KR200254653Y1 - an adiabatic board of struction - Google Patents

Abstract

The present invention relates to a heat insulating plate attached to an outer wall or an inner wall of a building for thermal insulation of a building, and in particular, by increasing the adhesive cross-section to a heat insulating plate such as polyurethane foam or styrofoam to increase the mortar layer and adhesion, and minimize the weight The present invention relates to a building insulation board having increased durability by reinforcing strength.

As is well known, in order to enhance the decoration and insulation effect on the wall of the building, insulation boards such as polyurethane foam or styrofoam are adhered to the building, but since the adhesive surface is flat, the adhesive strength is weak when using resin mortar or the like. Inadequate adhesion in the process of installation (construction) has a disadvantage that it is very difficult to firmly adhere the insulation plate to the wall due to the flow of the plate down.

The present invention aims to reduce the weight and increase the strength by maximizing the adhesive surface by forming protrusions formed in the indented bone at equal intervals in the insulation board such as polyurethane foam or styrofoam in order to solve the above problems. It is a devise

Description

Insulation board for construction {an adiabatic board of struction}

The present invention relates to a heat insulating plate attached to an outer wall or an inner wall of a building for thermal insulation of a building, and in particular, by increasing the adhesive cross-section to a heat insulating plate such as polyurethane foam or styrofoam to increase the mortar layer and adhesion, and minimize the weight The present invention relates to a building insulation board having increased durability by reinforcing strength.

As is well known, in order to enhance the decoration and insulation effect on the wall of the building, the insulation board such as polyurethane foam or styrofoam is bonded to the building.

Since the insulation surface has a flat adhesive surface, the adhesive strength is weak when using resin mortar, etc., and it is difficult to adhere the insulation plate to the wall firmly due to the lack of adhesion and the flow of the plate during the attachment process (construction) of the insulation plate. It has a very difficult disadvantage.

In addition, when the heat insulating plate member is attached to the resin mortar and the moisture of the mortar starts to dry, the adhesive force between the mortar and the heat insulating plate member is rapidly decreased by the movement of modifying the heat insulating plate at the same time, causing the heat insulating plate member to detach.

In order to improve such a closed end, a line embodiment of applying a reinforcing mesh to a wall and then applying a reinforcing mesh, and re-coating a mortar layer to attach a heat insulating plate is disclosed in Korean Patent Application Laid-Open No. 93-13398 and Patent Publication. Publication No. 98-87583 and the like.

These designs are intended to increase the strength of the heat insulating plate and to improve the adhesion to the mortar layer by attaching a reinforcing mesh such as fiberglass to the heat insulating plate such as polyurethane foam or styrofoam. Maintaining this smooth and flat surface draws down the disadvantages of extremely low effects, especially the cost increase due to the reinforcing mesh and the closure due to the increase of the work load.

In addition, although the fiberglass mesh has been reinforced with resin mortar thinly on the plane of the heat insulating plate used in the external insulation finishing method, such a structure is also weak in impact due to the low surface strength of the heat insulating plate, and the adhesive strength is not expected.

The present invention has been devised to solve the above problems, in particular, by forming a protrusion formed in the indented bone at equal intervals in the insulating plate, such as polyurethane foam or styrofoam to maximize the adhesive surface and reduce the weight and strength It is designed for reinforcement.

1 is a perspective view of the heat insulated plate of the present invention.

Figure 2 is a cross-sectional view showing a state of use of the present invention.

Figure 3 is a front view showing another embodiment of the present invention.

Explanation of symbols for the main parts of the drawings

10: heat insulation plate 11: protrusion

12: yaw bone 20: adhesive mortar

The present invention will be described in detail by the accompanying drawings in order to achieve the above object.

1 is a perspective view of a heat insulating plate of the present invention and Figure 2 shows a cross-sectional view showing a state of use of the present invention.

In the plate-shaped heat insulating plate 10 made of polyurethane foam or styrofoam as shown in the figure,

The diagonal shape of the lozenge-shaped protrusion 11 and the recessed indentation bone 12 protruding at a height of about 5 mm on both sides of the heat insulating plate 10 is made diagonal.

