JP2010284598A - Modified drinking water and modifying apparatus for drinking water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a modified drinking water which has high modification effect and is highly activated and keeps the modification effect and the activated state for a long period of time. <P>SOLUTION: The modified drinking water 10 is prepared by incorporating fine bubbles of a nanometer order in pure water 5. The fine bubbles are fine bubbles of hydrogen/oxygen mixed gas and has 50-400 nanometer particle diameter. The hydrogen/oxygen mixed gas contains hydrogen and oxygen formed by the electrolysis of pure water in a molar ratio of hydrogen to oxygen of 2:1. Because hydrogen/oxygen mixed gas is mixed in the form of the fine bubbles of a nanometer order, a state in which the fine bubbles are mixed in the drinking water is kept for a long period of time and even when the drinking water is packed in a bottle and sold, the mixed state of the fine bubbles is kept without releasing the fine bubbles for a short period of time after the bottle is opened. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a reformed drinking water obtained by mixing a hydrogen-oxygen mixed gas with drinking water, and a drinking water reforming device that mixes a hydrogen-oxygen mixed gas with drinking water to generate a modified drinking water.

  As a method for reforming and activating drinking water, it is known to mix and dissolve hydrogen gas in drinking water, and drinking water containing hydrogen gas is known as hydrogen water. However, in recent years, there is a concern that if a large amount of hydrogen water is ingested, the amount of hydrogen absorbed in the body becomes excessive, which adversely affects the human body.

  In place of this hydrogen water, attention has been focused on reformed drinking water called hydrogen oxygen water that has been reformed and activated by mixing and dissolving a hydrogen-oxygen mixed gas. Such hydrogen oxygen water is disclosed in Patent Document 1. In Patent Document 1, by mixing the hydrogen-oxygen mixed gas while circulating the bath water, a sufficient amount of the hydrogen-oxygen mixed gas is mixed with the bath water to purify and sterilize the bath water. . In addition, a part of pure water used for producing the hydrogen-oxygen mixed gas is taken out for beverages, and the hydrogen-oxygen mixed gas is mixed in front of the supply port so that the hydrogen and oxygen dissolved in the pure water are mixed. It is described that a desired cosmetic effect and the like can be obtained by drinking before vaporizing again.

  On the other hand, regarding the modification and activation of drinking water and the like, attention has been paid to the action effect of fine bubbles (nano bubbles) of nanometer order. Patent Document 2 discloses characteristics of nanobubbles, and Patent Document 3 discloses a method and apparatus for generating nanobubbles.

  In addition, the method and apparatus which electrolyzes pure water and produces | generates a hydrogen-oxygen mixed gas are disclosed by patent document 4,5,6.

JP 2006-68587 A JP 2004-121962 A JP 2008-30002 A JP 2004-204347 A Japanese Patent No. 3130014 JP-A-10-266900

  The present inventor pays attention to the effect of hydrogen-oxygen water and nanobubble generation, and can improve the reforming effect of drinking water and promote its activation by making the hydrogen-oxygen mixed gas into nanobubbles and mixing it with drinking water, It has been found that the modification effect and the activated state can be maintained over a long period of time.

  In view of this point, the subject of the present invention is a modified beverage that has a high reforming effect of drinking water, a high degree of activation, and that the reforming effect and activated state are maintained over a long period of time. It is to propose water. Another object of the present invention is to propose a drinking water reforming apparatus for producing such modified drinking water.

In order to solve the above problems, the present invention provides:
A modified drinking water containing nanometer-order fine bubbles in the drinking water,
The fine bubbles are fine bubbles of a hydrogen-oxygen mixed gas,
The fine bubbles have a particle size of 50 nanometers to 400 nanometers.

  When the hydrogen-oxygen mixed gas is mixed in the form of nanometer-order fine bubbles, the state in which the fine bubbles are mixed in the drinking water is maintained for a long time. Therefore, even when sold in a form such as bottled, the mixed state of the fine bubbles is maintained, and even after opening, the fine bubbles are not released within a short time. Therefore, the hydrogen-oxygen mixed gas is ingested orally and effects such as activation of human tissue can be obtained.

  In the modified drinking water of the present invention, the diameter of fine bubbles is in the range of 50 nanometers to 500 nanometers. Microbubbles having a diameter exceeding 500 nanometers are not preferable because the absorbability of the human body to cellular tissue is reduced, and microbubbles having a diameter smaller than 50 nanometers may cause a crushing action on the cellular tissue. It is not preferable.

  In the present invention, the hydrogen-oxygen mixed gas is a hydrogen-oxygen mixed gas containing hydrogen and oxygen generated by electrolyzing pure water in a molar ratio of 2: 1. A hydrogen-oxygen mixed gas containing hydrogen and oxygen in a molar ratio of 2: 1 known as brown gas obtained by electrolyzing pure water is obtained by mixing hydrogen gas and oxygen gas. It is known that it has useful properties such as purification, sterilization, and activation of drinking water, although its properties are different from the hydrogen-oxygen mixed gas and the specific technical reasons have not yet been elucidated. .

