KR101265579B1 - Structural pannel - Google Patents

Abstract

PURPOSE: A structural panel is provided to improve aesthetics, perform insulation and be easily constructed. CONSTITUTION: A structural panel comprises an inner panel(100), a surface insulating material(200), a rear surface insulating material(300), and an exterior material(400). The inner panel comprises a plurality of coupling holes(110) and is formed with a concavo-convex surface in which a mountain(101) and a floor(102) are repeated. The surface insulating material and the rear surface insulating material are individually connected to the surface and the rear surface of the inner panel. The exterior material is coated on the surface of the surface insulating material and comprises a mesh(410) and a mortar(420). Coupling protrusions(210,310) inserted into a coupling hole are formed on one of the surface insulating materials and the rear surface insulating material. Coupling grooves(220,320) are formed on the rear surface insulating material and the surface insulating material in order to insert the coupling protrusion.

Description

Structure panel {Structural pannel}

The present invention relates to a structural panel, and more particularly, to a structural panel used for the wall surface of a building.

Conventionally, in constructing a multi-family or a collective assembly building such as a multi-family house, a villa-type building of a townhouse type building, and a building-type building having many rental offices inside, almost all works are generally performed at a construction site.

Referring to the building construction method according to the prior art as follows.

First, the skeleton structure of the building is formed by using steel pipes such as H-beam and I-beam. Specifically, a plurality of steel pipes are installed vertically and horizontally, and then the steel pipes are fastened to each other by welding or bracket to form a skeleton structure.

Next, bricks are laid between the vertically installed steel pipes, or concrete is cast using formwork to form walls. And the wall surface is plastered and finished with mortar. In addition, between the steel pipes installed horizontally using the formwork to pour concrete, and curing to build a slab. At this time, the constructed building is partitioned by walls and slabs so that several generations can live and have a multi-layered structure, while being divided into several living spaces on one floor.

In addition, in the construction of walls, concrete laying method using masonry or formwork increases air and labor, and thus, a method of using a prefabricated panel has recently been tried.

In the case of prefabricated panels, simple steel sheets or sandwich panels are frequently used. Simple steel sheets are not suitable for residential prefabricated buildings due to thermal insulation issues. In the case of the sandwich panel, not only the clip for fixing to the structure frame is exposed to the outside, but also there is a difficulty in attaching the exterior material to the surface, so that the aesthetics are bad.

1. Korea Registered Patent No. 10-0998210 (registered 29 November 2010) 2. Japanese Patent Laid-Open No. 2005-114028 (published Apr. 28, 2005) 3. Korean Patent Publication No. 10-2012-0096797 (published Aug. 31, 2012)

Embodiments of the present invention have been made to solve the above problems, it is to provide a structural panel with high thermal insulation performance, beautiful appearance, and easy construction.

Embodiment of the present invention to solve the above problems, the load-bearing panel; A surface insulation coupled to the surface of the proof panel; It provides a structural panel comprising a; and a back surface insulating material coupled to the back surface of the load-bearing panel.

Here, the load-bearing panel is formed by the coupling hole is penetrated, the coupling protrusion protruding into the coupling hole is formed in at least one of the surface heat insulating material and the back surface heat insulating material, the coupling protrusion may be fitted. It is preferable that the coupling groove is formed in one of the back insulation and the surface insulation in which the coupling protrusion abuts.

It is preferable to further include; a fixing member for penetrating the surface insulating material, the coupling hole and the back surface insulating material, fixing the surface insulating material and the back surface insulating material.

The proof panel is formed with an unevenness, and the surface heat insulating material and the back heat insulating material are formed with unevenness so as to be in close contact with the unevenness of the load capacity panel. It is formed, the coupling groove is effective that is formed by being recessed in the protrusions of the irregularities of the surface insulation and the back insulation.

The exterior material is coated on the surface of the surface heat insulating material.

The sheathing material is a mesh fixed to the surface of the surface insulation; It includes; mortar applied to the mesh.

The strength panel is formed to be bent to increase rigidity, and the surface insulating material and the back surface insulating material are formed to be bent in conformity with the curved surface of the strength panel.

It is preferable that the surface heat insulating material has a frame accommodating space for accommodating the frame.

As described above, according to the present invention, various effects including the following can be expected. However, the present invention does not necessarily achieve the following effects.

First, the structural panel of the embodiment of the present invention has the advantage of high heat insulating performance and beautiful appearance.

In addition, there is an advantage that the construction is convenient due to the coupling hole, the coupling protrusion and the coupling groove.

And, by having a fixing member, there is also an advantage that can be combined more firmly.

1 is an exploded perspective view of a structural panel of a first embodiment of the present invention;
2 is a partially broken perspective view of the structure panel of FIG. 1 installed in a frame;
3 is a cut perspective view of a structural panel of a second embodiment of the present invention;

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

1 is an exploded perspective view of the structural panel of the first embodiment of the present invention.

Structure panel of an embodiment of the present invention is a load-bearing panel 100, a surface heat insulating material 200 is coupled to the surface of the load-bearing panel 100, the back surface heat insulating material 300 is coupled to the back surface of the load-bearing panel 100 It includes.

The load bearing panel 100 can support a load, and thus constitute a skeleton of a structural panel, and generally, steel sheets may be used. As a material, it is natural that various materials, such as iron plate, aluminum, and a reinforcement board, can be used.

In addition, depending on the shape of the structure, as shown in FIG. 1 or may be formed in a curved surface, it may be used to form a dome structure or the like.

The strength panel 100 is formed by passing through a plurality of coupling holes 110, the strength panel is formed to be bent to increase the rigidity. That is, as shown in Figure 1, the load-bearing panel 100 is formed of the irregularities of the mountain 101 and the floor 102 is repeated, it is formed so as to support the load more firmly.

