WO2016134614A1

WO2016134614A1 - Device for generating electrolyzed water atomization gas

Info

Publication number: WO2016134614A1
Application number: PCT/CN2016/000092
Authority: WO
Inventors: 罗民雄; 黎明
Original assignee: 罗民雄; 黎明
Priority date: 2015-02-26
Filing date: 2016-02-24
Publication date: 2016-09-01
Also published as: CN104709975A

Abstract

A device for generating electrolyzed water atomization gas comprises a water storage container (14), a controllable electrolytic power supply (9), an electrolytic electrode assembly, an atomizer (15), and a fan (5). The electrolytic electrode assembly is mounted in the water storage container (14), and is soaked in water to be electrolyzed. The controllable electrolytic power supply (9) provides a current to the electrolytic electrode assembly. The electrolytic electrode assembly electrolyzes water in the water storage container (14). The atomizer (15) mounted in the water storage container (14) atomizes the electrolyzed water to generate electrolyzed water atomization gas. The fan (5) disperses the electrolyzed water atomization gas into the air. The electrolytic electrode assembly uses a membraneless water electrolysis technology with a higher efficiency, so as make the electrolyzed water atomization gas reach certain required indicators; three characteristics, namely, a reasonable smaller size of gaps (3) between electrodes (1, 2) having different polarities, a reasonable larger area of the gap (3) between the electrodes and proper liquidity of water in the gap (3) between the electrodes in a water electrolysis process, are combined for the design of the electrolytic electrode assembly, so as to increase the probability and the quantities of impurities in the water and water molecules that are electrolyzed, and accordingly the water electrolysis efficiency is improved.

Description

Device for generating electrolyzed water atomizing gas

Technical field

The invention relates to a device for generating electrolyzed water atomizing gas, belonging to the technical field of membrane-free electrolyzed water and air quality purification optimization.

Background technique

Nowadays, humidifiers that use water atomizing gas are widely used to solve the problem of low humidity caused by various conditions such as dry weather or using air conditioners, and to improve air humidity and air quality. Electrolyzed water with negative potential and rich in hydrogen not only has the effects of regulating humidity, degrading air pollution, removing air odor, improving air quality, but also inhaling the negative potential of hydrogen-rich electrolyzed water, which helps the body to resist oxidation and eliminate oxygen. Basic health care and anti-aging effects, human skin contact negative potential, hydrogen-rich electrolyzed water gas can also be beautiful skin. It can be seen that combining electrolyzed water technology with a humidifier creates a device for generating electrolyzed water atomizing gas, which is very meaningful. So why haven't humidifiers with electrolyzed water atomization gas been available so far? The main reason is that the popular electrolyzed water machine adopts the low-efficiency membrane electrolyzed water technology, and there are defects that must simultaneously output both acidic and alkaline water. It is not suitable for the manufacture of humidifiers that can generate electrolyzed water mist, thus limiting people here. Innovative aspects; the second is that the existing membrane-free electrolyzed water technology has the unique advantage of outputting only one kind of electrolyzed water, but the defect is that the electrolysis efficiency and index are still low, and it is limited to making a cup-type electrolyzed water device to provide drinking. The aspect of water. Applicants have found that a humidifier that produces electrolyzed water atomized gas manufactured by a membrane-free electrolyzed water technology with high electrolysis efficiency can achieve practical requirements and has broad market prospects.

Summary of the invention

The invention provides a device for generating electrolyzed water atomizing gas, which is created and designed for people to conveniently enjoy the effect of electrolyzing water gas to improve living environment health care. Applicants have found through research that the good negative ion index of electrolyzed water atomized gas depends on the higher and more stable redox potential ORP negative value and hydrogen content (referred to as “negative hydrogen content” by the applicant). The electrolyzed water atomized gas with a certain negative hydrogen ion content can be produced by the applicant's previous membrane-free electrolyzed water technology. If a higher electrolysis efficiency is adopted and a membrane-free electrolyzed water technology with a higher index is adopted, the electrolyzed water atomizing gas can be used. Achieving a wider range of practical requirements for applications with higher negative hydrogen ion content. The new principle and new method of electrolyzed water discovered and invented by the applicant can obtain significantly higher electrolysis water efficiency and electrolyzed water index, which is of great significance for improving the practicability and quality of the humidifier that can generate electrolyzed water vapor. The new principle of electrolyzed water discovered by the applicant is rooted in the deep research on the main defects of the traditional electrolysis water electrolysis water principle. The traditional electrolysis water principle is limited to the so-called ion chemical reaction equilibrium equation generated by water molecule electrolysis, completely ignoring the electrons and impurity particles generated by electrolysis of water impurities during electrolysis, and its importance for improving electrolysis water index and electrolysis efficiency. Significance, therefore, it is impossible to explain that the alkaline water in the cathode region has a higher index of higher reducing water, ie, a higher redox potential (ORP) negative value and a higher hydrogen content (H, H ₂ , H ⁻ ), completely ignoring the cathode. The formation of higher ORP negative and negative hydrogen (H ^- ) content in the zone water requires a significant amount of active electrons, so it cannot solve the problem that the existing electrolysis technology is too low, even if the electrolysis current is increased, it does not reach the expected higher electrolyzed water. The problem of indicators. The applicant's long-term research has won six new discoveries:

