CN105441972B - Cavity-separating hydrogen-oxygen detaches electrolysis unit and its method - Google Patents
Cavity-separating hydrogen-oxygen detaches electrolysis unit and its method Download PDFInfo
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- CN105441972B CN105441972B CN201510995475.3A CN201510995475A CN105441972B CN 105441972 B CN105441972 B CN 105441972B CN 201510995475 A CN201510995475 A CN 201510995475A CN 105441972 B CN105441972 B CN 105441972B
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- amberplex
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B1/00—Electrolytic production of inorganic compounds or non-metals
- C25B1/01—Products
- C25B1/02—Hydrogen or oxygen
- C25B1/04—Hydrogen or oxygen by electrolysis of water
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B9/00—Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
- C25B9/70—Assemblies comprising two or more cells
- C25B9/73—Assemblies comprising two or more cells of the filter-press type
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B9/00—Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
- C25B9/17—Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof
- C25B9/19—Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms
- C25B9/23—Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms comprising ion-exchange membranes in or on which electrode material is embedded
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Inorganic Chemistry (AREA)
- Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)
Abstract
Include electrolytic cell, amberplex, control circuit board and lithium battery the invention discloses a kind of cavity-separating hydrogen-oxygen separation electrolysis unit and its method, the device;The edge seal of amberplex is fixed on the inner wall of electrolytic cell, electrolytic cell forms first annular seal space body and the second seal cavity after separating by amberplex, first annular seal space body is located at the lower section of amberplex, and the second seal cavity is located at the top of amberplex;It is fixed with positive electrode plate that is parallel with amberplex and being disposed below in first annular seal space body, negative electrode plate that is parallel with amberplex and being positioned above is fixed in the second seal cavity;Amberplex is obliquely fixed on the inner wall of electrolytic cell, and water forms a gas trigonum between the horizontal plane and positive electrode plate of the acute angle and the madial wall of electrolytic cell.The present invention realizes being kept completely separate for oxygen and other gases and hydrogen, then realizes producing for pure hydrogen.
Description
Technical field
The present invention relates to hydrogen-oxygen separation technology field more particularly to a kind of cavity-separating hydrogen-oxygen separation electrolysis unit and its sides
Method.
Background technology
Hydrogen is the gas of known density minimum in the world, is the substance of relative molecular mass minimum, hydrogen is in universe
The most element of content, the quality of hydrogen only has the 1/14 of air, i.e., at 0 DEG C, the pressure of normal atmosphere, hydrogen it is close
Degree is 0.0899 g/L.
A large amount of biological studies show that hydrogen has the function of that selectivity neutralizes free radical and nitrous acid anion, this is
Hydrogen treats anti-oxidative damage on the basis of disease.Studies have shown that the disease type that hydrogen can treat is very more, for example, it is pernicious swollen
Encephalopathy, cerebral ischemia, senile dementia, Parkinson's disease, depression, spinal cord injury, skin after tumor, colitis, anthracemia
Allergy, diabetes B, acute pancreatitis, organ transplant injury, small intestinal ischemia, system inflammation reaction, radiation insult, retina
Damage and equal more than the 68 kinds of disease of deafness.Although hydrogen has potential treatment disease value to human body, anti-oxidant in order to reach
Purpose, how the use of hydrogen to be still major issue that we face.There are 3 kinds using the mode of hydrogen at present, first, can adopt
With the mixed gas containing hydrogen is directly breathed, second is that the solution of hydrogen is drunk or injects, third, by skin diffusion and luring
It leads colon bacteria and generates hydrogen.Consider from using with economic angle, the water that ordinary people drinks hydrogen is more satisfactory method.
It is used by a large amount of crowds on Japan, TaiWan, China, Hong Kong and other places, hydrogen will be as the healthy patron saint of the mankind.How hydrogen manufacturing at
In order to which human needs solve the problems, such as.
1972, Japanese Scientists fujishima and honda had found to irradiate TiO with ultraviolet light under applied voltage2Electricity
Water decomposition is generated hydrogen by pole, discloses the possibility that can utilize decomposing water with solar energy hydrogen for the first time.This optical electro-chemistry conversion
Process using solar energy by photochemical catalyzing generate hydrogen, by the low solar energy of energy density be converted to high-energy,
Density, efficient chemical energy are a kind of ideal green hydrogen manufacturing approach, are expected to solve energy resource supply and environmental pollution simultaneously
Problem, therefore this technology is most theoretical significance and actual application prospect.But technology face in application process
Face a problem:How the gas that photoelectrolysis generates in the process of running carries out detaches online.Although this mode utilizes light
The energy solves the preparation of hydrogen, but is still unable to get pure hydrogen, and hydrogen is easy to and other gas during separation
Body mixes, and this gas has toxic, therefore affects the use of hydrogen.
