KR101205714B1 - Assembly type panel - Google Patents

Abstract

PURPOSE: A prefabricated panel is provided to improve an exterior by using first, second, and third insulation materials with different thickness and to improve rigidity by adding nonwoven fabrics to the gaps between an inner plate and the first, second, and third insulation materials. CONSTITUTION: A prefabricated panel(100) comprises an insulation unit, an inner plate(120), and an outer plate(130). The insulation unit comprises first and second insulation materials(110,112). The second insulation material has a thicker thickness than the first insulation material. The inner plate is attached to one surface of the insulation unit and has a first coupling flange(122) and a first coupling groove(124). The outer plate is attached to the other surface of the insulation unit and has a second coupling flange(136) and a second coupling groove(138). The outer plate comprises first and second areas(132,134) located at the first and second insulation materials.

Description

Prefabricated Panels {ASSEMBLY TYPE PANEL}

The present invention relates to a prefabricated panel, and more specifically, a plurality of first, second, and third heat insulating materials having different thicknesses are provided, and the outer plate is formed in multiple steps in a step shape, so that the appearance is more beautiful without forming any irregularities. An improved prefabricated panel is possible.

In general, the prefabricated panels are made of insulation materials such as foamed polystyrene, foamed polyurethane and the like, and boards attached to both surfaces of the insulation and used as doors, walls, partitions, and the like in various constructions.

The prefabricated panel constitutes an outer wall of a building or a factory while a plurality of panels are connected to each other. In other words, another panel is fitted on one panel and another panel is assembled on the panel, and after the plurality of panels are assembled as described above, a frame forming a frame of a building and a connection part between the panel and another panel is assembled. It will be fixed using a fastening means.

A typical representative prefabricated panel is disclosed in FIG. 5 attached. As shown in the drawing, the conventional prefabricated panel 200 includes a heat insulating material 210, an outer plate 220 attached to an upper surface of the heat insulating material 210, and an inner plate attached to a bottom surface of the heat insulating material 210 ( 230, the outer plate 220 is formed to have a variety of shapes.

In the prefabricated panel 200 according to the related art as described above, in the case of the outer plate 220, the surface is formed in various forms in a concave and convex form. That is, in the prior art, in order to beautify the appearance, the surface of the outer plate 220 must be provided with irregularities or patterns.

However, such a change in the surface of the outer plate 220 has a problem such as a lot of work maneuver. Accordingly, attempts to change the transition in more diverse forms, namely, to give a step to the appearance, were required.

Dow Panel's Catalog

The present invention has been made in order to solve the above-mentioned conventional problems, the technical problem of the present invention is provided with a plurality of first, second, and third heat insulating materials having a different thickness, and the outer plate is formed in a multi-stage stepped, separately to the appearance It is to provide a prefabricated panel that can make the exterior more beautiful even if there is no irregularities.

Another technical problem of the present invention is to provide a more durable prefabricated panel by additionally providing a nonwoven fabric between the first, second and third insulation and the inner plate.

In order to solve the technical problem of this invention, this invention,

A prefabricated panel in which the inner and outer plates are coupled to the plane and bottom of the heat insulating means,

The heat insulating means including a first heat insulating material and a second heat insulating material having a thick thickness with respect to the first heat insulating material;

The inner plate attached to one side of the heat insulating means; And

It includes the outer plate attached to the other side of the heat insulating means, one end of the inner plate is formed with a first coupling flange extending and the first coupling groove is formed at the other end, the second coupling groove portion of the screw A plurality of fastening grooves are formed, the outer plate is formed with a second coupling flange extending in one end and the second coupling groove is formed in the other end,

A first region is formed on the outer plate at a position of the first heat insulator, and a second region is formed by bending stepwise successively to the first region at the position of the second heat insulator,

The first heat insulating material and the second heat insulating material are disposed on the same plane with respect to each other,

When the inner plate and the outer plate are coupled with the insulation means interposed therebetween, the first coupling flange and the second coupling flange protrude outwards,
The prefabricated panel 100 has a thickness t1 of the first region 132 of the outer plate 130 and a thickness t2 of the second region 134 formed in a ratio of 75 mm: 50 mm. This is achieved by providing a panel.

