JP2009262062A - Reduced water production apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reduced water production apparatus which can easily produce a desired amount of reduced water, such as reduced hydrogen water or reduced oxygen water. <P>SOLUTION: The reduced water production apparatus 10 is provided with a magnetic field vibration generating means 12 for applying a magnetic field vibration to water, an electrolysis means 13 for electrolyzing water, and a gas dissolving means 14 for dissolving gas generated in the electrolysis means 13 in the water to which the magnetic field vibration has been applied by the magnetic field vibration generating means 12. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a reduced water production apparatus for producing reduced water such as reduced hydrogen water and reduced oxygen water.

Conventionally, as a reduced water production apparatus for producing reduced water such as reduced hydrogen water or reduced oxygen water, for example, an apparatus utilizing the electrolysis property of water is known. According to this apparatus, disinfection and cleaning are performed. The same amount of oxidized acidic water used for water and alkaline reduced water used for drinking is produced (see, for example, Patent Document 1).
JP 2001-113276 A

  However, in the above-described conventional reduced water production apparatus, after the production of oxidized acidic water and alkaline reduced water by electrolysis, the water quality changes suddenly and returns to the normal water state before electrolysis in a short time. There was a problem such as.

  The present invention has been made to solve the above-described problems, and provides a reduced water production apparatus capable of easily producing a desired amount of reduced water such as reduced hydrogen water or reduced oxygen water. It is the purpose.

The reduced water production apparatus according to the present invention includes magnetic field vibration generating means for applying magnetic field vibration to water,
Electrolytic means for electrolyzing water and gas dissolving means for dissolving the gas generated by the electrolyzing means in water given magnetic field vibration by the magnetic field vibration generating means.

  And the said electrolysis means is provided with 2 sets of 2 sets of 1 electrode, It is preferable to provide the gas discharge | release means which discharge | releases the gas which generate | occur | produced by the electrode of any one set to the exterior.

  Further, it is preferable that an energization coil is provided between the electrodes of each set, and the energization coils are provided in a non-contact state with the electrodes of each set at a position close to the electrodes of each set.

  Further, the gas dissolving means is connected in a tangential direction between a container body formed by connecting two conical containers in the upside down direction so as to communicate with each other at the top and a bottom portion of the one conical container. There may be provided an agitation tub composed of the introduced pipe and a stirring pump for pumping water into the agitation tub through the introduction pipe.

  According to the present invention, it is possible to easily produce a desired amount of reduced water such as reduced hydrogen water or reduced oxygen water.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a schematic diagram showing a schematic configuration of a reduced water production apparatus according to an embodiment of the present invention, and this reduced water production apparatus 10 includes a box-shaped tank 11 for storing water, Is a magnetic field vibration generating means 12 for applying magnetic field vibration to water, an electrolyzing means 13 for electrolyzing water, and a gas generated by the electrolyzing means 13 in water given the magnetic field vibration by the magnetic field vibration generating means 12 A gas dissolving means 14 for dissolving the gas and a gas releasing means 15 for releasing a part of the gas generated by the electrolysis means to the outside are provided.

  The magnetic field vibration generating means 12 includes two sets of two magnets 16a, 16b, 17a, 17b facing each other, and one set of magnets 16a, 16b is provided on the upstream side of the gas dissolving means 14, and the other The pair of magnets 17 a and 17 b is provided in the gas discharge means 15. The magnetic field vibration generating means 12 uses a DC power supply (preferably around 48V) to mix AC (Alternating Current; AC) waves of around ± 3 V into the DC power supply so that each set of magnets 16a, 16b. , 17a, 17b generates an oscillating magnetic field.

  The electrolysis means 13 includes two sets of two sets of electrodes 18a, 18b, 19a, 19b. One set of electrodes 18a, 18b is provided between one set of magnets 16a, 16b, and the other set The pair of electrodes 19a and 19b is provided between the other pair of magnets 17a and 17b. An energization coil 20 is provided between each set of electrodes 18a, 18b, 19a, 19b, and this energization coil 20 is located near each set of electrodes 18a, 18b, 19a, 19b. , 18b, 19a, 19b are provided in a non-contact state.

