since the valleys 14 of the heat insulating material 11 are engaged with each other while increasing the adhesive area of the mortar layer 13, the rib 14 prevents peeling and protrudes ribs of the mortar layer 13 formed by the valleys 14. 15) further increases durability. In addition, when the gap 14 of the heat insulating material 11 is narrow and the width and depth are increased, the adhesive area and durability may be increased, but since the weight of the heat insulating plate 1 is increased, the interval of the bone 14 is 7 to 15. The size is in the range of 3 to 8 mm (width) x 3 to 6 mm (depth) is preferably formed in the range, not limited to this, depending on the change in the thickness of the mortar layer 13 and the finishing material bone 14 The spacing, width and depth of the can be varied.

In addition, in the above embodiment, the reinforcing mesh 12 is inserted into the surface of the heat insulating material 11 in order to increase the durability of the heat insulating plate 1, but the mortar is formed by the bone 14 formed in the heat insulating material 11 of the present invention. It is not necessary to insert the reinforcing mesh 12, since the adhesion and strength of the layer 13 are increased, and the mortar layer 13 is applied to the heat insulating material 11 on which the bone 14 is directly formed. You may form the heat insulation board 1 which flows into 14 and the rib 15 is integrally shape | molded.

In addition, the direction of the valleys 14 formed on the heat insulating material 11 of the heat insulating plate 1 is installed so as to be horizontal to the ground when installed to form a wall of the mortar layer 13 formed by the valleys 14 The rib 15 is caught to prevent peeling and sagging.

As another embodiment of the present invention, as shown in FIGS. 4 and 5, the valleys 14 of the heat insulating material 11 may be formed in a square or rhombus shape in order to prevent being bound to the installation direction of the heat insulating plate 1. As another embodiment, as shown in FIG. 6, the valleys 14 of the heat insulating material 11 may be formed in a zigzag shape such as a wave shape, and the valleys 14 formed on the heat insulating material 11 may be formed in a straight line or zigzag shape. In addition to the shape, as shown in FIG. 7, the grooves 141 and / or the valleys 14 leading to the long holes 142 are regularly or irregularly formed to the grooves 141 and / or the long holes 142. The rib 15 of the mortar layer 13 which flowed in may be formed, and it is firmly attached by the rib 14 of the said heat insulating material 11, and the rib 15 of the mortar layer 13, of course, and increases durability. It becomes possible to prevent peeling and sagging.

In addition, in the above embodiments, the bone 14 is formed on one side of the heat insulating material 11, but as shown in FIG. 8, the bone 14 is formed on both sides of the heat insulating material 11 to form the mortar layer 13. The rib 15 may be formed, and a finish may be applied to both sides in a step before or after installation.

In addition, the bone 14 formed on one side or both sides of the heat insulating material 1 is a method of simultaneously forming through the mold in the primary molding step of forming the heat insulating material 11 by foaming or thermocompression, and secondary molding In the step, the surface of the heat insulating material 11 on the plate is cut by a circular saw, a band saw, or the like, or is obtained through a method of forming a valley 14 through a pressing process using heat and compressive force.

Insulation plate 1 of the present invention as described above is a mortar layer 13 flows into the formed when applied by the bone 14 formed on one side or both sides of the heat insulating material 11 having a weak strength and a large effect of heat insulation. The rib 15 of the larger the adhesive area, the ribs 15 of the mortar layer 13 protruding into the valleys 14 to further strengthen the durability. In addition, since the ribs 14 of the mortar layer 13 filled in the bone 14 and the bone 14 are bonded to each other in a state of being engaged with each other, the heat insulating material 11 and the mortar layer 13 are formed even after firmly forming a wall. It is possible to prevent the peeling and sagging of the mortar layer 13 is to maintain a semi-permanent finish, such as natural stone applied in the pre-installation or post-installation process.

Building insulation plate of the present invention is to maximize the adhesive surface of the mortar layer attached by the bone formed at equal intervals in the heat insulating material, and to reinforce the strength by the rib of the mortar layer formed integrally inserted into the heat insulating material bone, mortar layer It is a very useful design to further increase the durability of the ribs and the ribs of the heat insulating material are bonded to each other.

Claims (5)

The reinforcing mesh 12 is disposed on one side or both sides of the plate-shaped heat insulating material 11 made of polyurethane foam or styrofoam, and the mortar layer 13 is coated on the reinforcing mesh 12 to the heat insulating material 11. In the heat insulating plate formed by joining the reinforcing mesh 12 and the mortar layer 13 integrally, A plurality of valleys 14 having a predetermined width and depth are formed at equal intervals on one or both surfaces of the heat insulating material 11 on which the reinforcing mesh 12 is disposed, and the mortar layer 13 is formed on the valleys 14. The mortar which flowed down in time is filled and the mortar rib 15 is integrally formed, The building insulation board characterized by the above-mentioned. The method of claim 1, The bone 14 of the heat insulating material 11 is a building insulation board, characterized in that forming a straight line. The method of claim 1. The bone 14 of the heat insulating material 11 is a building insulation board, characterized in that zigzag form. The method according to any one of claims 1 to 3, The bone 14 of the heat insulating material 11 is a building insulation board, characterized in that made to cross in the shape of a square or rhombus. The method of claim 1, The bone 14 of the heat insulating material 11 is a heat insulating plate for building, characterized in that the large and small grooves 141 or long holes 142 are arranged in a regular or irregular manner.