One of the new discoveries: in the process of electrolyzing water, in order to improve the efficiency of electrolyzed water, the first thing is to electrolyze impurities in water. Impurities are electrolyzed to produce free electrons and impurity particles which are beneficial to improve the index of electrolyzed water. This article is referred to as “impurity electrolysis effect”. The impurity electrolysis effect forms a certain electrolysis current, which causes the water molecules to disintegrate into hydrogen, oxygen ions or hydroxide ions. For "water molecule electrolysis effect." The efficiency and index of electrolyzed water are the result of the interaction between “impurity electrolysis effect” and “water molecule electrolysis effect”; the second discovery: reveals the dual meaning of active electrons generated by “impurity electrolysis effect” to improve electrolysis efficiency. It can increase the electrolysis current, and it has another important significance for electrolytically producing reduced water, which is to satisfy the negative value of ORP (negative redox potential) and its corresponding hydrogen content (negative hydrogen content) of certain electrolyzed water indexes such as electrolytically reduced water. The need for electronics. Therefore, in order to improve the electrolysis efficiency, the electrolysis process should strengthen the "impurity electrolysis effect" as much as possible to produce more active electrons; the newly discovered third: a small gap between the yin and yang electrodes (especially a small gap of less than 1 mm) for strengthening the "impurity electrolysis effect" Significant effect, although the previous non-isolated membrane electrolyzed water technology also mentioned the design considerations of the yin and yang electrode spacing less than 3mm, but did not understand the practical significance of the small spacing, the matching process is even more difficult to achieve, can not reach significant The effect of improving the efficiency of electrolyzed water; the newly discovered fourth: another important significance of the design of the small spacing of the electrolysis electrode gap is that it can create more opportunities and better conditions for the combination of active electrons and active hydrogen H into negative hydrogen, thereby significantly improving electrolysis. The efficiency of making reduced water; the new discovery of five: the small gap of the yin and yang electrodes is small to a certain value, and the electrolysis efficiency does not rise and fall, what is the reason? Studies have confirmed that to strengthen the "impurity effect of impurities", it is also necessary to ensure that water has a certain flow in the gap between the yin and yang electrodes during the electrolysis process, which can cause more water molecules and impurities to be electrolyzed repeatedly, thereby strengthening the "electrolyte effect of impurities". "Improve the water electrolysis efficiency and the electrolysis water reduction index; the in-depth study of the flowability in the electrolysis water process explains why the electrolysis water efficiency does not rise and fall after the electrolysis current increases to a certain value. The important reason is that if the flow of water in the electrode gap is not good, the ion concentration in the electrode gap will be too high, which will affect the electrolysis efficiency. The newly discovered six: for the electrolysis externally driven flowing water such as tap water, in the electrode assembly Within a certain space, adopting a design scheme that reasonably increases the area of the electrolytic gap is beneficial to the repeated electrolysis of more impurities and water molecules in the water, which can improve the water electrolysis efficiency and the electrolysis index.

