WO2006052112A1

WO2006052112A1 - Interior finish of building using functional material and method its

Info

Publication number: WO2006052112A1
Application number: PCT/KR2005/003843
Authority: WO
Inventors: Suk Hoon Park
Original assignee: Suk Hoon Park
Priority date: 2004-11-13
Filing date: 2005-11-12
Publication date: 2006-05-18

Abstract

The present invention provides a building interior finish material used in the finishing of the inside of a building at the time of constructing the building, and manufacturing methods for the same. The present invention provides a building interior finish material using a functional material and method for manufacturing the same, in which it is possible to reduce contamination of the air in the room to thereby make an agreeable indoor circumstance, in particular, it is possible to settle healthy problems and the unpleasant feelings of the residents arising from the new house syndrome, so that the residents can always lead an agreeable life while considering the healthy problems, by applying the functional material layer producing the environmentally-friendly sound wavelength such as ultra-violet rays, anions, and the like to the building interior finish materials such as a floor panel, a wall paper, a tile, and a floor paper, used in the finishing of the interior of the building at the time of constructing the building.

Description

[DESCRIPTION] [Invention Title]

INTERIOR FINISH OF BUILDING USING FUNCTIONAL MATERIAL AND METHOD ITS

[Technical Field]

The present invention relates to a building interior finish material used in finishing the interior of a building at the time of constructing the building and a manufacturing method of the same, in particular to a building interior finish material using a functional material and a manufacturing method for the same, in which it is possible to reduce contamination of the air in the room and to solve healthy problems and unpleasant feelings of the residents such as a new house syndrome to thereby enable the residents to lead an agreeable life, by providing various types of building interior finish materials using a functional material, for instance, a floor panel, a wall paper, a tile, and a floor sheet, which emit environmentally-friendly sound wavelengths such as far-infrared rays, anions, and the like.

[Background Art]

In general, the building interior finish materials, such as the floor panel, the wall paper, the tile and the floor sheet, used to finish the interior of the building at the time of constructing the building are mostly made of timber materials, paper materials, stone materials, and are constructed by using a large amounts of adhesives.

Accordingly, large quantity of harmful materials have been emitted from the construction materials, wall papers, floor papers or adhesives and timber materials and the like used in the construction and repair of the houses and buildings to thereby allow the residents to be exposed to the healthy problems and mental unpleasant feelings.

For instance, volatile organic composites including the cancer causing substance, such as a styrene, an acetone, chloroform, a toluene, a benzene, and a formaldehyde and the like are emitted from the various building interior finish materials used in the construction and repair of the housings, and contaminants such as radon, asbestos, carbon mono-oxide, nitrogen oxide, fine dusts, floating germs and the like produced at the time of constructing the building are not discharged to the outside and accumulated in the inside of the room, so that the residents exposed to such source of contaminants will suffer from headache, stimulus to an eye, a nose, and a neck, a cough, an itching, a dizziness, fatigues, reductions of concentration and the like, and further when they have been long exposed to such symptoms, serious problems such as respiratory ailments including the asthma, allergic ailment such as atopic dermatitis, heart disease, cancer and the like will occur.

It is necessary to use environmental-friendly materials in place of the interior materials containing the chemical composites in order to settle such problems. However, it is difficult to positively use such materials in consideration of the economic and constructional aspects and the like and under the circumstantial restrictions. [Disclosure] [Technical Problem]

Accordingly, the present invention has been made in view of the above- mentioned problems occurring in the conventional art, and it is a primary object of the present invention to provide a building interior finish material using a functional material and method for manufacturing the same, in which it is possible to reduce contamination of the air in the room to thereby make an agreeable indoor circumstance, in particular, it is possible to settle healthy problems and the unpleasant feelings of the residents arising from the new house syndrome, so that the residents can always lead an agreeable life while considering the healthy problems, by applying the functional material layer producing the environmentally-friendly sound wavelength such as ultra-violet rays, anions, and the like to the building interior finish materials such as a floor panel, a wall paper, a tile, and a floor paper, used in the finishing of the interior of the building at the time of constructing the building.

[Technical Solution] i

To solve such objects, according to a preferred embodiment of the present invention, there is provided a building interior finish material comprising an upper floor plate, a supporting clothe closely contacted with a bottom surface of the upper floor plate, a functional material layer sprayed and attached on a top surface of the supporting clothe, and a bottom member for closely contacting and engaging the supporting clothe with the bottom surface of the upper floor plate. According to one aspect of the present invention, the upper floor plate is formed with a plurality of through-holes at the top surface, and an insertion groove opened downwardly at the bottom surface so that the bottom member can be inserted thereto and engaged therewith. Herein it is preferable that an inside diameter of the through-hole at the upper side is formed to be smaller than that of the lower side of the through-hole. -

The functional material is made by mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver- nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms.

