JP2003096335A - Inorganic coating material composition, inorganic coating material using the same, and application method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an inorganic coating material composition which does not generate a harmful substance, e.g. formaldehyde or toluene, since it does not contain an organic solvent and which can adsorb a harmful substance, tobacco odor, pet's ammonia odor, or the like, being excellent in deodorizing and cleaning capability, can absorb and release moisture in the air, being excellent in moisture control properties, and is excellent in applicability and mechanical strength; an inorganic coating material using the same; and an application method therefor. SOLUTION: The inorganic coating material composition contains (a) a silicic acid powder and/or an aluminum power, (b) a crushed fossil reef obtained by crushing fossil reef and/or (c) a tourmalin powder, and (d) water glass.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a wall, a ceiling, an underfloor,
TECHNICAL FIELD The present invention relates to an inorganic coating composition used for construction such as under tatami mats and in closets, an inorganic coating composition using the same, and a construction method thereof.

[0002]

2. Description of the Related Art Conventionally, inorganic paints have been developed which are used to enhance flame retardancy and hygroscopicity. For example, Shokai 6
Japanese Unexamined Patent Publication No. 4-32123 (hereinafter referred to as “A”) discloses “inorganic paint containing sodium silicate, an inorganic filler, an organic binder, and a curing agent”.

Japanese Patent Publication No. 8-25809 (hereinafter referred to as "B") describes "hydraulic cement, bentonite,
A fire-resistant coating material containing a hydroxide compound.

Japanese Unexamined Patent Publication No. 11-108409 (hereinafter, referred to as
(Hereinafter referred to as "C"), "a moisture absorbent composed of fossil shellfish containing calcium carbonate as a main component and at least one kind of zeolite containing aluminum hydroxide and sodium alumina silicate" is disclosed.

[0005]

However, the above conventional techniques have the following problems. (1) The inorganic coating disclosed in (a) gazette has an inferior fire resistance because it contains an organic binder for imparting flexibility, and a flame retardant having a combustion suppressing action is required for imparting fire resistance. It has to be added, and there is a problem that harmful substances such as formaldehyde and toluene are generated by the organic binder. (2) The inorganic coating disclosed in Japanese Patent No. 2) has fire resistance but does not have deodorant properties, and adsorbs harmful substances such as formaldehyde and toluene, tobacco odor, pet ammonia odor, etc. In addition to being inferior in deodorant and cleanliness,
There is a problem that humidity controllability is poor because moisture in the air cannot be absorbed and released. (3) The inorganic coating disclosed in Japanese Patent Publication No. H does not have a binder that adheres to the construction surface to which the coating is applied, and the adhesive strength between the coating and the construction surface is small and the hardness after curing of the coating is small. However, there is a problem that the paint is easily peeled off from the construction surface, and the surface of the paint is easily scratched and lacks in durability.

The present invention solves the above-mentioned conventional problems. Since it does not contain an organic solvent, it does not generate harmful substances such as formaldehyde and toluene, and also adsorbs harmful substances, cigarette odors, petroleum ammonia odors, etc. It has excellent deodorant and cleanliness properties and absorbs moisture in the air.
It is an object of the present invention to provide an inorganic coating composition that can be released and has excellent humidity control properties, and further that can obtain an inorganic coating excellent in workability and mechanical strength. Further, the present invention can impart rigidity and incombustibility to the applied building material and the like, and also lowers the thermal conductivity to improve heating efficiency and cooling efficiency and is excellent in energy saving, and is also excellent in workability. The purpose is to provide an inorganic paint. Furthermore, the present invention is a method of applying an inorganic paint that can prevent the work surface from seeping into the work surface and can prevent color unevenness and discoloration of the work surface and finish the interior with a desired finishing material. The purpose is to provide.

[0007]

In order to solve the above-mentioned conventional problems, an inorganic coating composition of the present invention, an inorganic coating using the same, and a construction method thereof have the following constitutions.

