KR20060084341A - The good environment paint to the natural mineral of the method - Google Patents

Abstract

The present invention uses natural minerals as interior and exterior paints of all buildings, which are our living spaces, and is excellent in weatherability and pollution resistance and maintains the durability of the coating film even in poor environmental conditions.

The present invention is antibacterial, far-infrared radiation, antifouling, economical, workability of coating, weather resistance, prevention of condensation. In addition to being able to have insulation and anti-aging at the same time, the use of 100% eco-friendly natural materials to benefit the natural as well as our human beings.

In the interior of the living space, the breathable paint provides breathability, preventing condensation from inside the building and allowing the far-infrared ray to emit radiation to maintain health.

Silver, silica sand, far infrared sol

Description

The eco-friendly paint manufacturing method using natural minerals

The present invention is an invention for making environmentally friendly paints using natural inorganic minerals to provide breathability to block the phenomenon of condensation in the building, to block the mold of the source, and also to emit far infrared rays It is an invention which can see the effect of anion.

Conventional paints are often made of steel-framed concrete structures that cause moisture in concrete due to external rainwater or condensation caused by temperature differences that can intensify condensation and moisture from existing building paints. It can also be a major factor.

Moreover, the existing paints are painted on the wall, and since the coating does not have water repellency, various types of moisture from the outside point to the wall and invade the building.

It is an invention that can solve the disadvantages of an environmentally friendly paint production method using natural minerals.

Therefore, the object of the present invention has been devised in view of the above-mentioned conventional problems, and it is an absolute necessity for an invention capable of simultaneously presenting a solution for these serious problems.

The use of clay minerals Mica and Zeolite, which are common in our surroundings, simultaneously raises the price imbalances and product imbalances and supply and demand of existing raw materials. Will be solved.

Moreover, the effect of far-infrared rays, which has no relation to the foods that affect the filamentous constitution of our human body, is based on the fact that the higher the far-infrared radiation value, the more proportional the effect of our human body is. It prevents the aging of the building by blocking or removing Sox and Nox that oxidizes the building and oxidizes the building.

In addition, the concrete coating has developed a breathable breathing function to block the condensation phenomenon and to prevent the bacteria and in particular, the mold to inhabit in a humid place By doing so, it creates a space for clean living.

In addition, it is not only excellent in price competitiveness but also in productivity, so we can not only present our descendants but also how to use natural minerals to inspire the nation's competitiveness, and to combine nano technologies with various functions. Advanced mineral sciences have superior technological and price competitiveness by creating new, fresh and groundbreaking paints for minerals

The following references the effects of far infrared rays on our human body.

In a blocked physical system that has no influence from the outside, the overall energy is immutable regardless of any physical or chemical change inside. Helm Holtzmeier's constant law of energy in the 1840s. Has established the fundamental principle of physics.

All energy in the universe is never perished under the law of conservation of energy, but is always changing form.

In other words, some of the energy must be generated, one of which is radiant heat, and some of it is in the form of far-infrared.

Therefore, heat transfer is carried from the high place to the low place.

There are three ways to transfer heat energy from a heat source to an object: conduction, convection, and radiation.

Conduction is a phenomenon in which heat moves from the hot portion to the cold portion through the inside of the object, and radiation is transferred from the heat source directly to the object as electromagnetic waves.

Radiant heat means that electromagnetic waves are radiated directly from a heat source without the need for an intermediate heat medium, and are reduced to heat by touching an object as a subject.

This phenomenon is called the resonance absorption phenomenon, when the infrared energy is absorbed by the material, the energy of the infrared light is converted into thermal energy in the material, and when the infrared light with the frequency is touched, it vibrates the vibration in the object.

Due to this phenomenon, even at a temperature slightly higher than room temperature, sweat such as high temperature is discharged, and various effects obtained at high temperature of the human body can be obtained at room temperature and have strengths that can be felt.

Sunlight shakes in an electric field and a magnetic field and flies in waves.

