WO2006093367A1

WO2006093367A1 - Panel

Info

Publication number: WO2006093367A1
Application number: PCT/KR2005/000654
Authority: WO
Inventors: Chae-Goo Heo; Myung-Jong Ryu
Original assignee: E & F Word Co., Ltd.
Priority date: 2005-03-04
Filing date: 2005-03-09
Publication date: 2006-09-08
Also published as: KR100519224B1

Abstract

The present invention relates to a panel, and more particularly to panel in which bonding layer is formed by coating adhesive on the surface of substrate of glass fiber mat or rock fiber mat and a stone slab is adhered to the bonding layer, so that the material cost for installing a stone material such as natural marble as a finishing building material can be remarkably reduced, the construction cost can be lowered due to its simple treatment, thereby improving its practicality and securing the appearance of natural marble. The panel comprises: a substrate(l); a bonding layer(2) formed by coating an adhesive on a surface of the substrate(l); a stone slab(3) attached to the bonding layer(2); an insulating material(4) formed on the bottom surface of the substrate(l); and a cushioning material(5) formed on the bottom surface of the insulating material(4).

Description

Description PANEL

Technical Field

[1] The present invention relates to a panel, and more particularly to the panel in which a bonding layer is formed by coating adhesive on the surface of a substrate of a glass fiber mat or a rock fiber mat and a stone slab is adhered to the bonding layer, so that the material cost for installing a stone material such as natural marble as a finishing building material can be remarkably reduced, the construction cost can be lowered due to its simple treatment, thereby improving its practicality and securing the appearance of natural marble. Background Art

[2] Recently, due to the high standard of living and the high grade trend of building materials, it has been generalized to apply natural stones of granite or marble to bottoms of main buildings such as department stores, office buildings, and large complex stores.

[3] Such natural stone panels are excellent in visual satisfaction and durability, but are so expensive that they can not be generalized at a construction site. Further, since they are so heavy that they are inconveniently treated and, in addition to the material cost of the marble itself, the construction cost is high compared with other construction materials, they are restrictively used in spite of their appealing appearances.

[4] Recently, in order to settle the problems of the above-mentioned stone panels, panels to which a terrazzo tile, an imitation marble, or a sheet having the feel of a natural stone material, which is excellent in construction and appearance, have been used.

[5] However, although the terrazzo tile is excellent in construction and appearance, since a standard terrazzo tile is manufactured so as to have a size of below a predetermined value, many terrazzo tiles should be attached to a panel one by one to use the panel. Therefore, especially in case a wide area is constructed, the work efficiency of the panel is not good. Further, due to the portions among the tiles, the appearance of the panel is not considered to be preferable.

[6] The imitation marble having the feel of a natural stone material is manufactured by forming crushed pieces of natural stones and an inorganic filling material together with a thermosetting resin and polishing a surface of the formed material. The imitation marble should use relatively large-sized crushed pieces to realize the feel of natural material, but, in this case, the mobility of the mixed material deteriorates, thereby making the formation difficult. Further, cracks, breaks, and bends can be generated during the formation, so it is difficult to obtain a good formed material.

[7] Further, a panel attached with a sheet having a touch of natural stone material, has a natural stone pattern effect on a printing sheet layer by using a gravure printing method, and then stacks a transparent vinyl sheet for protecting the pattern effect. However, the panel natural pattern effect by printing method is not sufficient and is lacking in the durability of the transparent vinyl, so the panel is not suitable for replacing natural stone products. Disclosure of Invention Technical Problem

[8] Therefore, the present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a panel in which a bonding layer is formed by coating an adhesive on a surface of a substrate of a glass fiber mat or a rock fiber mat and a stone slab is adhered to the bonding layer, so that the material cost for installing a stone material such as natural marble as a finishing building material can be remarkably reduced, the construction cost can be lowered due to its simple treatment, thereby improving its practicality and securing the appearance of natural marble. Technical Solution

[9] In order to achieve the above-mentioned object, there is provided a panel comprising: a substrate(l); a bonding layer(2) formed by coating an adhesive on the surface of the substrate; a stone slab(3) bonded to the bonding layer(2); an insulating material(4) formed on the bottom surface of the substrate(l); and a cushioning material(5) formed on the bottom surface(l) of the insulating material.