The present invention is to exhibit a strong adhesive effect by the adhesive mortar 20 is filled with the yaw bone 12 by increasing the adhesion cross-sectional area and the adhesion force by the yaw bone 12.

Along with this, Figure 3 shows a front view of another embodiment of the present invention, which is configured as described above, wherein the protrusions 11 are configured in a square shape together with the squares, or the protrusions 11 are different from the above embodiment. Circular, polygonal, etc. can be configured, but this embodiment is of course in the simple design change of the present invention.

Reference numeral 21 is a building wall and 22 is a finishing board.

The working effect of the present invention configured as described above will be described by the accompanying drawings.

1 is a perspective view of the heat insulated plate of the present invention, and FIG. 2 is a lozenge-shaped protrusion protruding at a height of about 5 mm on both sides of a plate composed of a conventional polyurethane foam or styrofoam material, as shown in a cross-sectional view showing a state of use of the present invention. (11) is formed at an equiangular angle into the indentation bone 12, but constitutes the heat insulating plate material 10 of the present invention configured diagonally.

In order to attach the heat insulating plate 10 of the present invention to a building wall as known, first, an adhesive mortar 20 mixed with silicon, resin, cement, etc. is applied to the building wall 21, and together with the heat insulating plate material of the present invention, When the filler is filled in the adhesive surface of the 10, the adhesive mortar 20 is filled into the recessed indentation bone 12 of the lozenge-shaped protrusion 11 protruding at a height of about 5 mm of the heat insulating plate 10 of the present invention. Lose.

At this time, the height of about 5mm is possible to stretch the height according to the use conditions and uses, and the width of the width of the yaw bone 12 is also possible.

As such, the adhesive surface of the heat insulating plate 10 is adhered to the adhesive mortar 20 applied to the building wall 21 in a state in which the adhesive mortar 20 is filled.

Accordingly, the adhesive mortar 20 is integrally bonded, and the heat insulating plate 10 exhibits a strong binding force to exhibit a stable adhesive effect.

When adhesion is easy due to the increase of the binding force, the flow is prevented from flowing down, and when the heat insulation of the mortar begins to dry after the insulation plate is attached to the mortar, the adhesion between the mortar and the insulation plate decreases due to the movement while modifying the insulation plate. Minimization is possible so that modification can be made without leaving the insulation board.

Along with this, Figure 3 shows a front view of another embodiment of the present invention, even if the protrusion 11 of the present invention consists of a square, a circle, a polygon, or the like, and an oblique or square, etc., the effect of the present invention. It can be apparent that this embodiment also in the simple embodiment of the present invention.

As described above, even when attaching the heat insulating plate 10 to the wall and attaching the closing plate 22 for external taste to the heat insulating plate 10 attached above, the indentation bone of the heat insulating plate 10 as described above. Filling the adhesive mortar (20) to 12 and applying the adhesive mortar 20 to the finish plate material 22 to adhere the adhesive mortar 20 to increase the adhesive strength and binding force as described above to achieve a firm adhesion Work efficiency can be maximized by increasing the adhesive force is a useful design that can be obtained with economics by rapid operation.

As described above, the present invention maximizes the adhesive surface of the mortar layer filled by the indentation bone formed at equal intervals in the insulation board for building, thereby enhancing the adhesive force.

When the recessed bone of the insulation board is filled with resin mortar, and using the existing method, the resin mortar filled in the recessed bone acts as a reinforcement role and the surface strength of the insulation board is strengthened.

The resin mortar filled in the yaw bone serves as a primer of the resin mortar used when attaching the fiber glass mesh for surface reinforcement, so that the reinforcement is increased, the adhesive work is easy, and the adhesive work is performed, and the strength is reinforced. It is a useful design that worked.

Claims (3)

In the plate-shaped heat insulating plate 10 made of polyurethane foam or styrofoam, Building thermal insulation board, characterized in that the diagonal configuration of the lozenge-shaped protrusions 11 and the indented yaw bone (12) protruding on both sides of the heat insulating plate (10) at an equilibrium. The method of claim 1, Protruding portion 11 of the heat insulating plate 10 is a heat insulating plate for building, characterized in that the rhombic form. The method of claim 1. Protruding portion 14 of the heat insulating plate 10 is a building heat insulating plate, characterized in that forming a polygon.