KR20000057081A - method of manufacturing functional physiological negative ion air generated by the weathered coral powder - Google Patents

Abstract

PURPOSE: A method for producing anionic air having functional physiological activity, which is able to keep the homeostasis of the human body and has deodorizing effect, generated by using choral is provided. CONSTITUTION: A method comprises steps of: (i) preparing choral calcium carbonate(2) by sintering weathered choral powder(1) at a temperature of 100-1,000°C with a sintering means(1); (ii) dissociating the calcium carbonate(2) generated from the sintering means(1) into calcium ion(Ca¬2+)(5) and carbonate ion(CO3¬2-)(6) by using a dissociating means(3); and (iii) reacting the carbonate ion(6) with moisture(H2O)(6) in the air in a moisture reacting means(7) to obtain alkali physiological active ion of bicarbonate ion(HCO3¬-)(8) and physiological active anion(l) of hydroxide ion(OH¬-)(9).

Description

Method of manufacturing functional physiological negative ion air generated by the weathered coral powder}

The present invention relates generally to a method for producing anion air, and more particularly, to a method for producing anion air of functional physiological activity. In particular, the present invention relates to a method for producing functional bioactive anion air generated using calcined coral powder.

First, the patent application of the present application is almost identical to the specification of the patent application "functional physiologically active anion air generated using a weathered coral" filed in Japan on December 24, 2010 and with priority claims in Korea, but other applications I will explain it here again. That is, air ions include cations and anions. Cationic air is plentiful in urban spaces and polluted air, and in many places, migraines, autonomic ataxia, insomnia, depression, anxiety increase, neurosis, sympathetic nerve activity excitement, etc. It is known to increase parasympathetic nerve activity and enhance learning effects. Such air ions are conventionally made by Leonard effect, Corona discharge effect, electron discharge type or tourmaline absorbing fiber.

There is a method of dividing water droplets into smaller ones with a strong external force and anionizing the air around the droplets with a positive ion due to the Leonard effect.However, when water is contaminated, there is a disadvantage of spraying bacteria into the air. have. In addition, the corona discharge method generates positive ions and negative ions by plasma generated by applying a high voltage to the positive electrode and the negative electrode, but there is a problem that ozone, nitrogen oxides and the like which are harmful to the human body are generated as by-products. Electrospinning is similar to the corona discharge effect, in which an electron beam is radiated into the air without a positive electrode.

Preferred physiological actions of anions include the suppression of excitable sympathetic nerve activity, the enhancement of parasympathetic nerve activity, the promotion of intracranial secretion, sleep recovery, fatigue recovery, analgesic action, and diuretic activity, which are common in weak and elderly people. These are known, and many such anion air generators are introduced. However, there is a problem that the above-described corona discharge type anion is mixed with ozone and nitrogen oxides that are harmful to the human body. In addition, in the method of generating negative ions by the water splitting method by the high-speed fan injection based on the Leonard effect, the structure of the device is not only complicated, but there are problems such as the risk of water contamination for the water drop.

Another problem is that the reality of the anion artificially created from the anion present in the natural world, particularly in the vicinity of a waterfall or in the forest, is different. Apkrueger expresses air ions in four molecular formulas (International Journal of Bioneterology, vol. 16, no.4, pp313-322, 1972). I.e. cations _{^{H + (H 2 O) n}} , (H 3 O) + (H 2 O) n, negative ions ^{_{O 2 - (H 2 O)}} n, OH - (H 2 O) divided by n. Wherein (H ₂ O) n is a water ion Cloud requester ^{(ion cluster), H +,} O 2 -, OH - and the like caused by this water-ion is dissociated, the so-called stagnation of the air ions (正體). As the ion dissociation method, it is considered that the corona discharge or the forced droplet splitting method can be used.

The method of making active ion air by splitting water droplets using the Leonard effect that does not generate ozone, which is harmful to the human body, and the physiological activity of the anion are disclosed in Japanese Patent Application Laid-Open No. 4-141179 (anion production and its device), Hei 8-308914 (high humidity active air). The anions produced by these methods are referred to as bioactive, but A. blood. It provides no basis for biologically or physiologically active activity as stated by Mr. Creuer.

