KR20050004559A - Painting Material and Method of Building with Nano-Silver - Google Patents

Abstract

PURPOSE: A coating material for a building and a coating method thereof are provided to apply silver-containing coating material showing fungicidal effects, anti-bacterial action and deodorizing effects onto more extensive areas. CONSTITUTION: The coating material for a building comprises nano silver particles which is prepared by adding silver nitrate, a dispersant and a colloidal stabilizer to distilled water and introducing the distilled water into a reducing agent-added solution. The coating material may further comprise any one or at least one selected from silica colloid, alumina colloid, titanium dioxide colloid and ceramic colloid in order to increase the adhesion strength and the deodorizing function. In the coating material, the dispersant comprises a surfactant in order to inhibit the precipitation of silver particles. Such coating material is applied onto an internal wall, an external wall, a ceiling or a floor of the building via a brush or a spray.

Description

Painting Material and Method of Building with Nano-Silver

The present invention relates to a building coating material and a coating method to which nanosilver particles are added, and more particularly, to a building coating material and a coating method to which nanosilver particles are added to apply on a cement mortar of a building to improve antibacterial and deodorizing effects. It is about.

As the standard of living improves, interest in the environment and health increases, while the surroundings are contaminated day by day due to the flooding of various chemicals. Various harmful substances and germs are contaminating food, clothing, and houses, so removing these substances is an important industrial field today.

On the other hand, buildings are also developing for various uses, and various paint materials and finishing materials used here are also being developed with new physical properties and new functions. For example, ceramic paints that activate the body's energy by releasing far infrared rays using ocher or ceramic-based inorganic raw materials, antibacterial paints that suppress the harmful bacteria and molds, and emit fragrance in the room for a certain period of time. Paints and the like are being developed.

Various structures inhabited by people are structurally inevitable in order to allow people to use them safely for a long time. As a result, cement poisons generated on concrete floors and walls caused itchy skin, heavy body, and mental instability. Also, radon, asbestos, and other chemicals in indoor curtains, carpets, flooring, and wallpaper. The indoor air mixed with harmful ingredients such as formaldehyde penetrates into the human body through the human respiratory system, causing problems.

In recent years, new buildings and newly-innovated buildings have eye pains and dizziness, which are found to be caused by VOC (Vollatile Organic Compounds) contained in building materials such as concrete, wallpaper, flooring and adhesives. have.

As such, techniques for removing bacteria or harmful substances contained in buildings have been disclosed, and one of them is technology using silver.

Silver has long been known as a metal that is beneficial to mankind, and has been used as silver cutlery, silver chopsticks, silverware and silver for removing bad breath. In addition, the herbaceous hardwood is said to have silver in the body, so that the five intestines are comfortable, the mind and body are stabilized, the bad body can be driven out, and the body can be lightly lived for a long time. In the agreement, it is noted that silver is effective in preventing and treating psychiatric diseases such as epilepsy and game and cold disease. Silver, which is known for its benefits to the human body, is expensive and is mainly used only for expensive products.

Silver is a well-known material as a general-purpose antimicrobial agent. Colloidal silver is known to have excellent effects on bacteria, fungi and viruses, but also has no side effects. Particularly, in the case of nano silver solution in which silver is dispersed into fine particles (1-100 nm), it easily penetrates into cells and causes them to suffocate by stopping the function of enzymes necessary for breathing by viruses, bacteria and fungi. This is because the germ's metabolism is prevented and sterilized, and the silver's electrical load from the silver inhibits germ's reproductive function.

Therefore, by applying such a beneficial silver to the building can increase the antibacterial and deodorant effect, but due to the high cost is not actually used.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a colloidal coating material containing silver of nanoparticle size.

In addition, an object of the present invention is to provide a coating method that can apply a silver-containing coating material to a large area at a low cost by forming expensive silver in nanoparticle size to apply to the building.

1 is a flow chart showing a method of producing a building coating material to which the nano-silver particles according to an embodiment of the present invention.

2 is a cross-sectional view showing a state in which the building coating material to which the nano-silver particles are added to the building wall according to an embodiment of the present invention.

The present invention has been made to solve the above problems, the silver nitrate in distilled water, a dispersant, a colloidal stabilizer is added, the distilled water is added to the building coating material added to the nano-silver particles produced by adding the reducing agent to the solution. It is about.

In addition, the present invention is made by further adding any one or more of silica colloid, alumina colloid, titanium dioxide colloid, ceramic colloid in order to increase the adhesion and deodorizing function of the coating material to the coating material.