Here, it is preferable that a pattern is formed on the surface of the outer plate.

The heat insulating means further includes a third heat insulating material having a thick thickness with respect to the second heat insulating material, and the outer plate is bent in a step shape subsequent to the second area at the position of the third heat insulating material to form a third region It is desirable to be.

The third heat insulating material is preferably disposed on the same plane with respect to the first heat insulating material and the second heat insulating material.

It is preferable that a nonwoven fabric is further provided between the heat insulating means and the inner plate.

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In the prefabricated panel, the thickness of the first region and the second region of the outer plate may have a deviation of 25 mm.

As described above, the prefabricated panel having a reinforcing function according to the present invention is provided with a plurality of first, second, and third heat insulating materials having different thicknesses, and the outer plate is formed in steps in a multi-step, thereby making the appearance more beautiful. . In addition, by providing an additional nonwoven fabric between the first, second and third insulation and the inner plate, a more robust prefabricated panel can be provided.

1 is a perspective view of a prefabricated panel according to an embodiment of the present invention;
FIG. 2 is a front view of FIG. 1 showing one prefabricated panel and a portion of another prefabricated panel coupled thereto; FIG.
FIG. 3 is an enlarged cross-sectional view of main parts of one prefabricated panel and another prefabricated panel in FIG. 2;
Figure 4 is a perspective view of a prefabricated panel and other prefabricated panel is coupled state according to an embodiment of the present invention; And
5 is a perspective view of a prefabricated panel according to the prior art.
Detailed description for carrying out the invention
Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 to 3 is a prefabricated panel 100 according to an embodiment of the present invention, the heat insulating means including a first heat insulating material 110 and a second heat insulating material 112 having a thick thickness with respect to the first heat insulating material (110). It includes.
The inner plate 120 is attached to one side of the heat insulating means. The first coupling flange 122 extends in one end and the first coupling groove 124 is formed in the other end of the inner plate 120.
The outer plate 130 is attached to the other side of the heat insulating means. The second coupling flange 136 extends to one end and the second coupling groove 138 is formed to the other end of the outer plate 130. A plurality of fastening grooves 139 of the screw S are formed in the second coupling groove 138.
Here, the inner plate 120 and the outer plate 130 is preferably formed of an iron plate material, but is not limited thereto.
When the inner plate 120 and the outer plate 130 are coupled to each other with the heat insulating means interposed therebetween, the first coupling flange 122 and the second coupling flange 136 protrude outward. At this time, the screw (S) is fastened to the fastening groove 139 of the outer plate 130, the second coupling flange 138 in the second coupling groove 138 of the outer plate 130 to cover the screw (S). ) Is coupled, and the first coupling flange 122 is coupled to the first coupling groove 124 of the inner plate 120. By doing so, one prefabricated panel 100 is coupled by the first coupling flange 122 and the second coupling flange 136 so as not to move to the other prefabricated panel 100.
The first region 132 is formed at the position of the first heat insulating material 110 on the outer plate 130. The second region 134 is formed by bending stepwise successively to the first region 132 at the position of the second heat insulator 112.
The first heat insulating material 110 and the second heat insulating material 112 are disposed on the same plane with respect to each other.
It is preferable that a pattern is formed on the surface of the outer plate 130. Such a pattern may be formed by being folded into a plurality of lines in a horizontal direction. Although the second region is stepped in a stepped shape with respect to the first region 132 of the outer plate 130, the appearance may be beautiful, but the appearance may be further enhanced by adding a pattern.
The heat insulating means further includes a third heat insulating material (not shown) having a thick thickness with respect to the second heat insulating material 112, and the outer plate 130 is positioned at the position of the third heat insulating material (not shown). ) Is preferably stepwise bent to form a third region (not shown).
The third heat insulating material (not shown) is disposed on the same plane with respect to the first heat insulating material 110 and the second heat insulating material 112.
It is preferable that a nonwoven fabric is further provided between the heat insulating means and the inner plate 120. That is, a nonwoven fabric (not shown) may be further provided between one of the first heat insulating material 110, the second heat insulating material 112, and the third heat insulating material (not shown) and the inner plate 120.
The prefabricated panel 100 preferably has a thickness t1 of the first region 132 of the outer plate 130 and a thickness t2 of the second region 134 having a ratio of 75 mm: 50 mm. In addition, the prefabricated panel 100 may have a thickness t1 of the first region 132 of the outer plate 130 and a thickness t2 of the second region 134 having a 25 mm deviation. By forming in this way, it is possible to further enhance the appearance by highlighting the feeling of shadow and three-dimensional.
Looking at the assembled state of the prefabricated panel 100 according to the present invention, first, the first heat insulating material 110 and the second heat insulating material 112 is disposed on the same plane so that one side is in close contact. Subsequently, an inner plate 120 is attached to a bottom of the first heat insulating material 110 and a second heat insulating material 112, and an outer plate 130 is attached to an upper surface thereof. In this case, the non-woven table (not shown) is positioned between the first heat insulating material 110 and the second heat insulating material 112 and the inner plate 120. In this case, the first heat insulating material 110 and the second heat insulating material 112 are positioned in the first area 132 and the second area 134 of the outer plate 130.
Here, the third heat insulating material (not shown) is disposed to be in close contact with one side of the second heat insulating material 112. The third heat insulating material (not shown) is located in the third region (not shown) of the outer plate 130.
On the other hand, as shown in Figure 4, the prefabricated panel 100 according to an embodiment of the present invention is a view showing a state coupled to each other prefabricated panel 100.
Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention described in the claims below. It will be appreciated.
For example, in the above detailed description and the accompanying drawings, the first heat insulating material 110, the second heat insulating material 112, and the third heat insulating material (not shown) of the prefabricated panel 100 according to the present invention have been described. It does not specifically limit as such a structure, You can install, increasing the number of heat insulating materials as needed. In addition, as mentioned above, the shape of the outer plate 130 can be variously modified and changed within the scope without departing from the spirit and scope of the present invention described in the claims below.

