KR970005872B1 - Process for the preparation of coating of far-infrared radiator - Google Patents

Abstract

The gangue and the mica are calcined at 1000 deg. C for over 4 hours in calcining furnace, dried, and pulverized as large as the size of paint composition. The obtained powder 40-50wt.% is mixed with water 45-50wt.% and a mixed solution 3-7wt.% of 0.2% aqueous acetic acid solution of chitosan and 10% aqueous solution of polyvinyl alcohol to give a far infrared radiation coating agent for inner surface of building architecture.

Description

Manufacturing method of inner surface coating of far infrared radiation building

The present invention relates to a method for producing a coating material having an infrared radiation effect by coating the interior surface of a building, that is, the ceiling, walls, and floors with paint, and in particular, preparing a coating material based on an infrared emitting ceramic component such as elvan. It relates to a method for producing a building inner coating to.

In general, the ceiling, the interior wall or the floor of a building is coated with cement concrete or coated with ordinary paints of various colors that give general plastering effect for office or factory use. It will create a plastering effect and a living environment by covering it with a ceiling material, a wallpaper or a tile, or a floorboard without painting anything else.

However, the interior of modern buildings, especially modern homes, cannot meet the same effect as the saddle field, which our ancestors enjoyed in the past and gave them a healthy effect, that is, the far-infrared effect emitted from the stone of clay and clay (clay) stacked on it. It is true. In other words, it is already well known in modern science that saddle field and clay are ceramics that emit far infrared rays, but we do not benefit from the change of residential life culture in modern times because of the outstanding scientific wisdom of our ancestors. In addition, there is no attempt or even effort to achieve such effects.

In consideration of this situation, we have been able to provide modern scientific methods without having to go through the cumbersome procedures, construction and processes such as sweet field or mud, while obtaining the health-promoting effect of far-infrared emission from the old field or mud used by our ancestors in the past. By easily coating a predetermined surface of the inner surface of the building, namely, homes, walls, floors, anywhere, and a method for easily obtaining the far-infrared emission effect obtained in the past saddle field and clay as described in detail as follows.

The calcite and mica (sema cycle) are fired in a kiln at about 1000 ° C. for at least about 4 hours, and then dried and pulverized into powder particles of the same size as those of the general paint composition, and a mixture of polyvinyl alcohol (PVA) or maltein A mixture of 0.2% acetic acid solution of chitosan in about 10% aqueous solution dissolved in boiling water, about 3-7% by weight, about 40-45% by weight of treated powder of ganguerite and mica and about 45-50% by weight of water To obtain an infrared radiation building inner surface coating agent of the present invention.

Since ganbanite has been widely used as a water purifying agent since ancient times, mica is also a mineral of silicate, which is excellent in dehydration, deodorization, and adsorption, and ganbanite and mica are far-infrared emission ceramics. The far infrared wavelength is longer and the emission amount is increased. Therefore, the calcined powder of gangue stone and mica emits far infrared rays which are beneficial to the human body. Thus, when the ceiling, walls, and floors of the building are coated with these building coatings, the far infrared rays are emitted. At this time, it emits a lot of far-infrared rays, so it is possible to obtain the health promotion effect of far-infrared emission by the old field and clay that our ancestors have benefited in the past.

In addition, chitosan added to the coating agent of the present invention is intended to give a long lasting effect of far-infrared emission of the elvan and mica. This is because chitosan is known to sustain and stabilize the fragrance and bactericidal properties of fragrances and fungicides.

Therefore, the coating agent of the present invention can be coated on both inside and outside surfaces of the building, and even after the coating, the coating material can be treated with another coating material, wallpaper, ceiling material, or flooring sheet without any significant trace on the surface. It is a feature of the coating agent of the present invention that the same effect as that of the janggujang is obtained.

Claims (1)

After calcination and mica are baked in a kiln at about 1000 ° C. for at least about 4 hours, dried, pulverized into powders such as powders of the paint composition, and a mixture of polyvinyl alcohol (PVA) or Maltein or any one of them in a hot water bath. 0.2% acetic acid solution of chitosan was mixed with about 10% dissolved aqueous solution, about 40-7% by weight of the treated powder of ganbanite and mica and about 45-50% by weight of water. A method of manufacturing the inner surface coating of far-infrared radiation building.