  In the present invention, the mixing amount of the fine bubbles with respect to the drinking water is such that the hydrogen-oxygen mixed gas is supplied at a rate of 1 to 1000 liters / hour in the state of the fine bubbles with respect to 1 cubic meter of the drinking water. desirable. If the mixing amount is smaller than this, the effect of the hydrogen-oxygen mixed gas cannot be expected, and it is not practical to make the mixing amount larger than this, and the improvement of the working effect is not seen.

  In the present invention, as the drinking water, natural water such as ground water and deep sea water, tap water, pure water, or drinking water such as pure water mixed with various mineral components can be used. . When pure water is used, pure water can be electrolyzed in the process of producing reformed drinking water to produce a hydrogen-oxygen mixed gas, so that drinking water is used in the reforming device for producing reformed drinking water. There is no need to provide a supply source and a pure water supply source, and the apparatus can be made compact and compact.

Next, the present invention is a drinking water reforming apparatus for producing the above-mentioned modified drinking water,
A water purifier that produces pure water from drinking water;
A hydrogen-oxygen mixed gas generator that electrolyzes pure water supplied from the deionizer to generate a hydrogen-oxygen mixed gas containing hydrogen and oxygen in a ratio of 2 mol: 1 mol;
A hydrogen-oxygen mixed gas supplied from the hydrogen-oxygen mixed gas generator is mixed with pure water supplied from the drinking water or the pure water device in a predetermined pressure state in the form of fine bubbles, and modified. And a nanobubble mixer for producing quality drinking water.

  Here, a mixer disposed in the middle of a supply path for supplying the drinking water to the nanobubble mixer, or in the middle of a supply path for supplying pure water generated in the pure water apparatus to the nanobubble mixer. In the mixer, a hydrogen-oxygen gas mixed water is produced by mixing a hydrogen-oxygen mixed gas supplied from the hydrogen-oxygen mixed gas generator with a pure water supplied from the drinking water or the pure water device. Then, the hydrogen oxygen gas mixed water may be supplied to the nanobubble mixer.

  In general, the reformer includes a water supply tank that stores the drinking water supplied to the deionizer, and a modified drinking water tank that stores the modified drinking water generated in the nanobubble mixer. And are arranged.

  According to the present invention, fine bubbles of a hydrogen-oxygen mixed gas are mixed with drinking water, and the diameter of the fine bubbles is 50 to 400 nanometers. The state in which the hydrogen-oxygen mixed gas is mixed with the drinking water is maintained for a long period of time, and the fine bubbles of the hydrogen-oxygen mixed gas are easily absorbed by the human body tissue. Thus, it is possible to obtain a modified drinking water having excellent efficacy.

It is a schematic block diagram which shows an example of the reforming apparatus of the drinking water to which this invention is applied. It is a schematic block diagram which shows the modification of the reforming apparatus of FIG.

  Below, with reference to drawings, the embodiment of the reformer of the drinking water for manufacturing the modified drinking water of the present invention is described.

  FIG. 1 is a schematic configuration diagram showing a drinking water reforming apparatus. The drinking water reforming apparatus 1 includes a water supply tank 2, and the drinking water 3 to be processed stored in the water supply tank 2 is supplied to the pure water device 4. Pure water 5 generated from drinking water in the pure water device 4 is supplied to a hydrogen-oxygen mixed gas generator 6. The hydrogen-oxygen mixed gas generator 6 includes an electrolytic cell that electrolyzes pure water 5 to generate a hydrogen-oxygen mixed gas 7.

  For example, cylindrical anodes and cathodes are arranged alternately and concentrically at regular intervals in an electrolytic cell which is a cylindrical sealed container, and a conductive substance such as potassium hydroxide is dissolved in this electrolytic cell. Purified water is electrolyzed by putting the purified water into it and energizing the electrodes. As a result, oxygen generated from the anode and hydrogen generated from the cathode are mixed in a sealed container to generate a hydrogen-oxygen mixed gas.

  On the other hand, pure water 5 is also supplied from the pure water device 4 to the nanobubble mixer 8. A hydrogen-oxygen mixed gas is also supplied from the hydrogen-oxygen mixed gas generator 6 to the nanobubble mixer 8. The nanobubble mixer 8 includes a high-pressure pump 9, and the hydrogen-oxygen mixed gas 7 is made into fine bubbles by injecting the hydrogen-oxygen mixed gas 7 into the pure water 5 that is pumped under high pressure. Pour into pure water and mix. The reformed drinking water 10 reformed by mixing fine bubbles (nano bubbles) of the hydrogen-oxygen mixed gas is supplied to the reformed drinking water tank 11. In this way, the reformed drinking water tank 11 is mixed with the hydrogen-oxygen mixed gas 7 in the form of fine bubbles, and a part of the hydrogen-oxygen mixed gas is dissolved. 10 is stored. From here, the modified drinking water can be ingested directly, and can be delivered in small portions into bottles and the like.