)선, X선이 있고 그 다음에 자외선, 가시광선으로 이어지게 되는데 가시광선은 인간의 눈에 보이는 무지개색이며 이 가시광선의 가장 파장이 짧은 보라색 보다 짧은 쪽의 보라색 밖에 있다고 "자외선"이라 부르고 가장 파장이 긴 빨강색 보다도 긴 쪽의 빛을 빨강색의 밖에 있다고 "적외선"이라고 한다. 적외선은 0.8∼1,000㎛까지의 넓은 넓은 영역의 빛으로 그중에서 5.6∼15㎛사이의 빛이 인체에 가장 유익하며 5.6∼1,000㎛ 사이의 빨강색 밖의 먼 쪽의 빛이라 원적외선이라 한다.The nature of the light varies depending on this wavelength, and the gamma (

), Then X-rays, followed by ultraviolet rays and visible rays, which are the rainbow colors visible to the human eye, which are called the "ultraviolet rays" that are outside the shorter violet than the shortest violet. The longer light than the longer red is said to be "infrared" outside of red. Infrared rays are light in a wide area ranging from 0.8 to 1,000 μm. Among them, light between 5.6 and 15 μm is most beneficial to the human body.

2. Efficacy due to far infrared rays

1. Minerals with far-infrared rays play a decisive role in breathing due to the high porosity principle.

2. Far-infrared rays give continuous ionization of water molecules and strengthen the binding of water molecules to make the movement active and hydrate evenly.

In addition, the stronger the condensation of the water molecules, the more active the water molecules.

3. Far-infrared rays actively promote the restoration movement to healthy living objects without destroying biological tissues by promoting mass transfer.

4. Far infrared rays activate water molecules. The water molecules are subjected to a violent movement of 10 ^-12 / sec due to the far infrared rays (Pico, ㎛㎛), causing wavelengths around 10 microns. Far infrared rays are radiated to ionize water, which causes four forced motions:

(See the figure in Table 1 below.)

① Deflection (變 角) movement: The angle of hydrogen is inverted to 180 ° ~ 105 °.

② Translational movement: a movement that bends from side to side as if swaying in the wind

③ rotation (回 傳) movement: the motion of spinning round

④ stretching (운동) movement: movement to narrow and increase the distance between the hydrogen and oxygen atoms.

With the above four movements, the hydrogen ion concentration of water is usually around 7, but increased to 7.5 ~ 7.8 by far-infrared radiation, which converts it into activated alkaline alkaline water.

Example 1

The starting materials of the present invention used minerals mined in our country and cleaning agents produced in Korea.

Natural mineral powder was selected by crushing 20-35% by weight of Mica from 1000-Mesh from Eden Mine located in Gyeongbuk, and the whiteness was over 90.

The product of Jinheung Chemical Co., Ltd. (Zno) 20-35% by weight and the particle size of 0.2㎛ or more was selected and the whiteness was 97 or more.

Silver nitrate (AgNo3) of Dongyang Chemistry was used as 99.9% reagent grade and was added by adding so that the final kneading value was 0.5% by weight (5,000 ppm).

3-5 weight% of the far-infrared radiation sol (Sol) manufactured by CPC Co., Ltd. was used.

Example 2

In order to coat the far-infrared sol on the mica powder and zinc powder obtained in Example 1 above, water was filled with three times the weight ratio, and as a metal ion substituent, the formula C10H16N2O8. Ethylenediaminetetraacetic acid tetrasodium (EDTA-4Na) was added to 100 ppm in 100% by weight of water, and then slowly stirred to form a melt solution. The mica powder and zinc powder (Zno) selected in the process of Example 1 were gradually added. After the addition, slowly stir well at a rate of 50 RPM to obtain a thin suspension after about 60 minutes of sufficient stirring time so that ethylenediaminetetraacetic acid tetrasodium tetrahydrate (EDTA-4Na) can be sufficiently coated on the surface of the particles. .

Again, 3-5 wt% of the far-infrared radiating sol (Sol) was obtained in the above process, and the temperature inside the reactor was adjusted to 45 ° C., and then reacted for 10 hours or more to allow the far-infrared ions to be replaced. It is a process.