  The gas dissolving means 14 includes a stirring bowl 21 and a stirring pump 22 that pumps water into the stirring bowl 21. As shown in FIGS. 2 and 3, the stirring bowl 21 includes a container body 25 formed by connecting two upper and lower conical containers 23, 24 in the upside down direction so as to communicate with each other. And an introduction pipe 26 connected in the tangential direction of the bottom portion of the lower conical container 24, and a small hole 27 is formed between the upper conical container 23 and the lower conical container 24. Is formed. Further, the agitation pump 22 preferably has a capability of rotating at a rotational speed of 30000 rpm or more as a centrifugal force when a water flow reaches the small hole 27 and a capability of 0.15 mPa × 20 liters / min or more. .

  The gas discharge means 15 is provided with a vertically long cylindrical discharge gas accommodating portion 28 fixed to the upper surface of the tank 11 and having the lower surface opened into the tank 11. Magnets 17a and 17b are provided together with the other pair of electrodes 19a and 19b. Further, a release gas detection sensor 29 is provided in the upper part of the release gas storage unit 28, and a gas release valve 30 is attached to a position near the release gas detection sensor 29 on the upper surface of the tank 11.

  An air vent valve 31 for releasing the gas in the tank 11 to the outside and a safety valve 32 that is opened when the pressure in the tank 11 becomes equal to or higher than a set value are provided on the upper surface of the tank 11. . Furthermore, a water supply valve 33 that is opened when water is supplied into the tank 11 is provided at the lower part of the side surface of the tank 11, and the reduced water obtained by performing a predetermined treatment is provided at the upper part of the side surface of the tank 11. A reduced water valve 34 for taking out is provided.

  Next, the operation of the reduced water production apparatus 10 according to the embodiment of the present invention will be described. In the following description, the operation of the reduced water production apparatus 10 when producing reduced hydrogen water will be described.

  The water supplied into the tank 11 through the opened water supply valve 33 is pumped by the stirring pump 22 and sent to the magnetic field vibration generating means 12. In the magnetic field vibration generating means 12, for example, an AC wave having a frequency of 720 Hz, 780 Hz, 890 Hz, 950 Hz, or 1000 Hz is mixed, and magnetic field vibration is generated between one pair of opposing magnets 16a and 16b. One set of electrodes 18a and 18b is negatively charged, and water is electrolyzed to generate hydrogen.

  Thereafter, the water pumped by the stirring pump 22 is sent to the stirring bowl 21 through the introduction pipe 26 together with the hydrogen generated by the magnetic field vibration generating means 12. In the stirring bowl 21, the water is gradually pressurized as it rises in the lower conical container 24, and then is sent from the small hole 27 into the upper conical container 23 and is rapidly depressurized. At this time, water tries to form a stable molecular bond (cluster) below, and takes in hydrogen to form a stable cluster structure. Thereby, reduced hydrogen water is generated in the tank 11, and the reduced hydrogen water can be taken out by opening the reduced water valve 34.

  On the other hand, in the magnetic field vibration generating means 12 on the gas releasing means 15 side, for example, an AC wave having a frequency of 590 Hz, 760 Hz, 860 Hz, or 910 Hz is mixed, and the other pair of magnets 17a and 17b facing each other is mixed. In the meantime, magnetic field vibration is generated, and the other pair of electrodes 19a and 19b is positively charged, and water is electrolyzed to generate oxygen. At this time, since the current-carrying coil 20 is provided close between each pair of electrodes 18a, 18b, 19a, 19b, electrolysis is promoted. When the released gas sensor 29 detects this oxygen, the gas release valve 30 is opened and oxygen is released to the outside.

  In the above description, the operation of the reduced water production apparatus 10 when producing reduced hydrogen water has been described. However, the charging setting (plus or minus) of each pair of electrodes 18a, 18b, 19a, 19b is arbitrarily changed. By doing so, it is also possible to produce other reduced water such as reduced oxygen water.

  As described above, according to the reduced water production apparatus 10 according to the embodiment of the present invention described above, the water is changed in both the oxidation direction and the reduction direction by applying a magnetic field vibration to the water using a specific frequency. be able to. In addition, by applying magnetic field vibration to water, the molecular bond of water can be made dilute and strong by changing the binding cluster, so that the target substance such as gas or oil can be dissolved in moisture. Thus, the formation of microbubbles can be promoted.

  Distilled water, purified water, etc. are said to be difficult to energize because they contain few substances, but in order to improve the electricity passing efficiency, energization (electrolysis) is performed by applying water molecules to the electrode surface at high speed. Efficiency can be increased.

