KR100220122B1 - Far-infrared radiator - Google Patents

Abstract

The present invention relates to far infrared radiation compositions.

Far-infrared radiation composition for smoothing the metabolism of the human body is widely used in various household goods, but the disadvantage is that the price is expensive by using artificial ceramic mainly, the present invention is a cheap and high emissivity far-infrared radiation composition obtained from natural minerals to be.

Description

Far Infrared Radiation Composition

The present invention relates to a novel far-infrared radiation composition, and more particularly to a far-infrared radiation composition that can be obtained cheaply from various natural minerals.

In general, infrared light was first discovered by German physicist FW Herchl, and Germany's Schönk et al. Began to use it industrially by using this infrared light in porous ceramic burners. However, it is known to emit infrared rays having a predetermined wavelength, that is, far infrared rays. This far infrared ray is a vibration wave of an electromagnetic force ray caused by molecular motion therein, and its generation forms include cooling and heat radiation, and this far infrared ray is a kind of electromagnetic wave and is reflected when it hits an object.

Further, there have been many research and developments on far-infrared radiators for industrial use of far-infrared rays, but there are problems in that the manufacturing cost is high and the process is complicated.

Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to prepare a far-infrared radiation composition by mixing natural mineral components and zirconium by allowing a far infrared ray of a predetermined wavelength to be emitted from the far-infrared emitter. Compared to the far-infrared radiation composition containing expensive rare components such as oxide, it is cheaper and the manufacturing process is simpler, and it is easier than the far-infrared radiation composition used in the form of synthetic ceramic by using it in the form of powder etc. It has a feature that can be conveniently used.

1 and 2 are the results of testing the far-infrared emissivity of the present invention on the cement paste of the reference concrete wall and floor,

1 is far-infrared emissivity at 7 days after application.

Figure 2 Far-infrared emissivity at 90 days after application.

In order to achieve the above object, the present inventors have prepared a far-infrared radiation composition obtainable from natural minerals as shown in the following composition table.

Table 1

Next, Examples of the far infrared ray emitting material will be described in Table 1 above.

In the present invention, the far-infrared radioactive material is prepared by mixing the components shown in Table 1, namely, aluminum oxide 26.759%, silicon oxide 55.793%, magnesium oxide 2.278%, potassium oxide 7.779%, titanium dioxide 0.949%, iron oxide 6.433% The components were mixed to prepare the far-infrared radiation composition of the present invention.

The following Table 2 is a test of the measurement results of the black body (BLACK BODY) absorbing the radiation of all wavelengths by using the FT-IR Spectrometer to request the far-infrared radiation composition according to the present invention.

[Table 2]

That is, as shown in Table 2, the far-infrared emitter of the present invention emits far-infrared rays having a strong wavelength of 3.70 × 10 ² (W / m 2 · µm) while having good emissivity.

(Experimental example)

The far-infrared radiation composition of the present invention was mixed in a powder form with an acrylic emulsion solution and applied to the walls and the floor of the room two to three times so as to have a thickness of about 3 mm. Also, to compare the generation of far infrared rays, the far infrared radiation composition of the present invention was compared with the room without coating.

After the application of the far-infrared radiation composition of the present invention, after about 7 days, the surface of the room to which the present invention was applied and the room to which the present invention was not applied were scraped and the far-infrared emission amount was measured. After 90 days, the far-infrared emission was measured by the same method. 1 and 2 are the same.

The far-infrared emissivity of the room to which the present invention is applied can be seen that the emissivity is constant regardless of the date of application. In addition, it turns out that it becomes 2 times of the amount of far-infrared emission of the room which is not apply | coated.

When the far-infrared radiation composition of the present invention is used in existing multi-unit houses and buildings by the above results, the far-infrared emissivity is increased, the heat-drying effect is increased, so the sweating effect is increased, and the metabolic function of the human body living inside the building. It is possible to enjoy the comfort of living environment by promoting it, and it is also effective in preserving the natural environment and maintaining the ecosystem.

In addition, not only in the form of a separate synthetic ceramic powder form can be easily used in buildings, etc., but also used in various clothes and bedding, it can help a lot of health maintenance by smoothing the metabolism of the human body.

Therefore, the present invention is a useful invention that can be used to obtain a far-infrared radiation composition having a low cost, simple manufacturing process and high emissivity using materials easily obtained from various natural minerals.

Claims (1)

Composition ratio of weight% of aluminum oxide (Al ₂ O ₃ ) 25-30%, silicon oxide (SiO ₂ ) 53-58%, magnesium oxide (MgO) 2-2.5%, potassium oxide (K ₂ O) 7-8% , Far infrared ray radioactive composition characterized in that the titanium dioxide (TiO ₂ ) 0.8 ~ 1.0%, iron oxide (Fe ₂ O ₃ ) 6 ~ 6.5% by mixing.

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