WO2016134615A1

WO2016134615A1 - Device for generating electrolyzed water vapor

Info

Publication number: WO2016134615A1
Application number: PCT/CN2016/000093
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: CN104591467A

Abstract

A device for generating electrolyzed water vapor comprises: a vapor generator (14), provided with a water inlet (18) and a vapor outlet (13); a controllable electrolytic power supply (9); an electrolytic electrode assembly; and a heating system (5), capable of heating water stored in the vapor generator (14). The controllable electrolytic power supply (9) supplies an electrolytic current to the electrolytic electrode assembly. The electrolytic electrode assembly electrolyzes the water stored in the vapor generator (14). The heating system (5) heats the electrolyzed water in the vapor generator (14) to boil so as to generate vapor. The electrolyzed water vapor is output from the vapor outlet (13). The electrolytic electrode assembly uses a membraneless electrolyzed-water technical scheme with a higher efficiency, so that water stored in the water storage container in a wide temperature range, comprising boiled water, can be effectively electrolyzed, so as to make the electrolyzed water vapor reach certain required indicators. The size of a gap (3) between electrodes (1, 2), having different polarities, of the electrolytic electric assembly is designed according to a principle of a smaller distance, and the area of the gap (3) is designed according to a principle of a reasonable larger area; the water can smoothly flow in the gap (3) between the electrodes (1, 2) having different polarities, and indicators of the electrolyzed water and the water vapor thereof are improved.

Description

Device for generating electrolyzed water vapor

Technical field

The invention relates to a device for generating electrolyzed water vapor, belonging to the technical field of membrane-free electrolyzed water.

Background technique

Nowadays, people have widely used steam steamed food, steamed face beauty, and steam bath health treatment, and the negative potential hydrogen-rich electrolyzed water vapor has anti-oxidation and sterilization decontamination, beauty cleansing effect. It is used for steaming foods, removing food odors and improving the taste of foods. It can be seen that the combination of electrolyzed water technology and steam generators creates a device for generating electrolyzed water vapor, which is of practical value and multi-faceted significance. So why haven't there been any devices that can output electrolyzed water vapor? One of the reasons is that the popular electrolyzed water machine adopts the low-efficiency membrane electrolyzed water technology, which can only electrolyze normal temperature water. When the water temperature exceeds 50-60 degrees Celsius, the electrolyzed water index will disappear, and there must be both acid and alkaline water. Serious defects such as small amount of water and large power consumption, obviously do not have the basic conditions for designing and manufacturing devices that can generate electrolyzed water vapor; the second reason is that the existing membrane-free electrolyzed water technology shows that there is no membrane electrolyzed water technology. The advantages, such as: the ability to electrolyze any temperature raw water and only output a kind of electrolyzed water, but the defect is that the electrolysis efficiency or index is still low, so it is limited to making electrolyzed natural static water devices such as cups and pots to provide drinking water. Other uses. Applicant found that the use of membrane-free electrolyzed water technology with high electrolysis efficiency can produce a practical device for generating electrolyzed water vapor.

Summary of the invention

The invention proposes a device for generating electrolyzed water vapor, which is created and designed for the convenience of using electrolyzed water vapor. Applicants have found through research that the basis of electrolyzed water vapor is based on the fact that electrolyzed water must have a relatively high and stable electrolyzed water index under boiling conditions. Therefore, it is necessary to use a membrane-free electrolyzed water technology with higher electrolysis efficiency to achieve electrolyzed water vapor. Certain indicator requirements. It is of great significance to improve the practicality of the electrolyzed water bathing device by adopting the new principle and new method of electrolyzed water discovered and invented by the applicant to obtain higher electrolyzed water efficiency and electrolyzed water index. The water electrolysis efficiency or electrolysis water efficiency can be generally defined as: a representative index of electrolyzed water produced by electrolysis of a certain amount of water and electrolysis for a certain period of time (for example, ORP negative value or hydrogen content of electrolytically reduced water). The ratio of the quantity) to the amount of electricity consumed. In other words, in an electrolysis method or an electrolysis device, the smaller the electric energy consumed by the same amount of electrolysis to reach the same electrolyzed water index, the higher the electrolysis water efficiency of the device.

