JP3377505B2 - Anion generating paint - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anion-generating paint capable of positively generating anions that are beneficial to the human living environment and forming a coating film that improves the natural environment as well as the air environment. For example, it can be effectively used as a paint for interior and exterior of buildings.

[0002]

2. Description of the Related Art As is well known, in the human living environment, air purifiers that generate negative ions by using corona discharge or electron beams have been widely used for the purpose of cleaning indoor air atmosphere. There is. In addition, tourmaline fine powder is mixed into a resin fiber filter, and air is passed through this filter to supply anions into the room to improve the air environment.

[0003]

However, in the above-described conventional air improvement method, the amount of anions generated is small, and a sufficient effect cannot be expected. Further, in order to generate anions, the air drive method is electrically driven. Device is required, and the device must be continuously operated, maintained and inspected for a long period of time. In addition, when using a device that uses corona discharge, not only anions but also nitrogen oxides,
Gases such as ozone and active oxygen are generated at the same time, which may adversely affect the human body.

Further, Japanese Patent Application Laid-Open No. 10-147887 discloses a coating material containing an inorganic polymer formed of a rare earth element ion and a polyvalent oxoanion as a matrix and containing colloidal particles of a chromium compound and / or a chromium-containing compound. Techniques for forming a corrosion-resistant coating layer on the surface of a metal plate are listed. However, although the above-mentioned conventional coating uses rare earth element ions that generate anions, it is intended for chromate treatment excellent in chromium elution resistance, and is intended for generation of anions. is not.

Further, Japanese Patent Laid-Open No. 9-313626 discloses a far infrared ray and anion generating material obtained by mixing tourmaline powder, far infrared ray generating powder and 1.7 μm wave energy generating substance powder at a constant ratio. Is proposed. However, even the anion generating material cannot generate a sufficient amount of anions. Therefore, the present invention
A very simple method is to generate a large amount of anions in the atmosphere to clean the air atmosphere in the living space and improve the human living environment.

[0006]

In order to achieve the above object, the inventors of the present invention maintain a large amount of anion from the mineral by keeping the electric conductivity of the peripheral substances of the mineral generating the anion within a certain range. The inventors have found that ions are generated and have completed the present invention. Therefore, while adding a conductive substance to the paint component to give electric conductivity, by adding a fine powder of a mineral that generates anions to form a paint, the mineral when formed into a coating film, Together with the action of electrical conductivity, it effectively produces anions.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below. As the paint component used in the present invention, use is made of any type of paint except for the insulating paint and the electrodeposition paint in which the addition of a conductive substance to impart electric conductivity significantly deviates from the original purpose of the paint. And can be widely exemplified as oil paints, water-based paints, alcoholic paints, cellulose paints, synthetic resin paints and the like. Among them, acrylic ester copolymer emulsion paint, which is one type of emulsion-polymerized paints for water-based paints, is most commonly used as an interior / exterior paint for buildings and can be effectively used.

In the present invention, as the conductive substance used for providing the coating component with electric conductivity, silver fine powder, copper fine powder, other conductive metal fine powder,
Carbon fine powder, carbon fiber fine powder, potassium titanate whiskers and the like can be exemplified.
One kind or two or more kinds can be selected and used.

The amount of the conductive substance added to the paint component varies depending on the type of the conductive substance, but the paint component 1
It is effective to use 5 to 20 parts by weight of the conductive material with respect to 00 parts by weight. Then, by adding the conductive material to the coating composition, the surface resistivity of the coating film is 10 ⁵ to
By providing an appropriate electric conductivity in the range of 10 ⁸ Ωcm, the anions that are constantly generated from the anion-generating minerals that are added to the paint components are made smoother than the coating layer.
Passed to eventually release a large amount of negative ions into the air
be able to.

In the present invention, the anion-generating mineral is garnet or one or both of minerals containing barium, zirconium, silica, strontium, calcium, phosphorus, sulfur, chlorine and rare earth elements. Yes, as rare earth elements, yttrium,
Examples thereof include lanthanum, cerium, and neodymium.

The amount of the mineral added is determined by the required amount of generated anions. That is, when the interior of a building is assumed, it is selected based on the usage conditions and volume of the room, the coatable area, the desired amount of anions, and economical reasons. It is optimal to add 3 to 30 parts by weight of mineral to the parts by weight. Further, the particle size of the mineral is determined by the situation of the coating film, and the average particle size is 10 μm or less in the case of a paint for forming a smooth coating film. If the average particle size is 5m
It may be about m or less.

When a coating film is formed by the coating material of the present invention having the above-mentioned constitution, the anion-producing mineral is a polar crystal that is spontaneously polarized, and positive and negative poles are spontaneously generated at both ends of the crystal to generate a potential. Is stored permanently, so a weak current constantly flows from the positive pole to the negative pole. When the surface specific resistance of the coating film around the crystal particles is large and the electric conductivity is low, the charging property is increased and the current value of the weak current is decreased, so that the generation of anions is suppressed. Further, when the surface specific resistance of the coating film around the crystal particles is small and the electric conductivity is high, the potential between the adjacent crystal particles is neutralized and the generation of anions is suppressed. Therefore, in the coating film state, when the surface resistivity of the substance surrounding the mineral crystal particles is in the range of 10 ⁵ to 10 ⁸ Ωcm, it has appropriate electric conductivity, and thus the generation of anions on the coating film surface is high. it becomes possible to maintain the level, yet is generated
Smooth passage of anions, resulting in a large amount of negative ions.
The on can be released into the air .