The inorganic coating composition according to claim 1 of the present invention comprises (a) a siliceous powder and / or an alumina powder,
(B) a fossil reef crushed product obtained by crushing a fossil reef and / or (c) tourmaline powder, and (d) water glass. With this configuration, the following effects can be obtained. (1) Since it contains siliceous powder and alumina powder, it can adsorb harmful substances such as formaldehyde and toluene, cigarette odor, and petroleum ammonia odor into the small pores formed on the surface. Excellent deodorant and cleanliness,
It can absorb and release moisture in the air and has excellent humidity control. (2) By containing crushed fossil reefs such as coral reefs, countless capillaries inhabiting coral insects are formed on the surface and the surface area has irregularities and small holes due to abrasion and erosion caused by wind waves for many years. Since it is extremely large, it has a high adsorption capacity and excellent deodorant and cleanliness properties, and also absorbs moisture in the air.
It can be released and has excellent humidity control. (3) By containing the crushed fossil reef, the antibacterial property is excellent due to the heavy metal ions such as Cu adsorbed when the fossil reef is present under the sea surface, and it is possible to prevent the generation of mold and the like. (4) The inclusion of tourmaline powder promotes the electrolysis of water in the air, and the decomposed hydroxide ions are combined with the surrounding water molecules and converted into hydroxyl ions, which are negative ions, and released into the air. Therefore, the cleanliness of the air is enhanced, and the causes of human body inflammation and the like are suppressed, which is significant for health. (5) Since it contains water glass, it decomposes when left in the air to deposit silicon dioxide and hardens in a short time to form a strong film, and an inorganic coating excellent in workability and mechanical strength is obtained. can get. (6) Since it is composed of an inorganic material and does not contain an organic solvent, it does not generate harmful substances such as formaldehyde and toluene and does not damage health.

Examples of the siliceous powder include white clay mainly containing kaolin clay, white clay such as white clay, acid clay mainly containing montmorillonite clay and halloysite clay, activated clay and the like. Adsorption of clay such as bentonite, which is mainly composed of smectite group minerals such as clay, montmorillonite, beidellite, nontronite, saponite, and hectorite, and ash such as diatomaceous earth, zeolite, perlite, silica gel, silas, pumice, and scoria. A material having excellent fire resistance is used. Especially, Shirasu, Pumice stone,
Volcanic ash such as scoria, silica gel, perlite and the like are suitably used because they have a large number of small pores and have a large surface area and a high adsorption capacity. In addition, activated clay containing montmorillonite clay or halloysite clay as the main component, white clay such as acid clay, clay such as bentonite containing smectite group minerals such as montmorillonite, beidellite, nontronite, saponite, hectorite, etc. Is preferably used because it has a large cation exchange capacity and imparts plasticity to the coating to increase the dry strength. Furthermore, since zeolite has a large cation exchange capacity, it has a high adsorption capacity and is preferably used.

As the alumina powder, activated alumina such as γ-alumina and η-alumina, which is excellent in adsorptivity and fire resistance, alumino-silica gel, aluminum silicate and the like, and mixtures thereof are used.

The average particle size of the siliceous powder or the alumina powder is 1 to 30 μm, preferably 5 to 10 μm. When the average particle size is smaller than 5 μm, aggregation tends to be remarkable and the workability tends to be deteriorated. When it is larger than 10 μm, unevenness tends to be conspicuous on the coated surface and the finish tends to be poor, which is not preferable. In particular, if it is smaller than 1 μm or larger than 30 μm, these tendencies become remarkable, which is not preferable.

As the crushed fossil reef, a crushed fossil reef such as a raised coral reef raised on the surface of the earth, a submerged coral reef under the sea surface, a sediment layer of foraminifera, algae, shellfish and the like is used.

As the tourmaline powder, crushed green green tourmaline, red to pink rubellite, dark blue indicolite, colorless acroite, black shawl, party colored tourmaline of two or more colors are used. .

The average particle size of the tourmaline powder is from 1 to
80 μm, preferably 20 to 50 μm is used. When the average particle size is smaller than 20 μm, setting is fast and the workability is poor, and cracks are likely to occur. When the average particle size is larger than 50 μm, unevenness tends to be noticeable on the coated surface and the finish tends to be poor, which is not preferable. .
In particular, if it is smaller than 1 μm or larger than 80 μm, these tendencies become remarkable, which is not preferable.

As the water glass, a concentrated aqueous solution of an alkali silicate is used, which has one or more kinds of alkali metals such as Na, K and Li as an alkali, or a portion of the alkali metals such as Ba or the like. Those substituted with similar metals are used.

