KR20020042038A - Producing for Preparing Biovital-water Using Material Radiating Far Infrared - Google Patents

Abstract

PURPOSE: Provided is a method for producing activated water which improves growth and germination of radish, guinea pepper, bean sprouts, and so on and can be used as a growth stimulator and a growth modulating agent, and can be used for water culture, by using a far-infrared radiating material. CONSTITUTION: The method comprises the steps of (i) aging a mixture comprising diatomaceous earth, bio-stone and silica stone in powder state, and heat treating the aged mixture powder; (ii) adding loess to the heat treated powder, homogenizing the mixture, secondarily heat treating the mixture, and cooling the mixture to obtain a far-infrared radiating material; and (iii) adding the far-infrared radiating material to water with stirring to obtain activated water, adding inorganic ion to the activated water, and introducing the mixture into high pressure unit to high-pressure treat the mixture at temperature of 120-180deg.C and pressure of 1-9 atmosphere.

Description

Producing for Preparing Biovital-water Using Material Radiating Far Infrared}

The present invention relates to a method for producing active water using a far infrared ray emitting material. More specifically, the present invention is ① a step of aging the mixture containing diatomaceous earth, ganban stone and silica in the powder state, and then heat-treating the electro-aged mixed powder, ② homogenizing by adding ocher to the electro-heated mixed powder , Second heat treatment to obtain far-infrared radiation material and ③ The obtained far-infrared radiation material is added to water to obtain vital water, and inorganic ions are added to the electric vital water, and then it is added to a high pressure device to add 1 to 9 atm. And it relates to a method of producing active water using a far-infrared radiation including a step of high pressure treatment in the range of 120 to 180 ℃.

Far infrared rays are a kind of electromagnetic waves, which are in the range of 3 to 1,000 μm in the wavelength range of the electromagnetic waves, and appear in the outside of the red line of visible light in the color array generated when light passes through the prism, and are radiations having stronger heat action than visible light. The order of wavelength range is divided into near-infrared, mid-infrared, and far-infrared, and far-infrared is more widely used for the treatment of human body, which is stronger because it has a stronger property of heating organic materials than near-infrared.

The human body is composed of about 60% of water, proteins, fats, carbohydrates, minerals, hormones, enzymes, and neural tissues. Far-infrared rays generate heat energy in the process of cellular activity by activating these substances at the molecular level, and this heat has the effect of releasing harmful substances (waste and heavy metals) accumulated in the body by activating all activities in the human body. That is, when the far infrared light is illuminated, the far infrared rays having the same frequency as the vibrations inherent in various atoms and atomic groups in the human body cause resonance.

Far infrared rays affect the cells, the most basic tissues of the human body, to promote blood circulation, enhance the body's self-defense ability, promote health recovery, and relieve pain, remove heavy metals in the body, promote sweating, sleep effect, and deodorant effect. It has various effects such as antibacterial effect, insect repellent effect, mold growth prevention, dehumidification and air purification.

Until now, far-infrared rays have been mainly used for drying and heating paints. Recently, the application to industrial applications such as food processing fields has been expanding. In addition to the public welfare such as cooking utensils and heaters, the freshness of foods, aging and health improvement of human body As such, development of application products having an effect at room temperature is actively underway.

Accordingly, the present inventors have made diligent research efforts to provide active water using the far-infrared radiation substance having the above-mentioned effects. ① After aging a mixture containing diatomaceous earth, elvan and silica, in a powder state, the mixed powder is then electrically aged. Heat-treating process, ② the process of homogenizing by adding ocher to the mixed powder subjected to the heat treatment, and then heat-treating secondary to obtain far-infrared radiation material, ③ adding the far-infrared radiation material obtained by electricity to water to obtain vital water, Inorganic ions are added to the electric vital water, and the activated water produced through the high pressure treatment in the range of 1 to 9 atm and 120 to 180 ° C. in a high pressure device promotes the germination rate of radish, and removes heavy metals compared to general water. It was confirmed that the effect is excellent, microbial sterilization and odor removing effect and completed the present invention.

As a result, the main object of the present invention is to obtain a far-infrared radiant composed of diatomaceous earth, elvan, siliceous and ocher, and then the electric far-infrared radiant is treated in general water to carry out a high pressure treatment process in the range of 1 to 9 atm and 120 to 180 ° C. It is to provide a method for producing active water using a far-infrared radiation material containing.

Another object of the present invention is to provide an active water produced by the electric method.

1 is an NMR spectrum showing the change in half width of the active water of the present invention and the control water of the general water.

2 is a UV spectrum of the active water and the control normal water of the present invention.

Figure 3a is a photograph of the radish treated with the active water and control normal water of the present invention.

Figure 3b is a photograph showing the difference in growth of the radish treated with the active water and control common water of the present invention.

