JP2005319343A - Interior material, coating method and coating material for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To recycle an interior material such as vinyl cloth easily and perfectly at a low cost by anyone other than a skilled person. <P>SOLUTION: After the interior vinyl cloth is newly pasted on the wall, floor or ceiling of a building or its washing and recycling is completed, a liquid or slurry like coating material which contains titanium oxide, a lamellar silicate mineral and silver ions and/or copper ions, is sprayed on and applied to the surface of the vinyl cloth and the coated cloth is naturally dried to form a thin and transparent coating layer. When the vinyl cloth is recycled, the coating layer is washed with water or wipen off with water to perfectly remove various stains. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an interior material attached to a wall, floor, or ceiling of a building, and a coating method and a coating material for the interior material.

  In general, interior walls are used for building walls, floors, or ceilings, but such interior materials have high design freedom and are easy to construct. Vinyl cloth for interior use (hereinafter referred to as “vinyl cloth”) is widely used. However, such vinyl cloth gradually becomes dirty with the passage of time due to tobacco smoke, graffiti, oily smoke, mold, and the like. When such dirt becomes conspicuous, the wall, floor or ceiling is usually renovated. When such refurbishment is performed, conventionally, it has been common to take measures such as peeling off a dirty vinyl cloth and replacing it with a new vinyl cloth.

However, when the vinyl cloth is replaced in this way, the replacement work takes a long time. Furthermore, the cost of the re-installation work is very high. That is, the purchase cost of a new vinyl cloth, the expense for peeling off an old vinyl cloth and sticking a new vinyl cloth, and the expense for disposing of the peeled vinyl cloth are required. Therefore, various methods for recycling vinyl cloth or interior material have been proposed for restoring the aesthetic appearance of the vinyl cloth without changing the cloth (for example, see Patent Document 1).
JP 2000-176390 A (paragraphs [0013] to [0021], FIG. 1)

Specifically, for example, the following interior material recycling methods (construction methods) are known.
(1) The vinyl cloth surface is bleached and cleaned using a chlorine-based and / or oxygen-based chemical (bleaching reduction cleaning method). This regeneration method deteriorates the working environment.
(2) After the surface of the vinyl cloth is washed, an emulsion-type paint or the like is applied using a roller or the like (paint-type cross wash).
(3) After cleaning the surface of the vinyl cloth, spray an emulsion-type paint using a jet nozzle or the like (paint-type Wise Corporation).
(4) Use a “washable cloth (registered trademark)” that has a vinyl coating on the surface and is easy to wash. Such vinyl coating tends to get dirty because it has a strong tendency to attract dust.

  However, these conventional regeneration methods (construction methods) have a problem that construction or work is complicated and expensive. Furthermore, it is quite difficult to completely remove, for example, carbon marks from refrigerators, graffiti from cigarettes, crayons, adhesion of magic ink, oil stains, etc. There is a problem that a great deal of labor is required.

  Incidentally, in the method of recycling a vinyl cloth or interior material described in Patent Document 1, a cleaning treatment liquid, a stain removal liquid or the like is sprayed on the vinyl cloth to restore the appearance of the vinyl cloth. In addition, since advanced technology is used for cleaning interior materials, there is a problem that construction requires a skilled worker, or requires careful education for the operator to learn such technology.

  The present invention has been made to solve the above-mentioned conventional problems, and in particular, anyone who is not a skilled person can easily (insufficiently) completely and sufficiently lower the cost of interior materials such as vinyl cloth. It is an object to be solved to provide a means for enabling reproduction.

  In order to solve the above-described problems, a method for coating an interior material (for example, vinyl cloth) attached to a wall, floor, or ceiling of a building according to the present invention is newly applied to a wall, floor, or ceiling. After finishing (or cleaning) the interior material pasted on the wall, floor or ceiling, a substance that exhibits photocatalytic action (for example, titanium oxide) and layered silicate on the surface of the interior material Liquid or slurry containing salt minerals (for example, swellable clay minerals, saponite, hectorite, bentonite, montmorillonite, smectite, vermiculite, mica-based layered silicate mineral, kaolin-based layered silicate mineral or talc-based layered silicate mineral) A thin (substantially transparent) coating that is sprayed or applied with a coating and then dried (eg, air dried) It is characterized in forming a grayed layer.