The new principle of electrolyzed water discovered by the applicant and the method for significantly improving the efficiency of electrolyzed water are rooted in the deep research on the main defects of the electrolysis water principle of the traditional electrolysis machine. 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 three: small gaps of different polarity electrodes (especially small gaps less than 1 mm) for strengthening "impurity electrolysis" "effect" has a significant effect, although the previous non-isolated membrane electrolyzed water technology also mentioned the design considerations of different polarity electrode spacing less than 3mm, but did not understand the practical significance of small spacing, and the matching process measures are even more difficult to talk about. The effect of significantly improving the efficiency of electrolyzed water cannot be achieved; the fourth finding: 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 the efficiency of electrolytic production of reduced water; the new discovery of five: the small gap of different polarity electrodes is small to a certain value, 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 the water has a certain flow in the gap between different polar electrodes during the electrolysis process, which can promote more water molecules and impurities to be electrolyzed repeatedly, thereby strengthening the "impurities". Electrolytic effect", improve water electrolysis efficiency and electrolyzed water reduction index; 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. In addition, in the case of flowing water with too fast electrolysis flow rate, the channel for installing the electrolysis electrode assembly adopts a design in which the outlet passage (outlet) is appropriately narrower than the inlet passage (inlet), and the flow rate of water passing through the electrolysis electrode assembly can be reduced. Thereby increasing the time and opportunity for impurities and water molecules to be electrolyzed, and increasing the index of electrolyzed water.

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 combination of electrons and hydrogen ions with a higher probability of negative hydrogen can increase the negative hydrogen index and the electrolysis efficiency.

The applicant's new principle of electrolyzed water reveals that it is necessary to adopt a three-pronged process to improve the efficiency of electrolytic reduction water production. It is necessary to strengthen the electrolysis of impurities in water, and to increase the electrons released by the electrolysis of impurities, and to increase the probability of the electrons released by electrolysis being combined with hydrogen to form negative hydrogen. Applicant's research found a specific electrolysis process to achieve this three-pronged process: one is to appropriately reduce the distance between the electrolysis gaps of electrodes of different polarities, and the other is to appropriately enlarge the area of the electrolysis gap of electrodes of different polarities, and the third is to properly maintain The fluidity of water in and out of the gap between different polar electrodes in the electrolysis water process, the coordinated realization of these three technological conditions can better balance the effect of strengthening the impurity electrolysis and improving the reduction index, thereby significantly improving the efficiency of electrolysis water. The apparatus of the present invention for generating electrolyzed water vapor 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 vapor, which comprises: a steam generator having a water inlet and a steam outlet, a controllable electrolysis power source, an electrolysis electrode assembly, and a heating system capable of heating the water stored in the steam generator. The controllable electrolysis power source supplies electrolysis current to the electrolysis electrode assembly, and the electrolysis electrode group electrolyzes the water stored in the steam generator; the heating system heats the electrolyzed water in the steam generator to boiling to generate steam; the electrolyzed water vapor is output from the steam outlet; The electrolytic electrode assembly adopts a higher efficiency membrane-free electrolyzed water technical scheme, and can effectively electrolyze the water storage tank in a wide temperature range including boiling water, so that the electrolyzed water vapor reaches a certain index required.