Figure 4 is a photograph showing the difference in growth of radish treated with active water and control common water of the present invention.

The present inventors 1) aging the mixture containing diatomaceous earth, elvan rock and silica in powder form, and then heat treating the electro-aged mixed powder, ② homogenizing by adding ocher to the electro-heated mixed powder, followed by secondary heat treatment Cooling to obtain far-infrared radiation material and ③ Electricity The obtained far-infrared radiation material is added to water to obtain vital water, and inorganic ions are added to the electric vital water, and then added to a high pressure apparatus to add 1 to 9 atm and 120 to As a result of producing active water using far-infrared radiation material through high pressure treatment in the range of 180 ℃, it promotes germination rate of radish, and it has excellent effect of removing heavy metals compared to general water, and has microbial sterilization and odor removal effect. It was confirmed.

Hereinafter, a method of preparing active water using the far-infrared radiating material of the present invention will be described in detail by dividing the process.

1st step: preparation of mixed powder containing far-infrared radiation substance

The mixture comprising diatomaceous earth, elvan and siliceous is aged in powder form, and then the electro-aged mixed powder is heat-treated: wherein the mixture is 10-25 wt%, 25-43 wt% of diatomaceous earth, elvanite and silica depending on the purpose, respectively. % And 32 to 65% by weight, using a powder of 40 μm or 350 mesh or less, which is commonly used, is further atomized again in an experimental process to uniformly mix particles with 0.1 μm to 15 μm to 15 to 30 ° C. Age for 10-15 hours. As macnite, it is possible to use either macnite (including macnite and hornblende) or gannetite, and it is preferable to use quartz or silica sand as silicon. The electrically aged mixed powder is heat treated at 600 to 800 ° C. for 4 to 6 hours. If you want to obtain a solid sample can be used by molding in a suitable form according to the methods commonly used in the art.

Second Process: Preparation of Far Infrared Radiation

Ocher is added to the electrothermally treated mixed powder to homogenize, secondary heat treated and then cooled to obtain far-infrared radiation: ocher is clay, clay, coalinate, coalin, clay or The soil may be used by adding 20 to 30% of the total weight, and depending on the purpose of use, jade, germanium, illite, zeolite, graphite, sand, charcoal or sawdust may be added. The mixture was homogenized by stirring for 24 hours in a stirrer prepared in the laboratory. Secondary heat treatment is carried out at 900 to 1,200 ℃ for 4 to 6 hours.

Third Step: Preparation of Active Water Using Far Infrared Radiation

The obtained far-infrared radiation substance is added to water to obtain vital water, and the inorganic ion is added to the electric vital water, and then activated in a high pressure apparatus at a pressure of 1 to 9 atm and 120 to 180 ° C. Prepare the water. Inorganic ions are sole or two from the group consisting of potassium, magnesium, sodium, calcium, nickel, silver, platinum, gold, zinc, germanium, manganese, silicon, copper, aluminum, phosphorus, titanium, iron, indium, tin and tungsten As the above mixture, it can be used by adding up to 1 ppm or less of the total weight.

Hereinafter, the present invention will be described in more detail with reference to Examples. These examples are only to specifically describe the present invention, it will be apparent to those skilled in the art that the scope of the present invention is not limited by these examples.

Example 1 Preparation of Active Water Using Far Infrared Radiation Material

Diatomaceous earth, elvan and silica were evenly mixed in a weight ratio of 3: 4: 6 and aged at room temperature for at least 12 hours. After heat-treating the electrically aged powder at 700 ° C. for at least 5 hours, the mixture is made homogeneous by mixing 20 to 30% of the total weight of the clay, followed by secondary heat treatment at 700 ° C. for at least 5 hours, and gradually cooling the far-infrared radiation substance. A mixture was prepared. The previously prepared far-infrared radiant mixture was added to a vessel containing clean water and maintained for at least 8 hours while stirring to prepare vital water. Electricity-activated water was added to a high pressure device, and an inorganic ion was added thereto, followed by heat treatment at 5 atmospheres and 151 ° C. for 9 hours to prepare active water.

Experimental Example 1: Analysis of Active Water

As a result of measuring the NMR of the active water prepared in Example 1 and the general water (ground water), the half-width value for the hydrogen ions of the active water of the present invention was changed from 140.8 Hz to 171.3 Hz of the general water, indicating that the structure of the water was changed. (FIG. 1). In addition, as a result of measuring the UV in the 190 ~ 400nm range of the active water and the general water prepared in Example 1, it was confirmed that the structure of the water was changed by showing a different absorbance than the normal water (Fig. 2; ①: General ②: active water prepared by using a far-infrared radiation material heat-treated at 900 ° C secondly; ③: active water prepared by using a far-infrared radiation material heat-treated at 1,000 ° C secondary; ④: secondary heat treatment at 1,200 ° C. Active water prepared using a far infrared ray radiation).