In the coating method according to the present invention, spraying or application rate coating material, 140~160g / ^{m 2} (desirably, 150 g / ^{m 2} or so) is preferably. The coating material preferably contains silver ions and / or copper ions. The coating material may contain silica. Substances that exhibit photocatalysis, layered silicate minerals, substances containing copper ions or silver ions, or one or more of the main components (including all types) such as silica are nano-sized by the same body friction grinding (nanotechnology). Are preferably used.

  The coating material for interior materials (for example, for vinyl cloth) affixed to a building wall, floor or ceiling according to the present invention comprises a photocatalytic substance (for example, titanium oxide) and a layered silicate mineral (for example, Swellable clay mineral, saponite, hectorite, bentonite, montmorillonite, smectite, vermiculite, mica-based layered silicate mineral, kaolin-based layered silicate mineral, talc-based layered silicate mineral, etc.) is there. Here, the coating material preferably contains silver ions and / or copper ions. Moreover, the silica may be included. In addition, it is preferable that one or more kinds of main components such as a substance exhibiting a photocatalytic action, a layered silicate mineral, a substance containing copper ions or silver ions, and silica are nanonized by the same body friction grinding.

  The interior material (for example, vinyl cloth) according to the present invention includes a photocatalytic substance (for example, titanium oxide) and a layered silicate mineral (for example, swellable clay mineral, saponite, hectorite, bentonite, montmorillonite, smectite, A thin coating layer including a vermiculite, a mica-based layered silicate mineral, a kaolin-based layered silicate mineral, or a talc-based layered silicate mineral) is formed on the surface. Here, the coating layer preferably contains silver ions and / or copper ions. Moreover, the silica may be included. In addition, it is preferable that one or more kinds of main components such as a substance exhibiting a photocatalytic action, a layered silicate mineral, a substance containing copper ions or silver ions, and silica are nanonized by the same body friction grinding.

  According to the interior material or the coating method or coating material thereof according to the present invention, when the interior material such as vinyl cloth is regenerated, for example, the surface of the interior material is simply washed with water, or an ordinary detergent is used. The dirt adhering to the surface of the material can be completely removed by a very simple operation such as cleaning with water or wiping with water. Therefore, anyone who is not an expert can easily reproduce the interior material such as vinyl cloth completely (sufficiently) at low cost. Moreover, since this coating material has humidity control properties, the indoor environment is improved.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a flowchart showing an example of a procedure for recycling a vinyl cloth attached to a wall, floor or ceiling (hereinafter referred to as “interior surface”) of a building using a coating method or coating material according to the present invention. . As shown in FIG. 1, in this vinyl cloth regeneration procedure, when a new vinyl cloth is attached to the interior surface of a building by new construction or renovation (renovation) (step S1), the entire surface of the vinyl cloth is sprayed. The coating material is sprayed using a gun or the like, or the coating material is applied using a roller, a brush, a spatula, a trowel, or the like (step S2).

  Here, the building is not particularly limited, and may be anything such as a self-owned or rented detached house, an apartment house (a condominium, etc.), an office in a building, or a store. Vinyl cloth is highly designable with various coloring and design. Note that the vinyl cloth may be one in which unevenness (embossing) is formed on its surface by embossing or foaming.

The coating material is basically one of the photocatalytic substances titanium oxide and layered silicate mineral (for example, swellable clay mineral, saponite, hectorite, bentonite, montmorillonite, smectite, vermiculite, mica-based layered form. Silicate minerals, kaolin-based layered silicate minerals, talc-based layered silicate minerals, etc.) and liquid or slurry (or paste) mixed with water. If necessary, properties of vinyl cloth, etc. Depending on the case, silver ions and / or copper ions, silica and the like are added. Titanium oxide and layered silicate minerals are nano-sized by homogenous friction grinding (nanotechnology). When silver ions and / or copper ions, silica, or the like is added, those that have been nano-sized by the same body friction grinding are also used. Since this coating material is composed of an inorganic substance and water, it is odorless. Moreover, since it is not flammable, it is extremely safe. Spraying amount or coating amount of the coating material is preferably from 140~160g / ^{m 2,} more preferably about 150 g / ^{m 2.} Even if there is considerable unevenness in spraying or application of the coating material, the coating layer formed from the coating material is substantially transparent as will be described later, so that this unevenness is completely unknown after drying. . Therefore, anyone who is not an expert can easily perform the operation in step S2 in a short time.

