RU2645492C2 - Method for obtaining hydrogen water and a device for its implementation - Google Patents

Abstract

FIELD: technological processes; instrument engineering; medicine.

SUBSTANCE: invention relates to an apparatus and method for producing hydrogen-enriched water and can be used in medical equipment for health and medical procedures and in household activities. Device comprises a housing with a neck, two inductors arranged coaxially and having an oppositely directed wire winding, the first non-insulated positive oxygen tube electrode disposed in the center of the housing, a second non-isolated positive oxygen electrode with a cylindrical surface located on the periphery of the housing coaxially with the first positive oxygen electrode, and an isolated negative hydrogen electrode, the electrodes being located in the housing between the inductors, wherein the negative hydrogen electrode is a hollow electrode consisting of two current-conducting electrically connected insulating surfaces forming an interfacial volume connected through holes in one of the current-conducting plates with the volume of the device, and a double-sided plug, overlapping the neck, with the valve and the contact device in it.

EFFECT: invention provides an efficient production of hydrogen-enriched water and a reduction in the prime cost.

2 cl, 3 dwg

Description

The invention relates to medical equipment for health-improving procedures and can be used in household activities.

Japanese scientists have invented a device that allows you to saturate water with hydrogen, and devices that allow this hydrogen to be stored there (see the website http://www.beautvinsider.ru/2015/05/19/enhel-water-new-anti-aee-best -treatment / article Water with hydrogen Enhel Water - a new panacea for everything?). A disadvantage of the devices is the use of electrolysis to produce hydrogen, in which heavy metals precipitate into water, which is saturated for some time with molecular hydrogen.

Known industrial methods and devices for the decomposition of water (see, for example, Russian patents No. 2506349, 2535304, 2496917, 2521868), which due to their high performance are not intended for domestic use.

The aim of the invention is to reduce the cost of devices.

This goal is realized due to the fact that water decomposes into hydrogen and oxygen under the action of a constant electric field of a capacitor with an insulated negative lining (a hydrogen electrode, the other oxygen electrode is not insulated), the tension vector of which is directed perpendicularly to the alternating electromagnetic voltage vectors generated alternately two coaxially located inductances having an oppositely directed wire winding. When dipoles of water are oriented along the electric field vector, a break or weakening occurs depending on the amount of applied energy of atomic bonds of water molecules due to the thermal energy of water and the energy of the electric field. It is known that with a very significant energy of the electric field, not only the decomposition of water occurs, but also its breakdown as a dielectric. In our case, the power generated by the insulated capacitor is weakened. To restore it, it is necessary to increase the input voltage. To increase the productivity of water decomposition, we use electromagnetic fields lateral to the water dipoles, acting on the dipoles alternately from two sides, thereby breaking the molecular bonds of water atoms due to torques. After the decomposition of water, oxygen ions are neutralized at the uninsulated positive lining of the capacitor and exit the water. Hydrogen ions are concentrated (attracted) to an isolated negative lining and remain in the water. For the accumulation of hydrogen ions, the lining area is increased by giving it a bulk shape. Thus, by disconnecting the supply voltage, but leaving the potential of the insulated lining, it is possible to store hydrogen ions in water for a long time. To neutralize ions, the negative potential of the lining is transferred to a neutralizing non-insulated conductive surface, such as a perforated or mesh. Thus, the method of producing hydrogen water includes supplying water to the device’s volume, switching on the supply voltage by the contact device, exposing the water to a constant electric field of a water capacitor with an insulated negative lining, the intensity vector of which is directed perpendicularly to the alternating magnetic field vectors alternatingly generated by two coaxially arranged inductances, as a result of which the atomic bonds of water molecules break with the formation of hydrogen and oxygen ions due to the thermal energy of water, the energy of electric and magnetic fields, while negative oxygen ions are attracted to the positive non-insulated electrode and neutralized, being converted into oxygen molecules that enter the atmosphere, and positive hydrogen ions are attracted to the surface of the negative insulated electrode accumulating in the inter-surface volume with a seal, the value of which is proportional to the electric field strength, when the contact is turned off device supply voltage, and applying a negative potential to the conductive surface of the negative electrode, the neutralization of hydrogen ions and a uniform distribution of the formed hydrogen molecules throughout the volume of undecomposed water.