The invention according to claim 2 is the inorganic coating composition according to claim 1, wherein (a) 100 parts by weight of the siliceous powder and / or the alumina powder,
(B) 10 to 50 parts by weight of the crushed fossil reef, preferably 1
5 to 35 parts by weight, and / or (c) 10 to 50 parts by weight of the tourmaline powder, preferably 15 to 35 parts by weight,
(D) 50 to 250 parts by weight of the water glass, preferably 10
0 to 150 parts by weight. With this configuration, the following action is obtained in addition to the action obtained in the first aspect. (1) Since it contains an appropriate amount of crushed fossil reef and water glass, it is possible to optimize the adsorption ability of the crushed fossil reef and the hardening action of water glass. (2) The workability can be improved, and the adhesion between the work surface and the paint can be enhanced.

Here, as the content rate of the fossil reef crushed material,
10 to 50 parts by weight, preferably 15 to 35 parts by weight, are suitably used for 100 parts by weight of siliceous powder and / or alumina powder. As the content of crushed fossil reefs becomes less than 15 parts by weight, the antibacterial, deodorant, cleansing and humidity controlling effects tend to decrease, and the deodorizing properties obtained as the content exceeds 35 parts by weight. This is not preferable because the raw material cost tends to increase as compared with the above effects. Especially 1
If less than 0 parts by weight or more than 50 parts by weight,
Any of these is not preferable because these tendencies become remarkable.

The content of tourmaline powder is 100 parts by weight of siliceous powder and / or alumina powder.
10 to 50 parts by weight, preferably 15 to 35 parts by weight are suitably used. As the content of tourmaline powder becomes less than 15 parts by weight, the action such as cleanliness tends to decrease, and as it becomes more than 35 parts by weight, the raw material cost tends to increase as compared with the obtained action. Not preferable. In particular, if the amount is less than 10 parts by weight or more than 50 parts by weight, these tendencies become remarkable, which is not preferable.

The content of water glass is 50 to 50 parts by weight with respect to 100 parts by weight of siliceous powder and / or alumina powder.
250 parts by weight, preferably 100 to 150 parts by weight are suitably used. As the content of water glass becomes less than 100 parts by weight, the color tone of the paint after curing becomes unstable and the hardness is low and it tends to be easily scratched. When it exceeds 150 parts by weight, the work surface is deformed such as warped. This is not preferable because it tends to occur easily. In particular, if the amount is less than 50 parts by weight or more than 250 parts by weight, these tendencies become remarkable, which is not preferable.

The invention according to claim 3 of the present invention is the inorganic coating composition according to claim 1 or 2, wherein the crushed fossil reef is a Ryukyu limestone having an average particle size of 1 to 50 μm, preferably 2 It has a structure containing a crushed Ryukyu limestone crushed to 10 μm. With this configuration, the following action is obtained in addition to the action obtained in claim 1 or 2. (1) Ryukyu limestone is rich in coral reef deposits and rich in fossil corals, especially hexafossil coral, so it is possible to increase the content of fossil coral in the crushed product of fossil reefs. It is possible to improve the performance and reduce variations in adsorption capacity between lots.

Here, as the crushed Ryukyu limestone, crushed limestone containing raised coral reefs, submerged coral reefs and the like that develop from the Ryukyu Islands to Taiwan is used.

The average particle size of crushed Ryukyu limestone is 1
˜50 μm, preferably 2 to 10 μm is used. When the average particle size is smaller than 2 μm, the setting tends to be quick and the workability tends to be deteriorated, and when it is larger than 10 μm, unevenness tends to be noticeable on the coated surface and the finish tends to be deteriorated, which is not preferable. Especially, less than 1 μm or 50
When it is larger than μm, these tendencies become remarkable, and thus both are not preferable.

The invention according to claim 4 of the present invention is the inorganic coating composition according to any one of claims 1 to 3, wherein the siliceous powder and / or the alumina powder are 1
The colorant is contained in an amount of 0 to 20 parts by weight, preferably 0 to 15 parts by weight, based on 00 parts by weight. With this configuration, the following action is obtained in addition to the action obtained in any one of claims 1 to 3. (1) Since an intended color tone can be adjusted with a coloring material, an inorganic coating material can be obtained which can be applied not only to a building base material but also as a finishing material for cosmetics.

