JPWO2002081383A1 - Method for producing far-infrared radiation wave water and far-infrared radiation wave water - Google Patents

Abstract

It is an object of the present invention to provide a method for producing far-infrared radiation wave water and a far-infrared radiation wave water which has the property and action of weak energy such as far infrared rays and contributes to protection of the global environment and promotion of human health. The method for producing far-infrared radiation wave water of the present invention is characterized by a transferable aqueous solution obtained by irradiating a mineral-containing liquid with ultraviolet light in the presence of a photocatalyst.

Description

発明を実施するための最良の形態
（実施例１）
（遠赤外線放射波動水）
風化珊瑚礁を積層したカラム内に水道水を通過させ、抽出液を得た。この抽出液に対し、酸化チタン０．３％、珪素粉末０．５％を混入した溶液を本体タンク１に装入。低周波コイル１１で周波数１７０Ｈｚをかけながらバランスプロペラ３（１１，４８０ｒｐｍ／ｍｉｎ）で該水を８時間攪拌した。
上記作業と平行して、石英ガラス２を通し、紫外線ランプ２８０ｎｍを７．５時間照射し、次いで赤外線ランプ（１０μｍ）を０．５時間照射して遠赤外線放射波動水を得た。
（実施例２）
（二次機能水）
実施例１による製法で遠赤外線放射波動水を製造する。
珪藻土３ｋｇに上記遠赤外線放射波動水１２５ｍｌと酸化チタン１２５ｍｌとを混練した。直径４ｃｍの球状に形成し１２００℃で焼成することで転写部材を作製し貯蔵タンクに配置した。
貯蔵タンクに水道水５０ｔを装入、水道水に上記転写部材を３０日間浸漬することで転写水を得た。
転写水に、遠赤外線放射波動水を転写水に対して３％（重量％）を混入し、混合することで二次機能水を得た。
（実施例３）
（二次機能水）
実施例１による製法で遠赤外線放射波動水を製造した。
本体タンク１に、水道水および該水に対し遠赤外線射波動水３％を混入。低周波コイル１１で周波数１７０Ｈｚをかけながら３０００ｒｐｍで２時間の攪拌を行った。平行して紫外線ランプ２８０ｎｍを２時間照射し、次いで赤外線ランプ（１０μｍ）を０．５時間照射して二次機能水を得た。
上記二次機能水に水晶ネックレスを３日間浸漬した後乾燥させた。
液体に転写部材を浸漬させる、対象物を一次機能水、二次機能水に浸漬させることで、遠赤外線等の微弱エネルギーを転写することができる。且つ、転写された効力は半永久的であり、着用、洗濯などを重ねても転写された効力は失われない。
１００名のモニターによる転写したネックレス及びブレスレット装着する実験の結果、次のような症状の改善さが報告された。
・肩凝り、腰痛、関節痛
・リュウマチ
・手の痺れ
・冷え性
・偏頭痛
・花粉症
・良好な血圧の一定化
転写された繊維製品を使用した場合、アトピー性皮膚炎、化学物質過敏症などの、繊維による皮膚障害が緩和される。
（実施例４）
（二次機能水）
実施例１による製法で遠赤外線放射波動水を製造した。
実施例２及び実施例３による方法で二次機能水を製造した。なお、転写水及び水道水に対し、遠赤外線放射波動水を０．１％（重量％）混入した。
健常な成年男子（５０歳）を対象とし、上記二次機能水を両腕に噴霧し、未噴霧状態と比較したところ、以下の効果が見られた。
・血流速度 １．１４４倍（１４．５％の増加）
・血流量 １．０６９倍（６．９％の増加）
・脳波測定 リラックス状態を示すα波（８Ｈｚ以上１３Ｈｚ以下）は明らかに未噴霧状態に比べて優位であり、最初から最終段階まで均一に、かつ多量に具現している。このことは二次機能水噴霧直後から２０分間に渡りリラックス状態を継続しているといえる。
１００名のモニターに二次機能水を人体の適宜箇所に噴霧する実験を行ったところ、次のような症状の改善が報告された。
・シミ・シワ
・アトピー性皮膚炎
・白癬
・口臭・腋臭
・火傷の炎症
・筋肉疲労
・歯痛
・発毛・育毛
・止血
・関節痛
上記二次機能水を植物に与える実験の結果、以下の効果が得られた。
・生育が早く根ばりが旺盛になった。
・着果量の増加と着果率のアップ（増収率３０％アップ）
・全体の身長６０％アップ、重量２５〜３０％アップ。
・タンパク質、窒素、糖分の増加。
・色が鮮明に仕上がる。
・忌避効果
（実施例５）
（三次機能水）
実施例１による製法で遠赤外線放射波動水を製造した。