[10] The substrate(l) is a glass fiber mat or a rock fiber mat.

Advantageous Effects

[11] As mentioned above, according to the panel of the present invention, the material cost for installing a stone material such as natural marble as a finishing material can be remarkably reduced by coating the adhesive on a surface of the substrate of a glass fiber mat to form the bonding layer and attaching the stone slab to the bonding layer. Further, the construction cost can be lowered by facilitating its treatment and construction. Furthermore, the panel is excellent in practicability and has the appearance of natural marble.

[12] Further, by using the glass fiber mat or the rock fiber mat as the substrate, the stone slab has a reinforced strength so as to reduce the load of a building and has an excellent insulating effect. The strength of the substrate is reinforced by mixing magnesium in the rock fiber mat. Since an insulating material and a cushioning material are formed on the lower side of the substrate, the panel has noise blocking and soundproofing effects, and makes walkers feel comfortable.

[13] Further, due to the heat insulating function of the substrate, the generation of stains caused by condensation or molds can be prevented and the moisture, the cold, the heat, and the draft introduced through the panel can be blocked. Brief Description of the Drawings

[14] The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings in which:

[15] FIG. 1 is an exploded perspective view for showing a panel according to the present invention; and

[16] FIG. 2 is a cross-sectional view for showing a panel according to the present invention. Best Mode for Carrying Out the Invention

[17] Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can carry out the present invention.

[18] FIG. 1 is an exploded perspective view for showing a panel according to the present invention, and FIG. 2 is a cross-sectional view for showing the panel according to the present invention. As shown in FIG. 1 and 2, the panel according to the present invention includes a substrate (1), a bonding layer (2), and a stone slab (3).

[19] According to the panel (A) of the present invention, a building panel (A) in which the stone slab (3) is firmly attached to a surface of the substrate (1) can be formed by coating an adhesive on the surface of the substrate to form the bonding layer (2) of a predetermined thickness and attaching the stone slab (3) to the bonding layer (2).

[20] The substrate (1) is a glass fiber mat or a rock fiber mat, which is excellent in strength and non-inflammability. The glass fiber mat and the rock fiber mat are manufactured by the following methods.

[21] The glass fiber mat is manufactured by mixing an adhesive with glass fiber filaments, forming the glass fibers mixed with the adhesive so as to have a mat shape, and locating a non- woven fabric on the bottom surface of the formed glass fibers and spraying a thermosetting resin to fix the non-woven fabric. Polyester or polypropylene is used as the adhesive to improve the bonding forces of the glass fibers. Since the non- inflammability of the glass fibers lowers if the mixing ratio of the adhesive exceeds 10 weight percent and the bonding forces of the glass fibers cannot be expected if the mixing ration of the adhesive is less than 1 weight percent, the adhesive of 1 to 10 weight percent is mixed with the glass fibers of 90 to 99 weight percent.

[22] Further, since, if short staples are used as the glass fibers of the present invention, the tangling forces of the glass fibers become weak and the solidifying forces of the glass fibers get lower. Therefore, it is preferable to use filaments as the glass fibers.

[23] The non- woven fabric is directed to maintain the surface of the glass fiber mat. The solidifying forces of the glass fiber tissues are reinforced and the surface of the glass fiber mat becomes smooth due to the non-woven fabric. A thermosetting resin such as pozzolan is sprayed on the bottom surface of the non- woven fabric to fix the non- woven fabric and to make its surface smoother. The non-woven fabric uses a spun bond of 100 percent polyester which has a melting point of over 200 degrees Celsius to maintain the surface of the non- woven fabric with the minimal amount, but the present invention is not limited thereto.

[24] The rock fiber mat also used as the substrate (1) is manufactured by mixing an adhesive with rock fibers, forming the rock fibers mixed with the adhesive so as to have a mat shape, and spraying a thermosetting resin to fix the non- woven fabric to the bottom surface of the formed rock mat.

[25] Polyester or polypropylene is used as the adhesive to improve the bonding forces of the rock fibers. If the mixing ratio of the adhesive exceeds 10 weight percent, the glass fibers lost its traits. If the mixing ration of the adhesive is less than 1 weight percent, the bonding forces of the glass fibers cannot be expected. Therefore, the adhesive of 1 to 10 weight percent is mixed with the glass fibers of 90 to 99 weight percent.