Here, as the coloring material, inorganic pigments such as iron oxide, chromium oxide, cobalt oxide, titanium dioxide, titanium yellow, titanium black, iron black are preferably used, and red, black, yellow, orange, Various color tones such as brown, green and white are prepared.

The content of the coloring material is appropriately selected according to the color tone and content of the siliceous powder, the alumina powder, the crushed fossil reef, and the tourmaline powder. For example, siliceous powder or aluminous powder having a white color such as clay, white clay, bentonite, activated alumina, etc. is used, and when a white inorganic coating is produced, a coloring material is not contained. You don't have to. Further, even when used as a building base material, the coating surface is covered with the finishing material, so that it is not necessary to include a coloring material for beauty. When the inorganic coating material is colored in a color other than the unique color tone of the siliceous powder, the alumina powder, the fossil reef ground product, and the tourmaline powder, a predetermined amount of the coloring material is contained. The content of the coloring material is 0 to 20 parts by weight, preferably 0 to 15 parts by weight, based on 100 parts by weight of the siliceous powder and / or the alumina powder. When the content of the coloring material is more than 15 parts by weight, the color tone becomes too strong, which is not suitable for indoor colors, and white turbidity tends to stand out, which is not preferable. In particular,
When the content is more than 20 parts by weight, these tendencies become remarkable, which is not preferable.

The inorganic coating material according to claim 5 of the present invention is the silica coating material and / or the alumina coating powder 100 of the inorganic coating composition according to any one of claims 1 to 4.
20 to 60 parts by weight of water is added to parts by weight and kneaded. With this configuration, the following effects can be obtained. (1) Since the viscosity is adjusted by adding an appropriate amount of water, the workability is excellent. (2) By containing water glass, the adhesive strength is high due to the hardening of the water glass, and rigidity can be imparted to the applied building material or the like. (3) Since it contains porous silicic acid powder, alumina powder, and fossil reef pulverized product, a porous layer is formed on the coated surface to lower the thermal conductivity and provide excellent heat retention and heating. Excellent in energy saving by improving efficiency and cooling efficiency. (4) Since it is made of an inorganic material, it is possible to impart incombustibility to the applied building material and the like.

The content of water in the inorganic coating is preferably 20 to 60 parts by weight based on 100 parts by weight of the siliceous powder and / or the alumina powder of the inorganic coating composition. . When the water content is less than 20 parts by weight, the workability deteriorates and a flat coating surface is not obtained, and the roughness tends to be conspicuous. When it exceeds 60 parts by weight, white turbidity is noticeable and color unevenness tends to occur. It is not preferable because it is seen.

A method of applying an inorganic coating composition according to claim 6 of the present invention comprises a base application step of applying a sealer on the application surface,
A paint applying step of applying the inorganic paint according to claim 5 to a base surface applied in the base applying step, and a curing step of curing the inorganic paint applied in the paint applying step,
It has a configuration including. With this configuration, the following effects can be obtained. (1) Since it has a groundwork construction step, it is possible to prevent penetration into the construction surface and prevent color unevenness or discoloration of the construction surface. (2) Since it has a groundwork construction step, the adhesion strength between the construction surface and the paint can be improved and the adhesion is excellent.

Here, as the construction surface, walls, ceilings, floors, under floors, tatami mats, insides, etc. formed of gypsum board, mortar, wood, etc., and panels, boards, etc. forming them are used. As a sealer used in the groundwork construction process,
An aqueous resin whose diluent is water is preferably used because it has no fire, toxicity, or unpleasant odor from organic solvents. In particular, when a synthetic resin emulsion paint such as a vinyl acetate emulsion, a styrene-butadiene emulsion, an acrylic emulsion having a pigment having a low water-soluble content and alkali resistance is used, a coating having excellent alkali resistance and large water vapor permeability is used. Since a film is formed, it is suitable for use because it can withstand application of an inorganic coating material containing water glass and having alkalinity, and can perform humidity control and deodorization through the coating film. In the paint applying step, the inorganic paint can be applied to the base surface using various applying tools such as rollers, brushes, trowels, and sprays.