実施例２及び実施例３による製法で二次機能水を製造した。なお、転写水及び水道水に対し、遠赤外線放射波動水を３％（重量％）混入した。
上記二次機能水３０％（体積％）と酸化チタン７０％（体積％）を配合して三次機能水を得た。
二次機能水と酸化チタンを配合することで、波長が４００ｎｍ以下の光エネルギーでも、抗菌、防汚、防カビ、防臭などの光触媒作用を発揮し、人体及び環境に一切無害であるので、農業、水産、食品、工業、医療、環境など様々な分野に活用できる。
三次機能水を木材に塗布し、放置した。また、三次機能水を塗布していない木材も同じ時間放置した。三次機能水を塗布していない木材は変色をきたしたが、三次機能水を塗布した木材は変色をきたしていなかった。
また、密閉容器内にホルムアルデヒトと木材を入れて放置しておいたところ、三次機能水を塗布していない木材を入れた容器ではホルムアルデヒトの量は放置前後で変化していなかったが、三次機能水を塗布した木材を入れた容器ではホルムアルデヒトの量が減少していた。
三次機能水を塗布した容器内に、使用済みのトナーを放置したところ、静電気が要因で付着していた汚れが取れた。なお、上記作業をしていないトナーは、ほとんど汚れがとれなかった。
三次機能水を、３０台の乗用車の外部機構（燃料タンク、燃料室、該燃料タンクから概燃焼室へ燃料を送る手段、及び概燃焼室で発生した排ガスを外部へ排気する為の排気部）の２、３箇所に塗布したところ以下の結果が得られた。
・ＣＯ低減率５１．７％
・ＨＣ低減率６３．５％
・燃費向上率２６．２％
・パワー、トルクアップ
産業上の利用可能性
遠赤外線等の微弱エネルギーの特性・作用を有し、それらを保持することができる。且つ高温で焼成するなどしてもその作用は損なわれず、また人体及び環境に一切無害であるので、農業、水産、食品、工業、医療、環境など様々な分野に多種多様な形で活用できる。
遠赤外線とイオンの相互作用により人体に対しては、細胞を活性化し、新陳代謝を活発化するので自然治癒力を高めることができる。その他、植物育成、鮮度保持、抗菌、大気浄化、水質浄化、界面活性等の作用を有する。
【図面の簡単な説明】
第１図は、本発明に係る一次機能水製造装置の縦断面図である。
（符号の説明）
１ タンク、
２ 石英ガラス、
３ 攪拌プロペラ、
４ 本体留金具、
５ 本体置架台、
６ 排水口、
７ 心棒（シャフト）、
８ プーリー、
９ Ｖベルト、
１０ モーター、
１１ 低周波コイル、
１２ 紫外線ランプ・赤外線ランプ、
１３ ランプ取付架台TECHNICAL FIELD The present invention relates to far-infrared radiation wave water and a method for producing the same.
BACKGROUND ART As a technique relating to wave water, there is disclosed a method in which water is placed in a combustion gas generated by burning wood fuel, and the wave energy of the wood burning is transferred and stored.
However, the components of the combustion gas produced by burning wood fuel contain a large amount of acetic acid and become wood vinegar.This is not a study that captures the diversity of wave energy from the front, and the transfer and memory are limited to wood. This is the way it was done.
An object of the present invention is to provide a method for producing far-infrared radiation wave water and far-infrared radiation wave water that has the properties and actions of weak energy such as far infrared rays, protects the global environment, and promotes human health. Is what you do.
DISCLOSURE OF THE INVENTION The method for producing far-infrared radiation wave water of the present invention is characterized by a transferable aqueous solution obtained by irradiating a mineral-containing liquid with ultraviolet light in the presence of a photocatalyst.
