KR20040038612A - Paint mixture system of infrared radiation and anion occurrence - Google Patents

Abstract

PURPOSE: A far infrared ray radiating-and anion-emitting paint admixture is provided, to reduce an offensive odor and a harmful component and to prevent the inhabitation of bacteria and fungi on the surface of a structure. CONSTITUTION: The paint admixture comprises 27-33 wt% of a shale powder; 33-45 wt% of a serpentine powder; and 28-33 wt% of a muscovite powder. Preferably the powders are pulverized into a size of 500-1,000 mesh and/or heat-treated at a temperature of 1,100-1,250 deg.C.

Description

Paint mixture system of infrared radiation and anion occurrence

The present invention relates to a paint mixture used in mixing with a paint, and in particular, far-infrared radiation and anion-releasing paint not only allow the far-infrared rays beneficial to the human body to be radiated from the coating layer formed by applying the paint, but also to release anions that neutralize heavy metals. It relates to a mixing agent.

In general, paint is a fluid material, which is widely applied to the surface of an object to form a thin film layer, and is dried and cured over time, thereby protecting not only the surface of the object but also increasing aesthetics. Such paints are particularly applied to various structures such as buildings to enhance the appearance of the structures as well as to prevent damages such as corrosion and to improve durability.

Paints mainly used for the protection of structures such as buildings include oil paint, enamel paint, and water paint. These paints not only protect the building, but also increase aesthetics and improve insulation and heat resistance.However, the paint has a weak durability and abrasion resistance, which may cause peeling or cracking of the protective film, as well as far-infrared radiation and anion emission. The beneficial effects on the human body, such as humidity control, sterilization, antibacterial and detoxification, are extremely insignificant.

Therefore, when the paint is applied to the surface of the structure to be built using concrete, as described above, there is an effect that the structure is protected by the paint, the aesthetics are increased and heat insulation and heat resistance are improved, but odors generated from concrete And harmful components are not reduced or blocked and are discharged into the structure as it is, which not only adversely affects people living in or entering the structure, but also inhabits various bacteria or molds harmful to the human body on the surface of the structure. Approached.

Thus, in recent years, in order to solve the problems caused by the use of conventional paints as described above, there has been devised a technique of using a mixture of functional materials such as ocher, elvan, bioceramic and the like in the paint. However, ocher, charcoal, elvan, bioceramic, etc. emit far infrared rays or emit negative ions, but their expression is very small, and thus cannot be expected to have a great effect.

The present invention has been made to solve the conventional problems as described above, not only to emit far-infrared rays from the coating layer formed by applying the paint, but also to release anion to neutralize heavy metals, etc., generated from the structure and paint Far-infrared radiation and anion-releasing paint mixture that reduces harmful odors and harmful components, prevents harmful bacteria and fungi from inhabiting the surface of the structure, and prevents various pests and insects from accessing the structure. The purpose is to provide.

In addition, the present invention by allowing the far infrared rays are radiated from the coating layer formed by applying the paint, far infrared rays are absorbed by the human body to expand the capillaries and thereby promote blood circulation as well as to facilitate the production of cellular tissues It is also an object to provide far infrared emitting and anionic emitting paint mixtures.

Far-infrared radiation and anion-emitting paint admixture according to the present invention to achieve the object as described above, comprising the shale powder 27-33% by weight, serpentine powder 35-45% by weight, dolomite powder 28-35% by weight It features.

In such a constitution, shale powder, serpentine powder and dolomite powder are preferably powdered to 500 to 1000 mesh, and preferably heat treated at 1100 to 1250 ° C.

Hereinafter, the configuration of the far-infrared radiation and anion-emitting paint mixture according to the present invention in more detail.

Far-infrared radiation and anion-emitting paint admixture according to the present invention comprises 27-33% by weight shale powder, 35-45% by weight serpentine powder, and 28-35% by weight mica powder containing a natural mineral component. At this time, the composition ratio of the preferred shale powder, serpentine powder, and dolomite powder is 30% by weight shale powder, 40% by weight serpentine powder, and 30% by weight dolomite powder.

The shale, serpentine and dolomite described above are heat treated in the range of 1100 to 1250 ° C. to increase the strength before powdering. At this time, when the heating temperature is 1100 ° C. or less, shale, serpentine and dolomite can not obtain the appropriate strength, and when the heating temperature is 1250 ° C. or more, shale, serpentine and dolomite may be lost.

The heat-treated shale, serpentine, dolomite is powdered into 500-1000 mesh to be uniformly mixed with the paint prior to mixing with the conventional paint. At this time, when shale, serpentine and dolomite are powdered to 1000 mesh or more, not only cracks are generated in the coating layer formed by applying paint, but also the efficiency of far-infrared radiation and anion emission is lowered. There is a problem that the state is rough.

As described above, in the case of mixing a mixture made of shale powder, serpentine powder and dolomite powder, which have been subjected to the heat treatment and the powdering process, with a conventional paint, a mixture of 100 wt% of the conventional paint is used depending on the intended use. It will mix uniformly in the range of -80 weight%. For example, when paint is used as a finishing material for a building instead of mortar, the paint is mixed with about 80% by weight of a conventional paint to 100% by weight, and the paint is used for a general purpose, that is, to enhance the appearance of the structure or When used only for the purpose of preventing corrosion, the mixture of about 20% by weight of the conventional paint to 100% by weight.