According to a seventh aspect of the present invention, there is provided a method for applying an inorganic coating material, comprising: a coating step for applying the inorganic coating material according to the fifth aspect to a construction surface; and the inorganic coating material applied in the coating step. It has a configuration including a curing step of curing and a finish material applying step of disposing and fixing the finish material on the coating surface applied in the above step. With this configuration, the following effects can be obtained. (1) Since the finishing material is arranged and fixed on the coated surface, the interior of the room can be finished with a desired finishing material. (2) Since the inorganic paint is applied to the back surface of the finishing material, it is possible to deodorize the air in the room through the finishing material.

Here, as the finishing material, cloth such as paper wallpaper or woven wallpaper having air permeability, carpet, etc. are used. This makes it possible to deodorize the air in the room through the finishing material. Since the construction tool used in the construction surface and the paint construction step is the same as that described in claim 6, the description thereof is omitted.

[0032]

EXAMPLES The present invention will be specifically described below with reference to examples. The present invention is not limited to these examples. (Example 1) 100 parts by weight of Shirasu (trade name Silt F) as a siliceous powder adjusted to an average particle size of 1 to 30 μm, and Ryukyu as a fossil reef crushed product adjusted to an average particle size of 1 to 50 μm 21 parts by weight of crushed limestone (trade name)
29 parts by weight of tourmaline powder (manufactured by Adan Mining Co., Ltd.) adjusted to an average particle size of 1 to 80 μm, water glass (manufactured by Asahi Denka Kogyo Co., Ltd., sodium silicate No. 3, Na ₂ O.3SiO ₂ .aq) 1
45 parts by weight and 55 parts by weight of water were mixed using a ball mill to obtain the inorganic coating material of Example 1. (Example 2) 100 parts by weight of activated clay (made of Toyo Activated Clay) as siliceous powder adjusted to an average particle size of 1 to 30 μm, and a crushed fossil reef adjusted to an average particle size of 1 to 50 μm 21 parts by weight of crushed Ryukyu limestone (trade name)
Water glass (made by Asahi Denka Kogyo Co., Ltd., sodium silicate No. 3, N
125 parts by weight of a ₂ O.3SiO ₂ .aq) and 40 parts by weight of water were mixed using a ball mill to obtain an inorganic coating material of Example 2. (Example 3) 100 parts by weight of pearlite (made by Dicalite Orient) as siliceous powder adjusted to an average particle size of 1 to 30 μm, tourmaline powder adjusted to an average particle size of 1 to 80 μm (Adan Mines 29 parts by weight, water glass (made by Asahi Denka Kogyo Co., Ltd., sodium silicate No. 3, Na ₂ O.
125 parts by weight of 3SiO ₂ .aq) and 40 parts by weight of water were mixed using a ball mill to obtain an inorganic coating material of Example 3.

(Gas deodorizing performance test) The inorganic coating materials of Examples 1 to 3 were applied on one side of a glass plate having a size of 300 × 300 × 5 mm in thickness at 0.5 kg / m ^2.
It was applied with a roller so that it would be sufficiently cured. The inorganic paints of Examples 1 to 3 in which the average particle size of the siliceous powder or the like was adjusted did not cause coagulation or the like during application and had good workability, and no cracks were observed after curing. Also,
No unevenness was conspicuous on the coated surface and the finish was good.
Furthermore, since the water content was adjusted, a flat coating surface was obtained and no color unevenness was observed. The glass plate on which the inorganic paint was cured was sealed in a container having a volume of 20 liters. For comparison, a glass plate not coated with the inorganic paint was also sealed in the same container. Then (1)
Each container was filled with 10 liters of air having a concentration of formaldehyde of 75 ppm and (2) 10 liters of air having an ammonia concentration of 97 ppm, and left at room temperature. Then, 15 minutes, 30 minutes, 1 hour, 2 hours, 3 hours, 4 hours, 6 hours, and 24 hours after the test gas was filled, the test gas remained at each elapsed time. The concentration was measured by a detector tube method using a detector manufactured by Gastec Co., Ltd. The measurement results of the residual concentration of formaldehyde are shown in (Table 1) and FIG. 1, and the measurement results of the residual concentration of ammonia are shown in (Table 2) and FIG.