(Raw material liquid)
First, a mineral-containing liquid is prepared.
As the mineral-containing liquid, it is preferable to use a weathered coral reef extract. Note that tourmaline, barley stone, or the like may be used instead of the weathered coral reef. As a mineral, it is preferable to contain one or more of Na, Ca, K, Fe, Si, and Zn, and in particular, a material containing Si in the sense of increasing the far-infrared emissivity is preferable. For example, water containing a mineral element is used. The extract is passed through water through a column in which weathered coral reefs are stacked, and filtered to obtain a mineral-containing liquid. In addition, in order to reduce the dropping rate of the liquid in the extraction process and obtain an extract more effectively, the lower part of the column has a powdery shape of 1 mm or less, the middle part of the column has fine particles of 1 to 2 mm or less, and the upper part of the column. It is preferable that the pulverized weathered coral reef having a size of 2 to 4 mm is packed and filled.
As the water to be fed into the column, tap water, pure water, ultrapure water, electrolytic water, mineral water, and other water can be used. Particularly, mineral water is preferable. Alternatively, water that is clustered by irradiating ultrasonic waves to water may be used. In this case, it is preferable to irradiate pure water or ultrapure water with an ultrasonic wave, since clustering is further promoted.
The extracted water is mixed with 0.01 to 1.20% (% by weight) of titanium oxide and 0.01 to 0.7% (% by weight) of silicon powder with respect to the extracted water to prepare a raw material liquid. Preferably, 0.5 to 1.0% (% by weight) of titanium oxide and 0.1 to 0.5% (% by weight) of silicon powder are mixed.
In the present invention, the raw material liquid is stirred while applying a low frequency wavelength. The frequency is 100-200 Hz, preferably 150-180 Hz. The stirring is performed at 3000 to 20,000 rpm for 2 to 10 hours, preferably 5 to 8 hours.
Note that, by stirring while applying a low frequency, the activated state can be stabilized.
Further, in parallel with the above, ultraviolet rays are irradiated in the presence of a photocatalyst.
(Photocatalyst solution)
As the photocatalyst, titanium oxide is preferable. It is desirable to use an anatase type titanium oxide, that is, a liquid (TPX sol) containing an anatase fine powder peroxo-modified with peroxoacid and hydrogen peroxide. The TPX sol is a mixed aqueous solution of peroxotitanic acid and titanium dioxide containing 0.85 w% of titanium oxide. Irradiation with ultraviolet light having a wavelength of 400 nm or less in the presence of such a photocatalyst breaks the oxygen / hydrogen bond that bonds between water molecules, generating H-OH with no hydrogen bond.
(UV irradiation)
Irradiate ultraviolet rays of 400 nm or less. The irradiation time is 0.5 to 8 hours, preferably 5 to 7 hours. By irradiating ultraviolet rays of 280 nm or less, the raw material liquid can be sterilized.
In addition, it is preferable to irradiate an infrared ray of 0.77 to 500 μm, preferably 6 to 14 μm for 10 to 120 minutes following the ultraviolet irradiation.
When receiving far-infrared rays, in particular, far-infrared rays of 6 to 14 μm, resonance vibrations occur, and the molecular motion of the raw material liquid is activated.
By the above steps, the far-infrared radiation wave water of the present invention is obtained. When actually used, it is preferable to use secondary functional water obtained by diluting far-infrared radiation wave water with transfer water.
(Secondary functional water)
First, far-infrared radiation wave water and titanium oxide are kneaded with a material (such as ceramics in general) serving as a transfer medium, and are appropriately molded. This is fired at 700 to 1400 ° C. The transfer member is immersed in water and left for an appropriate time. By leaving it for an appropriate time, the function of the primary functional water is transferred to the water. The transfer member is made of, for example, general ceramics (porcelain, cement, glass, artificial raw material, high-purity raw material, etc.), metal, or the like. Similarly, a transfer container may be prepared and transferred by a method of injecting water into the container.
In producing the transfer member, diluted far-infrared radiation wave water may be used as the secondary functional water. The dilution ratio is preferably 2 to 30,000 times, more preferably 10 to 10,000 times.