100: prefabricated panel S: screw
110: first heat insulating material 112: second heat insulating material
120: inner plate 122: first coupling flange
124: first coupling groove
130: outer plate 132: first region
134: second region 136: second coupling flange
138: second coupling groove

Claims (7)

A prefabricated panel in which the inner and outer plates are coupled to the plane and bottom of the heat insulating means,
The heat insulating means including a first heat insulating material 110 and a second heat insulating material 112 having a thick thickness with respect to the first heat insulating material 110;
The inner plate 120 attached to one side of the heat insulating means; And
It comprises the outer plate 130 attached to the other side of the heat insulating means,
The inner side plate 120 has a first coupling flange 122 is formed to extend in one end, the first coupling groove 124 is formed in the other end, the outer plate 130 has a second coupling flange 136 in one end Is formed extending and the second coupling groove 138 is formed at the other end, the second coupling groove 138 is formed with a plurality of fastening grooves 139 of the screw (S),
A first region 132 is formed at the position of the first heat insulator 110 on the outer plate 130, and is bent in a stepped manner to the first region 132 at the position of the second heat insulator 112. To form a second region 134,
The first heat insulating material 110 and the second heat insulating material 112 are disposed on the same plane with respect to each other,
When the inner plate 120 and the outer plate 130 are coupled with the insulation means interposed therebetween, the first coupling flange 122 and the second coupling flange 136 protrude outwards.
The prefabricated panel 100 has a thickness t1 of the first region 132 of the outer plate 130 and a thickness t2 of the second region 134 formed in a ratio of 75 mm: 50 mm. panel. The panel of claim 1, wherein a pattern is formed on a surface of the outer plate (130). According to claim 1, wherein the heat insulating means further comprises a third heat insulating material having a thick thickness with respect to the second heat insulating material 112, the outer plate 130, the second area in the position of the third heat insulating material A prefabricated panel, characterized in that the third region is formed by successive bending in step (134). The panel of claim 3, wherein the third heat insulating material is disposed on the same plane with respect to the first heat insulating material and the second heat insulating material. The panel of claim 1, wherein a nonwoven fabric is additionally provided between the heat insulating means and the inner plate (120). delete The method of claim 1, wherein the prefabricated panel 100 has a thickness t1 of the first region 132 of the outer plate 130 and the thickness t2 of the second region 134 has a 25mm deviation. Prefabricated panel.

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