KR100718006B1 - Three-dimensional roof using heat insulator - Google Patents

Abstract

The present invention is a heat insulating material molded to have a plurality of protrusions to form an unevenness or barrier on the upper surface; And it provides a three-dimensional three-dimensional roofing material using a heat insulating material consisting of; The heat insulating material of the present invention can be molded and used in a continuous tile shape, it is also possible to configure the present invention by further attaching a fiber cloth to the lower surface of the heat insulating material.

In detail, the finishing layer of the present invention is fiber cloth bonded to be in close contact with the upper surface of the heat insulating material; A cement layer cured by applying a cement paste to the fiber cloth; And a surface material attached to the upper surface of the cement layer before curing the cement paste. In this case, in more detail, after the fiber cloth is further attached before curing of the cement paste, the surface material may be attached to constitute the present invention.

In addition, the finishing layer of the present invention is expanded to ash when heated to expand and block the transfer of heat to the heat insulating material (Intumescent coating), polymer resin coating layer comprising any one or more of the refractory material and polyurethane resin, polyurea resin. It may be configured as.

The three-dimensional roofing material using the heat insulating material according to the present invention can be used as a substitute for three-dimensional roofing materials such as roof tiles, ceramic tiles, and concrete tiles, unlike single products that are currently in the spotlight and are provided with a two-dimensional planar structure. It provides lightweight three-dimensional solid roofing material that allows for construction of a large area at one time with enhanced impact resistance.

In addition, the roofing material according to the present invention provides a weatherproof reinforced three-dimensional roofing material to be expected to be more than 100 years in the fire resistance and exposure to sunlight or weather to prepare for a fire outside the building.

Roofing material, insulation, solid, cement, fabric cloth, intumescent type coating, polymer

Description

Three-dimensional roof using heat insulator}

1 is a diagram illustrating the shape of the heat insulator before the finish layer is provided.

2 is a view showing an embodiment of the present invention with a finishing layer comprising a fiber cloth, a cement layer and a surface material.

FIG. 3 is a diagram illustrating an embodiment of the present invention in which an intumescent coating is attached to an upper surface of a heat insulating material as a finishing layer.

4 is a view showing an embodiment of the present invention in which a polymer resin coating layer is attached to an upper surface of a heat insulating material as a finishing layer.

Figure 5 shows an embodiment of the present invention further attached fiber cloth to the lower surface of the heat insulating material.

<Description of the symbols for the main parts of the drawings>

110: heat insulating material 121: fiber cloth

123: cement layer 125: surface material

127: adhesive layer

130: Intumescent type coating

140: polymer resin coating layer

The present invention is a heat insulating material molded to have a plurality of protrusions to form an unevenness or barrier on the upper surface; And it relates to a three-dimensional solid roofing material using a heat insulating material consisting of;

Roofing materials are exposed to harsh external environments, and have been used in a limited way in their materials and shapes. The roofing material is required to have insulation, fire resistance, weather resistance and the like. Therefore, when developing a new roofing material it is required to have these requirements.

Conventionally, roof tiles have been used as roofing materials having excellent weather resistance, but they are difficult to use in large buildings because they are heavy and weak to impact. In addition, in the case of a metal plate roof, there is a light weight, there is an advantage that the construction is easy, but the heat conductivity is large, there is a problem that the heat insulation is insufficient and the corrosion is easy to occur short use life.

As a result, many single products, such as asphalt single, have been developed and used. However, in the case of asphalt single, the surface is deteriorated due to exposure to sunlight for a long time. That is, ultraviolet rays of sunlight may cause the asphalt to bend or crack by aging the asphalt. In addition, asphalt is a material that is very vulnerable to heat as an organic material, there is a problem that easily melts when a fire occurs and harmful gases are generated.

In addition, single products or sheet metal roofing materials, including asphalt single, are lightweight or easy to install, but are all manufactured as two-dimensional flat plates in the form of thin plates. There were problems that can not be done.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is that the existing single products that are easy to install the bar provided only in two-dimensional plane, conventional tile or ceramic tile, It is to provide a three-dimensional three-dimensional roofing material that can be used as a substitute for a three-dimensional roofing material such as concrete tiles and easy to construct.

Another object of the present invention is to provide a weatherproof reinforced roofing material that is expected to have a long service life of more than 100 years, even in the exposure to the sun and rain and weather such as fire resistance and ultraviolet rays in order to prepare for fire, among the basic requirements of the roofing material will be.