  Note that the nanobubble mixer 8 can employ, for example, a mechanism that generates ultrafine bubbles (nanobubbles) by the ultrafine bubble generation method disclosed in Patent Document 2 described above. Instead of this, it is also possible to use an ultrafine bubble generator using an ultrasonic vibration generator.

  Next, FIG. 2 is a schematic configuration diagram showing a modification of the reforming apparatus 1. Since the basic configuration of the reforming apparatus 20 shown in this figure is the same as that of the reforming apparatus 1, the corresponding parts are denoted by the same reference numerals, and description thereof is omitted. In the reformer 20, a mixer 22 is disposed in the middle of a supply path 21 that supplies pure water generated in the pure water device 4 to the nanobubble mixer 8.

  The hydrogen / oxygen mixed gas is supplied to the mixer 22 from the hydrogen / oxygen mixed gas generator 6. In the mixer 22, the hydrogen-oxygen mixed water is generated by mixing the hydrogen-oxygen mixed gas 7 from the hydrogen-oxygen mixed gas generator 6 with the pure water 5 supplied from the pure water device 4. This hydrogen-oxygen mixed water 23 is supplied to the nanobubble mixer 8. As described above, by mixing the hydrogen-oxygen mixed gas with the pure water in two stages, it is possible to efficiently generate the reformed drinking water containing a predetermined amount of the hydrogen-oxygen mixed gas.

  In the example of FIGS. 1 and 2, a hydrogen-oxygen mixed gas is mixed with pure water generated from drinking water. Instead, as shown in phantom lines in FIGS. 1 and 2, drinking water is directly supplied to the nanobubble mixer 8, and a hydrogen-oxygen mixed gas is mixed with the drinking water to obtain a modified drinking water. Also good.

DESCRIPTION OF SYMBOLS 1,20 Drinking water reformer 2 Water supply tank 3 Drinking water 4 Pure water device 5 Pure water 6 Hydrogen oxygen mixed gas generator 7 Hydrogen oxygen mixed gas 8 Nano bubble mixer 9 High pressure pump 10 Reformed drinking water 11 Reformed beverage Water tank 21 Supply path 22 Mixer 23 Hydrogen oxygen mixed water

Claims (6)

A modified drinking water containing nanometer-order fine bubbles in the drinking water,
The fine bubbles are fine bubbles of a hydrogen-oxygen mixed gas,
The fine bubbles have a particle size of 50 nanometers to 500 nanometers,
The reformed drinking water characterized in that the hydrogen-oxygen mixed gas is a hydrogen-oxygen mixed gas containing hydrogen and oxygen generated by electrolyzing pure water in a molar ratio of 2: 1.   The mixing amount of the fine bubbles with respect to the drinking water is obtained by supplying the hydrogen-oxygen mixed gas at a rate of 1 to 1000 liters / hour in the state of fine bubbles with respect to 1 cubic meter of the drinking water. The modified drinking water according to claim 1, characterized in that it is a quantity.   The modified drinking water according to claim 1 or 2, wherein the drinking water is pure water. A drinking water reforming apparatus for producing the modified drinking water according to any one of claims 1 to 3,
A water purifier that produces pure water from drinking water;
A hydrogen-oxygen mixed gas generator that electrolyzes pure water supplied from the deionizer to generate a hydrogen-oxygen mixed gas containing hydrogen and oxygen in a molar ratio of 2: 1;
A hydrogen-oxygen mixed gas supplied from the hydrogen-oxygen mixed gas generator is mixed with pure water supplied from the drinking water or the pure water device in a predetermined pressure state in the form of fine bubbles, and modified. A device for reforming drinking water, comprising a nanobubble mixer for producing quality drinking water. In the middle of the supply path for supplying the drinking water to the nanobubble mixer, or in the middle of the supply path for supplying pure water generated in the pure water apparatus to the nanobubble mixer,
The mixer mixes the hydrogen-oxygen mixed gas supplied from the hydrogen-oxygen mixed gas generator with the drinking water or the pure water supplied from the pure water generator to generate a hydrogen-oxygen gas mixed water, The apparatus for reforming drinking water according to claim 4, wherein oxygen gas mixed water is supplied to the nanobubble mixer. A water supply tank for storing drinking water supplied to the water purifier;
6. The drinking water reforming apparatus according to claim 4, further comprising a modified drinking water tank that stores the modified drinking water generated in the nanobubble mixer.

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