Regarding the amounts of the primary functional water and titanium oxide to be mixed in the transfer member, the amount may be 0.01 to 30% (% by weight) of the volume of the transfer member. As for the mixing ratio, far-infrared radiation wave water and titanium oxide may be mixed at 10 to 90% (vol%) and mixed appropriately. Preferably, 30 to 70% (vol%) of primary functional water, 70 to 30% (vol%) of titanium oxide, more preferably 50% (vol%) of far infrared radiation wave water, 50% (vol%) of titanium oxide are preferable. . The strength of the energy changes depending on the mixing ratio and mixing ratio of the far-infrared radiation wave water and the titanium oxide in the transfer member. Therefore, the time required for transfer also changes.
As described above, the transfer can be performed very effectively by including titanium oxide in the raw material of the transfer member.
It is more preferable to mix silicon powder in the transfer member from the viewpoint of increasing the far-infrared emissivity. The mixing ratio is preferably 0.01 to 5% (% by weight) based on the volume of the transfer member. It is preferable that the silicon powder has high purity and small particle size.
Further, the transfer member has effects such as improvement of water quality, purification of air, repelling, and the like, and can be used in various applications by appropriately kneading and molding and firing.
As the transfer water to be transferred, for example, tap water, pure water, ultrapure water, electrolyzed water, primary functional water, secondary functional water, mineral water and other water as used in the present invention can be used. In particular, mineral water is preferred.
The transfer period is appropriately determined by the mixing ratio, mixing ratio, etc. of the far-infrared radiation wave water and titanium oxide contained in the transfer member. For example, when one transfer member having a diameter of about 3 to 4 cm is immersed in 10,000 ml of water, it is left for 7 to 90 days.
Far-infrared radiation wave water is mixed into the transfer water in an amount of 0.0001 or more (% by weight) with respect to the transfer water to produce secondary functional water. At the time of mixing, it is preferable to mix by stirring at 2500 to 3500 rpm for 30 to 120 minutes.
By mixing the far-infrared radiation wave water into the transfer water, the far-infrared effect and the like having the secondary functional water become stronger. In addition, the persistence of those effects is prolonged. In addition, a substitute method is also used as a method for producing secondary functional water.
(Method 2)
0.0001 or more (weight%) of far-infrared radiation wave water is mixed into tap water or the like. Apply low frequency vibration. The frequency is 100-200 Hz, preferably 150-180 Hz. The stirring is performed at 3000 to 12000 rpm for 2 to 6 hours.
In parallel with the above operation, ultraviolet rays of 400 nm or less are irradiated for 2 to 5 hours.
Next, it is preferable to irradiate infrared rays with 0.77 to 500 μm, preferably 6 to 14 μm for 10 to 60 minutes.
For example, fibers, minerals, and the like are immersed in secondary functional water in which far-infrared radiation wave water and far-infrared radiation wave water are mixed in an amount of 0.0001 or more (% by weight) with respect to transfer water for 2 to 14 days, and then dried. Thus, weak energy such as far infrared rays can be transferred to a solid.
At the time of transfer, in addition to the method of immersing the object in the raw water, a method of kneading at the stage of production is also possible, and the effect is similarly exhibited. The object to be transferred can be transferred to anything including minerals, fibers, accessories, and the like. When used on the human body, those that directly touch the skin are more effective.
In addition, by producing secondary functional water in which far-infrared radiation wave water is mixed in 0.0001 to 1.5% (weight%) with respect to transfer water, lotion, atopic dermatitis, muscle fatigue agent, antibacterial It is possible to produce secondary functional water which is versatile as a deodorant and has sufficient effects for each purpose. When the content is 1.5% (% by weight) or less, the composition can be suitably used as an external preparation for skin.
In addition, as in the case of the secondary functional water, the secondary functional water in which far-infrared radiation wave water is mixed with the transfer water in an amount of 0.0001 to 1.5% (% by weight) with respect to the transfer water is produced, so that it can be used as an animal and plant growing agent. , Can be used over plants. Alternatively, the soil may be impregnated with the plant. Moreover, you may make an animal drink.
(Tertiary functional water)
Further, by mixing the secondary functional water with another medium, it is possible to produce tertiary functional water capable of enhancing the characteristics, functions, and the like of the other medium.
