JP7599079B2 - Device for using nanobubble liquid - Google Patents

Description

The present invention relates to an apparatus for utilizing a nanobubble liquid preparation containing electrically charged nanobubble water.

In Patent Document 1, in the manufacture of semiconductor substrates in which an oxide film is formed on the surface of the semiconductor substrate using a treatment liquid containing ozone micro-nano bubble water, paragraph number 0014 defines micro-nano bubbles as bubbles having a diameter of 1 nm or more and less than 100 μm, and paragraph number 0031 describes that micro-nano bubbles can have positive and negative electric potentials depending on the method of generation, and that by making this electric potential the opposite potential to the electric potential of the silicon wafer, the surface tension of the treatment liquid with respect to the wafer is reduced, i.e., wettability is improved.

JP 2009-111093 A

However, Patent Document 1 does not disclose that, although micro-nano bubbles can have both positive and negative electric potentials, both positively and negatively electric potential micro-nano bubble water can be simultaneously used to apply electrostatic interaction or electrostatic interaction to produce nanobubble water that can be used for various purposes.

Therefore, an object of the present invention is to provide an apparatus for utilizing a charged nanobubble liquid formulation that can be used for various applications.

The device for utilizing a nanobubble liquid according to claim 1 of the present invention has electrostatic interaction or electrostatic interaction with an application target having positively and negatively charged parts, and is used for utilizing a charged nanobubble liquid that uses both negatively charged first nanobubble water and positively charged second nanobubble water simultaneously, and has a piping for supplying the first nanobubble water and a nozzle device for injecting the first nanobubble water into the application target, a piping for supplying the second nanobubble water and a nozzle device for injecting the second nanobubble water into the application target, the application target being teeth, the first nanobubble water is applied to the surface of the teeth to adsorb positive charges of plaque on the surface of the teeth through electrostatic interaction or electrostatic interaction, and the second nanobubble water is applied to the root region of the teeth to adsorb negatively charged germs in the root region through electrostatic interaction or electrostatic interaction, the amount of the second nanobubble water is increased initially, and the amount of the first nanobubble water is increased at the end stage.

The device for utilizing the nanobubble liquid preparation of the present invention contains negatively charged first nanobubble water and positively charged second nanobubble water, and by using both of them simultaneously and applying electrostatic interaction or electrostatic interaction, it is possible to provide nanobubble water that can be used for a variety of purposes.

An outline diagram of how a nanobubble liquid formulation is used by contacting it with an application target is shown.

The nanobubble liquid preparation of the present invention contains negatively charged first nanobubble water and positively charged second nanobubble water, the first nanobubble water and the second nanobubble water being solutions such as tap water, oxygen water, ozone water, etc., and the solutions contain nanobubble bubbles, and the nanobubbles have, for example, a bubble diameter of 1 nm to 30 nm and a density of ¹⁰¹⁶ bubbles/ml or more.

Furthermore, the nanobubble liquid of the present invention has electrostatic or electrostatic interaction with an application target having positively or negatively charged sites, and is a charged liquid in which both the first nanobubble water and the second nanobubble water are used simultaneously, and the blending amounts of the first nanobubble water and the second nanobubble water are set and operated depending on the purpose of use for the application target.

(Explanation of the action of nanobubble liquid)
Since the nanobubble liquid contains negatively charged first nanobubble water and positively charged second nanobubble water, it is used on an object having positively and negatively charged parts, and the first nanobubble water and the second nanobubble water adsorb the charged parts by electrostatic interaction or electrostatic interaction with the charges of the opposite sign at the charged parts, thereby removing the parts or adding them to the parts. Such removal and addition actions will be explained in the application examples of the nanobubble liquid described later. Therefore, the application is not limited to applications where the object has a part that is either positively or negatively charged, but can also be applied to applications where the part is charged in both directions, so it can be used for various purposes.

(Generation of first nanobubble water)
In order to generate the first nanobubble water 2 so that it contains the nanobubbles, Sigma Oxygen Water (registered trademark) manufactured by Sigma Technology Co., Ltd. is used, and nanobubble water made of fine bubbles in the nanobubble state is obtained using a micro-nano bubble generator utilizing water hammer force described in the company's Patent No. 5555892. The nanobubble water obtained in this manner is negatively charged, and thus the first nanobubble water 2 is generated which is negatively charged with fine bubbles in the nanobubble state.