According to the second aspect of the present invention, the spacing of the gaps between the electrodes of different polarities is designed according to the principle of reasonable miniaturization, and the gap distance is less than 5 mm and greater than 0 mm, so as to enhance the impurities and water in the water. Molecular electrolysis; in the space occupied by the electrolysis electrode assembly, the area of the gap between the electrodes of different polarities is designed according to the principle of reasonable enlargement, so that more impurities and water molecules in the water can be electrolyzed repeatedly in the electrode gap. The characteristics of the electrolysis electrode assembly and its installation process conditions are: in the process of electrolyzing water, water can flow smoothly in the gap of different polarity electrodes, so that the electrolyzed water in the gap of different polarity electrodes can be replaced, and more Impurities and water molecules are repeatedly electrolyzed by different polarity electrodes to increase the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes, thereby improving the electrolysis efficiency of water.

The third aspect of the present invention: the electrolysis electrode assembly, if necessary, the spacing between the electrodes of different polarity of the electrolysis electrode assembly can be as small as 1 mm or less, which is advantageous for strengthening under certain electrolysis power and certain electrolysis electrode assembly structure. The electrolysis of impurities and water molecules in water improves the efficiency of water electrolysis.

According to the fourth aspect of the present invention, the electrolysis electrode assembly can make daily drinking water and water into electrolytic reduced water having a negative oxidation-reduction potential and a hydrogen content greater than zero.

According to the fifth aspect of the present invention, the electro-electrode assembly has different polarity electrode structures designed such that when water in the electrode gap is electrolyzed to generate fluidity, water and ions in the electrode gap can flow with each other so that more water flows through different poles. The electrode gap replaces the electrolyzed water in the gap, so that more impurities and water molecules in the water can be repeatedly electrolyzed by the current between the electrodes of different polarities, increasing the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes. Improve the efficiency of water electrolysis.

According to the sixth aspect of the present invention, the electrolysis electrode assembly has a certain space outside the two port positions of the electrode gap, so that when water flows during the process of electrolysis, the water can smoothly flow in the gap of different polarity electrodes, and the water is improved. The efficiency of electrolysis.

According to the seventh aspect of the present invention, in the electrolysis electrode assembly, by increasing the area of the electrode gap in a certain space occupied by the electrolysis electrode assembly, the time during which the flowing water is electrolyzed in the electrode gap can be prolonged, so that more impurities and water molecules are Electrodes with different polarities are repeatedly electrolyzed several times to increase the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes, thereby improving the efficiency of water electrolysis.

According to the eighth aspect of the present invention, in the electrolytic electrode assembly, when the material and shape of the electrolytic cell wall of the electrolytic electrode assembly are suitable as an electrode, the electrode can be appropriately connected as an electrolytic electrode, the gap area of the electrolytic electrode is increased, and the electrolysis of water is improved. effectiveness.

According to the nineth aspect of the present invention, the electrolysis electrode assembly is composed of two electrodes of different polarities, one of the electrodes is in the shape of a cylinder, the number of the cylindrical electrodes is N, N is equal to or greater than 1, and the wall of the tube can be free of gaps or There is a gap, the positions of the electrodes of the respective barrel holes are 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 electrodes 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, as needed; the cylindrical electrode is inserted into the columnar electrode, that is, the columnar electrode is inserted into each corresponding cylinder 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 certain space outside the two port positions. So that water can flow in the electrode gap during the process of being electrolyzed.

Basic technical solution: The invention has a device for generating electrolyzed water vapor, characterized in that: a steam generator including a water inlet and a steam outlet, a controllable electrolysis power source, an electrolysis electrode assembly, and a water storage in the steam generator a heating heating system; the controllable electrolysis power source supplies an electrolysis current to the electrolysis electrode assembly, and the electrolysis electrode group electrolyzes the water stored in the steam generator; the heating system heats the electrolysis water in the steam generator to boiling to generate steam; electrolyzes water vapor from the steam Output port output; Electrolytic electrode assembly adopts high efficiency membrane-free electrolyzed water technology scheme, which can effectively electrolyze the water storage in a wide temperature range including boiling water in the water storage container, so that the electrolyzed water vapor reaches a certain index required.