For example, by blending a secondary functional water and a photocatalyst solution (preferably an aqueous solution of titanium oxide), a tertiary functional water having a catalytic action can be produced without requiring light energy of 400 nm or less. As for the mixing ratio, the secondary functional water and titanium oxide may be mixed in a ratio of 10% to 90% (volume%). In addition, it is good to mix | blend preferably 30 to 70% (vol%) each. Tertiary functional water can be produced by appropriately stirring.
The tertiary functional water can be used, for example, as a building material coating material. It has the function of blocking ultraviolet rays, preventing corrosion, deterioration, deodorizing, decomposing organic substances, and the like.
As another method of use, the effect of reducing harmful components in exhaust gas, and the effect of improving fuel efficiency, power, and torque can be exhibited simply by applying the composition to an external mechanism such as a car.
The application method is not particularly limited, but for example, tertiary functional water may be applied by spraying. The application section is applied to at least one of a combustion tank, a combustion chamber, a means for sending fuel from the fuel tank to the combustion chamber, and an exhaust section for exhausting exhaust gas generated in the combustion chamber to the outside.
Either the inner surface or the outer surface may be used. The outer surface is preferable from the viewpoint of simplicity of application.
The component material of each mechanism to be applied is not limited. Metal (for example, a material for a combustion chamber of an engine or the like, or a muffler for an exhaust part), ceramic (for example, a material for a filter or the like arranged on a line of an exhaust part), or an organic material (means for sending fuel or a material for an exhaust part). Constituent materials such as exhaust pipes and tubes). Also, the coating may be applied to a part of the component part without being limited to the entire surface.
The combustion mechanism is an automobile, a home heater, or another combustion mechanism. In particular, the effect is more remarkable than in the case of a combustion mechanism using a liquid fuel such as gasoline or kerosene.
(Action)
In water, H ₂ O molecules are hydrogen-bonded to form a chain called a cluster. As a method for promoting the activation of water clusters, various kinds of different molecules are vibrated to an excited state by stirring extracted water and irradiating ultraviolet rays.
Since the breaking of hydrogen bonds is performed as an interaction between the positive charge of a hydrogen atom and the electron pair of an oxygen atom, it is included as a chemical reaction called charge transfer or redox in a broad sense. The catalysts involved are considered effective.
At present, titanium oxide is known as a catalyst for a redox reaction of a substance dissolved in the form of an aqueous solution, and in particular, anatase type titanium oxide has an ability to reduce a dissolved substance or a coexisting substance by ultraviolet irradiation. is there. In addition, there is a capacitor-like element, and the emission and retention of negative ions are repeated in the balance of entropy.
Even when the hydrogen bond strength of water is 8 to 30 mol, the photocatalysis of this titanium oxide (excitation energy: 3 eV) causes the transfer of electrons between the hydrogen atom and the oxygen atom, and the electrons inherent in the hydrogen bond It is thought that the state is canceled and its energy becomes an excited state. Further, the raw material liquid is activated, and the reducing action (resuscitation action) and the ionic action are also activated.
All materials are composed of atoms. An atom is made up of the protons that make up the nucleus and the negative electrons that go around the nucleus. An electron has a unique vibration (energy pattern) depending on the type of atom, the number of rotations, and the like. This vibration is called weak energy, and the energy pattern is called a wave.
It is known that water fixes its information under the influence of external weak energy and transfers the weak energy to other substances. By utilizing this property, it is considered that weak energy including far infrared rays is transferred to the liquid from the transfer member obtained by kneading and firing the primary functional water. It is also considered that the object is similarly transferred to the solid by immersing the object in the primary functional water and the secondary functional water.
The most abundant component on earth is silicon, and many solid inorganic and organic substances also have a density similar to that of Si02, many are made of far-infrared radiation materials similar to quartz, and further contain transition element oxides. If it is, it shows high emissivity.
Weathered coral reefs contain over forty trace minerals, unique to natural resources. It has a composition similar to barley stone, and has far-infrared radiation and negative ion emission.
Far-infrared radiation wave water and secondary functional water emit far-infrared rays even at room temperature (far-infrared effect). In addition, ions are released (ion release effect). Further, it has a quantum effect and other characteristics and actions.