(Generation of second nanobubble water, part 1)
Since nanobubble water has a surface potential that depends on the hydrogen ion concentration (pH) and has the property that the fine bubbles become positively charged when the water is acidic, in order to generate the second nanobubble water 3, lemon water with a hydrogen ion concentration (pH) of 2 to 3 is filtered instead of the Sigma Oxygen Water (registered trademark) of the first nanobubble water 2 so as to reduce the hydrogen ion concentration (pH) of the nanobubble water, thereby obtaining nanobubble water produced by the micro-nano bubble generator that utilizes the water hammer force, or by mixing dilute hydrochloric acid with a hydrogen ion concentration (pH) of 2 to 3, the second nanobubble water 3 is generated, which is made of fine bubbles in a nanobubble state that are positively charged.

(Generation of second nanobubble water part 2)
By supplying and mixing a positively charged additive to the first nanobubble water 2 produced by the micro-nano bubble generator utilizing the water hammer force, a second nanobubble water 3 containing a positively charged additive is generated. Examples of this additive include magnesium, sodium, iron, calcium, and the like, which have a positive charge.

(Explanation of the effect of using nanobubble liquid)
FIG. 1 shows a schematic diagram of how a nanobubble liquid formulation is used by contacting it with an application target by injection, spraying, scattering, or the like.

In Fig. 1, the nanobubble liquid 1 contains the nanobubble bubbles and contains a negatively charged first nanobubble water 2 and a positively charged second nanobubble water 3. The first nanobubble water 2 is supplied to the application object 4 from a pipe 21 (in the direction of the arrow in Fig. 1), and at the same time, the second nanobubble water 3 is supplied to the application object 4 from a pipe 31 (in the direction of the arrow in Fig. 1), so that the nanobubble liquid 1 can be used for the application object 4 where a positive charge or a negative charge exists. Examples of the method for supplying the first nanobubble water 2 and the second nanobubble water 3 to the application object 4 from the pipes 21 and 31, respectively, include contacting the application object 4 with the application object 4 by injecting, spraying, or scattering the first nanobubble water 2 and the second nanobubble water 3 with a nozzle device 5. Examples of the application object 4 that is used by contacting the first nanobubble water 2 and the second nanobubble water 3 with the second nanobubble water 3 are the teeth in Nanobubble Application Example 1 described below, the flower arrangement, bonsai, and bouquet in Nanobubble Application Example 2, and the plants in Nanobubble Application Example 3 described below.

(Example of use of nanobubble liquid: Part 1)
In the nanobubble liquid preparation 1 containing the first nanobubble water 2 and the second nanobubble water 3 generated by the first nanobubble water generation and the second nanobubble water generation part 1, when the first nanobubble water 2 and the second nanobubble water 3 are simultaneously injected and the nanobubble liquid preparation 1 is applied to the tooth part of the subject 4 for use in treating periodontal disease, the positively charged second nanobubble water 3 is applied to the tooth root part, and the positive charge of the second nanobubble water 3 and the negatively charged germs present in the tooth root part are adsorbed by electrostatic interaction or electrostatic interaction, thereby removing the germs from the tooth root part. Plaque formed on the tooth surface by germs and inorganic components such as calcium and sodium in saliva is positively charged, and the negatively charged first nanobubble water 2 is applied to the tooth surface, and the positive charge of the plaque on the tooth surface is adsorbed by electrostatic interaction or electrostatic interaction, thereby making it difficult for plaque to form. In this way, the nanobubble liquid preparation 1 can be used to treat periodontal disease by applying it to the teeth of the subject 4, due to the above-mentioned action of the second nanobubble water 3 and the above-mentioned action of the first nanobubble water 2 which makes it difficult for plaque to form. In this case, the blending amounts of the first nanobubble water 2 and the second nanobubble water 3 are adjusted according to the subject 4, so that the second nanobubble water 3 is increased at the beginning of treatment so that germs can be removed, and the first nanobubble water 2 is increased as treatment progresses and ends.

