KR100407898B1 - liquid illite coating material for structure's surface - Google Patents

Abstract

The present invention relates to a building finishing material, and more particularly to the floor, walls, ceilings, etc. of the building using a spray, paint brush or paint roller, etc. The present invention relates to a liquid illite coating agent for building floors made of a liquid to be coated.

Liquid illite coating agent according to the present invention includes an illite powder having a weight ratio of 60% to 80% pulverized very finely into 2000 to 3000 mesh, and a solvent to maintain a liquid phase by stirring with the illite powder Characterized in that the configuration.

In addition, the liquid illite coating agent according to the invention is characterized in that it is formed by stirring with the solvent after mixing 10% to 20% (weight ratio) of the finely ground charcoal powder to 2000 to 3000 mesh to the illite powder.

According to the present invention, a liquid containing an illite containing a liquid that can be easily applied to the existing building, or a new building by spraying an illite that promotes metabolism and cell activation by radiating far infrared rays to the human body. You can provide a value. In addition, when constructing an illite as a building floor material, the construction time and construction cost are reduced and the work is easier than in the case of the conventional mortar type. There is a contributing effect.

Description

Liquid illite coating material for building finishing construction

The present invention relates to a building finishing material, and more specifically, to the floor, wall, ceiling of a building using a spray, paint brush or paint roller, etc. It relates to a liquid illite coating for building finishing made of a liquid to be coated on the back.

In addition, the present invention can easily form a far-infrared emitting layer and a strong bacterial barrier layer on the floor of the building by mixing the fine powder of the illite with the fine powder of charcoal into a liquid phase. The present invention relates to a liquid illite coating agent for building floors.

Recently, as interest and research on nuclear radiation emitters are increasing, one of the far infrared radiation emitters, illite [KAℓ ₄ (AℓSi ₇ O ₂₀ ) (OH) ₄ ], is a clay-like soft mica mineral. Like bioceramic, it emits far infrared rays and anions. Far infrared rays emitted from these lights are far infrared rays within the wavelength range of 5-20 micrometers, which is the best for the human body. It is known to act to promote the production of enzymes by activating the aging cells to promote the excretion of waste and excess fat in the human body, as well as inexpensive high emissivity (88% at 5-25㎛ wavelength at room temperature) ~ 93%) is gaining the spotlight as a material capable of obtaining far infrared rays.

Various related developments are being made to utilize the efficiency of the illite, and deodorants of refrigerators or houses are developed and marketed by utilizing various toxic gases, odor removal, bacteriostatic action (removal of viruses, bacteria, etc.), When mixed with animal feed, the meat is improved and the feed containing light has been developed to take advantage of the effect of reducing feed costs.In addition, it is used as an additive material for daily necessities (soap, toothpaste, etc.), or in bed, bags, cushions, It is developed and marketed using materials such as clothing.

In addition, it is used as a floor finishing material for buildings such as houses, apartments, or buildings by taking advantage of the fact that illite promotes blood circulation and metabolism of the human body. In this regard, construction methods have been developed in various ways. .

Korean Patent Laid-Open Publication No. 1999-98 contains 30 to 58% by weight of illite, and the compression strength is 40-380 Kgf / ㎠ by adding compact magnesium (MgO) and magnesium sulfate (MgSO4). Far infrared radiation ondol flooring material is disclosed. Such ondol bricks will not only require a lot of time and money in the process of forming and constructing them, but will also require a professional workforce. In particular, it will be difficult to carry out far-infrared radiation construction for the existing buildings.

Korean Patent Laid-Open Publication No. 1999-0043936 discloses a method for producing an illite mortar, and many constructions are made in this way. In other words, 40-45% of illite powder is mixed with 30-35% of sand and 20-30 of white cement to produce mortar and finish the flooring. This method also has the disadvantages of Publication No. 1999-98 as it is, it takes a lot of money and time to construct, and there is a disadvantage that it can not be easily installed in ready-made buildings.

In addition, conventionally, there was a limit in making illite into a liquid coating agent.

That is, in general, the illite supplied on the market has a problem that the particle size is relatively large, and it is difficult to apply it with a spray or the like when it is a non-uniform liquid.

The present invention has been made to solve the above problems, the first object of the present invention can reduce the cost and time when finishing the construction of the floor, wall, ceiling, etc. to the building, and can be easily installed The second purpose of the present invention is to stir the far-infrared radiation layer on the floor, wall, ceiling, etc. of the building by spraying, etc., by stirring with a solvent of a conventional coating material. It is an object of the present invention to provide a liquid illite coating agent for building finishing.