According to one aspect of the present invention, each of the floor panel is formed with a slide projection and a slide groove at the right and left sides respectively so that the floor panels can be inserted into and engaged with each other, and so that the floor panels can be arranged continuously and repeatedly.

Also, according to another preferred embodiment of the present invention, a building interior finish material using a functional material, which is embodied into a wall-paper, comprises: a stencil paper attached on a wall surface of the inside of a room, a gel type functional material sprayed and attached on one surface of the stencil paper, and a surface paper formed with a plurality of through-holes and attached on the surface of the functional material layer.

Herein, the functional material is made by mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms.

According to one aspect of the present invention, there is provided a method for manufacturing a building interior finish material using a functional material, which is embodied into a wall-paper, the method comprising the steps of: a step of cutting a stencil paper, a step of spraying the gel type functional material on the surface of the stencil paper so that it can be absorbed into the stencil paper, a surface stabilizing step of flattening the surface of the functional material absorbed into the stencil paper, a step of attaching a surface paper on the stabilized surface of the functional material after the surface stabilizing step, and a step of forming a plurality of through-holes on the surface of the surface paper so that wavelengths f radiated from the functional material can be transmitted to the surface.

The through-holes formed in the through-hole forming step are formed by punching pins formed at the outer peripheral surface of a roller, when the roller rotates. And, in the present invention, design patterns can be made by means of the through-holes.

According to still another preferred embodiment of the present invention, there is provided a building interior finish material using a functional material, which is embodied into a tile, comprising: a bottom member attached on a wall of the inside of a room, a gel type functional material sprayed on a top surface of the bottom member, and a surface member attached to define a transparent surface of the functional material layer and formed with a plurality of through-holes.

Herein the functional material is made by decomposing and mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms.

According to the embodiment of the present invention, the tile is manufactured by a step of forming a bottom member having a desired size and area, a step of spraying the gel type functional material on the surface of the bottom member so that it can be absorbed into the bottom member, a surface stabilizing step of flattening the surface of the functional material absorbed into the bottom member, a step of attaching a transparent surface member on the stabilized surface of the functional material after the surface stabilizing step, and a step of forming a plurality of through-holes on the surface of the surface member so that wavelengths radiated from the functional material can be transmitted to the surface.

Herein, the through-holes formed in the through-hole forming step may be formed by punching pins formed at the outer peripheral surface of a roller, when the roller rotates. Also, design patterns may be formed by means of the through-holes.

Further, according to still another preferred embodiment of the present invention, there is provided a building interior finish material using a functional material, which is embodied into a floor sheet, comprising: a bottom layer made of resin material and closely contacted with a bottom surface of the inside of a room, a cushion layer having a desired thickness formed on a top surface of the bottom layer, a gel type functional material layer attached on a top surface of the cushion layer, and a surface layer attached on a top surface of the functional material layer and formed with a plurality of through-holes.

The functional material is made by decomposing and mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms.

According to the embodiment of the present invention, there is provided a method for manufacturing a floor sheet, comprising the steps of: a step of forming a bottom layer having a desired size and area, a step of attaching a cushion layer on a top surface of the bottom layer, a step of spraying a gel type functional material on a surface of the bottom layer so that it can be absorbed into the bottom layer, a surface stabilizing step of flattening a surface of the functional material layer absorbed into the bottom layer, a step of attaching a surface layer on the stabilized surface of the functional material layer after the surface stabilizing step, and a step of forming a plurality of through-holes on the surface of the surface layer so that wavelengths radiated from the functional material layer can be transmitted to the surface.

Herein, the through-holes formed in the through-hole forming step may be formed by punching pins formed at the outer peripheral surface of a roller, when the roller rotates.

[Advantageous Effects]

As described above, the present invention is advantageous that it is possible to reduce contamination of the air in the room to thereby make an agreeable circumstance by applying the building interior finish materials including the floor panel, the wall paper, the tile, and the floor paper, by using a functional material producing environmentally-friendly sound wavelength and profitable to the human body such as far-infrared rays, anions and the like, at the time of finishing the interior of the building in connection with the construction of the building.