Therefore, the functional physiologically active anion air production apparatus generated by using the weathering coral according to the present invention has been invented in view of the above technical problems, and the object of the present invention is to inhale into the lung tissue and the acid of blood as electrolyte solution. Substances that play a major role in maintaining base equilibrium. That is, to provide a method for producing anion air that is physiologically activated.

In addition, although such a point is normally mentioned simply, it is thought that the present invention is not easy to understand because it is a breakthrough that does not exist in the prior art. Thus, the related art is described in detail below.

1 is a block diagram of one embodiment of a method for producing functional bioactive anion air generated using a weathering coral according to the present invention;

Figure 2 is a partial side cross-sectional view showing an embodiment of a piston device for generating a functional bioactive anion air using the weathering coral according to the present invention,

Figure 3 is a partial side cross-sectional view showing an embodiment of a spray type apparatus for generating functional bioactive anion air using a weathering coral according to the present invention,

Figure 4 is a side cross-sectional view showing an embodiment of the ultrasonic device generating functional bioactive anion air using the weathering coral according to the present invention,

5 is a bar graph showing a part of silver ionized water constituting Table 1,

6 is a bar graph showing another part of the silver ionized water constituting Table 1,

7 is a bar graph showing still another part of the silver ionized water constituting Table 1;

8 is a bar graph showing a part of silver ionized water constituting Table 2,

9 is a bar graph showing another part of the silver ionized water constituting Table 2,

10 is a bar graph showing another part of the silver ionized water constituting Table 2,

11 is a bar graph showing a part of silver ionized water constituting Table 3,

12 is a bar graph showing another part of the silver ionized water constituting Table 3,

13 is a bar graph showing still another part of the silver ionized water constituting Table 3,

14 is a broken line graph showing a part of the silver ionized water constituting Table 4;

15 is a broken line graph showing another part of the silver ionized water constituting Table 4;

16 is a broken line graph showing still another part of the silver ionized water constituting Table 4;

17 is a broken line graph showing a part of the silver ionized water constituting Table 5;

18 is a broken line graph showing another part of the silver ionized water constituting Table 5;

19 is a broken line graph showing still another part of the silver ionized water constituting Table 5;

20 is a broken line graph showing a part of the silver ionized water constituting Table 6;

21 is a broken line graph showing another part of the silver ionized water constituting Table 6;

FIG. 22 is a broken line graph showing another part of the silver ionized water forming Table 6. FIG.

<Description of Signs of Major Parts of Drawings>

1: firing means of weathered coral powder 2: weathered coral calcium

3: dissociation means 4: micro external force

5: calcium ion 6: carbonate ion

7: Water reaction means 8: Bicarbonate ion

9: hydroxyl ions

The functional physiologically active anion air production apparatus generated using the weathering coral according to the present invention in order to achieve the above-mentioned object is a pressure, frictional force or vibration force between the calcium carbonate and water and air by the weathering coral powder. By applying a fine external force to produce a functional bioactive anion air.

Its action and manufacturing method are as follows. First, calcium carbonate contained in weathered coral powder is dissociated into calcium ions and carbonate ions by external force as shown in Equation 1.

[Equation 1]

CaCO ₃ ↔ Ca ²⁺ + CO ₃ ^2-

In aqueous solution, the equilibrium of Equation 2 is always established between water molecules and hydrogen ions.

[Equation 2]

^{_{H 2 O ↔ H + + OH}} -

Pressure, friction, of water molecules by the external kinetic energy such as vibrations of water clusters (cluster) structure, i.e., as an ion cluster complexes are water molecules attached to the complex is expressed as equation 3, where OH ^- (H ₂ O) n is It is called bioactive anion.

[Equation 3]

_{(H 2 O) (H 2} O) n ↔ H + (H 2 O) n + OH - (H 2 O) n

When the carbon dioxide gas generated in Equation 1 is dissolved in an aqueous solution, it reversibly combines with H ₂ O to form carbonic acid (H ₂ CO ₃ ), which is an acid such as hydrogen ions (H ⁺ ) and bicarbonate ions (HCO) as shown in Equation 4. ^₃₎ to be reversibly dissociated.