One of the specific technical solutions: the electrolysis electrode assembly, the spacing of the gaps between the electrodes of different polarities is designed according to the principle of reasonable miniaturization, and the gap distance is less than 5 mm and greater than 0 mm, so as to strengthen the impurities in the water. Electrolysis of water molecules; in a certain space occupied by electrolytic electrode assemblies, the area of the gap between electrodes of different polarities 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; Electrolytic electrode assembly and its installation process conditions are characterized in that in the process of electrolyzing water, water can flow smoothly in the gap of different polarity electrodes, so that the electrolyzed water in the gap of different polarity electrodes can be replaced, and Multiple impurities and water molecules are repeatedly electrolyzed by different polarity electrodes to increase the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes, thereby improving the electrolysis efficiency of water.

The second specific technical solution: the electrolysis electrode assembly, if necessary, the spacing between the electrodes of different polarity of the electroplating electrode assembly can be as small as 1 mm or less, so as to favor a certain electrolysis power and a certain electrolysis electrode assembly structure. Strengthen the electrolysis of impurities and water molecules in water to improve the efficiency of water electrolysis.

The third technical scheme: the electrolysis electrode assembly can make daily drinking water and water into electrolytic reduction water with a negative oxidation-reduction potential and a hydrogen content greater than zero.

The fourth technical scheme: the electrolysis electrode assembly, the electrode structure of different polarities is designed such that when water in the electrode gap is electrolyzed to generate fluidity, water and ions in the electrode gap can flow with each other so that more water flows through the water. The polar electrode gap replaces the electrolyzed water in the gap, so that more impurities and water molecules in the water can be repeatedly electrolyzed by the currents of different polarity electrodes, increasing the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes. To improve the efficiency of water electrolysis.

The fifth specific technical solution: the electrolysis electrode assembly has a certain space outside the two port positions of the electrode gap, so that when the water flows during the electrolysis process, the water can flow smoothly in the gap of the different polarity electrodes, thereby improving Water The efficiency of electrolysis.

The sixth technical scheme: the electrolysis electrode assembly can prolong the time of electrolysis of the flowing water in the electrode gap by increasing the area of the electrode gap in a certain space occupied by the electrolysis electrode assembly, so that more impurities and water molecules are obtained. It is repeatedly electrolyzed by electrodes of different polarities to increase the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes, thereby improving the efficiency of water electrolysis.

Specific technical solution seven: the electrolysis electrode assembly, in the case where the material and shape of the electrolytic cell wall of the electrolysis electrode assembly are suitable as an electrode, the appropriate connection can be used as an electrolysis electrode, the gap area of the electrolysis electrode is increased, and the water is increased. Electrolysis efficiency.

Specific technical solution VIII: The electrolysis electrode assembly is composed of two electrodes of different polarities, one of the electrodes is in the shape of a cylindrical hole, the number of 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 vapor 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

1, a device for generating electrolyzed water vapor, comprising a steam generator 14, a water inlet 18, a steam outlet 13, a heating system 5, a controllable electrolysis power source 9, an electrolysis consisting of

electrodes

1 and 2, and an electrolysis cell 10. The electrode assembly, 15 is a water level line, and the heating system 5 heats the water stored in the steam generator 14; the controllable electrolysis power source 9 supplies power to the

different polarity electrodes

1, 2 of the electrolysis electrode assembly 10 through the wires 6, 7 to generate steam. The device 14 stores water for electrolysis; the heating system 5 heats the steam generator 14 to boiling, and outputs electrolyzed water vapor from the steam outlet 13; the electrolysis electrode assembly 10 adopts a higher efficiency membraneless electrolyzed water solution for the steam generator 14 The medium-wide temperature range includes boiling water storage for effective electrolysis, so that the electrolyzed water vapor can reach a certain required index; 8 is the wall of the electrolysis cell, the upper and lower portions 16, 17 are permeable, and the electrolysis electrode assembly is composed of two different The