In order to achieve the above technical problem, the present invention provides a three-dimensional solid roof using a heat insulating material of the following configuration.

The present invention is a heat insulating material molded to have a plurality of protrusions to form an unevenness or barrier on the upper surface; And a finishing layer adhered to be in close contact with the upper surface of the heat insulator. The heat insulating material of the present invention can be molded and used in a continuous tile shape, it is also possible to configure the present invention by further attaching a fiber cloth to the lower surface of the heat insulating material.

In detail, the finishing layer of the present invention is fiber cloth bonded to be in close contact with the upper surface of the heat insulating material; A cement layer cured by applying a cement paste to the fiber cloth; And a surface material attached to the upper surface of the cement layer before curing the cement paste. In this case, in more detail, after the fiber cloth is further attached before curing of the cement paste, the surface material may be attached to constitute the present invention.

In addition, the finishing layer of the present invention is expanded to ash when heated to expand and block the transfer of heat to the heat insulating material (Intumescent coating), polymer resin coating layer comprising any one or more of the refractory material and polyurethane resin, polyurea resin. It may be configured as.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 shows various forms of the heat insulator 110 before the finishing layer is provided.

The present invention includes a heat insulating material 110 as a component in order to provide a thermal effect of the interior of the building, and to provide a three-dimensional three-dimensional roof material that can replace the existing roof tiles and the like. In order to provide a three-dimensional roofing material, the heat insulating material 110 is molded before forming a finishing layer to have a plurality of protrusions that form irregularities or bumps on the upper surface. Although the lower surface of the heat insulating material 110 can be formed into various shapes as necessary, considering the convenience in construction on the roof, it is preferable to configure the plane.

Existing roof tiles, ceramic tiles, concrete tiles, etc., which are roofing materials that can provide a three-dimensional three-dimensional effect on the roof of a building, are heavy materials. However, in the present invention, since the insulation is made of a lightweight material having a weight of only about 1/10 to 1/20 when manufactured in the same size compared to the existing roof tiles, the size of the roof can be manufactured even when manufactured to a size of about 2 square meters or more. The load is not a problem, and there is a convenience that allows a large area to be constructed at a time when constructing a roof.

In particular, as shown in Figure 1 (a) or (b) by forming the insulation 110 in a single long plate in a continuous tile shape, there is an excessive labor cost of connecting the tile or asphalt single directly from the roof At the same time, it brings about savings and eliminates problems such as damage to the waterproof layer at the bottom of the roof when the nail is used as a fixing means when joining the roofing materials such as the single.

In addition, when the roofing material is connected, moss and dust are caught in the gap between the connecting parts, which causes problems in durability and appearance, thereby solving the problem.

However, the heat insulating material is a lightweight material, while various expressions are possible, the heat insulating material itself lacks impact resistance, fire resistance, etc. In the present invention, the following finishing layer is further provided on the upper surface of the heat insulating material (110).

2 illustrates embodiments of the present invention to which a finishing layer including a fiber cloth 121, a cement layer 123, and a surface material 125 is attached.

The three-dimensional roofing material of the present invention of Figure 2 (a) is attached to the fiber cloth 121 to be in close contact with the upper surface of the heat insulating material 110, impregnated the fiber cloth 121 by applying a cement paste on the top of the fiber cloth 121. In addition, the cement layer 123 may be formed, and the surface material 125 such as gravel, rubber chips, and silica sand may be attached to the upper surface of the cement paste applied before curing of the cement paste. The surface material 125 may provide the roofing material of the present invention in various colors using colored sand and the like. The fiber cloth 121 may be a polyester nonwoven fabric or a woven fabric, a glass fiber nonwoven fabric or a woven fabric, a carbon fiber nonwoven fabric or a woven fabric.

At this time, the thickness of the finish layer may be adjusted by adjusting the thickness of the fiber layer 121. Fiber cloth 121 reinforces impact resistance as a reinforcing material in the three-dimensional roofing material of the present invention. The thicker the fiber cloth 121 is used, the stronger the impact resistance.

In addition, the cement layer 123 of the finishing layer may be formed by applying only a cement paste, but more preferably, may be formed by further blending a polymer polymer such as an acrylic polymer, a urethane polymer, or an epoxy polymer to the cement paste.