In the present invention, the method of applying the coating material on the surface of the object is as follows:
Ringer roll coating, bar coater coating,
A usual coating method such as spray coating or brush coating can be used, and the coating film thickness may be the same as that of a normal coating.

[0014]

EXAMPLES Examples of the present invention will be described below. [Example 1] A water-based paint containing a copolymer emulsion of acrylic acid ester as a main component (Fuquat FX manufactured by New Year's Futech Co., Ltd.) and a conductive whisker containing potassium titanate as a main component (Dentor WK manufactured by Otsuka Chemical Co., Ltd. ),
10 parts by weight of conductive whiskers were added to 100 parts by weight of the paint, and ion-generating minerals ( barium, zirco) were added.
Ni, silica, strontium, calcium, phosphorus, sulfur
Clay ores containing all of the yellow, chlorine and lanthanum rare earth elements
The coating solution prepared by adding 20 parts by weight of (1 ) to 100 g of the coating composition and mixing it sufficiently with stirring is applied to a commercially available wallpaper at 180 g per m ² by airless spraying, and the surface resistivity of the coating film is 2.
3 × 10 ⁶ Ωcm, the number of anions generated is 1c from the wall
It was 500 to 650 per 1 ml of air separated by m, and a sufficient air cleaning effect was obtained.

[Example 2] A water-based paint (Furecoat FX manufactured by New Year's Futech Co., Ltd.) containing a copolymer emulsion of acrylic acid ester as a main component was added to a conductive whisker containing potassium titanate as a main component (Otsuka Chemical Co., Ltd.). Made by Dentor WK)
10 parts by weight of conductive whiskers were added to 100 parts by weight of the paint, and 5% garnet, barium and zirco were added.
Ni, silica, strontium, calcium, phosphorus, sulfur
A paint prepared by adding 10 parts by weight of 95% of a clay mineral (exciting material) containing all of yellow, chlorine, and lanthanum rare earth elements, and thoroughly stirring and mixing the solution was used for commercial wallpaper at 200 per 1 m ^2.
The number of anions generated in a room coated with airless spray is 600 to 7 per 1 ml of air 1 cm away from the wall.
The number was 80, and a sufficient air cleaning effect was obtained.

[0016]

In summary, according to the present invention, anion is constantly generated by applying it to the inside of a building, so that the air atmosphere in the living space is cleaned and the living environment of human beings is improved. be able to. When applied to the exterior of a building, it can prevent dust adhesion and the formation of mold and moss due to the surface-active effect of anions, making it an extremely simple and economical method with practical value. Will be high. The paint of the present invention can also be used as a finish paint for furniture, office equipment, electric equipment, various interior appliances, etc., and can be processed into a sheet or a sticker to improve the environment, It is possible to achieve an effect that the range of use is extremely wide.

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Hideo Tamanoi 6177-3 Omaezaki, Omaezaki-cho, Haibara-gun, Shizuoka Prefecture New Year's Beauty Beauty Co., Ltd. Shizuoka factory (72) Inventor Eisuke Nabeya 430 Shitashita, Fujisawa-shi, Kanagawa (56) Reference Documents JP-A-4-325571 (JP, A) JP-A-5-70716 (JP, A) JP-A-11-279445 (JP, A) JP-A-11-304231 (JP, A) JP-A-11- 314978 (JP, A) JP 11-155960 (JP, A) JP 2000-319587 (JP, A) JP 2000-63700 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) C09D 201/00 C09D 5/00 C09D 5/24 C09D 7/12 C09D 133/04-133/16

Claims (3)

(57) [Claims] 1. The surface resistivity of a coating film is 10 ⁵
For paint components with electrical conductivity in the range of -10 ⁸ Ωcm,
Garnet, or barium, zirconium, silica, strontium, calcium, phosphorus, sulfur, chlorine, rare
Anion generation characterized by adding fine powder of minerals that generate anions consisting of one or both of minerals containing all of the earth elements to generate anions from the coating film paint. 2. The surface resistivity of a coating film is 10 ⁵
The coating composition with electrical conductivity in the range of -10 ⁸ Ωcm
5 to 20 parts by weight of a conductive material selected from fine powder of conductive metal, carbon fiber and potassium titanate in an acrylic acid ester copolymer emulsion, based on 100 parts by weight of a coating component. The anion-generating coating composition according to claim 1, which is partially added to have electrical conductivity. 3. The surface resistivity of a coating film is 10 ⁵
Paint component 10 having electric conductivity in the range of -10 ⁸ Ωcm
Garnet or barium, zirconium, silica, strontium, calcium, phosphorus, sulfur for 0 parts by weight
Fine powder of minerals that generate anions consisting of one or both of minerals containing all of yellow, chlorine and rare earth elements 3
The anion-generating coating composition according to claim 1 or 2, which is added by 30 to 30 parts by weight.