Through comprehensive analysis of the above six new findings, the applicant proposed the following new principle of electrolyzed water: electrolyzed water process, firstly, the process of generating active electrons by electrolysis of impurities in water, forming electric current, and converting electric energy into decomposition energy of water molecules. Therefore, more water molecules are decomposed by obtaining larger electric energy, which is the basis for obtaining higher electrolysis efficiency, but obtaining higher electrolysis efficiency requires additional important conditions. This is because the electrolysis process is also a process in which various ions (especially active electrons) released by electrolysis are physicochemically treated with various hydroxide ions and ion roots generated by decomposition of water molecules, in order to increase water. There are two important conditions for the electrolysis efficiency. First, if more impurities are electrolyzed, more electrons and ions are released, and the probability of combining with hydroxide ions is higher. The electrolysis water index may be higher, and the electrolysis efficiency may also be higher. Secondly, if conditions can be created, the probability of combining the electron ions released by the electrolysis with the hydroxide ions is higher, the electrolyzed water index may be higher, and the electrolysis efficiency is higher. For example, the higher ORP negative value and the hydrogen content of electrolytically reduced water (the applicant briefly refers to the two indicators as the "negative hydrogen" index), which requires more active electrons to participate. Therefore, impurities in the water are electrolyzed to release more electrons. And the probability that electrons and hydrogen ions are combined into negative hydrogen High, it can improve the negative hydrogen index and electrolysis efficiency. The apparatus for generating electrolyzed water atomizing gas of the present invention requires the use of a highly efficient membraneless electrolyzed water technique. The new method of electrolyzed water invented by the applicant is a better choice for improving the efficiency and performance of the device and the cost performance.

The invention relates to a device for generating electrolyzed water atomizing gas, and a device for generating electrolyzed water atomizing gas, which comprises: a water storage container, a controllable electrolysis power source, an electrolysis electrode assembly, an atomizer, a fan; an electrolysis electrode The component is installed in the water storage container and immersed in the water to be electrolyzed; the controllable electrolysis power supply supplies current to the electrolysis electrode assembly, and the electrolysis electrode assembly electrolyzes the water in the water storage container; the atomizer installed in the water storage container will The electrolyzed water atomizes to generate electrolyzed water atomizing gas; the fan diffuses the electrolyzed water atomizing gas into the air; the electrolytic electrode assembly adopts a higher efficiency membrane-free electrolyzed water technology, so that the electrolyzed water atomizing gas reaches a certain required index.

SUMMARY OF THE INVENTION In the second embodiment, the electrolysis electrode assembly is designed in a certain space, and the gap between the yin and yang electrodes is designed according to the principle of reasonable miniaturization. The gap distance is less than 5 mm and greater than 0 mm, which is beneficial to strengthen the water. The electrolysis of impurities and water molecules; in the space occupied by the electrode group, the area of the gap between the electrolyzed yin and yang electrodes is designed according to the principle of reasonable enlargement, so that more impurities and water molecules in the water can be repeatedly repeated in the electrode gap. Electrolysis; there is a certain space outside the two port positions of the electrode gap, so that the water can flow smoothly in the gap between the anode and the cathode during the process of being electrolyzed.

SUMMARY OF THE INVENTION III: The electrolysis electrode assembly has a certain fluidity in the gap between the anode and the cathode, and the spacing between the anode and cathode electrodes of the electrolysis electrode assembly can be as small as 1 mm or less, which is advantageous for a certain electrolysis voltage. Under certain electrolysis electrode assembly structure, the electrolysis of impurities and water molecules in water is enhanced.

SUMMARY OF THE INVENTION The electrolysis electrode assembly is composed of two electrodes of different polarities, one of which is in the shape of a cylinder, the number of cylindrical electrodes is N, N is equal to or greater than 1, and the wall of the tube can be free of gaps or The position of each of the cylindrical electrode is mechanically fixed and electrically connected to each other; the second electrode is columnar, and the positions of the respective columns are mechanically fixed and electrically connected to each other, and the number of columns of the columnar electrode is M, M is equal to or greater than 1; Hollow or solid, no gap or notch; the height of the cylindrical electrode and the columnar electrode is not limited, according to the choice; the cylindrical electrode is inserted into the columnar electrode, that is, the columnar electrode is inserted into each corresponding tube hole, A gap for electrolysis of water is left between the surface of the inserted column electrode and the opposite surface of the barrel electrode; during the electrolysis work, water in the electrode gap can flow; the electrode gap has a space outside the two port positions, so that Water can flow in the electrode gap during the process of being electrolyzed.

Basic technical scheme: a device for generating electrolyzed water atomizing gas, comprising: a water storage container, a controllable electrolysis power source, an electrolysis electrode assembly, an atomizer, a fan; the electrolysis electrode assembly is installed in the water storage container, soaking In the water to be electrolyzed; the controllable electrolysis power source supplies current to the electrolysis electrode assembly, and the electrolysis electrode assembly electrolyzes the water in the water storage container; the atomizer installed in the water storage container atomizes the electrolyzed water to generate electrolyzed water mist The gas is diffused into the air by the fan, and the electrolyzed electrode assembly adopts a higher efficiency membrane-free electrolyzed water technology, so that the electrolyzed water atomizing gas reaches a certain index required.