Further, above all the things, it is possible to settle the healthy problems and unpleasant feelings of the residents arising from the new house syndrome and the like to thereby make the residents always lead an agreeable life while considering the healthy problems.

[Description of Drawings]

FIG. 1 is a perspective view showing an example of one embodiment of a building interior finish material using a functional material according to the present invention;

FIG. 2 is a cross-sectional view taken along line A - A of FIG. 1 ;

FIG. 3 is a perspective view showing the use state of the building interior finish material shown in FIG. 1 ;

FIG. 4 is a schematic view showing an example of another embodiment of the building interior finish material using a functional material according to the present invention;

FIG. 5 is a block diagram showing a manufacturing process of the building interior finish material shown in FIG. 4;

FIG. 6 is a schematic view showing an example of still another embodiment of the building interior finish material using a functional material according to the present invention; FIG.7 is a block diagram showing a manufacturing process of the building interior finish material shown in FIG. 6; j

FIG. 8 is a schematic view showing an example of still another embodiment of the building interior finish material using a functional material according to the present invention;

FIG. 9 is a block diagram showing a manufacturing process of the building interior finish material shown in FIG. 8.

[Best Mode]

Hereinafter, the building interior finish materials using a functional material and the method for manufacturing the same of the present invention will be described in detail with reference to the appended drawings. In the drawings, the same reference numerals are used to designate the same or similar components through all the drawings, and so repetition of the description on the same or similar components will be omitted.

As shown in FIGs. 1 to 3, an example of an embodiment of the present invention is shown, in which the building interior finish material using a functional material is embodied into a floor panel. The floor panel P includes an upper floor plate 100a, a supporting clothe

300a closely contacted with a bottom surface of the upper floor plate 100a and attached with a functional material 200a on a top surface thereof, and a bottom member 400a for attaching the supporting clothe 300a on the bottom surface of the upper floor plate 100a. The upper floor plate 100a can be made of a timber material or a stone material and has predetermined size and area.

The upper floor plate 100a is formed with a plurality of through-holes 1 IOa on the top surface and an insertion groove 120a opened to the downward direction so that the bottom member 400a can be inserted into and engaged with at the bottom surface. In this instance, the through-holes HOa can be formed by various means such as punching or laser working.

Further, the upper floor plate 100a is formed with a slide projection 130a and a slide groove 140a at the respective right and left sides for inserting into and engaging with other upper floor plate 100a.

In this instance, a lower inner diameter (A) of the through-hole HOa is formed to be larger than an upper inner diameter (a).

The functional material 200a is made by mixing materials harmless to human body such as soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight- treasures stones, and the like, at the desired sizes and in powder forms. i The supporting clothe 300a is made of known compact clothe material, and the functional material layer 200a is attached on the top surface of the supporting clothe to a desired thickness. Also, it is closely attached to the insertion groove 120a of the upper floor plate 100a.

The bottom member 400a is adapted to be inserted into the insertion groove

120a and engaged with the groove by means of the bonding, and the supporting clothe 300a comes in close contact with the bottom surface of the upper floor plate 100a at a top surface thereof at the time of engaging with the insertion groove 120a. Hereinafter, the manufacturing and assembling processes of the floor panel according to the present invention constructed above will be described in detail in connection with the appended drawings.

In the process of manufacturing the floor panel, as shown in FIG. 1 or FIG. 2, first of all, the slide projection 140a and the slide groove 130a are formed at both sides of the upper floor plate 100a, and the insertion groove 120a opened downward and a plurality of through-holes 110a are formed at the bottom surface of the upper floor plate.

Also, the functional material 200a having desired thickness is attached on the top surface of the supporting clothe 300a, and the bottom member 400a is made so that it can be inserted into the insertion groove 120a.

Then, the supporting clothe 300a with the functional material 200 attached thereon is positioned on the top surface of the bottom member 400a and inserted into the groove 120a of the upper floor plate 100a, and then an outside bonding surface of the supporting clothe is attached by the bonding to thereby accomplish the floor panel P.

Thereafter, as shown in FIG. 3, such constructed floor panels P are continuously and repeatedly arranged and assembled on the bottom surface of the building by inserting and assembling the slide projection 140a and the slide groove 130a formed at the outside of the floor panel P to each other.

When the assembly of the floor panels P is accomplished as described above, the environmentally-friendly sound wavelength such as the anions and the far-infrared rays and the like radiated from the functional material can be radiated from the top surface of the floor panel continuously. [Mode for Invention]

Next, another embodiment of the building interior finish material including the functional material of the present invention, in which it is embodied into a wall¬ paper, will be described in connection with FIG. 4 and FIG. 5.