In addition, the dispersant of the present invention comprises a surfactant, characterized in that the surface of the fine silver particles to be hydrophobic to prevent the precipitation of the silver particles.

In addition, the building coating method added nano-silver particles according to another embodiment of the present invention, the step of applying the coating material to any one of the inner wall, outer wall, ceiling, floor of the building with a brush or sprayed with a spray; .

Hereinafter, a building coating material and a coating method to which nanosilver particles are added according to an embodiment of the present invention will be described.

1 is a flowchart illustrating a method of producing a building coating material to which nanosilver particles are added according to an embodiment of the present invention, which will be described with reference to the drawing.

First, silver nitrate (AgNO ₃ ) is added to distilled water. (S100)

A dispersant and a colloidal stabilizer are then added. (S110) The dispersant to be added comprises a substance such as a surfactant, and the surface of the fine silver particles liberated in silver nitrate becomes hydrophilic, whereby the silver particles bind with the dispersant to precipitate. To prevent them.

When the surfactant forms silver particles by reduction from silver ions, they play a role in controlling the size and size distribution of the particles. Surfactants are adsorbed on the surface of the silver particle nucleus in the solution in which silver particles are formed due to the inherent nature of adsorption at the interface to prevent fusion between nuclei and reduced silver atoms by delaying or preventing binding to the nucleus surface. It serves to make fine silver particles with a uniform distribution.

The silver aqueous solution thus prepared is added to a solution to which a reducing agent is added in advance to prepare a nanosilver colloid. (S120) Silver nanoparticles having a particle size of 1 to 5 nanometers are present in the nanosilver colloid.

Nanosilver colloid can be applied to the walls of buildings by itself, but commercially available silica colloids, alumina colloids, titanium dioxide colloids and other ceramic colloids are mixed in order to maximize the adhesion, far-infrared radiation and deodorizing function of nanosilver colloids. It is preferable to. (S130).

2 is a cross-sectional view showing a state in which the building coating material to which the nano-silver particles are added to the building wall according to an embodiment of the present invention, with reference to this.

The wall surface of the building is coated with cement mortar (2) on the surface of the reinforced concrete (1), and the nano-silver colloid (3) is applied. At this time, the nano-silver colloid (3) is preferably evenly coated with a brush or roller, or sprayed using a spray so that the evenly dispersed on the cement mortar (2).

Application of the nanosilver colloid 3 is preferably applied uniformly from the top to the bottom of the wall surface. In addition, during application, the air temperature should be 4 ° C or higher, and after application, it is dried while protecting it from foreign substances.

When the application and drying of the nanosilver colloid 3 is completed, the treatment of the wall surface is completed by constructing the designated finishing material 4. Types of the designated finishing material (4) includes wallpaper, tiles, wood, etc., can also be applied directly to the water-based paint.

The building coating material and the coating method to which the nano-silver particles according to the embodiment of the present invention has been described above, but the scope of the present invention is not limited to these embodiments.

In the present embodiment, a surfactant is used as the dispersant, but other materials may be used to smoothly disperse the silver particles in the aqueous solution.

In addition, the present embodiment mainly described the interior and exterior walls of the building as the main construction object, it is obvious that it can also be used for the floor or ceiling of the building.

In addition, the present embodiment has been described as applying the nano-silver colloid on the reinforced concrete or cement mortar, it may be used in combination with reinforced concrete or cement mortar.

According to the present invention, by applying the silver on the wall of the building excellent in the effect of preventing and removing the fungus, antibacterial and deodorizing effect, there is an effect that can promote the health of residents by removing harmful components and bacteria.

In addition, according to the present invention, by making expensive silver into nanoparticles and applying it together with an adhesive, there is an effect of applying a large area of the wall surface even with a small amount of silver.

Claims (4)

A building coating material in which silver nitrate is added to a distilled water, and a nano silver particle made by adding a dispersant and a colloidal stabilizer and adding the distilled water to a solution to which a reducing agent is added. The method of claim 1, Building coating material to which the nano-silver particles made by additionally adding any one or more of silica colloid, alumina colloid, titanium dioxide colloid, ceramic colloid in order to increase the adhesion and deodorizing function of the coating material to the coating material. The method of claim 2, The dispersant comprises a surfactant, and the surface of the fine silver particles are hydrophobic to prevent the precipitation of the silver particles, building coating material added nano-silver particles. The method according to any one of claims 1 to 3, Applying the coating material to any one of the inner wall, outer wall, ceiling, floor of the building with a brush or spraying with a spray; building coating method comprising the nano-silver particles comprising a.