[Table 1]

[Table 2]

(Adhesive Strength Test) The inorganic coating material of Examples 1 to 3 was applied to a concrete sidewalk plate (concrete flat plate of 300 × 300 × 60 (mm) conforming to JIS A 5304) at 0.5 kg / It was coated with a roller so as to have a surface area of m ² , sufficiently cured (28 days old) and cured. In accordance with the "Adhesion strength test" described in JIS A 6916 (2000) "Construction base adjustment coating material", one day before the end of curing, the surface of the inorganic paint is 40x40 (mm) in size and concrete sidewalk plate. After making a notch until reaching the size of 40, use epoxy resin adhesive to make the size of the adhesive surface 40
A jig of × 40 (mm) was adhered. Adhesive strength was measured by applying a tensile force in the vertical direction to the concrete sidewalk slab using a Kenken-type adhesive strength tester on this jig. As a result, the average value (n = 5) of the adhesive strength of the inorganic coating material of Example 1 was 1.
8 (N / mm ² ), in Example 2 1.7 (N / mm ² ),
In Example 3, it was 1.8 (N / mm ² ), and it was confirmed that the adhesive strength was very large.

According to this embodiment, the inorganic coating material of the present invention comprises:
Since it does not contain organic solvents, it does not generate harmful substances such as formaldehyde and toluene, and can adsorb those harmful substances and the smell of pet's ammonia, etc. It became clear that it was excellent in strength. The gas deodorizing performance of the inorganic coating material of Example 1 was superior to that of the inorganic coating material of Example 2 or 3 because the inorganic coating material of Example 2 or 3 was added to the siliceous powder and crushed by fossil reef. Substance or tourmaline powder, the inorganic coating material of Example 1 contains crushed fossil reef and tourmaline powder in addition to shirasu as siliceous powder. It is considered that this is due to the synergistic effect and the adsorbing ability of the fine pores of Shirasu.

[0036]

As described above, according to the inorganic coating composition of the present invention, the inorganic coating using the same, and the method for constructing the same, the following advantageous effects are obtained. According to the invention of claim 1, (1) since it contains siliceous powder or aluminous powder, toxic substances such as formaldehyde and toluene and tobacco odor, etc. in the small pores formed on the surface, It can absorb the ammonia odor of pets and has excellent deodorant and cleanliness.
It is possible to provide an inorganic coating composition capable of absorbing and releasing moisture in the air and excellent in humidity control. (2) By containing crushed fossil reefs such as coral reefs, countless capillaries inhabiting coral insects are formed on the surface and the surface area has irregularities and small holes due to abrasion and erosion caused by wind waves for many years. Since it is extremely large, it has a high adsorption capacity and excellent deodorant and cleanliness properties, and also absorbs moisture in the air.
It is possible to provide an inorganic coating composition that can be released and has excellent humidity control properties. (3) An inorganic coating composition containing a crushed fossil reef, which has excellent antibacterial properties due to heavy metal ions such as Cu adsorbed when the fossil reef is present under the sea surface and can prevent the generation of mold and the like. Can be provided. (4) The inclusion of tourmaline powder promotes the electrolysis of water in the air, and the decomposed hydroxide ions are combined with the surrounding water molecules and converted into hydroxyl ions, which are negative ions, and released into the air. Therefore, it is possible to provide an inorganic coating composition which enhances the cleanliness of the air and suppresses the causes of human body inflammation and the like and which is significant for health. (5) Since it contains water glass, it decomposes when left in the air to deposit silicon dioxide and hardens in a short time to form a strong film, and an inorganic coating excellent in workability and mechanical strength is obtained. The obtained inorganic coating composition can be provided. (6) Since it is composed of an inorganic material and does not contain an organic solvent, it is possible to provide an inorganic coating composition that does not generate harmful substances such as formaldehyde and toluene and does not damage health.

According to the invention of claim 2, claim 1
In addition to the effects of (1) an inorganic coating composition that can optimize the adsorbability of crushed fossil reefs, water glass, etc., because it contains an appropriate amount of crushed fossil reefs, water glass, etc. Can be provided. (2) It is possible to provide an inorganic coating composition that can improve the workability and also improve the adhesion between the work surface and the paint.

According to the invention of claim 3, claim 1
In addition to the effect of (2), (1) Ryukyu limestone contains abundant coral reef sediments and has abundant fossil coral, especially hexafossil coral, so the content of fossil coral with excellent adsorption capacity in crushed fossil reefs It is possible to provide an inorganic coating composition capable of increasing the adsorption capacity, enhancing the adsorption capacity, and reducing variations in the adsorption capacity and the like between lots.