With the development of economy, followed by a kind of water electrolysis obtains the device of hydrogen-oxygen, by domestic and international existing electrolysis
Moisture is still to decompose aqueous solution using after KOH or NaOH solution with lead zinc electrode and obtain hydrogen and oxygen, required electronics
About 3kw/h-5kw/h.Not only gas production is insufficient for this isolation, and the hydrogen and oxygen most importantly decomposited can not divide
From, therefore still cannot achieve the preparation of pure hydrogen.
In summary it describes, being badly in need of one kind on the market can complete to detach hydrogen and oxygen and other gases, obtain pure
The technology of hydrogen.
Invention content
Shortcoming present in view of the above technology, the present invention provide a kind of cavity-separating hydrogen-oxygen separation electrolysis unit and its
Electrolytic cell is separated into two completely isolated cavitys by method, due to other gases such as the extraction and the oxygen that realize pure hydrogen
Discharge.
To achieve the above object, the present invention provides a kind of cavity-separating hydrogen-oxygen separation electrolysis unit, including electrolytic cell, ion are handed over
Change film, control circuit board and lithium battery;The edge seal of the amberplex is fixed on the inner wall of electrolytic cell, and electrolytic cell is logical
It crosses and forms the first annular seal space body for containing progress electrolysis water and for containing drinkable water after amberplex separates
Two seal cavities, the first annular seal space body are located at the lower section of amberplex, and second seal cavity is located at ion exchange
The top of film;The control circuit board and lithium battery are each attached in the bottom end of electrolytic cell, and lithium battery and control circuit board electricity
Connection;
Positive electrode plate that is parallel with amberplex and being disposed below is fixed in the first annular seal space body, it is described
It is fixed with negative electrode plate that is parallel with amberplex and being positioned above in second seal cavity, the positive electrode plate and negative
Electrode plate is electrically connected with control circuit board;Control circuit board carries out electricity after being powered on to the electrolysis water in first annular seal space body
Solution, oxygen is generated on positive plate, hydrogen is generated on negative electrode plate after electrolysis;Pass through what is generated after the isolation of amberplex
Hydrogen with oxygen mix, does not form pure hydrogen;
The amberplex is obliquely fixed on the inner wall of electrolytic cell, the madial wall of electrolytic cell and positive electrode plate to
Upper inclined one end shape is in an acute angle;Electrolysis water is between the horizontal plane and positive electrode plate of the acute angle and the madial wall of electrolytic cell
Form a gas trigonum;Nitrogen present in oxygen and electrolysis water is discharged after being gathered in the gas trigonum after electrolysis;It is logical
The formation of gas trigonum is crossed, the gas in first annular seal space body can be discharged in time.
Wherein, which further includes a check valve, and outer water tube is connect by check valve with first annular seal space body, and is passed through
Check valve is in first annular seal space body plus water.
Wherein, the outer surface of the electrolytic cell is plated with an insulating layer.
Wherein, the internal diameter of the electrolytic cell is 9cm or so.
To achieve the above object, the present invention also provides a kind of cavity-separating hydrogen-oxygens to detach electrolytic method, includes the following steps:
Step 1, positive electrode plate and amberplex are obliquely fixed on the inner wall of electrolytic cell from the bottom to top;Pass through
The electrolytic cell is formed for containing the progress first annular seal space body of electrolysis water and drinkable for containing after amberplex separates
Two cavitys of the second seal cavity of water;
Step 2, negative electrode plate is fixed in the second seal cavity, and above amberplex;The positive electrode plate,
Amberplex and negative electrode plate three position are parallel;
Step 3, after control circuit board is powered, negative electrode plate and positive electrode plate proceed by electrolysis;And on negative electrode plate
Hydrogen is generated, oxygen is generated on positive electrode plate;After the isolation of amberplex, the hydrogen of generation will not be mixed with oxygen
It closes, formation is pure hydrogen;
Step 4, while gas is generated in first annular seal space body, by haemodialysis principle, in positive electrode plate and electricity
Solution slot is formed by acute angle forms a gas trigonum between the horizontal plane of electrolysis water, is deposited in oxygen and electrolysis water after electrolysis
Nitrogen be gathered in the gas trigonum after be discharged;The gas in first annular seal space body is arranged in time by gas trigonum
Go out.