Example 3

A water glass made of sodium (Na) -based 50% siliceous solution is made of silver nitrate, which is the material selected in Example 1 above, as an inorganic antimicrobial agent. And slowly put into the candle made of a combined use of the stirrer and stirred at RPM 50 or more.

Again, the material obtained in Example 2 was stirred at a high speed of 200 RPM or more for 30 minutes or more, and then visually applied to the thin film to confirm the dispersion state of the powder diluted on the glass specimen firstly. If the dispersion state is insufficient after completing the check procedure, it is very important to increase the time of stirring to sufficiently disperse the dispersion.

The process is completed by raising the heat of 45 ° C to allow sufficient aging for 24 hours.

As described above, according to the present invention, it is an indispensable thing in our living spaces and various living spaces, and the material of paint in various places of our lives is a dress that makes a beautiful aesthetic sense to the building and puts clothes on. It fulfills our right to live healthy lives.

It is a new invention that these materials are not only environmentally friendly but also allow various functions to play a role in making us comfortable and comfortable.

There are many factors that can injure our health when we look at the spaces we live in, but we are one of the things we pass lightly.

These paints have a direct impact on living spaces and include respiratory diseases and allergic and volatile organic compounds (VOCs). Formaldehyde (HOHC). Sox and nitrogen compounds (Nox) and other things that have a lot of bad things without any interest.

In addition, we may be lethal by the microorganisms as well as the superbacteria that we are not interested in.

Therefore, in order to improve the environment in such a bad condition, it was used even with expensive royalties from developed countries that were already developed.

But it is an invention that created new technology by combining our mineral with our technology.

Claims (3)

Natural mineral powder used in the present invention was selected from 20-35% by weight of mica (Mica) crushed into a high powder of 1000Mesh or more provided by the Eden Mine located in Gyeongbuk. and, The production process of 20-35% by weight of zinc powder (Zno), which is a product of Jinheung Chemical, and the particle size of 0.2㎛ or more, and the whiteness is 97 or more, In order to use it as an inorganic antibacterial agent, it was used as a 99.9% reagent grade of silver nitrate (AgNo3) of Dongyang Chemical, and it was manufactured by adding it so that the final addition value was 0.5% by weight (5,000 ppm). In addition, it is a manufacturing process using 3-5% by weight of the far-infrared radiation sol (Sol) manufactured by CPC Co., Ltd. to emit far-infrared radiation. In order to coat the far-infrared sol on the mica powder and zinc powder obtained in Example 1 above, water was filled with three times the weight ratio, and as a metal ion substituent, the formula C10H16N2O8. Ethylenediaminetetraacetic acid tetrasodium (EDTA-4Na) was added to 100ppm in 100% by weight of water and stirred slowly to form a melt solution. The mica powder and zinc powder (Zno) selected in Example 1 were slowly added. After the addition, slowly stir well at a speed of 50 RPM to obtain a thin suspension after 60 minutes of sufficient stirring time so that ethylenediaminetetraacetic acid tetrasodium tetrahydrate (EDTA-4Na) can be sufficiently coated on the surface of the particles. Is the manufacturing process, Again, 3-5 wt% of the far-infrared radiating sol (Sol) was obtained in the above manufacturing process, and the reaction was performed for 10 hours or more in order to replace the far-infrared ions after adjusting the temperature inside the reactor to 45 ° C. It is a manufacturing process. A water glass made of sodium (Na) -based 50% siliceous solution is made of silver nitrate, which is the material selected in Example 1 above, as an inorganic antimicrobial agent. And then slowly added to the candle made by mixing the stirrer is a manufacturing process of stirring for at least 5 minutes at RPM 50, Again, the material obtained in Example 2 was stirred at a high speed of 200 RPM or more for 30 minutes or more, and then visually applied to the thin film to confirm the dispersion state of the powder diluted on the glass specimen firstly. If the dispersion state is insufficient after completing the check procedure, the manufacturing process to increase the time of stirring to sufficiently disperse is very important. This is a manufacturing process that finishes all the processes by raising the heat 45 ℃ again to be fully aged for 24 hours.