[Equation 4]

_{CO 2 + H 2 O ↔ H} 2 CO 3 ↔ HCO 3 - + H +

Dissociation of the second stage of carbonic acid becomes HCO ₃ ⁻ as an acid and is represented by Equation 5.

[Equation 5]

HCO ₃ ^- ↔ H ⁺ + CO ₃ ^2-

The thermodynamic dissociation constant Kl of the first stage of the carbonic acid is defined as shown in Equation 6 by the above-described configuration of ions.

[Equation 6]

^{Kl = [(H +) (} HCO 3 -)] / [(CO 2)]

pH = pKl + log {[( HCO 3 -)] / [(CO 2)]}

When acid is added to aqueous solution and H <^+> increases, OH <^-> falls. If alkali is added and OH ⁻ increases, H ⁺ decreases, reaching equilibrium at some state. A physiological aqueous solution concentration (pH value) of the human body is -log [H ^+] + log or pKl ^- is represented by _{{[HCO 3] / [CO} 2]}, for example, the pH value of the blood is an average of about 7.4.

In order to maintain a constant pH value in vivo, the living body is equipped with various pH buffer systems. Blood and interstitial fluid (間質液) based leading buffer in _{is, CO 2 + H 2 O ↔} HCO 3 - + that said system of H ⁺ and to which, in vivo functional homeostasis by food intake and metabolism, That is, acid-base equilibrium is controlled by ions such as HCO ₃ ⁻ , H ⁺ , and OH ⁻ , and thus is called a functional physiologically active ion. It is an object of the present invention to generate such functional bioactive anions in the air to maintain homeostasis of the human body.

The present invention uses weathered coral powder as a means for generating functional physiologically active ions. The functional physiologically active anion air generated using the weathering coral contains about 35 to 45% by weight of calcium carbonate. When micro external force (pressure or frictional force) is applied to calcium carbonate (CaCO ₃ ) with water, it dissociates into calcium ions (Ca ²⁺ ) and carbonates (CO ₃ ^2- ), and the carbonate reacts with water (H ₂ O). Bicarbonate ions (HCO ₃ ⁻ ), which are bioactive ions, and anions (OH ⁻ ), which are bioactive ions, are generated.

The generation of such anions (OH ⁻ ) decreases the hydrogen ions (H ⁺ ) dissociated from the water ions, thereby increasing the number of anions that are bioactive ions and bioactive ions in the air. If this reaction occurs in a liquid, the liquid is alkaline. It can be seen that the amount and rate of increase of the functional bioactive anion depend on the incorporation rate of impurities into the calcium carbonate, the micro external force, and the amount (humidity) of the water.

In the present invention, the calcium carbonate is detected from weathered coral powder and calcined at 100 to 1000 ° C to increase the purity and to separate it. The micro external force includes passive frictional force, pressure and ultrasonic vibration.

Hereinafter, the specific configuration of the functional bioactive anion air production method generated using the weathering coral according to the present invention will be described in detail. First, when explaining the configuration of the invention described in claim 1 of the present invention, in the present invention, the firing means first calcined weathered coral powder to form calcium carbonate (CaCO ₃ ).

Next, the dissociation means dissociates the calcium carbonate (CaCO ₃ ) from the firing means into calcium ions (Ca ²⁺ ) and carbonates (CO ₃ ^2- ) by micro external forces (pressure, wind power, friction force, etc.). . In addition, the water reaction means reacts the carbonate ion with water (H ₂ O) in the air to convert bicarbonate ion (HCO ₃ ⁻ ), which is a basic physiologically active ion, and hydroxyl group ion (OH ⁻ ), which is a bioactive ion-anion. Generate.

Next, the constitution of the invention described in claim 2 of the functional bioactive anion air production method generated by using the weathering coral according to the present invention will be described. by reaction with water in the water unit anion ^air it is made _{(OH (H 2 O) n} ).

The general embodiment of the method for producing functional bioactive anion air generated using the weathering coral according to the present invention will be described below. The calcining means calcinates the weathered coral powder at 100 to 1000 ° C. to form coral calcium carbonate (CaCO ₃ ). The dissociation means then dissociates the calcium carbonate (CaCO ₃ ) from the calcining means into calcium ions (Ca ²⁺ ) and carbonates (CO ₃ ^2- ) by a micro external force.