The far-infrared energy promotes a bioactive effect including ATP generation and a growth promoting effect on the human body. In addition, it plays an important role in water purification, activation of animal and plant cells, and protein synthesis. In addition, it has freshness retention, antibacterial, deodorant, and aging promoting effects.
Further, the energy of far-infrared rays taken into the substance is changed into activating energy, and the balance of ions is adjusted.
Negative ions have effects on the human body in purifying blood, activating cells, enhancing immunity, and regulating autonomic nerves. In addition, it has actions such as antibacterial, deodorant, antioxidant, and growth.
Micronutrients lead to a healthy body by improving nutritional imbalance caused by a shortage of trace elements. In addition, various physiological disorders and diseases caused by the imbalance of soil nutrients, diseases such as chain disorders, and the like are returned to normal, and the growth of useful microorganisms is promoted.
170-MNR measurement of the secondary functional water (the water produced 12 months ago was left indoors) showed a half width of 57 Hz. General tap water has a frequency of 150 to 155 Hz, and it can be said that the state in which clusters are clearly divided, that is, the electron energy of water molecules is high, and the activated state can be maintained.
The so-called activated water in which the clusters are subdivided, so-called activated water, has a strong penetrating power into cell tissues, and nutrients in the body, transport of oxygen and the like, or excretion of urine and the like are performed smoothly.
When given to plants, the activation of cells and the rate of absorption of nutrients and water are increased, and the promotion of plant growth is enhanced. In addition, the water molecules in the soil activate and suppress the growth of pathogenic bacteria, and at the same time, promote the growth of useful microorganisms, thereby activating the soil.
Since the exchange of ions is activated, the synthesis of cytochrome C is increased, and the enzyme containing iron is a metabolic factor capable of promoting growth.
It is considered that titanium oxide can promote the catalytic effect in the situation where the amount of ultraviolet irradiation is small by utilizing the weak energy of the primary functional water and the secondary functional water and other properties and actions.
Fuels such as gas oil and gasoline are C and H compounds and hydrocarbon compounds chemically synthesized by applying electricity and pressure, and these are attracted to each other by an electric magnetic field to form a certain amount of clusters. are doing. As a result, the viscosity index becomes high and mixing with air is difficult, so that the external magnetic field is disturbed by promoting ionization and the clusters are subdivided. As a result, the liquid of the fuel such as gasoline has a very fine molecular structure, the viscosity index is reduced, and it is possible to lead to a state where it is easily bonded to oxygen.
The ionized air spreads evenly in each cylinder, improving the mixing efficiency with combustion during compression and creating a state in which combustion is easy. This greatly reduces the loss of caloric energy required for combustion, that is, the energy that has been lost can be effectively used for kinetic energy.
As for the exhaust, the electric potential in the exhaust pipe becomes lower, so that the exhaust gas (exhaust heat) can flow efficiently. As a result, the influence of the exhaust pressure on the engine is significantly reduced, and the load on the engine can be reduced. In addition, each ionized oxide passes smoothly through the exhaust trachea without being affected by a shock wave, and the flow velocity is increased to improve the exhaust efficiency.
The component analysis table is as shown in Table 1 and contains many transition elements.

BEST MODE FOR CARRYING OUT THE INVENTION (Example 1)
(Far-infrared radiation wave water)
Tap water was passed through a column in which the weathered coral reefs were stacked to obtain an extract. A solution obtained by mixing 0.3% of titanium oxide and 0.5% of silicon powder with respect to this extract was charged into the main body tank 1. The water was stirred for 8 hours with the balance propeller 3 (11,480 rpm / min) while applying a frequency of 170 Hz with the low frequency coil 11.
In parallel with the above operation, an ultraviolet lamp of 280 nm was irradiated through the quartz glass 7.5 for 7.5 hours, and then an infrared lamp (10 μm) was irradiated for 0.5 hour to obtain far-infrared radiation wave water.
(Example 2)
(Secondary functional water)
A far-infrared radiation wave water is manufactured by the manufacturing method according to the first embodiment.