  The coating material sprayed or applied to the surface of the vinyl cloth in this way is dried by natural drying (step S3). In addition, since the water in a coating material only vaporizes at the time of drying, the substance which has a bad influence on an environment is not discharge | released from a coating material at all. Thereby, a coating layer is formed on the surface of the vinyl cloth. Since this coating layer does not attract (suck) dust, does not change color, and is not easily contaminated, it maintains the aesthetics or design of the vinyl cloth for a long period of time. The coating tee is harmless to the human body and is safe even if touched by an infant or infant.

  Since this coating layer is very thin, it is substantially transparent, and reflects the aesthetics or design of the vinyl cloth as it is. In addition, the shape or properties of the coating layer (clay film) mainly composed of layered silicate mineral and titanium oxide does not change over time. Furthermore, even if the crayon or magic ink or the like is used for graffiti, the coating layer is a clay structure having a laminated structure (a structure in which a plurality of clay layers that are very thin and easy to peel off). It ’s easy to slip on, and the graffiti is never written deeply. In the case of a vinyl cloth having an emboss formed on the surface, a fine clay-like coating layer enters the emboss to prevent dirt from entering the emboss.

Titanium oxide (TiO ₂ ) contained in this coating layer is a metal oxide semiconductor and has a photocatalytic action. For this reason, when this coating layer is formed on the surface of a vinyl cloth newly attached to the interior surface, titanium oxide is released from the vinyl cloth by its photocatalytic action, causing environmental pollution that causes sick house syndrome. It effectively decomposes malodorous substances such as formaldehyde.

  2 to 5 show the results of actual measurement of the decomposition performance of the coating layer according to the present invention for formaldehyde, acetaldehyde, ammonia and xylene, respectively. In these measurements, a container having a volume of 5 liters was filled with air containing a predetermined concentration of formaldehyde, acetaldehyde, ammonia or xylene, and then a square of 100 mm × 100 mm provided with the coating layer according to the present invention in the container. A vinyl cloth having a broad surface is inserted, and the concentration of formaldehyde, acetaldehyde, ammonia or xylene after 3 hours is detected with a detector tube. The inside of the container was irradiated with light of 200 lux with a fluorescent lamp, assuming general indoor brightness.

  As apparent from FIGS. 2 to 5, after 3 hours, the concentration of formaldehyde, acetaldehyde, ammonia or xylene is greatly reduced. From this result, it can be seen that the coating layer according to the present invention can effectively decompose environmental pollutants or malodorous substances such as formaldehyde released from vinyl cloth by the photocatalytic action of titanium oxide.

  Furthermore, since titanium oxide decomposes fine dirt adhering to the coating layer or vinyl cloth by its photocatalytic action, this also suppresses the appearance or design of the vinyl cloth from deteriorating.

  Thereafter, the vinyl cloth gradually becomes dirty with time, but when the dirt becomes noticeable, the vinyl cloth is regenerated (step S4). When the building is rented, when the renter leaves, it is common to regenerate the vinyl cloth even if the dirt is slight.

  When the vinyl cloth is regenerated, first, the surface of the vinyl cloth is washed. This washing can be performed simply with water or, if necessary, with a conventional ordinary detergent. As described above, a coating layer is formed on the surface of the vinyl cloth, but most of various kinds of dirt adhere to the surface of the coating layer or only penetrate into the coating layer. Almost no adhesion. That is, the coating layer protects the vinyl cloth from dirt.

  On the other hand, since this coating layer has a layered silicate mineral as a main component, the coating layer can be easily removed by washing with water. For this reason, by removing the coating layer by simple water washing or washing with a normal detergent, various stains adhering to the coating layer or vinyl cloth, such as carbon marks in the refrigerator, cigarette dust, crayons, etc. Dirt that has been difficult to remove, such as graffiti, adhesion of magic ink, and oil stains, can be removed almost completely.