polar electrodes

1 and 2 are formed, and the electrode 1 is in the shape of a cylinder (hereinafter referred to as a hole). Three hole-shaped electrodes are schematically illustrated in the figure. The positions of the respective holes are mechanically fixed, the walls of the holes are electrically connected to each other, and the electrodes 2 are columnar. Shown in the figure Three columns are arranged, each column position is mechanically fixed and electrically connected to each other, 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 is left between the surface of the column and the surface of the hole. The gap is tubular. The gap 3 between the three columnar electrodes and the hole electrode is schematically illustrated in FIG. 1. The gap spacing may be selected within a certain range, such as less than 5 mm to more than 0 mm; if necessary, Interval 3 The distance may be a small value, such as equal to or less than 1 mm, in order to strengthen the electrolysis effect of water and impurities therein, so that when the device requires raw water such as pure water or distilled water with low electrolytic conductivity, high electrolysis water efficiency and index can be obtained. In the case where the distance between the electrodes is constant, the probability and quantity of impurities and water molecules being electrolyzed are proportional to the gap area. Therefore, the larger the area of the gap 3 can improve the electrolysis efficiency; in Fig. 1, the wall 8 of the electrolytic cell is suitable for the electrolysis electrode. The material used is connected to the electrolytic power source via the wire 7 to form a part of the electrode 2, and constitutes an electrolytic gap 4 with the electrode 1 to enhance the electrolysis effect; 11, 12 are the lower part and the upper space of the electrolytic cell 10, respectively, and the space 11 is at the bottom of the electrolytic cell. Between 16 and the bottom of the electrode assembly, a certain volume is designed 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 The space 12 flows to the outside of the electrolytic cell, which causes water to flow into the space 11 from the source below the lower portion 16 of the electrolytic cell, and then flows into the electrode gap 3 for supplementation. Obviously, if the 11 and 12 are too narrow, the flow of water in the electrode gap may be affected. 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 steam generator 14 repeatedly flows from the bottom of the 8 into the electrode gap of the electrolytic cell and is repeatedly electrolyzed to continuously strengthen the electrolysis effect; in summary, the gap 3 is reasonably selected to have a smaller pitch and a larger area. And to meet the gap 3 water has a certain circulation, these three aspects of coordination of the technical solutions can significantly improve the electrolysis efficiency and electrolyzed water indicators. The electrolyzed water has a high index, for example, the negative ORP value and the hydrogen content of the electrolyzed water, and the negative ion content in the electrolyzed water vapor is high.

Table 1: Apparatus for generating electrolyzed water vapor according to the present invention. Example 1 Three kinds of electrolytic electrode structures and conditions measured data

Note: Electrolytic voltage 8V, raw water: ORP=+408mv, hydrogen content=0, normal temperature

From the A, B column or A, C column data, it can be seen that the area difference of the electrolysis electrode gap 3 is half, or the water flow difference in the electrode gap, the electrolysis water efficiency is different, and the steam index is also significantly different, which confirms the applicant's proposal. The new principle and new method of electrolyzed water also verified that the electrolyzed water vapor index level of the device of the invention has reached a relatively high level and has high practicability.

The invention relates to a device for generating electrolyzed water vapor, wherein the electrolysis electrode assembly is not limited to the specific structure adopted by the embodiment 1. In principle, any of the membrane-free electrolysis electrode structural components which can achieve the electrolyzed water index required for the product are Can be applied.