[26] The non-woven fabric is provided to play the same role as used when the glass fiber mat is manufactured, the fixing method is also the same.

[27] Further, while the adhesive is mixed with the rock fibers, magnesium is mixed with the adhesive when the rock fiber mat is formed then, the strength of the formed rock fibers can be much better.

[28] Since the substrate (1) is formed of the glass fiber mat or the rock fiber mat, it can endure a high temperature, can be noninflammable, can be strong to corrosion due to its chemical durability, can be excellent in strength, and can function as a lagging material, a cold insulation material, a sound-absorbing material, and a soundproofing material due to its insulating and soundproofing properties.

[29] The bonding layer (2) for attaching the stone slab to the substrate (1) is formed by coating the adhesive on the glass fiber mat, i.e., the substrate (1). The adhesive can c ontain either phenol resin or epoxy resin or acryl resin or polyester resin, or urethane resin. Likewise, various kinds of adhesives can be used with the spirit of the present invention.

[30] The stone slab (3) can maintain the state in which it is adhered to the upper surface of the substrate (1), by pressing the stone slab (3), with the bonding layer (2) being interposed between the substrate (1) and the stone slab (3). The stone slab (3) can be adhered to the substrate (1) not only by simply pressing the stone slab (3) or applying heat, but also by simultaneously applying heat and pressure to the stone slab (3), i.e., by hot-pressing the stone slab (3) or by using only the bonding layer (2) without applying any separate heat and pressure.

[31] Either thin plate type building stone or tile or imitation stone can be used as the stone slab (3) adhered by the bonding layer (2). A thin stone slab (3) such as thin plate type building stone, tile, and imitation stone can be used as stone slab (3) because of the strength. The stone slab (3) is reinforced by the substrate (1) formed on the bottom surface of the stone slab (3). Therefore, the kind, the color, and the size of the stone slab (3) can be selected according to the design and the strength, which are required by the panel.

[32] Further, if a separate insulating material (4) is additionally formed on the bottom surface of the substrate (1), the cold or heat from the outside of the panel (A) can be insulated. If the panel (A) according to the present invention is used as a flooring material, a cushioning material (5) can be additionally formed on the bottom surface of the insulating material (4). In this case, the pressure applied to the stone slab (3) can be minimized by the cushioning material (5), the panel (A) can have elasticity, and the soundproofing effect. The panel (A) provides walkers with excellent soundproofing and cushioning effect.

[33] Then, one or more than two of a non-woven fabric, latex, a honeycomb board, a veneer board, and a fiber can be used as the cushioning material (5). In the case in which the insulating material (4) or the cushioning material (5) is formed on the bottom surface of the substrate (1), it is also bonded by using an adhesive such as an epoxy resin.

[34] The panel (A) according to the present invention is used as a flooring material or a finishing material for a wall at a building site. According to the panel A, the stone slab (3) attached to the substrate (1) is installed so as to be exposed to the outside, so it can maintain an appealing appearance. Further, since the weight of the panel is light compared with marble, a construction work can be carried out simply and speedily, thereby reducing the construction time and cost.

[35] Although this invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, the invention is not limited to the disclosed embodiment and the drawings. It is intended to cover various modifications and variations within the spirit and scope of the appended claims.

Claims

[ 1 ] A panel comprising : a substrate(l); a bonding layer(2) formed by coating an adhesive on a surface of the substrate(l); a stone slab(3) attached to the bonding layer (2); an insulating material(4) formed on the bottom surface of the substrate(l); and a cushioning material(5) formed on the bottom surface of the insulating material(4).

[2] A panel according to claim 1, wherein the substrate(l) is a glass fiber mat or a rock fiber mat.

[3] A panel according to claim 2, wherein the glass fiber mat is manufactured by a method comprising the steps of: mixing an adhesive with glass fiber filaments; forming the glass fibers mixed with the adhesive; and locating a non-woven fabric on the bottom surface of the formed glass fibers and by spraying a thermosetting resin to fix the non-woven fabric.

[4] A panel according to claim 2, wherein the rock fiber mat is manufactured by a method comprising the steps of: mixing an adhesive with rock fibers; forming the rock fibers mixed with the adhesive; and locating a non-woven fabric on the bottom surface of the formed rock fibers and by spraying a thermosetting resin to fix the non-woven fabric.