One of the specific technical solutions is that the electrolysis electrode assembly is designed in a certain space, and the gap between the yin and yang electrodes is designed according to a reasonable miniaturization principle, and the gap distance is less than 5 mm and greater than 0 mm to facilitate reinforcement. In the water The electrolysis of impurities and water molecules; in the space occupied by the electrode group, the area of the gap between the electrolyzed yin and yang electrodes is designed according to the principle of reasonable enlargement, so that more impurities and water molecules in the water can be repeatedly repeated in the electrode gap. Electrolysis; there is a certain space outside the two port positions of the electrode gap, so that the water can flow smoothly in the gap between the anode and the cathode during the process of being electrolyzed.

The second technical solution is that the electrolysis electrode assembly has a certain fluidity in the gap between the anode and the cathode, and the spacing between the anode and the cathode of the electrolysis electrode assembly can be as small as 1 mm or less, which is advantageous for electrolysis. The voltage and the structure of a certain electrolytic electrode assembly strengthen the electrolysis of impurities and water molecules in the water.

The third technical solution is that the electrolysis electrode assembly is composed of two electrodes of different polarities, one of the electrodes is in the shape of a cylinder hole, the number of the cylindrical electrodes is N, N is equal to or greater than 1, and the wall of the tube can be unnotched. Or the gap, the position of each of the barrel electrodes is mechanically fixed and electrically connected to each other; the second electrode is columnar, each column position is mechanically fixed and electrically connected to each other, the number of columns of the columnar electrode is M, M is equal to or greater than 1; The column is hollow or solid, and may be unnotched or notched; the height of the cylindrical electrode and the columnar electrode is not limited, and is selected according to the requirement; the cylindrical electrode is inserted correspondingly to the columnar electrode, that is, the columnar electrodes are inserted into the corresponding cylindrical holes. There is a gap between the surface of the inserted column electrode and the opposite surface of the barrel electrode for electrolysis; during the electrolysis work, the water in the electrode gap can flow; the electrode gap has a certain space outside the two ports. So that water can flow in the electrode gap during the process of being electrolyzed.

DRAWINGS

The invention is further illustrated by the following figures.

1 is a device for generating electrolyzed water atomizing gas according to Embodiment 1 of the present invention;

detailed description

The basic structure and basic working principle of the embodiment will be described below with reference to FIG. 1 of Embodiment 1.

Example 1

As shown in FIG. 1, a device capable of generating electrolyzed water vapor, comprising: a water filling container 14, a blower 13, a fan 5, an atomizer 15, an electrolysis power source 9, and an electrolysis tank 8, which are in the electrolytic cell 8. The electrolysis electrode assembly is composed of two electrodes of different polarity 1, 2, and the electrode 1 is in the shape of a cylinder (hereinafter referred to as a hole). Three holes are schematically illustrated in the figure, the positions of the walls of each hole are mechanically fixed, and the electrode 2 is columnar. Three columns are schematically illustrated, each column is mechanically fixed, and 1 and 2 can be correspondingly inserted, that is, the column of the columnar electrode 2 is inserted into the corresponding hole of the hole electrode, and an electrolytic gap 3 is left between the surface of the column and the surface of the hole. FIG. 1 schematically shows a gap 3 formed by three columnar electrodes and a hole electrode, and the gap spacing may be selected within a certain range as needed, such as a range of less than 5 mm to more than 0 mm; if necessary, the spacing of the gap 3 may be compared. Small value, such as equal to or less than 1mm, in order to strengthen the electrolysis effect of water and impurities therein, so that when the device requires raw water with low electrolytic conductivity, high electrolysis water efficiency and index can be obtained; , impurities and water molecules are electrolyzed The probability and the number are proportional to the gap area, so that the larger the gap 3 area can improve the electrolysis efficiency; in Fig. 1, the electrolyzer wall 8 is a material suitable for use as an electrolysis electrode, and is connected to the electrolysis power source via the wire 7 to be part of the electrode 2. And the electrode 1 constitutes an electrolytic gap 4, the electrolysis effect of the strengthening device; 11 and 12 are respectively electrolysis The lower portion of the trough 8 and the upper space design a certain volume for the spaces 11 and 12 to facilitate smooth flow of water in the electrode gap. Because in the process of electrolyzing water, the water molecules in the gap are electrolytically decomposed, hydrogen and oxygen are generated, and the hydrogen and oxygen bubbles will flow upward along the gap, thereby causing the water in the gap 3 to flow upward, flowing out from the upper port of the gap 3 to Space 12, which causes water to replenish from the source of the gap 3, that is, the source of the space 11 into the electrode gap, and the water of the water container 14 supplements 11, obviously, if 11,12 is too narrow, it may affect the water in the electrode gap The flowability, thereby reducing the electrolysis efficiency of water. During the flow of water in the gap, impurities and water molecules in the water are repeatedly electrolyzed by the electrolysis current in the gap. In this cycle, the water in the electrolytic cell will repeatedly flow into the electrode gap and be repeatedly electrolyzed to continuously strengthen the electrolysis effect; in summary, the gap 3 is reasonably selected for a small spacing and a large area and satisfies the gap 3 with a certain flow of water. The three aspects of the coordinated technical solution can significantly improve the electrolysis efficiency and the electrolyzed water index; the atomizer 15 atomizes the electrolyzed water into a gas-like state, which is filled with 14, and is sent by the fan 5 from the air supply port 13 to the outer space.