125 ml of the above-mentioned far-infrared radiation wave water and 125 ml of titanium oxide were kneaded with 3 kg of diatomaceous earth. A transfer member was prepared by forming it into a spherical shape having a diameter of 4 cm and firing at 1200 ° C., and placed in a storage tank.
Transfer water was obtained by charging 50 t of tap water into a storage tank and immersing the transfer member in tap water for 30 days.
To the transfer water, 3% (weight%) of far-infrared radiation wave water with respect to the transfer water was mixed and mixed to obtain a secondary functional water.
(Example 3)
(Secondary functional water)
A far-infrared radiation wave water was produced by the production method according to Example 1.
Tap water and 3% of far-infrared wave water are mixed into the main tank 1 with respect to the water. While applying a frequency of 170 Hz with the low frequency coil 11, stirring was performed at 3000 rpm for 2 hours. In parallel, irradiation with an ultraviolet lamp at 280 nm was performed for 2 hours, and then irradiation with an infrared lamp (10 μm) was performed for 0.5 hour to obtain secondary functional water.
The crystal necklace was immersed in the secondary functional water for 3 days and then dried.
By immersing the transfer member in the liquid or immersing the object in the primary functional water and the secondary functional water, it is possible to transfer weak energy such as far infrared rays. In addition, the transferred effect is semi-permanent, and the transferred effect is not lost even after repeated wearing and washing.
As a result of an experiment of wearing the transcribed necklace and bracelet by 100 monitors, the following symptom improvement was reported.
・ Shoulder, back pain, joint pain ・ Rheumatism ・ Numbness of hands ・ Coldness ・ Migraine ・ Hay fever ・ Constant good blood pressure Use of transcribed textiles may cause atopic dermatitis, chemical sensitivity, etc. In addition, skin damage due to fiber is alleviated.
(Example 4)
(Secondary functional water)
A far-infrared radiation wave water was produced by the production method according to Example 1.
The secondary functional water was manufactured by the method according to Example 2 and Example 3. The transfer water and tap water were mixed with far-infrared radiation wave water at 0.1% (% by weight).
The following effects were found when healthy adult boys (50 years old) were sprayed with the above secondary functional water on both arms and compared with the unsprayed state.
-Blood flow velocity 1.144 times (14.5% increase)
-Blood flow 1.069 times (6.9% increase)
-Brain wave measurement The alpha wave (8 Hz or more and 13 Hz or less) indicating the relaxed state is clearly superior to the unsprayed state, and is embodied uniformly and abundantly from the beginning to the final stage. This means that the relaxed state is maintained for 20 minutes immediately after the secondary function water spray.
An experiment of spraying the secondary functional water onto an appropriate part of the human body was performed on 100 monitors, and the following improvement in symptoms was reported.
・ Stains ・ wrinkles ・ atopic dermatitis ・ tineaphy ・ halitosis ・ armpit odor ・ burn inflammation ・ muscle fatigue ・ toothache ・ hair growth ・ hair growth ・ haemostasis ・ joint pain was gotten.
・ Growth was fast and rooting became strong.
・ Increase in fruit set and fruit set rate (30% increase in yield)
-Overall height 60% up, weight 25-30% up.
-Increase in protein, nitrogen, and sugar.
・ The color is clear.
-Repellent effect (Example 5)
(Tertiary functional water)
A far-infrared radiation wave water was produced by the production method according to Example 1.
Secondary functional water was produced by the production method according to Example 2 and Example 3. In addition, 3% (weight%) of far-infrared radiation wave water was mixed with the transfer water and tap water.
Tertiary functional water was obtained by blending 30% (vol%) of the secondary functional water and 70% (vol%) of titanium oxide.
By blending the secondary functional water and titanium oxide, it exhibits photocatalytic action such as antibacterial, antifouling, antifungal and deodorant even with light energy of 400nm or less, and is harmless to human body and environment. It can be used in various fields such as fisheries, food, industry, medical care and environment.
Tertiary functional water was applied to the wood and allowed to stand. Wood without the tertiary functional water applied was also left for the same time. Wood without the tertiary functional water was discolored, but wood with the tertiary functional water was not discolored.