The wall-paper of the second embodiment of the present invention includes a stencil paper 100b, gel type functional material 200b sprayed on one surface of the stencil paper 100b, and a surface paper 300b attached on the functional material 200b so that it constructs the surface and formed with a plurality of through-holes

310b.

The stencil paper 100b is attached on the wall surface of the inside of the room after spraying paste on the wall surface.

The functional material 200b is formed into gel state, and is made by decomposing and mixing the well known soil powders, the stone powders, the grass powders, the grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing the jade, the charcoals, the elvans, the germaniums, the magnetic materials, the cloisonne stones, or the eight-treasures stones, and the like, at the desired sizes or in powder forms. The surface paper 300b intercepts the exposure of the functional material

200b to the outside, and is formed with a plurality of through-holes 310b so that environmentally-friendly sound wavelength radiated from the functional material 200b can radiate through the through-holes 310b.

Hereinafter, the manufacturing process of the wallpaper according to one embodiment of the present invention will be described below. As shown in FIG. 5, cutting step Sl is at first performed to cut the stencil paper 100b by a desired size, then absorbing step S2 of the gel type functional material 200b is performed on the surface of the stencil paper 100b after the cutting step Sl, further, surface stabilizing step S3 is performed to equalize the surface of the absorbed functional material 200b, also attaching step S4 of the surface paper is performed to attach the surface paper 300b on the stabilized surface of the functional material after the surface stabilizing step S3, and through-hole penetrating step S5 is performed to form a plurality of through-holes 310b on the surface of the attached surface paper 300b so that wavelength radiated from the functional material 200b can be transmitted to outside.

In this instance, the through-hole 310b penetrated at the step S5 is preferably be formed by means of a punching pin 410b formed at the outside peripheral surface of a roller 400b at the time of the rotation of the roller, and the through-hole 310b can be formed so that various design pattern can be punched on the surface of the surface paper without any regular intervals. Also, well known laser means and the like can be used to form minute through-hole, when the through-hole 31 Ob is to be formed.

Now, still another embodiment of the building interior finish material including the functional material of the present invention will be described in connection with FIG. 6 and Fig. 7, in which the building interior finish material is a tile.

The tile is constructed of a bottom member 100c attached to wall surfaces of the inside of the room, gel type functional material 200c sprayed on a top surface of the bottom member 100c, and a surface member 300c attached on the functional material 200c to define a surface thereof and formed with a plurality of through- holes 310c.

The bottom member 100c can be made of, as is well-known, a stone material or earthenware material, and is attached on the bottom surface or wall surface of the building by means of adhesives with cut into desired size.

The functional material 200c is formed into gel type, and is made by decomposing and mixing the well known individual materials such as soil powders, the stone powders, the grass powders, the grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing the jade, the charcoals, the elvans, the germaniums, the magnetic materials, the cloisonne stones, or the eight-treasures stones, and the like, at the desired sizes or in powder forms.

The surface member 300c is made of transparent coating material for shielding the outside exposure of the functional material layer 200c, and is formed with a plurality of through-holes 310c at the surface thereof so that wavelength radiated from the functional material layer 200c can be radiated through the through- holes. Drawing numeral 500c represents for the design paper which is attached on the top surface of the functional material layer 200c and shows the design pattern.

Hereinafter the manufacturing process of the tile constructed as above will be described below. As shown in FIG. 7, forming step Sl ' of the bottom member is at first performed to manufacture the bottom member 100c having a desired size and area, spraying step S2' of the functional material layer is performed to absorb the gel type functional material layer 200c on the surface of the bottom member 100c, and then surface stabilizing step S3' is performed to equalize the surface of the sprayed functional material layer 200c. Thereafter, attaching step S4' of the surface member is performed for attaching the transparent surface member 300c on the stabilized surface, after the surface stabilizing step S3', and continuously through-hole forming step S5' is performed to form a plurality of through-holes 310c on the surface of the attached surface member 300c so that the wavelengths radiated from the functional material layer 200c can be transmitted to the outside.

In this instance, the through-holes 310c are formed by means of punching pins 410c formed at an outside peripheral surface of a roller 400c when the roller is rotated, and they can be preferably formed by means of a laser.

Also, it is possible to form a design pattern by means of the through-holes 410c.