Experimental Example 2: Heavy Metal Removal Effect of Active Water

In order to observe the heavy metal removal effect of the active water of the present invention, the active water was prepared by treating 100 ppm of heavy metals in the normal water, and then the active water containing the normal water and the heavy metal was subjected to mass spectrometry (ICP-MS4500, Hewlett Packard, USA). As a result of the analysis, the active water of the present invention was confirmed to be superior to the heavy metal removal effect compared to the control water (Table 1).

Experimental Example 3: Efficacy of Active Water

① Effect of Active Water of the Present Invention on the Growth of Radish

In order to observe the effect of the active water prepared in Example 1 on the growth of radish in the clear room, treated with the active water (Figs. 3a and 3b, ②) once a day for 10 days under conditions of 20 ℃ As a result, it was confirmed that the growth rate was very excellent compared to the control (treated with the same conditions as the general water (Fig. 3a and 3b, ①)).

② The effect of the active water of the present invention on the growth rate of radish in the dark

In order to observe the effect of the active water prepared in Example 1 on the germination rate of radish in the dark room, the active water prepared in Example 1 was activated to seed of radish once a day for 6 days under the condition of 20 ℃ As a result of the treatment of (Fig. 4, ②), it was confirmed that the growth rate is very excellent compared to the control (Fig. 4, ①) treated under the same conditions as the normal water.

③ Effect of Active Water of the Present Invention on Germination Rate of Red Pepper Seeds

In order to observe the effect of the active water prepared in Example 1 on the germination rate of pepper seeds, sterilized normal water (control) and agar added with the active water, respectively, and then sterilized by mold and contaminated pepper seeds As a result of the treatment under 25 ° C., the control treated with the same conditions as the normal water did not germinate at all, and the active water treatment showed 100% germination, and the odor was removed (Table 2).

From the above results it can be seen that the active water produced by the method of the present invention can be usefully used for agriculture, such as growth promoter, hydroponic cultivation, growth regulator.

As described and demonstrated in detail above, the present invention obtains a mixture of far-infrared radiators composed of diatomaceous earth, elvan, siliceous and ocher, and then treated by stirring the electric far-infrared radiators in ordinary water, and then stirred at 1 to 9 atm and 120 to Provided is a method for producing active water using far-infrared radiation including a high pressure treatment in the range of 180 ° C. Since the active water produced by the production method of the present invention improves the growth and germination rate of radish, red pepper, bean sprouts, etc., it may be usefully used for agriculture such as growth accelerator, hydroponic cultivation, growth regulator, and the like.

Claims (9)

(Iii) a step of aging the mixture comprising diatomaceous earth, elvan, and silica in a powder state, followed by heat treatment of the electrically aged mixed powder; (Ii) homogenizing by adding ocher to the electrothermally treated mixed powder, performing a second heat treatment, and then cooling to obtain a far infrared ray emitting material; (Iii) The obtained far-infrared radiation substance was added to water to obtain vital water while stirring, and inorganic ions were added to the electric vital water, and then added to a high pressure apparatus and added to a high pressure apparatus at 7 to 9 atm and 120 to 180 ° C. Including a process of autoclaving for 10 hours Method for producing active water using far infrared radiation. The method of claim 1, The mixture is characterized in that the diatomaceous earth, elvan and silica are composed of 10 to 25% by weight, 25 to 43% by weight and 32 to 65% by weight, respectively Method for producing active water using far infrared radiation. The method of claim 2, Elvan is characterized by gansumite (including elvan and hornblende) or ganguerite Method for producing active water using far infrared radiation. The method of claim 1, Maturation is carried out at 15 to 30 ℃ for 10 to 15 hours Method for producing active water using far infrared radiation. The method of claim 1, Heat treatment is performed for 4 to 6 hours at 600 to 800 ℃ Method for producing active water using far infrared radiation. The method of claim 1, Ocher is characterized in that the clay, clay, Coalinate (Coalinate), Coalin (Coalin), Toto or clay is added by using 20 to 30% of the total weight Method for producing active water using far infrared radiation. The method of claim 1, Secondary heat treatment is characterized in that carried out for 4 to 6 hours at 900 to 1,200 ℃ Method for producing active water using far infrared radiation. The method of claim 1, Inorganic ions are solely or two or more from the group consisting of potassium, magnesium, sodium, calcium, nickel, silver, platinum, gold, zinc, germanium, manganese, silicon, copper, aluminum, phosphorus, titanium, iron, indium, tin, tungsten Characterized in that used as a mixture to be added to 1 ppm or less of the total weight Method for producing active water using far infrared radiation. Active water produced by the method of claim 1.