In other words, in this cleaning step, almost all dirt can be removed if the layered silicate mineral can be removed. Therefore, this cleaning can be performed easily and in a short time by a simple cleaning technique, even if it is not an expert. Thus, the vinyl cloth almost completely restores its original aesthetics or design by washing or regeneration.
Since the coating layer can be removed by simple wiping, the dirt may be removed by wiping with water instead of washing.

  For example, in the case of an ordinary vinyl cloth, the cigarette dust penetrates into the cloth with the passage of time. However, in the vinyl cloth according to the present invention, the layered silicate mineral contained in the coating layer prevents the entry of the tobacco spider into the vinyl cloth to some extent, while the titanium oxide decomposes the cigarette spear by its photocatalytic action. For this reason, even when the vinyl cloth is not regenerated for a long period of time, the stain of the tobacco is mild. And the dirt by this tobacco cigarette is completely removed by washing | cleaning at the time of reproduction | regeneration of a vinyl cloth. For example, in the case of rental housing, tobacco stains may cause troubles with respect to recovery of the current situation when the renter leaves, but such problems are less likely to occur according to the present invention.

  After the vinyl cloth is washed or regenerated in this way, a coating material is sprayed or applied again on the surface of the vinyl cloth to form a coating layer. The method for forming the coating layer is as described in steps S2 and S3. After that, when the stain on the vinyl cloth becomes conspicuous, the procedure of cleaning or regenerating the vinyl cloth to form a coating layer is repeated. As described above, the aesthetics or design of the vinyl cloth is almost completely restored by washing or regeneration, so that the aesthetics or design of the vinyl cloth can be repeated even after repeated washing and regeneration of the vinyl cloth and formation of the coating layer. Can be held. For this reason, the service life of the vinyl cloth is dramatically increased.

  As mentioned above, vinyl cloth is one of the most popular interior materials because it has a high degree of design freedom and is easy to construct. However, it is easily contaminated with darkening or cigarette dust. There are many problems, such as the adhesive used at the time of sticking induces sick house syndrome and the organic cloth itself becomes a nutrient and the mold grows. In order to eliminate such problems of vinyl cloth, the present invention sprays or applies a coating material mainly composed of layered silicate mineral, which is a component of the earth, and titanium oxide having a photocatalytic action, onto vinyl cloth. And dried to form a thin and transparent coating layer (curing film), which has the following effects.

(1) Since the coating layer (curing film) formed on the surface of the vinyl cloth can be removed by washing with water or wiping with water, dirt that has been difficult to remove in the past, such as darkening behind appliances and tobacco It is possible to easily remove dirt such as spider by removing it together with the coating layer. Even if the coating layer is removed, it is easy to form such a coating layer again (or repeatedly).
(2) The layered silicate mineral, photocatalyst, and metal ions contained in the coating layer can strongly adsorb and decompose malodorous and solvent components contained in vinyl cloth, and are effective as a deodorizing means or sick house syndrome countermeasure. It is.
(3) Since the growth of microorganisms can be suppressed by titanium oxide (photocatalyst) and metal ions contained in the coating layer, a high antibacterial effect or antifungal effect can be obtained.
(4) Anti-static effect keeps dust away.
(5) Since the layered silicate mineral adsorbs pollen and titanium oxide (photocatalyst) decomposes pollen, hay fever can be suppressed.
(6) Since this coating material has humidity control, the indoor environment is improved.

  In the coating material of the interior material according to the present invention, the main component is nano-sized by the same body friction pulverization (nanotechnology). Can be coated with (minimal) depressions. Moreover, the photocatalytic effect of titanium oxide can be exhibited effectively even with a small amount of light.

  In this embodiment, since the degree of freedom of the design is high and construction is easy, vinyl cloth is used as the interior material. However, the coating method according to the present invention is used for interior cloth other than vinyl cloth. Of course, it can be widely applied to interior materials such as sound absorbing materials for ceilings, cloth cloths, boards (gypsum board), and the like. In this embodiment, the layered silicate mineral is used, but other clays may be used.

