KR200354241Y1 - Far infrared rays paint of functional the using loess - Google Patents

Abstract

The present invention relates to interior and exterior materials for applying functional ocher paint containing far-infrared radiation using yellow soil and antibacterial ceramics.

The present invention, such as the main raw material of the far-infrared radiant powder and the antimicrobial ceramic powder, such as gonkyorin using ocher on the surface of the interior and exterior materials are mixed in the appropriate ratio to make a functional composite ceramic powder, and then the resin composition as a raw material for paint is appropriate By applying the functional far-infrared paint layer blended in proportion, it has excellent antibacterial and deodorizing effect, dehumidifying effect, anion generation and far-infrared radiation effect. to provide.

Description

Far infrared rays paint of functional the using loess

The present invention relates to interior and exterior materials for applying functional ocher paint containing far-infrared radiators and antibacterial ceramics using ocher, and in particular, loess having high-efficiency far-infrared effects and antibacterial effects, as well as far-infrared radiators and gonyorin It relates to the interior and exterior materials for the application of functional far infrared paints using ocher, in which a functional far-infrared paint layer mixed with an antimicrobial ceramic powder such as calcium carbonate is applied to the interior and exterior materials for construction. Health problems such as direct or indirect weakness of the body due to cement toxicity have been raised.

In addition, even in the case of the paint is generally used as a material that does not have a special affinity with the human body as a form of matching the color only in the humid summer, it did not respond properly to the growth of mold, microorganisms or various bacteria.

In addition, the paint as described above is known as a residential environment that is easy to harm the health of the indoor air is cloudy because various harmful gases are emitted from the applied paint when the coating is applied to the wall.

Recently, a variety of research and development is actively progressed as building materials with various possibilities in consideration of improvement of indoor environment and energy saving are required.

However, in the case of the above paints, the selection of raw materials, their formulation, construction and evaluation methods, etc., have yet to be established.

On the other hand, conventional gypsum board or general paint material used as a wall of the room has problems such as breathability or mold propagation, so as to solve this, ocher is emerging as an environmentally friendly functional indoor material.

That is, the loess-built house can be said to be a sample of far-infrared atmosphere, and the loess-built wall is excellent in controlling indoor temperature and humidity according to climatic conditions.

However, the use of ocher as a building material has difficulties in terms of adhesiveness and strength, and therefore, the use of the loess as a building material has a considerable limitation.

Therefore, the present invention was devised to solve the conventional problems as described above, the present invention, after processing the loess, amethyst, bentonite (bentonite) and pottery (pottery stone), each titration thereof A far-infrared radiant powder is prepared by mixing at a ratio, and the gon-gyorin is mixed with the far-infrared radiant powder, and the mixture is mixed with a functional far-infrared paint layer containing an aqueous acrylic emulsion, urethane or epoxy resin, which is widely used for paint. It can be applied to, to improve the detoxification and odor removal of harmful gases generated in residential spaces, as well as the effect of eliminating cement toxicity and preventing heat loss, promoting blood circulation and activating cellular functions by high-efficiency far-infrared radiation using loess. To suppress the production of fungi as well as various bacteria The purpose of the present invention is to provide interior and exterior materials for functional far infrared paint coating using ocher.

1 is a manufacturing process diagram of a functional antimicrobial ocher paint containing a far infrared radiation and antibacterial ceramics as an embodiment of the present invention. Figure 2 is a cross-sectional view of a functional far infrared paint layer using ocher to the interior and exterior materials as an embodiment of the present invention. . * Description of symbols for main parts of drawings * 1; Interior and exterior panels 2; Functional Far Infrared Paint Layer

The interior and exterior materials 1 of the present invention for achieving the above object is to form a functional far infrared paint layer 1 on the surface thereof, as shown in Figs. 1 and 2. That is, the functional far infrared paint layer 1 is First, 20 to 75 weight of the mixture of 0.1 to 20 microns of far-infrared radiant powder, a natural mineral of 0.1 to 20 microns using ocher, tourmaline, bentonite and pottery, and 0.1 to 20 microns of antimicrobial ceramic powder containing gonyorin and nano silver The composite ceramics powder is then produced by mixing the composite ceramic powder with an aqueous acrylic emulsion, a urethane or an epoxy resin, which is 30 to 80% by weight, and a dispersant and a thickener of 5 to 10% by weight, This is formed on the surface of the interior and exterior packaging (1). Here, the far-infrared radiation of the functional far infrared paint layer (2) formed on the surface of the interior and exterior packaging (1) The mixing ratio of the end of the antibacterial ceramic powder were each to occur 50 to 90% by weight of a 10 to 50 wt%.

The composite ceramic powder was obtained to obtain a fine composite ceramic powder from which moisture was removed to about 0.03% or less by hot air to maintain mechanical properties when mixed with a general purpose resin.

In this case, the smaller the size of the powder, the better the applicability, but considering various factors, it is preferable to set it to about 325 to 800 mesh.