  Furthermore, when water passes through the small hole 27 and is sent to the upper conical container 23, it tends to form a stable lower cluster. As a result, one or both of the electrolyzed gas (oxygen / hydrogen) to be mixed in. Water containing a gas in an active state can be easily generated.

  Further, in the conventional electrolysis, because water in the vicinity of either the positive electrode or the negative electrode is extracted, the water becomes acidic or alkaline, but in the electrolysis according to the above-described embodiment of the present invention, Since electrolysis is used to generate pure gas (oxygen / hydrogen), pH (abbreviation of potential hydrogen or power of hydrogen) does not fluctuate.

  Moreover, in the reduced water manufacturing apparatus 10 which concerns on embodiment of this invention, if it contains water | moisture content, since it will become possible to process all things, a physiological saline will be reduced or drunk for medical use. The juice or the like can be reduced.

Furthermore, the reduced water manufacturing apparatus 10 which concerns on embodiment of this invention can be utilized also for various uses as follows.
(1) Medical field Since microbubbles are created by adjusting the pH of body fluids with hydrogen and oxygen, microbubbles generate heat by injecting ultrasound into the cancer lesion after injection into the body, and are also effective in cancer treatment. It is believed that there is. Further, since the reduced hydrogen water is mixed into the body and then combined with the active oxygen to become water, it can be used to improve inflammation in the body and the insufficiency of each organ.
(2) Environmental field Stabilized (emulsified) treated water with optimal blending of hydrogen and oxygen and fossil fuels such as heavy oil (A / B), light oil, kerosene, gasoline, etc. Are mixed into an emulsified state (emulsion), so that the calorie consumption is not changed, the fuel consumption ratio is greatly reduced, and the air pollution of exhaust gas can be reduced by the action of mixed hydrogen and oxygen.

In addition, when mixing treated water and fossil fuel in this way and using it as emulsion water, in order to prevent separation due to long-term storage, it is desirable to carry out stirring treatment until just before use.
(3) Living field By installing it in a water receiving tank installed in a large-scale housing group, it is possible to always produce reduced hydrogen water containing a lot of hydrogen, generating bacteria inside the water receiving tank, and oxidizing the water supply pipes. Corrosion due to can be prevented.

In addition, by attaching to a faucet of an individual house, neutral reduced water can be supplied for drinking at any time, and active oxygen water with a low potential and effective in removing dirt and sterilization is supplied. be able to.
(4) Others Since a large amount of electrons (e ⁻ ) are contained in the moisture (about −100 to −500 mV), a pair of 0.6 V can be obtained by putting them in a current-carrying partition together with normal oxidized water (about +550 mV). It becomes possible to manufacture a water battery having a capacity of about ˜1V.

It is a schematic diagram which shows schematic structure of the reduced water manufacturing apparatus which concerns on embodiment of this invention. It is sectional drawing which shows the stirring bowl of the reduced water manufacturing apparatus which concerns on embodiment of this invention. It is sectional drawing which shows the stirring bowl of the reduced water manufacturing apparatus which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Reduced water production apparatus 12 Magnetic field vibration generating means 13 Electrolytic means 14 Gas dissolving means 18a, 18b One electrode 19a, 19b The other electrode 20 Current coil 21 Stirrer 22 Stirring pump 23 Upper conical container 24 Lower cone 26 Inlet pipe

Claims (4)

Magnetic field vibration generating means for applying magnetic field vibration to water;
Electrolysis means for electrolyzing water;
A gas dissolving means for dissolving the gas generated by the electrolysis means in water given the magnetic field vibration by the magnetic field vibration generating means;
An apparatus for producing reduced water, comprising:   2. The reduced water production according to claim 1, wherein the electrolyzing unit includes two sets of two electrodes, and includes a gas releasing unit that discharges gas generated at one of the sets of electrodes to the outside. apparatus.   3. The reduced water production according to claim 2, wherein an energization coil is provided between each set of electrodes, and the energization coil is provided in a non-contact state with each set of electrodes in a proximity position of each set of electrodes. apparatus.   The gas dissolving means is connected in a tangential direction between a container body formed by connecting two conical containers in an upside down direction so as to communicate with each other at the top and a bottom surface portion of the one conical container. The apparatus for producing reduced water according to claim 1 or 2, further comprising: an agitation tank composed of an introduction pipe; and an agitation pump that pumps water into the agitation tank through the introduction pipe.

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