According to the invention of claim 4, claim 1
In addition to the effect of any one of 1 to 3, (1) it can be adjusted to a desired color tone by the coloring material, so it should be applied not only to the building base material but also as a finishing material for beauty. It is possible to provide an inorganic coating composition from which an inorganic coating that can also be obtained is obtained.

According to the invention of claim 5, (1) since an appropriate amount of water is added to adjust the viscosity, it is possible to provide an inorganic coating excellent in workability. (2) By containing water glass, it is possible to provide an inorganic coating material which has high adhesive strength due to hardening of water glass and can impart rigidity to the applied building material and the like. (3) Since it contains porous silicic acid powder, alumina powder, and fossil reef pulverized product, a porous layer is formed on the coated surface to lower the thermal conductivity and provide excellent heat retention and heating. It is possible to provide an inorganic coating material that is excellent in energy saving by improving efficiency and cooling efficiency. (4) Since it is made of an inorganic material, it is possible to provide an inorganic coating which can impart nonflammability to the applied building material and the like.

According to the invention described in claim 6, (1) since it has a groundwork construction step, it is possible to prevent penetration of the construction surface and prevent unevenness or discoloration of the construction surface. It is possible to provide a method of applying an inorganic coating material. (2) Since it has a base construction step, it is possible to improve the adhesive strength between the construction surface and the coating material, and to provide a method for applying an inorganic coating material having excellent adhesiveness.

According to the invention described in claim 7, (1) since the finishing material is arranged and fixed on the coating surface, there is provided a method of applying an inorganic coating material capable of finishing the interior of the room with a desired finishing material. be able to. (2) Since the inorganic coating material is applied to the back surface of the finishing material, it is possible to provide a method of applying the inorganic coating material that can deodorize the air in the room through the finishing material.

[Brief description of drawings]

FIG. 1 is a diagram showing measurement results of residual concentration of formaldehyde.

FIG. 2 is a diagram showing a measurement result of residual concentration of ammonia.

Continued front page    F-term (reference) 2E110 AA57 AB03 AB04 GA23W                 4D075 AE03 AE07 BB26Z CA02                       CA18 DC02 EA05 EB01 EB02                       EB57 EC11 EC54                 4J038 HA156 HA216 HA436 HA451                       HA466 HA506 KA06 KA08                       KA20 MA08 MA14 NA07 NA11                       NA12 NA15 NA27 PA20 PB05                       PC04 PC06

Claims (7)

[Claims] 1. (a) a siliceous powder and / or an alumina powder, (b) a crushed fossil reef obtained by crushing a fossil reef and / or (c) a tourmaline powder, and (d) ) Water glass, and an inorganic coating composition containing the same. 2. (a) With respect to 100 parts by weight of said siliceous powder and / or said alumina powder, (b) 10 to 50 parts by weight, preferably 15 to 35 parts by weight, of the fossil reef pulverized product. And / or (c) 10 to 50 parts by weight of the tourmaline powder, preferably 15 to 35 parts by weight, and (d) 50 to 250 parts by weight of the water glass, preferably 100 to 150 parts by weight. The inorganic coating composition according to claim 1, wherein 3. The crushed fossil reef contains a crushed Ryukyu limestone obtained by crushing Ryukyu limestone to an average particle size of 1 to 50 μm, preferably 2 to 10 μm. Inorganic coating composition. 4. The coloring material is contained in an amount of 0 to 20 parts by weight, preferably 0 to 15 parts by weight, based on 100 parts by weight of the siliceous powder and / or the alumina based powder. Item 4. The inorganic coating composition according to any one of items 1 to 3. 5. 20 to 60 parts by weight of water is added to 100 parts by weight of the siliceous powder and / or the aluminous powder of the inorganic coating composition according to any one of claims 1 to 4. An inorganic paint characterized by being added and kneaded. 6. The base construction step of applying a sealer to the construction surface, and the base surface constructed in the base construction step.
5. A method for applying an inorganic paint, comprising: a paint applying step of applying the inorganic paint according to 1 .; and a hardening step of hardening the inorganic paint applied in the paint applying step. 7. A paint application step of applying the inorganic paint according to claim 5 to a construction surface, a curing step of curing the inorganic paint applied in the paint application step, and a coating surface applied in the step And a finishing material applying step of disposing and fixing the finishing material on the base material.