When only cement paste is applied, there is no flexibility, so the compressive strength is strong, but cracking or bending due to bending occurs. By further blending the polymer, the flexural strength is significantly increased, the resistance to acid and alkali, that is, the weather resistance is further improved, and the effect of preventing the absorption of water is further added. In addition, when the epoxy polymer is further blended, the compressive strength may be further increased.

Conventionally, when producing a single product with an asphalt sheet, asphalt has a short lifespan due to low fire resistance and low weather resistance to ultraviolet rays as an organic material, but in the present invention, the following effects can be obtained by using an inorganic finishing layer as described above. have. That is, the fire resistance is significantly increased as compared with the conventional asphalt single, the life expectancy of the existing asphalt single is expected to be more than 100 years of service life of the three-dimensional roofing material of the present invention compared to only 20 years.

In addition, in the three-dimensional three-dimensional roofing material of the present invention, as shown in (c) of FIG. 2, the fiber cloth 121 may be further attached between the cement layer 123 and the surface material 125, which is the three-dimensional roofing material of the present invention. Further enhances impact resistance. In this case, when the fiber cloth 121 is attached between the cement layer 123 and the surface material 125, the glass material is a non-combustible material, and the glass fiber cloth performs a role such as UV protection. It can further enhance the fire resistance and weather resistance of the three-dimensional roofing material. In addition, carbon fiber also has a high heat resistance and impact resistance bar, carbon fiber woven or non-woven fabric is also preferred for reinforcing the fire resistance and weather resistance of the three-dimensional roofing material of the present invention.

The fiber cloth 121 or the surface material 125 may be attached by a cement paste forming a cement layer 123 without using a separate adhesive as shown in (a) of Figure 2, but (b) and The adhesive layer 127 may be formed and attached as shown in (c).

In this case, although an organic adhesive may be used as the adhesive constituting the adhesive layer 127, it is preferable to use a ceramic binder to enhance fire resistance. The ceramic binder is produced by further blending any one or more of vinyl resin, acrylic resin, urethane resin, and epoxy resin with cement paste.

3 shows the three-dimensional roofing material of the present invention in which an intumescent coating layer 130 is attached to the upper surface of the heat insulating material 110 as the finishing layer.

The intumescent coating material forming the intumescent coating layer 130, unlike other fireproof coating materials, has a property of rapidly expanding when the surface temperature of the coating layer reaches a predetermined temperature and changing to charcoal to prevent further heat transfer. Expandable coating materials are commercially available in the US such as 'FIRE SHIELD' of GAF company and 'NULL FIRE' of UK, and basically all have high fire resistance.

The intumescent coating layer 130 can be easily manufactured by spraying the coating liquid on the upper surface of the heat insulating material 110, it is extremely excellent in fire resistance.

4 shows a three-dimensional three-dimensional roofing material of the present invention using the polymer resin coating layer 140 as the finishing layer as another embodiment of the present invention.

The polymer resin may be polyurethane resin, polyurea resin, or a mixed resin thereof. The coating layer using the same is very tough, strong, and has sufficient elasticity, thus showing high impact resistance. However, since the polymer resin has a low fire resistance, it is preferable to form a polymer resin coating layer 140 having a fire resistance enhanced by adding refractory materials.

In this case, the sunscreen may be added to the polymer resin to prevent aging due to sunlight. As shown in FIG. 4 (b), sand, rubber chips, and silica sand may be formed on the top of the polymer resin coating layer 140 to which the refractory material is added. By attaching the same surface material 125 further before curing of the polymer resin, effects such as impact resistance enhancement and UV protection may be obtained. Sand and the like used as the surface material 125 can improve the beauty of the building by using a variety of colors.

In addition, as a method of reinforcing the fire resistance of the polymer resin coating layer 140, as shown in Figure 4 (c) to form a polymer resin coating layer 140 on the upper surface of the heat insulating material 110, the expandable coating layer 130 thereon It can provide a three-dimensional three-dimensional roofing material that provides a significantly high fire resistance while providing a high impact resistance.

Figure 5 shows an embodiment of the present invention to further attach the fiber cloth 121 to the lower surface of the heat insulating material 110 in the above embodiment.