It is a flowchart which shows an example of the reproduction | regeneration method of the vinyl cloth using the coating method or coating material concerning this invention. It is a graph which shows the time-dependent change of the density | concentration of formaldehyde. It is a graph which shows the time-dependent change of the density | concentration of acetaldehyde. It is a graph which shows the time-dependent change of the density | concentration of ammonia. Or it is a graph which shows the time-dependent change of the density | concentration of xylene.

Explanation of symbols

S1 Vinyl cloth pasting process S2 Coating material spraying / coating process S3 Drying process S4 Vinyl cloth regeneration process

Claims (25)

A method of coating an interior material attached to a wall, floor or ceiling of a building,
After the interior material is attached to the wall, floor, or ceiling, or after the regeneration of the interior material attached to the wall, floor, or ceiling is completed, a substance that exhibits photocatalysis and layered silicate on the surface of the interior material A coating method for an interior material, characterized by spraying or applying a liquid or slurry coating material containing a salt mineral and then drying to form a thin coating layer on the interior material surface.   The method for coating an interior material according to claim 1, wherein the substance exhibiting a photocatalytic action and the layered silicate mineral are used after being nano-sized by homogenous friction grinding.   The method for coating an interior material according to claim 1 or 2, wherein the layered silicate mineral is a swellable clay mineral.   The layered silicate mineral is saponite, hectorite, bentonite, montmorite, smectite, vermiculite, mica-based layered silicate mineral, kaolin-based layered silicate mineral, or talc-based layered silicate mineral, A coating method for an interior material according to 1 or 2.   The method for coating an interior material according to any one of claims 1 to 4, wherein the substance exhibiting a photocatalytic action is titanium oxide.   The interior coating material coating method according to any one of claims 1 to 5, wherein the coating material contains silver ions and / or copper ions.   The method for coating an interior material according to claim 6, wherein the coating material contains silica. Wherein the spray amount or the coated amount of the coating material is 140~160g / m ^2, interior material coating method according to any one of claims 1 to 7.   The interior coating material coating method according to any one of claims 1 to 8, wherein the coating material is dried by natural drying.   The method for coating an interior material according to any one of claims 1 to 9, wherein the interior material is a vinyl cloth.   A coating material for an interior material affixed to a wall, floor or ceiling of a building, which contains a photocatalytic substance and a layered silicate mineral.   12. The coating material for interior materials according to claim 11, wherein the substance exhibiting photocatalytic action and the layered silicate mineral are nano-sized by homogenous friction grinding.   The coating material for interior materials according to claim 11 or 12, wherein the layered silicate mineral is a swellable clay mineral.   The layered silicate mineral is saponite, hectorite, bentonite, montmorite, smectite, vermiculite, mica-based layered silicate mineral, kaolin-based layered silicate mineral, or talc-based layered silicate mineral, The coating material of the interior material as described in 11 or 12.   The coating material for interior materials according to any one of claims 11 to 14, wherein the substance exhibiting a photocatalytic action is titanium oxide.   The coating material for interior materials according to any one of claims 11 to 15, wherein the coating material contains silver ions and / or copper ions.   The interior coating material according to claim 16, wherein the coating material includes silica.   A material for interiors in which a thin coating layer containing a photocatalytic substance and a layered silicate mineral is formed on the surface.   19. The interior material according to claim 18, wherein the photocatalytic substance and the layered silicate mineral are nano-sized by the same body friction pulverization.   The interior material according to claim 18 or 19, wherein the layered silicate mineral is a swellable clay mineral.   The layered silicate mineral is saponite, hectorite, bentonite, montmorite, smectite, vermiculite, mica-based layered silicate mineral, kaolin-based layered silicate mineral, or talc-based layered silicate mineral, The interior material as described in 18 or 19.   The interior material according to any one of claims 18 to 21, wherein the substance exhibiting a photocatalytic action is titanium oxide.   The interior material according to any one of claims 18 to 22, wherein the coating material contains silver ions and / or copper ions.   The coating material for interior materials according to claim 23, wherein the coating material contains silica. The interior material according to any one of claims 18 to 24, wherein the interior material is a vinyl cloth.

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