Looking at the overall characteristics of the shale, serpentine, dolomite described above are as follows.

First, shale is a fine grain sedimentary sedimentary rock having a property of being easily peeled off in parallel to the stratified surface, also called shale, and composed of silt and clay having a particle diameter of 1/16 mm or less. The shale has a property of releasing a large amount of negative ions that neutralize heavy metals as well as radiating a large amount of far infrared rays, which is beneficial to the human body, due to its natural mineral component.

Serpentine is a monoclinic rock, which is formed by being altered from basic olivine or fluorite, contains little alumina, is very rich in magnesia, and has a hardness of 2.5 to 4, maintaining a relatively soft component. In addition, the serpentine is not only rich in reserves in Korea, but also easily collected and processed.In addition to shale, its natural minerals not only radiate large amounts of far-infrared rays, which are beneficial to the human body, but also neutralize heavy metals. Has the property of emitting.

Dolomite has a three-layered mineralogical structure, and when sprayed on contaminated water, the interlayer spacing expands and negatively charges, which neutralizes heavy metals with cations, and is a gas that is harmful to humans. Phosphorus NH ₃ , SO ₂ , CO, H ₂ S, Cl ₂ is decomposed and deodorized up to 80-100%, and emits more than 80-93% of far infrared rays at room temperature due to its own minerals.

On the other hand, far-infrared rays commonly emitted from shale, serpentine and dolomite have a strong resonance and resonance effect on organic compound molecules, and are well visible to the human body because they are invisible and well absorbed by materials. When absorbed by the human body, it warms up the body and helps to eliminate bacteria that cause various diseases, and expands capillaries to help blood circulation and cell tissue production. In addition, when far-infrared rays touch the water and protein molecules constituting the cells, the cells are shaken finely 2,000 times per minute to activate cell tissues, which is effective in preventing various adult diseases such as aging, promoting metabolism, and chronic fatigue. In addition, far-infrared rays are effective in promoting sweating, pain relief, heavy metal removal, sleep, deodorization, antibacterial, mold growth prevention, dehumidification, and air purification, so that housing and building materials, kitchen utensils, textiles, clothing, bedding, and medical devices It is used in many fields such as jjimjilbang.

Hereinafter, a specific embodiment of the present invention will be described. The following examples illustrate the invention in more detail, but do not limit the scope of the invention.

(Example)

30% by weight of shale powder, 40% by weight serpentine powder, and 30% by weight of mica powder, heated to 1200 ° C. and powdered to 750mesh, were uniformly prepared to prepare a far-infrared radiation and anion-emitting paint mixture according to the present invention. In the process of applying the paint mixture prepared as described above to the surface of the structure by mixing with a conventional paint, when used as a finishing material for finishing the building, the conventional paint and paint mixture to 55% by weight and 45% by weight, respectively When the mixture was uniformly mixed and used for the purpose of making the structure beautiful or preventing corrosion of the structure, the conventional paint and the paint mixture were uniformly mixed at 83 wt% and 17 wt%, respectively.

As described above, after the paint mixed with the paint mixture according to the present invention and the conventional paint are applied to the surface of a building and compared and examined, the coating layer formed by the paint mixed with the paint mixture according to the present invention (hereinafter, A It can be seen that there is a remarkable difference in the effect from the coating layer (hereinafter referred to as B) formed by ordinary paint.

That is, the buildings with A on the surface showed much less odors or harmful components emitted to the outside than the buildings with B on the surface, while the far infrared radiation and anion emissions were much more beneficial to the human body. In addition, as a result of observing the surface of A and B, the surface of B showed a lot of various bacteria or mold harmful to the human body, but in the case of A, it was found that the bacteria or the fungus rarely reproduced. In addition, in the case of B, various pests or insects approached a lot, but in the case of A, there were hardly any pests or insects approaching.

As described above, the far-infrared radiation and anion-emitting paint admixture is made of a mineral having a natural mineral component, and emits far-infrared rays from the coating layer formed by applying the paint and emits anions. It has the effect of reducing harmful components, preventing various harmful bacteria and fungi from inhabiting the surface of the structure, and preventing various pests and insects from accessing the structure. Harm can be prevented in advance.

In addition, the present invention by radiating far infrared rays, when the far infrared rays are absorbed by the human body, as the body warms, the capillaries are expanded to promote blood circulation as well as to facilitate the generation of cellular tissues, thereby preventing various adult diseases.

Claims (3)

Far-infrared radiation and anion-emitting paint mixture, characterized in that comprising 27-33% by weight shale powder, 33-45% by weight serpentine powder, 28-33% by weight dolomite powder. The method of claim 1, The shale powder, serpentine powder, dolomite powder is far-infrared radiation and anion-emitting paint mixture, characterized in that powdered to 500 ~ 1000mesh. The method according to claim 1 or 2, The shale powder, serpentine powder, dolomite powder is far-infrared radiation and anion-emitting paint mixture, characterized in that the heat treatment at 1100 ~ 1250 ℃.