Table 1: The measured data of the device 1 of the present invention for generating electrolyzed water atomizing gas

Note: Electrolysis voltage 9V, electrolysis time: 1 minute, raw water: ORP=+351mv, hydrogen content=0, normal temperature

It can be seen that the negative value of the OCP of the electrolyzed water reduction index is quite high, the hydrogen content is close to the saturation value, and the negative ion index of the electrolyzed water mist has exceeded the index level required by natural therapy, which is extremely beneficial to human health.

The electrolytic electrode assembly used in the present invention is not limited to the specific structure adopted in the first embodiment. In principle, any electrolytic electrode structure which can achieve the electrolyzed water index required for the product and the corresponding atomizing gas index can be used.

Claims

The invention relates to a device for generating electrolyzed water atomizing gas, which comprises: a water storage container, a controllable electrolysis power source, an electrolysis electrode assembly, an atomizer and a fan; the electrolysis electrode assembly is installed in the water storage container and is immersed in the electrolysis In the water; the controllable electrolysis power supply supplies current to the electrolysis electrode assembly, and the electrolysis electrode assembly electrolyzes the water in the water storage container; the atomizer installed in the water storage container atomizes the electrolyzed water to generate electrolyzed water atomizing gas; The electrolyzed water atomizing gas is diffused into the air; the electrolysis electrode assembly adopts a higher efficiency membrane-free electrolyzed water technology, so that the electrolyzed water atomizing gas reaches a certain index required.
The device for generating electrolyzed water atomizing gas according to claim 1, wherein the electrolysis electrode assembly is designed in a certain space, and the gap between the yin and yang electrodes is designed according to a reasonable miniaturization principle. The gap distance is less than 5mm and greater than 0mm, which is beneficial to strengthen the electrolysis of impurities and water molecules in the water; in a certain space occupied by the electrode group, the area of the gap between the electro-deposited electrodes is designed according to the principle of reasonable enlargement, so that the water More impurities and water molecules can be electrolyzed repeatedly in the electrode gap; there is a certain space outside the two port positions of the electrode gap, so that the water can flow smoothly in the gap between the cathode and the cathode during the process of being electrolyzed.
The apparatus for generating electrolyzed water atomizing gas according to claim 1, wherein the electrolysis electrode assembly is between the yin and yang electrodes of the electrolysis electrode assembly under the condition that the water has a certain fluidity in the gap between the yin and yang electrodes The spacing can be as small as 1 mm or less to facilitate the electrolysis of impurities and water molecules in the water under a certain electrolysis voltage and a certain electrolytic electrode assembly structure.
A device for generating electrolyzed water atomizing gas according to claim 1, wherein said electrolysis electrode assembly is composed of two electrodes of different polarities, one of which is in the shape of a cylinder, and the number of cylindrical electrodes For N, N is equal to or greater than 1, the wall of the tube may be free of gaps or gaps, and the positions of the electrodes of the respective barrel holes are mechanically fixed and electrically connected to each other; the second electrode is column-shaped, and the positions of the columns are mechanically fixed and electrically connected to each other. The number of columns of the columnar electrode is M, M is equal to or greater than 1; the column is hollow or solid, and may be unnotched or notched; the height of the cylindrical electrode and the columnar electrode is not limited, and the cylindrical electrode and the columnar electrode are selected as needed; Correspondingly, the columns of the columnar electrodes are inserted into the corresponding cylinder holes, and a gap for electrolysis of water is left between the surface of the inserted column electrode and the opposite surface of the barrel electrode; during the electrolysis work, the water in the electrode gap It can flow; there is a certain space outside the two port positions of the electrode gap so that water can flow in the electrode gap during the process of being electrolyzed.