The liquid illite coating agent according to the present invention in consideration of the above point is maintained in a liquid state by stirring with the illite powder having a weight ratio of 60% to 80%, which is pulverized very finely at 2000 to 3000 mesh, and the illite powder. The reason for limiting the weight ratio of the illite to 60% to 80% in mixing the illite powder with the solvent is the minimum weight ratio of the illite capable of maintaining the viscosity as a coating agent. Is 60% by weight, and the maximum weight ratio that can maintain the liquid phase as the coating agent is 80% by weight.

In addition, the liquid illite coating agent according to the present invention is characterized in that the char is mixed with the solvent by mixing 10% to 20% (weight ratio) of the pulverized charcoal to 2000 to 3000 mesh. The illite powder having a weight ratio of 20% or more, which is pulverized into 2000-3000 mesh, and the thickener and water containing the illite are mixed to form a liquid to be applied to the floor or wall of the building by spraying. The reason for containing 10% to 20% of charcoal is because the minimum weight ratio of charcoal capable of adsorption and antibacterial is 10%, and the maximum weight ratio of charcoal for easily adding color is 20%. The colorant is characterized in that any one of silicone modified epoxy resin, silicone modified acrylic resin, silicone modified resin.

In order to practice the present invention, it is essential to form the illite as an ultra fine powder.

Illite ultrafine powder, which is an essential element of the present invention, can be prepared using the following process.

In other words, the crushed illite raw material is put into the crusher, pulverized into 500-2000 mesh, blown into the pulverizing chamber, introduced into the cyclone through the doctor, filtered through a filter, and only pulverized into fine particles over 1000 mesh. After mixing the fine powder and hydroselide at a volume ratio of 20: 1, put it together with a suitable amount of water in a drum of a compact friction grinding machine and friction grinding for more than 2 hours to rotate the grinding machine to obtain a semi-solid state through friction grinding. Fill the drum of the friction grinder with water to continuously rotate the friction grinder to dislodge impurities and sulphated materials, stop the grinding operation, add the precipitant and hydrosulfide neutralizer to the water, and leave it within 10 hours to extract the water. The operation is repeated at least three times to obtain a residue, which is forcibly discharged to a spinning machine and put into a drier, which is subjected to After drying in and out of powder, it is put into a rotary mill and pulverized, whereby an ultra fine illite powder of 2000 mesh or more can be obtained.

The ultra fine powder of charcoal can also be obtained by the same process. The ultra fine powder and the solvent to be stirred can be variously selected as necessary.

As the solvent, an inorganic solvent or an organic solvent may be used. Recently, natural solvents, such as orange tree extract citrus oil, pine extract of terepin oil, yucriptus terpene oil and divergent terpene oil, may be used. Organic solvents have the drawback of smelling through the volatilization process after application, there is no such problem when using a natural solvent.

The coating agent according to the present invention may be produced by rotting the ultra fine powder of illite in a solvent containing a thermoplastic resin and a thermosetting resin of a general paint, but the illite powder should not be broken or detached in an environment where the temperature is high such as flooring, so that the heat resistance is as high as possible. It is preferable to manufacture so that it is.

As a preferable example of the heat-resistant liquid illite coating agent, a solvent made of conventional silicone modified epoxy resin or silicone modified acrylic resin as a colorant or adhesive may be used, or a solvent containing silicone modified resin as a colorant may be used. .

It is preferable to use organic solvents, such as xylene, butanol, and MIBK, for viscosity adjustment.

Synthesis of the liquid illite coating agent by the present method can be performed without using a curing agent, but when fast drying is required, a curing agent mixed with toluene diisocyanate, ethyl acetate, trimethyl alcohol or furopan can be used.

The silicone modified resin is a resin solution obtained by reacting a liquid composition consisting of butyl acrylate, styrene monomer, methyl methacrylate, 2-hydroxyethyl methacrylate and acrylic acid at a mixture of xylene and cellosolve acetate at 120-130 ° C. It can be obtained by reacting silicone resin with.

According to the present invention, a liquid containing an illite containing a liquid that can be easily applied to the existing building, or a new building by spraying an illite that promotes metabolism and cell activation by radiating far infrared rays to the human body. In addition, when constructing an illite as a building floor material, the construction time and construction cost are reduced and work is easier than in the case of the conventional mortar type. It has the effect of contributing to the general dissemination of the substance.

Claims (4)

Inorganic solvents and organic solvents after mixing 60% to 80% of the elite powder in a weight ratio of 60 to 80% and pulverized in 2000 to 3000 mesh, and 10% to 20% of the fine powder in a weight ratio of 2000 to 3000 mesh. , Liquid illite coating agent, characterized in that it comprises a solvent and any one of the solvents to maintain the liquid state is stirred with a solvent. delete delete The liquid illite coating agent according to claim 1, wherein the colorant of the solvent is any one of a silicone modified epoxy resin, a silicone modified acrylic resin, and a silicone modified resin.