In this instance, it is preferable to add attaching step S3a' for the design paper to attach the design paper 500 on the stabilized surface after the surface stabilizing step S3' so that design pattern can be represented to the outside.

Then, still another embodiment of the present invention will be described in connection with FUG. 8 and FIG. 9, in which the present invention is embodied into a floor sheet as the building interior finish material containing the functional material.

The floor sheet is constructed of a bottom layer lOOd arranged on a bottom surface of the inside of a room, a cushion layer 20Od formed on a top surface of the bottom layer 10Od, a gel type functional material layer 300d formed on a top surface of the cushion layer 20Od, and a surface layer 40Od attached on a surface of the functional material layer 300d and formed with a plurality of throughOholes 41Od.

The bottom layer lOOd is made of a soft resin material, and is arranged on the bottom surface of the building after it is cut into a desired size. The cushion layer 20Od is made of a synthetic resin material having a desired thickness, and is adapted to absorb the impact force produced at the time of stepping on the bottom surface.

The functional material layer 300d, which is to be sprayed on the cushion layer 20Od, is formed into gel type, and is made by decomposing and mixing the well known individual materials such as soil powders, the stone powders, the grass powders, the grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing the jade, the charcoals, the elvans, the germaniums, the magnetic materials, the cloisonne stones, or the eight-treasures stones, and the like.

The surface layer 40Od is made of resin material and is attached on the top surface of the functional material layer 300d, and a plurality of through-holes 41Od are penetrated on the surface of the surface layer so that the wavelength radiated from the functional material layer can be radiated through the through-holes 41Od. Hereinafter, a manufacturing process of a floor sheet constructed as above according to the present embodiment will be described below.

As shown in FIG. 9, the manufacturing process for the floor sheet of the present invention is performed as follows.

At first, forming step Sl" of the bottom layer is performed to manufacture the bottom layer lOOd having a desired size and area, and attaching step S2" of the cushion layer is continuously performed for attaching the cushion layer 20Od having a desired thickness on the surface of the bottom layer 10Od, then forming step S3" of the functional material layer is performed to spray the gel type functional material 300d on the top surface of the cushion layer 20Od. Thereafter, surface stabilizing step S4" is performed to equalize the surface of the functional material layer 300d formed on the cushion layer 20Od, then attaching step S5" of the surface layer is performed for attaching the surface layer 40Od constituting the outside shape on the stabilized surface after the surface stabilizing step S4", and continuously through- hole forming step S6" is performed to form a plurality of through-holes 41Od on the surface of the attached surface layer 40Od so that the wavelengths radiated from the functional material layer 300d can be transmitted to the outside.

In this instance, the through-holes 41Od are formed at the through-hole forming step S6" by means of punching pins 510d formed at an outside peripheral surface of a roller 500d when the roller is rotated, and they can be preferably penetrated by means of a laser.

[Industrial Applicability]

As described above, according to the building interior finish material and manufacturing method for the same of the present invention, it is possible to make an agreeable circumstances of the inside of the room and solve healthy problems and unpleasant feelings and the like to thereby make the residents of the buildings to lead a healthy and agreeable life by using the building interior finish materials such as the floor panel, the wall-paper, the tile, and the floor sheet, which include the functional material layer.

While the present invention has been described with reference to the preferred embodiments, the present invention is not limited by the embodiments. It is to be understood that those skilled in the art can change or modify the embodiments without departing from the scope and spirit of the present invention. However, such variations and modifications are all pertained to the scope of the present invention.

Claims

[CLAIMS]

[Claim 1]

A building interior finish material using a functional material, which is embodied into a floor panel, comprises: an upper floor plate, a supporting clothe closely contacted with a bottom surface of the upper floor plate, a functional material layer sprayed and attached on a top surface of the supporting clothe, and a bottom member for closely contacting and engaging the supporting clothe with the bottom surface of the upper floor plate, wherein the upper floor plate is formed with a plurality of through-holes at the top surface thereof, and an insertion groove opened downwardly at the bottom surface thereof so that the bottom member can be inserted thereto and engaged therewith.

[Claim 2] The building interior finish material using a functional material according to claim 1 , wherein an inside diameter of at the upper side of the through-hole is formed to be smaller than that of the lower side of the through-hole.

[Claim 3] The building interior finish material using a functional material according to claim 1, wherein the functional material is made by mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms.

[Claim 4]

The building interior finish material using a functional material according to claim 1, wherein each of the floor panel is formed with a slide projection and a slide groove at the right and left sides respectively so that floor panels can be inserted into and engaged with each other, and so that they can be arranged continuously and repeatedly.