The beneficial effects of the invention are as follows:Compared with prior art, cavity-separating hydrogen-oxygen provided by the invention detaches electrolysis unit
And its method,
1)The electrolytic cell is separated into two completely isolated seal chambers by being arranged in electrolytic cell after amberplex
Body, and place positive electrode plate in first annular seal space body, places negative electrode plate in the second seal cavity, in negative electrode when electrolysis
Hydrogen is generated on plate, and oxygen is generated on positive electrode plate;Due to amberplex separate from, can completely by after electrolysis hydrogen and
Oxygen is completely isolated, therefore the hydrogen in the second seal cavity is pure hydrogen, therefore the water in the second seal cavity can be direct
It drinks;Pure hydrogen can also be discharged and be collected, in case subsequently using or other being coordinated to use.Above-mentioned improvement, realizes oxygen
And other gases and hydrogen are kept completely separate, and then realize producing for pure hydrogen.
2)Amberplex is obliquely fixed on the inner wall of electrolytic cell, the madial wall of electrolytic cell and positive electrode plate to
Upper inclined one end shape is in an acute angle;Electrolysis water is between the horizontal plane and positive electrode plate of the acute angle and the madial wall of electrolytic cell
Form a gas trigonum;Nitrogen present in oxygen and water is discharged after being gathered in the gas trigonum after electrolysis;The gas
Trigonum, the region without being separately provided, are formed according to haemodialysis principle, the oxygen being electrolysed and electrolysis water Central Plains
Other gases such as nitrogen existing for this can be automatically moved into the gas trigonum, then be then exhausted from;The design, can not only be timely
Other gases such as oxygen are discharged, avoids these gases that from can not being discharged and return in water, water is polluted;Moreover, can be by oxygen
It is driven in time Deng other gases, prevents these gases completely and mixed with hydrogen, ensure that the absolute purity of hydrogen.
3)The present invention has the characteristics that reasonable design, simple operation, at low cost, to produce pure hydrogen effect good.
Description of the drawings
Fig. 1 is that the cavity-separating hydrogen-oxygen of the present invention detaches electrolysis unit structural schematic diagram;
Fig. 2 is that the cavity-separating hydrogen-oxygen of the present invention detaches the step flow chart of electrolytic method.
Main element symbol description is as follows:
10, electrolytic cell 11, amberplex
12, control circuit board 13, lithium battery
14, first annular seal space body 15, the second seal cavity
16, positive electrode plate 17, negative electrode plate
18, gas trigonum.
Specific implementation mode
In order to more clearly state the present invention, the present invention is further described below in conjunction with the accompanying drawings.
Referring to Fig. 1, the cavity-separating hydrogen-oxygen of the present invention detaches electrolysis unit, including electrolytic cell 10, amberplex 11, control
Circuit board 12 and lithium battery 13 processed;The edge seal of amberplex 11 is fixed on the inner wall of electrolytic cell 10, and electrolytic cell 10 is logical
It crosses after amberplex 11 separates to be formed and carries out the first annular seal space body 14 of electrolysis water and for containing drinkable water for containing
The second seal cavity 15, first annular seal space body 14 is located at the lower section of amberplex 11, and the second seal cavity 15 is located at ion
The top of exchange membrane 11;Control circuit board 12 and lithium battery 13 are each attached in the bottom end of electrolytic cell 10, and lithium battery 13 and control
Circuit board 12 processed is electrically connected;
Positive electrode plate that is parallel with amberplex 11 and being disposed below 16 is fixed in first annular seal space body 14, the
Negative electrode plate 17 that is parallel with amberplex 11 and being positioned above, 16 He of positive electrode plate are fixed in two seal cavities 15
Negative electrode plate 17 is electrically connected with control circuit board 12;Control circuit board 12 be powered on after to the electricity in first annular seal space body 14
Xie Shui is electrolysed, and generates oxygen O after electrolysis on positive plate 162, hydrogen H is generated on negative electrode plate 172;It is handed over by ion
The hydrogen generated after the isolation of film 11 is changed not with oxygen mix, forms pure hydrogen;
Amberplex 11 is obliquely fixed on the inner wall of electrolytic cell 10, the madial wall and positive electrode plate of electrolytic cell 10
16 acclivitous one end shapes are in an acute angle;Electrolysis water is in the horizontal plane and positive electrode plate 16 and electrolytic cell 10 of the acute angle
A gas trigonum 18 is formed between side wall;Nitrogen present in oxygen and electrolysis water is gathered in the gas trigonum after electrolysis
It is discharged after 18;By the formation of gas trigonum 18, the gas in first annular seal space body 14 can be discharged in time.