(Example 2 of nanobubble liquid use)
In the nanobubble liquid 1 containing the first nanobubble water 2 and the second nanobubble water 3 generated by the first nanobubble water generation and the second nanobubble water generation part 1, when the nanobubble liquid 1 is applied to an application target 4 such as a flower arrangement, bonsai, or bouquet by spraying both the first nanobubble water 2 and the second nanobubble water 3 at the same time, the positively charged second nanobubble water 3 adsorbs negatively charged germs and pests on the plants through electrostatic interaction or electrostatic interaction, thereby removing the germs and pests, and the negatively charged first nanobubble water 2 adsorbs positively charged dirty particles around the flower arrangement, bonsai, or bouquet through electrostatic interaction or electrostatic interaction, thereby removing the dirty particles, thereby revitalizing the flower arrangement, bonsai, or bouquet and making them less likely to wilt. In this way, the nanobubble liquid 1 can be applied to an application target 4 such as a flower arrangement, bonsai, or bouquet, and used to revitalize the flower arrangement, bonsai, or bouquet through the action of the second nanobubble water 3 and the action of the first nanobubble water 2 which removes dirty particles from the air surrounding the flower arrangement, bonsai, or bouquet. In this case, the amounts of the first nanobubble water 2 and the second nanobubble water 3 are adjusted according to the application target 4, with the second nanobubble water 3 being increased in consideration of removing germs and pests in the flower arrangement, bonsai, or bouquet.

(Example 3 of nanobubble liquid use)
In the nanobubble liquid preparation 1 containing the first nanobubble water 2 and the second nanobubble water 3 produced by the production of the first nanobubble water and the production of the second nanobubble water (part 2), the positively charged additives mixed into the second nanobubble water 3, such as magnesium, sodium, iron, and calcium, are nutrients containing a positively charged property. When the nanobubble liquid preparation 1 is applied to a plant as an application target 4 by simultaneously spraying both the first nanobubble water 2 and the second nanobubble water 3, and used for hydroponic cultivation of the plant, the root hairs in the roots of the plant have a negative charge, so that the positively charged additives in the second nanobubble water 3 are adsorbed by the negative charges of the root hairs of the plant through electrostatic interaction or electrostatic interaction, and the nutrients of the additives are accumulated in the root hairs of the plant, thereby promoting the growth of the plant in the hydroponic cultivation. On the other hand, in the process, since the first nanobubble water is negatively charged, the positive charge of the additive in the second nanobubble water 3 is also adsorbed to the first nanobubble water, and the adsorption promotes electrostatic interaction or electrostatic interaction with the root hairs of the plant. In this way, by applying the nanobubble liquid 1 to the hydroponic cultivation of the plant of the application target 4, the above-mentioned action of the first nanobubble water 2 and the above-mentioned action of the positively charged additive mixed in the second nanobubble water 3 can be used for hydroponic cultivation of the plant. In this case, when adjusting the blending amount of the first nanobubble water 2 and the second nanobubble water 3 according to the application target 4, considering that nutrients are easily added and accumulated in the root hairs of the plant, the second nanobubble water 3 is used in a larger amount.

The nanobubble liquid preparation of the present invention is useful for various purposes such as the treatment of periodontal disease and the hydroponic cultivation of plants and bonsai, due to the electrically charged nanobubble water.

1 Nanobubble liquid 2 First nanobubble water 3 Second nanobubble water 4 Target of application

Claims (1)

An apparatus for using a nanobubble liquid formulation, which has electrostatic interaction or electrostatic interaction with an application target having positively and negatively charged parts, and which uses both negatively charged first nanobubble water and positively charged second nanobubble water simultaneously, the apparatus comprising a pipe for supplying the first nanobubble water and a nozzle device for injecting the first nanobubble water into the application target, a pipe for supplying the second nanobubble water and a nozzle device for injecting the second nanobubble water into the application target,
The device for using a nanobubble liquid, the object of application being teeth, wherein the first nanobubble water is applied to the surface of the teeth to adsorb the positively charged plaque on the surface of the teeth through electrostatic interaction or electrostatic interaction, and the second nanobubble water is applied to the root of the teeth to adsorb the negatively charged germs in the root of the teeth through electrostatic interaction or electrostatic interaction, and wherein the amount of the second nanobubble water is increased initially and the amount of the first nanobubble water is increased at the end stage.

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