Claims

The invention relates to a device for generating electrolyzed water vapor, which comprises: a steam generator having a water inlet and a steam outlet, a controllable electrolysis power source, an electrolysis electrode assembly, and a heating system capable of heating the water stored in the steam generator; The electrolysis power source supplies electrolysis current to the electrolysis electrode assembly, and the electrolysis electrode group electrolyzes the water stored in the steam generator; the heating system heats the electrolyzed water in the steam generator to boiling to generate steam; the electrolyzed water vapor is output from the steam outlet; the electrolysis electrode The module adopts a high-efficiency membrane-free electrolyzed water technology scheme, which can effectively electrolyze the water storage tank in a wide temperature range including boiling water, so that the electrolyzed water vapor reaches a certain index required.
A device for generating electrolyzed water vapor according to claim 1, wherein said electrolysis electrode assembly has a spacing of gaps between electrodes of different polarities designed according to a principle of reasonable miniaturization, and the gap distance is less than 5mm, greater than 0mm, in order to strengthen the electrolysis of impurities and water molecules in the water; in the space occupied by the electrolytic electrode assembly, the area of the gap between the electrodes of different polarities is designed according to the principle of reasonable enlargement, so that more impurities in the water And water molecules can be electrolyzed repeatedly in the electrode gap; the characteristics of the electrolysis electrode assembly and its installation process conditions are: in the process of electrolyzing water, the water can flow smoothly in the gap of different polarity electrodes, so that different polarities The electrolyzed water in the electrode gap is replaced, and more impurities and water molecules are repeatedly electrolyzed by different polarity electrodes, increasing the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes, thereby improving water electrolysis. effectiveness.
A device for generating electrolyzed water vapor according to claim 1, wherein said electrolysis electrode assembly, if necessary, the spacing between electrodes of different polarity of the electroplating electrode assembly can be as small as 1 mm or less to It is beneficial to strengthen the electrolysis of impurities and water molecules in water under certain electrolysis power and certain electrolysis electrode assembly structure, and improve the efficiency of water electrolysis.
The device for generating electrolyzed water vapor according to claim 1, wherein the electrolysis electrode assembly can make daily drinking water and water into electrolytic reduced water having a negative oxidation-reduction potential and a hydrogen content greater than zero. .
A device for generating electrolyzed water vapor according to claim 1, wherein said electrolysis electrode assembly has a structure of electrodes of different polarities such that when water is electrolyzed in the electrode gap to generate fluidity, the electrode gap is Water and ions can flow in the same direction, so that more water flows through the gaps of different polarity electrodes, and the water that is electrolyzed in the gap is replaced, so that more impurities and water molecules in the water can be repeatedly electrolyzed by the currents of different polarity electrodes to increase impurities. The probability and number of electrolysis of water molecules with different polar electrodes increases the efficiency of water electrolysis.
A device for generating electrolyzed water vapor according to claim 1, wherein said electrolysis electrode assembly has a space outside the two port positions of the electrode gap, so that water flows when it is electrolyzed, and water It can smoothly flow in the gap of different polarity electrodes, improving the efficiency of water electrolysis.
The device for generating electrolyzed water vapor according to claim 1, wherein the electrolysis electrode assembly can extend the flow of water in the electrode gap by appropriately increasing the area of the electrode gap within a certain space occupied by the electrolysis electrode assembly. During the time of electrolysis, more impurities and water molecules are repeatedly electrolyzed by different polarity electrodes, increasing the probability and quantity of impurities and water molecules being electrolyzed by different polarity electrodes, and improving the efficiency of water electrolysis.
The device for generating electrolyzed water vapor according to claim 1, wherein the electrolysis electrode assembly can be appropriately connected in the case where the material and shape of the electrolytic cell wall of the electrolysis electrode assembly are suitable as electrodes. As the electrolysis electrode, the gap area of the electrolysis electrode is increased to improve the electrolysis efficiency of water.
A device for generating electrolyzed water vapor according to claim 1, wherein said electrolysis electrode group The piece 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 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 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 Notch; 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, each column of the columnar electrode is inserted into each corresponding cylindrical hole, and the surface of the cylindrical electrode and the cylindrical electrode are inserted There is a gap between the opposite surfaces for electrolysis of water; during the electrolysis work, the water in the electrode gap can flow; there is a certain space outside the two port positions of the electrode gap, so that the water can be in the process of being electrolyzed. Flows in the electrode gap.