In addition, when formaldehyde and wood were placed in a closed container and left to stand, the amount of formaldehyde in the container containing wood to which the tertiary functional water was not applied did not change before and after standing, but the tertiary functional water was not changed. The amount of formaldehyde in the container containing the wood coated with was reduced.
When the used toner was left in the container to which the tertiary functional water was applied, dirt attached due to static electricity was removed. It should be noted that the toner that had not been subjected to the above operation could hardly be stained.
External mechanism of 30 passenger cars with tertiary functional water (fuel tank, fuel chamber, means for sending fuel from the fuel tank to the general combustion chamber, and exhaust unit for exhausting exhaust gas generated in the general combustion chamber to the outside) The following results were obtained when the composition was applied to a few places.
・ CO reduction rate 51.7%
・ HC reduction rate 63.5%
・ Fuel efficiency improvement rate 26.2%
-Power and torque increase Industrial applicability It has the property and action of weak energy such as far infrared rays and can maintain them. In addition, even if it is fired at a high temperature, its function is not impaired, and it is harmless to human body and environment. Therefore, it can be used in various fields such as agriculture, fisheries, food, industry, medical care, environment and the like.
The interaction between far-infrared rays and ions activates cells and activates metabolism for the human body, thereby enhancing the natural healing power. In addition, it has functions such as plant growth, freshness maintenance, antibacterial, air purification, water purification, and surface activity.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a primary functional water producing apparatus according to the present invention.
(Explanation of reference numerals)
1 tank,
2 quartz glass,
3 stirring propeller,
4 body fasteners,
5 body mounting stand,
6 drains,
7 mandrel (shaft),
8 pulley,
9 V belt,
10 motors,
11 low frequency coils,
12 UV lamps and infrared lamps,
13 Lamp mounting base

Claims (18)

A method for producing transferable far-infrared radiation wave water having the property and action of faint energy such as far-infrared, characterized by adding a photocatalyst solution to a raw material solution in the presence of a photocatalyst and irradiating ultraviolet rays. The method for producing far-infrared radiation wave water according to claim 1, wherein the raw material liquid is a mineral-containing liquid. The method for producing far-infrared radiation wave water according to claim 1 or 2, wherein the mineral-containing liquid is a weathered coral reef extract. The method for producing far-infrared radiation wave water according to any one of claims 1 to 3, wherein silicon powder is mixed into the extract. The method for producing far-infrared radiation wave water according to any one of claims 1 to 4, wherein the extract, the silicon powder, and the photocatalyst solution are stirred while irradiating a low frequency wavelength. The method for producing far-infrared radiation wave water according to any one of claims 1 to 5, wherein infrared light is irradiated after ultraviolet light irradiation. The method for producing far-infrared radiation wave water according to any one of claims 1 to 6, wherein the photocatalyst is titanium oxide. The method according to any one of claims 1 to 7, wherein the photocatalyst is anatase-type titanium oxide. The transfer member is manufactured by kneading and firing a material serving as a transfer medium, far-infrared radiation wave water and a photocatalyst solution, and the transfer is performed using the transfer member. The method for producing far-infrared radiation wave water according to claim 1. The method for producing far-infrared radiation wave water according to any one of claims 1 to 9, wherein the function of far-infrared radiation wave water is transferred to the water by immersing the transfer member in water. A method for producing far-infrared radiation wave water produced by the method according to any one of claims 1 to 10. The far-infrared radiation wave water is characterized in that clusters are subdivided and activated. The method for producing tertiary functional water according to any one of claims 1 to 10, wherein the far-infrared radiation wave water according to claim 11 and titanium oxide are mixed. The tertiary functional water according to any one of claims 1 to 11, wherein the tertiary functional water is for building material coating. The tertiary functional water according to any one of claims 1 to 11, wherein the tertiary functional water is for reducing exhaust gas and improving fuel efficiency, power, and torque. Tertiary functional water characterized by applying tertiary functional water to any part of a combustion mechanism including an exhaust part for exhausting exhaust gas generated in a fuel tank and a general combustion chamber to the outside. The tertiary functional water according to any one of claims 1 to 11, wherein the tertiary functional water is for blocking ultraviolet rays. The tertiary functional water according to any one of claims 1 to 11, wherein the tertiary functional water is for preventing static electricity.

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