By further attaching the fiber cloth 121, such as polyester fiber cloth, glass fiber cloth, and carbon fiber cloth to the lower surface of the heat insulating material, the roofing material of the present invention is more easily attached to the roof during construction. At this time, in order to further increase the adhesion, it is preferable to use a polyester nonwoven fabric.

As described above, the three-dimensional roofing material using the heat insulating material according to the present invention is easy to be installed, unlike the single products that are in the spotlight as a two-dimensional planar structure, as a substitute for three-dimensional roofing materials such as tiles, ceramic tiles and concrete tiles. It is usable and provides a three-dimensional three-dimensional roofing material that is lightweight and yet strong in impact resistance, allowing construction of a large area at one time.

In addition, the three-dimensional roofing material using the heat insulating material according to the present invention provides a weatherproof reinforced three-dimensional roofing material so that the service life is expected to be more than 100 years to the fire resistance and exposure to sunlight or weather to prepare for a fire outside the building.

Claims (14)

A heat insulating material molded to have a plurality of protrusions forming an unevenness or a barrier on an upper surface thereof; A finishing layer adhesively adhered to the upper surface of the insulation; And A fiber cloth attached to a lower surface of the heat insulating material; Three-dimensional solid roofing material using a heat insulating material consisting of. A heat insulating material molded to have a plurality of protrusions forming an unevenness or a barrier on an upper surface thereof; And a finishing layer adhered to be in close contact with the upper surface of the heat insulator. The finishing layer is, A fiber cloth adhered to be in close contact with the upper surface of the heat insulating material; A cement layer cured by applying a cement paste to the fiber cloth; And A surface material adhered to an upper surface of the cement layer before curing of the cement paste; Three-dimensional solid roof using a heat insulating material, characterized in that consisting of. In claim 2, After attaching the fiber cloth to the upper surface of the cement layer before hardening of the cement paste, the three-dimensional solid roofing material using the heat insulating material, characterized in that the surface material is attached to the upper surface of the fiber cloth. In claim 3, Fiber cloth provided on the upper surface of the cement layer is a three-dimensional solid roofing material using a heat insulating material, characterized in that any one of polyester fiber cloth, glass fiber cloth, carbon fiber cloth. In claim 2, The cement paste is a three-dimensional three-dimensional roof using a heat insulating material, characterized in that it further comprises any one of an acrylic polymer, urethane polymer, epoxy polymer. In claim 2, The surface material is a three-dimensional solid roofing material using a heat insulating material, characterized in that any one of gravel, rubber chips, silica. In claim 3, Fiber cloth adhesion of the upper surface of the heat insulating material and the adhesion of the surface material is a three-dimensional using a heat insulating material, characterized in that using a ceramic binder further comprising any one of vinyl resin, acrylic resin, urethane resin, epoxy resin in the cement paste Solid roofing. A heat insulating material molded to have a plurality of protrusions forming an unevenness or a barrier on an upper surface thereof; And a finishing layer adhered to be in close contact with the upper surface of the heat insulator. The finishing layer is a three-dimensional solid roofing material using a heat insulating material, characterized in that the intumescent type coating (Intumescent type coating) that is changed to ash when heated to block the heat transfer to the heat insulating material. In claim 8, Three-dimensional three-dimensional roofing material using a heat insulating material, characterized in that to form a polymer resin coating layer comprising any one or more of polyurethane resin, polyurea resin on the upper surface of the heat insulating material before the formation of the expandable coating layer. A heat insulating material molded to have a plurality of protrusions forming an unevenness or a barrier on an upper surface thereof; And a finishing layer adhered to be in close contact with the upper surface of the heat insulator. The finishing layer is a three-dimensional roofing material using a heat insulating material, characterized in that the polymer resin coating layer comprising a refractory material.  In claim 10, The polymer resin is a three-dimensional roofing material using a heat insulating material, characterized in that it comprises any one or more of polyurethane, polyurea resin. In claim 10, The finishing layer is a three-dimensional three-dimensional roofing material using a heat insulating material, characterized in that the polymer resin coating liquid before hardening further comprises a surface material such as silica sand, rubber chips, gravel. The method according to any one of claims 2 to 12, Three-dimensional solid roof using a heat insulating material, characterized in that the fiber cloth is further attached to the lower surface of the heat insulating material. The method according to any one of claims 1 to 12, The heat insulating material is a three-dimensional solid roofing material using a heat insulating material, characterized in that the continuous continuous tile shape.

Images