Compared to the prior art the case where, cavity-separating hydrogen-oxygen provided by the invention detach electrolysis unit, have following beneficial
Effect:
1)By after the setting amberplex 11 in the electrolytic cell 10 by the electrolytic cell 10 be separated into two it is completely isolated
Seal cavity, and positive electrode plate 16 is placed in first annular seal space body 14, negative electrode plate 17 is placed in the second seal cavity 15,
Hydrogen is generated on negative electrode plate 17 when electrolysis, oxygen is generated on positive electrode plate 16;Since amberplex 11 separates from can
Completely by after electrolysis hydrogen and oxygen it is completely isolated, therefore the hydrogen in the second seal cavity is pure hydrogen, therefore second
Water in seal cavity is capable of direct drinking;Pure hydrogen can also be discharged and be collected, in case subsequently using or other being coordinated to use.On
The improvement stated realizes being kept completely separate for oxygen and other gases and hydrogen, then realizes producing for pure hydrogen.
2)Amberplex 11 is obliquely fixed on the inner wall of electrolytic cell 10, the madial wall and positive electricity of electrolytic cell 10
16 acclivitous one end shape of pole plate is in an acute angle;Electrolysis water is in the horizontal plane and positive electrode plate and electrolytic cell of the acute angle
A gas trigonum 18 is formed between side wall;Nitrogen present in oxygen and water is gathered in the gas trigonum heel row after electrolysis
Go out;The gas trigonum 18, the region without being separately provided, are formed according to haemodialysis principle, the oxygen being electrolysed
And other gases such as nitrogen existing for script can be automatically moved into the gas trigonum in electrolysis water, then be then exhausted from;The design,
Other gases such as oxygen can not only timely be discharged, avoid these gases that from can not being discharged and return in water, water is polluted;And
And oxygen etc. can be driven other gases in time, prevent these gases completely and mixed with hydrogen, ensure that the absolute pure of hydrogen
Degree.
3)The present invention has the characteristics that reasonable design, simple operation, at low cost, to produce pure hydrogen effect good.
In the present embodiment, which further includes a check valve(It is not shown), outer water tube is close with first by check valve
It seals cavity 14 to connect, and water is added to first annular seal space body 14 is interior by check valve.By check valve to first annular seal space in this case
In vivo plus water is electrolysed;If the water in first annular seal space body is electrolysed enough, you can close check valve;If the first sealing
When water in cavity is inadequate, opens check valve and carry out adding water.After being electrolysed due to the water in first annular seal space body, the inside is remaining
There are many harmful gases or impurity thus to use one-way flow because this water cannot be passed through in the additional water pipe for adding water
Check valve, avoid water from flowing back.Certainly, limitation does not carry out first annular seal space body by check valve to add water in this case, may be used also
To be to add water using other modes such as permeable membranes;If it is the change to water supply way, as long as ensureing water in first annular seal space body
Be not in the embodiment of backflow phenomenon, belong to the simple deformation to this case or transformation, falls into the protection domain of this case
It is interior.
In the present embodiment, the outer surface of electrolytic cell 10 is plated with an insulating layer(It is not shown).Due to being needed in electrolytic cell
It carries out passing through electrolysis, it is therefore desirable to insulate to its outer surface.
In the present embodiment, the internal diameter of electrolytic cell 10 is 9cm or so.The design of 10 internal diameter of electrolytic cell, realizes in this case
Water electrolysis in small size isolates hydrogen and oxygen;And divide chamber by amberplex, realize producing for pure hydrogen.
Cavity-separating hydrogen-oxygen separation electrolysis unit provided by the invention cleans and makes automatically hydrogen peroxide or disinfectant function, should
Device is set with automatic cleaning function, because water can also generate after electrolysis in addition to generating hydrogen and oxygen because of the difference of water quality
The ion of other minerals, after Reusability device, these mineral ions can be attached on electrode plate formed it is usually said
Incrustation scale.The accumulation of incrustation scale can influence the efficiency of electrode plate and then influence use effect of device.So apparatus system is set as every
Using five times, just cleaning is primary automatically.