In FIG. 1 shows a device for producing hydrogen water. It contains a dielectric housing 1 with a volume of 13, in the lower and upper part of which are inductors 2 and 3 with right and left windings. An uninsulated oxygen electrode 8 is located in the housing in a central tubular shape. The second oxygen electrode located at the periphery is, for example, a cylindrical coaxially located first surface. Between the two oxygen electrodes, a hollow insulated hydrogen electrode is located coaxially with it, containing two conductive electrically connected insulated surfaces 12, the inter-surface volume 14 of which is connected by holes 11 to the volume 13 of the device. On the inner side of the volume 14, a conductive surface 12, for example, a mesh or perforated sheet metal, is fixed with some clearance. A throat 4 is inserted into the housing of the device, blocked by a two-way plug 7 containing a valve. Depending on which side the neck is closed, the valve with respect to the volume can be considered open (see Fig. 1) or closed. After turning off the voltage, we turn the plug over, with the contact device embedded in the plug, in FIG. 1 conventionally not shown, removes the potential from the hydrogen electrode and connects the negative potential, for example, from the battery, to the surface 15.

The operation of the device consists in filling food water through the neck, closing the neck with the stopper according to FIG. 1, after which we turn on the contact voltage K2 (see Fig. 2). An electronic device, the role of which is played by contacts K1, with a given frequency, turns on / off inductors L2, L3. The process of decomposition of water into negative oxygen ions and positive hydrogen ions begins. Positive hydrogen ions accumulate in the inter-surface volume 14 between the insulated surfaces 12 of the negative hydrogen electrode, and negative oxygen ions, giving away electrons to the positive oxygen electrode, are neutralized similarly in the electrolysis process and are released into the atmosphere through the valve. After a specified time, the time relay disconnecting contact K2, disconnects the power source. Before using hydrogen water, turn the cork upside down. Using a switch embedded in the plug, a signal is supplied to the coil, a relay that disconnects the contact K3 and turns on K4, connecting the negative pole of the battery 5 to the conductive surface 15. Hydrogen neutralization occurs similar to electrolysis, after which the hydrogen molecules uniformly spread throughout the volume of water. To increase the concentration of hydrogen in water, the operation of the device is repeated.

In FIG. 3 shows a diagram of increasing the electric field energy with the help of a capacitor C2 connected in parallel with the working C. In view of the fact that with an input alternating sinusoidal voltage according to the circuit of FIG. 3, the amplitude of the voltage supplied to each inductance is shifted by 180 degrees, and the polarity of the supply inductance of the voltage supplied to each inductance changes the inductance winding is one-sided, while the direction of the magnetic field strength vectors of the inductances must be counter-clockwise, corresponding to their periodic action on water dipoles periodically with opposite sides. It should be noted that the operation of the magnetic field radiation circuit can occur in the resonant mode.

The proposed method allows you to decompose water into oxygen and hydrogen of any pollution, such as marine. With removable cathode electrodes, it is possible to transfer and store hydrogen ions in the same way as with removable isolated electrodes of an oxygen anode. Moreover, the mass of the transferred gases depends on the degree of intensity of the static electrode fields. Therefore, by the degree of intensity of static fields, we can determine the transferred mass of ions. It should be noted that the transported gas ions have perfect purity.

Claims (2)

1. Device for producing hydrogen-enriched water, comprising a housing with a neck, two inductors arranged coaxially and having an oppositely directed wire winding, a first uninsulated positive oxygen tube electrode located in the center of the housing, and a second uninsulated positive oxygen electrode with a cylindrical surface located on the periphery case coaxial to the first positive oxygen electrode, and an isolated negative hydrogen electrode, and the rods are located in the housing between the inductances, while the negative hydrogen electrode is a hollow electrode consisting of two electrically connected insulated surfaces that form an inter-surface volume connected through openings in one of the conductive plates to the device’s volume, and a two-way plug over the neck, with located in her valve and contact device. 2. A method of producing hydrogen water using the device according to claim 1, comprising supplying water through the neck to the volume of the device, switching on the supply voltage by the contact device, exposing the water to a constant electric field of a water capacitor with an insulated negative lining, the intensity vector of which is directed perpendicularly periodically alternately in different directions to the magnetic field vectors generated by two coaxially located inductances, as a result of which the atomic bonds of water molecules with the formation of hydrogen and oxygen ions due to the thermal energy of water, the energy of electric and magnetic fields, while negative oxygen ions are attracted to a positive uninsulated electrode and neutralized, being converted into oxygen molecules that enter the atmosphere, and positive hydrogen ions are attracted to the surface of a negative insulated electrode, accumulating in the inter-surface volume with a seal, the value of which is proportional to the electric one field when disconnecting the supply voltage contact device, by inverting the tube and applying a negative potential on the conductive surface of the negative electrode, hydrogen ions are neutralized and a uniform distribution of the molecular hydrogen formed over the entire volume of water undecomposed.

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