The surface heat insulating material 200 and the back surface heat insulating material 300 are coupled to the surface and the back surface of the load-bearing panel 100, and is preferably formed of a light material while having good thermal insulation efficiency such as compressed styropol.

The surface heat insulating material 200 and the back heat insulating material 300 may be bonded to the load-bearing panel 100 by a bond or the like, but for convenience of assembly, the coupling to the at least one of the surface heat insulating material 200 and the back heat insulating material 300. Coupling protrusions 210 and 310 protruding from the ball 110 are formed to protrude, and the coupling protrusions 210 and 310 are in contact with each other so that the coupling protrusions 210 and 310 may be fitted. The coupling recesses 220 and 320 are recessed and formed in any one of the heat insulating material 300 and the surface heat insulating material 200.

In particular, irregularities in which mountains and floors are formed in the load bearing panel 100, the surface insulating material 200 and the back surface insulating material 300 are also formed in the concave-convex shape so as to be in close contact with the concavities and convexities of the bearing panel. 210 and 310 protrude from the concave and convex portions of the surface insulating material and the back surface insulating material, and the joining grooves 220 and 320 are formed by concave portions of the convex and convex portions of the surface insulating material and the back surface insulating material. .

That is, the coupling grooves 220 and 320 are recessed and formed in the mountains 201 and 301 corresponding to the protrusions of the surface heat insulating material 200 and the back heat insulating material, and the uneven parts of the surface heat insulating material 200 and the back heat insulating material. Coupling protrusions 210 and 310 are formed in the floors 202 and 302 corresponding to each other.

By being formed in this way, not only the bonding force can be maintained uniformly, but also during manufacturing, there is an advantage that the thickness of the mold of the surface insulation and the back insulation is not excessively increased.

The surface heat insulating material 200 is formed with a frame receiving space 230 for receiving the frame. That is, as shown in Figure 2, by receiving the storage space 230 for receiving the frame 500, such as pillars, beams, it is possible to prevent the frame 500, such as pillars, beams to be exposed to the outside.

Exterior surface 400 is applied to the surface of the surface insulating material 200. The exterior member 400 includes a mesh 410 fixed to the surface of the surface insulating material 200 and a mortar 420 applied to the mesh 410. In addition, ocher or coating materials may be applied.

As described above, the structural panel of the first embodiment of the present invention first installs the load bearing panel 100 to the frame 500. In this case, the method of fixing the proof panel 100 to the frame 500 may use a clip or the like. Conventional sandwich panels have a very high risk of fire during welding, but because the structural panel of the present invention is fixed to the load-bearing panel 100 to the frame in a state in which the surface insulation and the back insulation is separated, there is an advantage that there is no such concern.

In this state, the surface insulation 200 and the back insulation 300 are positioned on both sides of the load-bearing panel 100 and then fixed. Next, the exterior material 400 is apply | coated as needed.

As described above, the structure panel of the first embodiment of the present invention is very easy to construct, and the frame 500 is not exposed to the outside, and various exterior materials 400 may be applied, and thus the aesthetics are beautiful.

Fig. 3 is a cutaway perspective view of the structure panel of the second embodiment of the present invention.

The structure panel of the second embodiment further includes a fixing member 600 penetrating the surface insulation 200, the coupling hole 110, and the back insulation 300 to fix the surface insulation and the back insulation. The rest of the configuration is the same as in the first embodiment.

That is, as shown in Figure 3, through the coupling hole (110) protruding through the coupling hole 110, through the coupling groove (220) to which the coupling protrusion 310 is coupled, fixing the nail shape By inserting the member 600, the bonding force can be further increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100: strength panel 200: surface insulation
300: back surface insulation 110: coupling hole
210, 310: coupling protrusion 220, 320: coupling groove
600: fixing member 400: exterior material
410 mesh 420 Maltar
500: frame 230: frame storage

Claims (8)

delete Load bearing panel;
A surface insulation coupled to the surface of the proof panel; And
A back insulation coupled to the back of the load bearing panel;
Including;
The surface of the surface insulation is coated with an exterior material,
The load-bearing panel is formed through the coupling hole,
At least one of the surface heat insulating material and the back heat insulating material is formed by protruding the engaging projection protruding into the coupling hole,
The structure panel, characterized in that the coupling groove is formed in any one of the back surface insulating material and the surface heat insulating material to be in contact with the coupling protrusion so that the coupling protrusion is fitted.
The method of claim 2,
A fixing member penetrating the surface insulating material, the coupling hole, and the rear surface insulating material to fix the surface insulating material and the back insulating material;
Structure panel characterized in that it further comprises
The method of claim 2,
The strength panel is formed with irregularities,
The surface heat insulating material and the back surface heat insulating material is also formed in the unevenness to be in close contact with the unevenness of the strength panel,
The coupling protrusion is formed to protrude from the recessed portion of the surface insulation and the back surface insulation,
The coupling groove is a structure panel characterized in that the recessed portion formed in the protrusions of the irregularities of the surface insulation and the back insulation.
delete The method of claim 2,
The exterior material is
A mesh fixed to the surface of the surface insulation;
Mortar applied to the mesh;
Structure panel comprising a.
The method according to claim 2 or 3,
The strength panel is formed to be bent to increase the rigidity,
The surface insulation material and the back surface insulation material is formed to be curved, in accordance with the curved surface of the load-bearing panel.
5. The method according to any one of claims 2 to 4,
The surface insulation material is a structure panel, characterized in that the frame receiving space for receiving the frame is formed.

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