The method of cleaning is to generate and generate oxygen in the second seal cavity of hydrogen positive and negative electrode umpolung originally, former
Hydrogen is generated in the first annular seal space body of this generation oxygen.On the one hand, the hydrogen of generation can will be attached to first annular seal space body
Substance reduction on positive electrode plate, to cleaning electrode plate.On the other hand, the second seal cavity interior energy, which generates, has disinfection
Hydrogen peroxide, hydrogen peroxide can be used for vegetables and fruits cleaning and sterilizing, table-ware disinfection etc..
Further referring to Fig. 2, the present invention also provides a kind of cavity-separating hydrogen-oxygens to detach electrolytic method, including following step
Suddenly:
Positive electrode plate and amberplex are obliquely fixed on the inner wall of electrolytic cell by step S1 from the bottom to top;It is logical
The electrolytic cell after amberplex separates is crossed to form the first annular seal space body for containing progress electrolysis water and can drink for containing
With two cavitys of the second seal cavity of water;
Negative electrode plate is fixed in the second seal cavity by step S2, and above amberplex;The positive electrode
Plate, amberplex and negative electrode plate three position are parallel;
Step S3, after control circuit board is powered, negative electrode plate and positive electrode plate proceed by electrolysis;And on negative electrode plate
Hydrogen is generated, oxygen is generated on positive electrode plate;After the isolation of amberplex, the hydrogen of generation will not be mixed with oxygen
It closes, formation is pure hydrogen;
Step S4, while gas is generated in first annular seal space body, by haemodialysis principle, in positive electrode plate and electricity
Solution slot is formed by acute angle forms a gas trigonum between the horizontal plane of electrolysis water, is deposited in oxygen and electrolysis water after electrolysis
Nitrogen be gathered in the gas trigonum after be discharged;The gas in first annular seal space body is arranged in time by gas trigonum
Go out.
Cavity-separating hydrogen-oxygen provided by the invention detaches electrolytic method, has following advantage:
1)The electrolytic cell is formed for containing progress electrolysis water after the separation that this method passes through amberplex first is close
Two cavitys for sealing cavity and the second seal cavity for containing drinkable water, when being powered electrolysis, on negative electrode plate 17
Hydrogen is generated, oxygen is generated on positive electrode plate 16;Due to amberplex 11 separate from, can completely by after electrolysis hydrogen and
Oxygen is completely isolated, therefore the hydrogen in the second seal cavity is pure hydrogen, therefore the water in the second seal cavity can be direct
It drinks;Pure hydrogen can also be discharged and be collected, in case subsequently using or other being coordinated to use.The improvement of the above method, realizes
Being kept completely separate for oxygen and other gases and hydrogen, then realizes producing for pure hydrogen.
2)Amberplex 11 is obliquely fixed on the inner wall of electrolytic cell 10, the madial wall and positive electricity of electrolytic cell 10
16 acclivitous one end shape of pole plate is in an acute angle;Electrolysis water is in the horizontal plane and positive electrode plate and electrolytic cell of the acute angle
A gas trigonum 18 is formed between side wall;Nitrogen present in oxygen and water is gathered in the gas trigonum heel row after electrolysis
Go out;The gas trigonum 18, the region without being separately provided, are formed according to haemodialysis principle, the oxygen being electrolysed
And other gases such as nitrogen existing for script can be automatically moved into the gas trigonum in electrolysis water, then be then exhausted from;The design,
Other gases such as oxygen can not only timely be discharged, avoid these gases that from can not being discharged and return in water, water is polluted;And
And oxygen etc. can be driven other gases in time, prevent these gases completely and mixed with hydrogen, ensure that the absolute pure of hydrogen
Degree.
3)This method has that simple operation, equipment is simple, technological process is convenient, it is good to produce pure hydrogen effect and at low cost etc.
Feature.
Water in the present invention in first annular seal space body is served only for being electrolysed;Water in second seal cavity can directly be drunk,
It can also directly be collected in pure hydrogen, can be used for making the beauty products such as facial mask, for treating a variety of diseases, to be beneficial to man
Health.
Disclosed above is only several specific embodiments of the present invention, but the present invention is not limited to this, any ability
What the technical staff in domain can think variation should all fall into protection scope of the present invention.