In addition, as an additive of the functional far infrared paint layer 2, a dispersant may be used to increase the dispersibility of the composite ceramic powder, and the ratio is 0.1 to 8% by weight, and in the case of the aqueous functional far infrared paint layer 2, an appropriate viscosity A thickener may be used to have a ratio of 0.1 to 8% by weight.

At this time, the ocher is made of a honeycomb structure in which small rooms are tightly connected, and looks like a sponge. The main component is silicon, aluminum, iron, and magnesium, and at least half of the total components are silicon.

The silicon has a high oxidation affinity, so the amount of oxygen increases the adsorption rate of oxygen, so the rich oxygen is always stored in the double layer structure of ocher, and the molecular structure of ordinary soil such as kaolin is simple structure, but the double layer structure of ocher is further. to be.

In the multi-layer structure, voids are generated on both sides, so the possibility of bonding with surrounding particles increases, and the surface area is about 7 to 10 times larger than that of ordinary soil, so the adsorption ability is also excellent, which makes it possible to absorb and resist more far infrared rays. In addition, it is possible to absorb and store more far infrared rays in the small and dense chamber of ocher because the surface area of ocher is about 7 to 10 times the surface area of kaolin.

As such, the molecular structure of ocher is double layer, and this double layer structure has spaces at both ends, so that both voids can create more margin in the ocher layered structure and can store energy in the margin. Will be.

Therefore, ocher can confirm that it is an excellent far-infrared emitter among clay minerals because it can store a lot of far infrared rays such as honeycomb.

On the other hand, the firing process of ocher for producing a functional far-infrared paint layer having a high affinity for the human body requires a high level of technology according to the change in physical properties, and thus the superiority of the technology in the firing process may be greatly changed.

The firing purpose of the loess is to improve the physicochemical functionality by causing physicochemical changes of the loess material to make more useful materials and sintering them.

For example, ocher, which is a general chemical formula ([Al, Fe) _1.87 Mg _0.33 Si ₄ O ₁₀ (OH) ₂ Nao _0.33 ], is changed to mullite (3Al ₂ O ₃ 2SiO ₂ ) and silica (SiO ₂ ), The silica again reacts with the constituents to form glass, which combines with mullite to form a sintered body.

In addition, in the present invention, in order to increase the effects of the present invention during the firing process, to compare the mixing ratio and firing temperature of the main raw material ocher and other added raw materials in order to identify the process and radiation energy of the far infrared region suitable for the human body, the finished product Since it is manufactured, anyone in the same industry can manufacture the functional far-infrared paint layer 2 produced in the present invention, and then apply it to the interior and exterior materials 1. For the reasons mentioned above, even if a raw material mixture or a predetermined process is known. Nevertheless, the competitiveness is lowered compared to foreign products, and as in the present invention, a functional and far infrared paint is formed on the interior and exterior materials 1 for construction by attempting a scientific and systematic approach to manufacturing a functional far infrared paint layer that emits high efficiency far infrared rays. It was.

Referring to the preferred embodiment of the present invention step by step, as shown in Figure 1,

First, the composite ceramic powder is mixed as a first step.

That is, far-infrared radiant powder, which is a natural mineral of 0.1 to 20 microns, is made using a weight percent loess, 8 weight percent torumarin, 10 weight percent bentonite, and 7 weight percent pottery.

Thereafter, as well as gonkyorin nanoparticles containing 0.1 to 20 microns of titanium dioxide containing nano silver, and then the antimicrobial ceramic powder and far-infrared radiation powder is mixed to make a composite ceramic powder of 30 to 70% by weight.

On the other hand, after performing the second step of measuring and mixing the composite ceramic powder with the fine powder of 10% by weight, 0.5% by weight dispersant and 34.5% by weight of the aqueous acrylic emulsion resin and stirred it well as in the third step The functional far-infrared paint, such as the fourth step, can be completed, which can be applied to the interior exterior material (1).

As described above, the present invention uses a far-infrared radiation material such as ocher and antibacterial ceramic material such as gonyorin, which has been used as a raw material of traditional residential culture for generations of ancestors, to form a far-infrared paint layer having functionality in interior and exterior materials for construction. A large amount of far-infrared rays are radiated from the paint layer such as to enable the cell activities of living organisms to be active, as well as to improve the heat dissipation function to block the leakage of heat inside the room while eliminating the toxicity generated from cement. In addition, the antibacterial and deodorizing and dehumidifying effects as well as the various effects such as the generation of anions can be exerted, and without the wallpaper, it provides the effect that can be expected as the interior characteristics that the natural color is expressed as it is.

The present invention is not limited to the above-described specific preferred embodiment, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (1)

In interior and exterior materials for construction, On the surface of the interior and exterior materials, raw materials for paint containing far-infrared radiant powder using ocher, tourmaline, bentonite and pottery, composite ceramic powder mixed with antimicrobial ceramic powder such as gonkyorin, aqueous acrylic emulsion, urethane or epoxy resin, etc. A functional far-infrared paint coating material using ocher characterized in that it forms a functional far-infrared paint layer in which a ash, a dispersant for increasing the dispersibility of the composite ceramic powder, and a thickener for maintaining the viscosity of the paint properly is formed.