[Claim 5]

A building interior finish material using a functional material, which is embodied into a wall-paper, comprising: a stencil paper attached on a wall surface of the inside of a room, a gel type functional material sprayed and attached on one surface of the stencil paper, and a surface paper formed with a plurality of through-holes and attached on the surface of the functional material layer.

[Claim 6] The building interior finish material using a functional material according to claim 5, wherein the functional material is made by mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms. [Claim 7]

A method for manufacturing a building interior finish material using a functional material, which is embodied into a wall-paper, the method comprising the steps of: a step of cutting a stencil paper, a step of spraying the gel type functional material on the surface of the stencil paper so that it can be absorbed into the stencil paper, a surface stabilizing step of flattening the surface of the functional material absorbed into the stencil paper, a step of attaching a surface paper on the stabilized surface of the functional material after the surface stabilizing step, and a step of forming a plurality of through-holes on the surface of the surface paper so that wavelengths radiated from the functional material can be transmitted to the surface. [Claim 8]

The building interior finish material using the functional material according to claim 7, wherein the through-holes of the through-hole forming step are formed by punching pins formed at the outer peripheral surface of a roller, when the roller rotates. [Claim 9]

The building interior finish material using a functional material according to claim 7, wherein design patterns are formed by means of the through-holes defined in the through-hole forming step. [Claim 10]

A building interior finish material using a functional material, which is embodied into a tile, comprising: a bottom member attached on a wall of the inside of a room, a gel type functional material layer sprayed on a top surface of the bottom member, and a surface member attached to define a transparent surface of the functional material layer and formed with a plurality of through-holes. [Claim 11 ]

The building interior finish material using a functional material according to claim 10, wherein the functional material is made by decomposing and mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms.

[Claim 12]

A method for manufacturing a building interior finish material using a functional material, which is embodied into a tile, the method comprising the steps of: a step of forming a bottom member having a desired size and area, a step of spraying the gel type functional material on the surface of the bottom member so that it can be absorbed into the bottom member, a surface stabilizing step of flattening the surface of the functional material absorbed into the bottom member, a step of attaching a transparent surface member on the stabilized surface of the functional material after the surface stabilizing step, and a step of forming a plurality of through-holes on the surface of the surface member so that wavelengths radiated from the functional material can be transmitted to the surface.

[Claim 13] The building interior finish material using a functional material according to claim 12, wherein the through-holes formed in the through-hole forming step is formed by punching pins formed at the outer peripheral surface of a roller, when the roller rotates.

[Claim 14] The building interior finish material using a functional material according to claim 12, wherein design patterns are formed by means of the through-holes defined in the through-hole forming step,

[Claim 15] The building interior finish material using a functional material according to claim 12, further comprising a step of attaching a design pattern paper on the stabilized surface after the surface stabilizing step. [Claim 16]

A building interior finish material using a functional material, which is embodied into a floor sheet, comprises: a bottom layer made of resin material and closely contacted with a bottom surface of the inside of a room, a cushion layer having a desired thickness formed on a top surface of the bottom layer, a gel type functional material layer attached on a top surface of the cushion layer, and a surface layer attached on a top surface of the functional material layer and formed with a plurality of through-holes. [Claim 17]

The building interior finish material using a functional material according to claim 16, wherein the functional material is made by decomposing and mixing soil powders, stone powders, grass powders, grass ash powders, mineral refining powders, bio materials, silver-nano materials, jewelries containing jade, charcoals, elvans, germaniums, magnetic materials, cloisonne stones, or eight-treasures stones, and the like, at the desired sizes and in powder forms. [Claim 18]

A method for manufacturing a building interior finish material using a functional material, which is embodied into a floor sheet, the method comprises: a step of forming a bottom layer having a desired size and area, a step of attaching a cushion layer on a top surface of the bottom layer, a step of spraying the gel type functional material on a surface of the bottom layer so that it can be absorbed into the bottom layer, a surface stabilizing step of flattening a surface of the functional material layer absorbed into the bottom layer, a step of attaching a surface layer on the stabilized surface of the functional material layer after the surface stabilizing step, and a step of forming a plurality of through-holes on the surface of the surface layer so that wavelengths radiated from the functional material layer can be transmitted to the surface. [Claim 19]

The building interior finish material using a functional material according to claim 18, wherein the through-holes formed in the through-hole forming step are formed by punching pins formed at the outer peripheral surface of a roller, when the roller rotates.