Claims (4)
1. a kind of cavity-separating hydrogen-oxygen detaches electrolysis unit, which is characterized in that including electrolytic cell, amberplex, control circuit board
And lithium battery;The edge seal of the amberplex is fixed on the inner wall of electrolytic cell, and electrolytic cell passes through amberplex point
It is formed every rear for containing the first annular seal space body for carrying out electrolysis water and the second seal cavity for containing drinkable water, it is described
First annular seal space body is located at the lower section of amberplex, and second seal cavity is located at the top of amberplex;The control
Circuit board and lithium battery processed are each attached in the bottom end of electrolytic cell, and lithium battery is electrically connected with control circuit board;
It is fixed with positive electrode plate that is parallel with amberplex and being disposed below in the first annular seal space body, described second
Negative electrode plate that is parallel with amberplex and being positioned above, the positive electrode plate and negative electrode are fixed in seal cavity
Plate is electrically connected with control circuit board;Control circuit board is electrolysed the electrolysis water in first annular seal space body after being powered on,
Oxygen is generated after electrolysis on positive plate, hydrogen is generated on negative electrode plate;Pass through the hydrogen generated after the isolation of amberplex
Gas with oxygen mix, does not form pure hydrogen;
The amberplex is obliquely fixed on the inner wall of electrolytic cell, and the madial wall of electrolytic cell and positive electrode plate are to updip
Oblique one end shape is in an acute angle;Electrolysis water is formed between the horizontal plane and positive electrode plate of the acute angle and the madial wall of electrolytic cell
One gas trigonum;Nitrogen present in oxygen and electrolysis water is discharged after being gathered in the gas trigonum after electrolysis;Pass through gas
The gas in first annular seal space body can be discharged in time for the formation of body trigonum;
The device further includes a check valve, and outer water tube is connect by check valve with first annular seal space body, and is given by check valve
Add water in first annular seal space body.
2. cavity-separating hydrogen-oxygen according to claim 1 detaches electrolysis unit, which is characterized in that the outer surface of the electrolytic cell
It is plated with an insulating layer.
3. cavity-separating hydrogen-oxygen according to claim 1 detaches electrolysis unit, which is characterized in that the internal diameter of the electrolytic cell is
9cm。
4. a kind of cavity-separating hydrogen-oxygen detaches electrolytic method, which is characterized in that include the following steps:
Step 1, positive electrode plate and amberplex are obliquely fixed on the inner wall of electrolytic cell from the bottom to top;Pass through ion
The electrolytic cell is formed after exchange membrane separates carries out the first annular seal space body of electrolysis water and for containing drinkable water for containing
Two cavitys of the second seal cavity;Outer water tube is connect by check valve with first annular seal space body, and by check valve to the
Add water in one seal cavity;
Step 2, negative electrode plate is fixed in the second seal cavity, and above amberplex;The positive electrode plate, ion
Exchange membrane and negative electrode plate three position are parallel;
Step 3, after control circuit board is powered, negative electrode plate and positive electrode plate proceed by electrolysis;And it is generated on negative electrode plate
Hydrogen generates oxygen on positive electrode plate;After the isolation of amberplex, the hydrogen of generation will not be with oxygen mix, shape
At be pure hydrogen;
Step 4, while gas is generated in first annular seal space body, by haemodialysis principle, in positive electrode plate and electrolytic cell
It is formed by acute angle and forms a gas trigonum between the horizontal plane of electrolysis water, after electrolysis present in oxygen and electrolysis water
Nitrogen is discharged after being gathered in the gas trigonum;The gas in first annular seal space body is discharged in time by gas trigonum.
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CN113737219B (en) * | 2021-08-31 | 2024-06-21 | 王国经 | Mixing-preventing device for electrolytic hydrogen production |
CN113774409B (en) * | 2021-09-24 | 2023-12-19 | 浙江清越科技有限公司 | Standing type flat hydrogen peroxide electrochemical generator |
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KR200459135Y1 (en) * | 2010-05-03 | 2012-03-19 | 김일봉 | Portable device for producing hydrogen enriched water |
JP5993768B2 (en) * | 2013-03-28 | 2016-09-14 | 富士フイルム株式会社 | Gas production equipment |
CN203653705U (en) * | 2013-11-02 | 2014-06-18 | 金溪斯普瑞药业有限公司 | Hydroxyl anion water generating device |
CN204410393U (en) * | 2015-01-24 | 2015-06-24 | 上海韩屋丽电子科技有限公司 | A kind of thermos cup manufacturing oxygen and hydrogen water |
CN204417611U (en) * | 2015-01-24 | 2015-06-24 | 上海韩屋丽电子科技有限公司 | A kind of portable hydrogen water manufactures device |
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2015
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Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN205368508U (en) * | 2015-12-28 | 2016-07-06 | 深圳市赫拉铂氢时代科技有限公司 | Divide cavate hydrogen oxygen partial pressure from electrolytic device |
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