Then, the water reaction means reacts the carbonate with water in the air (H ₂ O) to obtain bicarbonate ion (HCO ₃ ⁻ ), which is a basic physiologically active ion, and hydroxyl ion (OH ⁻ ), which is a bioactive ion-anion. Lose.

(Example)

Therefore, the method for producing functional physiologically active anion air generated using the weathering coral according to the present invention will be described in detail with reference to the accompanying drawings using specific examples thereof. First, as illustrated in FIG. 1, the calcined coral powder is calcined at 100 to 1000 ° C. to form coral calcium carbonate (CaCO ₃ ) 2.

Next dissociation means 3 to the firing means (1) coral calcium carbonate (CaCO _3), (2) a fine external force from the (pressure, wind, friction, etc.) (4) (In Figure 2 the piston (4a), In FIG. 3, the spray button 4b and the ultrasonic vibrator 4c in FIG. 4 dissociate the calcium ions (Ca ²⁺ ) 5 and the carbonate ions (CO ₃ ^2- ) 6.

Then, the carbonate 6 is reacted with moisture (H ₂ O) in the air by the water reaction means (7), and bicarbonate ions (HCO ₃ ⁻ ) (8) and physiologically active ions-anions which are basic physiologically active ions. Phosphorus hydroxyl group ion (OH <^-> ) (9) is obtained. When the hydroxyl ions (OH ⁻ ), that is, a large number of anions are generated, the hydrogen ions (H ⁺ ) dissociated in the water molecules can be reduced, and the number of anions which are physiologically active ions in the air increases.

2 to 4 will be described a specific embodiment of the device for performing the anion air production method of the present invention. 2 shows a piston type negative ion air production apparatus. Here, in the cylinder S, the calcium chloride weathered coral 2 fired as mentioned above is put, and the piston P in the cylinder S is driven up and down by the rod R, and is discharged from the injection port O. Anion (I) is injected. 3 shows a spray type anion air production apparatus. Here, the weathered calcium carbonate (2) and the compressed gas (G) calcined as described above are placed in the spray can (C), and the spray button (B) is pressed to inject the anion (I). 4 is of ultrasonic type. Into this housing H, calcium carbonate coral 2 and the ultrasonic vibrator U fired as described above are placed, and the calcium carbonate water dropped through the valve V is vibrated by the vibrator U. To generate negative ions (I), and to inject negative ions from the injection port (0) to the fan (F).

Next, the test data performed as described above will be described.

Tables 1, 2 and 3 are obtained based on Figs. 5, 6, 7, 8, 9, 10, 11, 12 and 13 as anion water of coral calcium water.

Tables 4, 5 and 6 are obtained based on Figs. 14, 15, 16, 17, 18, 19, 20, 21 and 22 as the anion water of the weathered coral powder (PW).

The functional physiologically active anion air generated by using the weathering coral according to the embodiment of the present invention described above solves the above-mentioned problems in addition to those described above, and thus, the same effects as the anion water shown in the tables are obtained. . Furthermore, it has been shown to have an effect of removing odors.

Claims (2)

Calcining weathered coral powder by calcining means to form calcium carbonate (CaCO ₃ ), and dissociating means converts the calcium carbonate (CaCO ₃ ) to micro external forces (pressure, wind power, frictional force, etc.) Dissociating into calcium ions (Ca ²⁺ ) and carbonates (CO ₃ ^2- ), and reacting the carbonates with water (H ₂ O) in the air by means of a water reaction means to form basic physiologically active ions. bicarbonate ion (HCO ₃ ^-) and physiological activities ion-anion is a hydroxyl ion (OH ^-) in which the functions generated with the coral characterized in that comprises the step of obtaining method bioactive anion air production. The method of claim 1, wherein the weathering coral is fired at 100~1000 ℃, air and water by reacting the water-air section anion ^{obtained-generated} using a coral, characterized in that it contains the _{(OH (H 2 O) n} ) Functional physiologically active anion air production method.