CN108179436A - A kind of water-electrolytic hydrogen making equipment - Google Patents
A kind of water-electrolytic hydrogen making equipment Download PDFInfo
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- CN108179436A CN108179436A CN201810154390.6A CN201810154390A CN108179436A CN 108179436 A CN108179436 A CN 108179436A CN 201810154390 A CN201810154390 A CN 201810154390A CN 108179436 A CN108179436 A CN 108179436A
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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
- C25B15/00—Operating or servicing cells
- C25B15/08—Supplying or removing reactants or electrolytes; Regeneration of electrolytes
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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
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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
The invention discloses a kind of water-electrolytic hydrogen making equipments,Including reaction unit,Oxygen collecting device and Hydrogen collection device,The reaction unit includes the babinet A being fixedly arranged on stent,Decomposition chamber is provided in the babinet A,Bifurcated pipe is provided with and communicated in the decomposition chamber lower end wall,The bifurcated pipe or so end face is provided with and communicated with valve A,The valve A end face outsides are provided with and communicated with pipeline A,It is described to decompose that chamber lower end wall is symmetrical is installed with sensor,The heating chamber in the babinet A is installed with above the decomposition chamber,Above and below the heating chamber several heating tubes are installed between end wall,Babinet A upper surfaces boss position thread fitting is connected with latch segment A and latch segment B,Present device is simple in structure,It is easy to use,This equipment collects the hydrogen and oxygen generated after electrolysis water using semi-automatic formula,Effectively increase the efficiency of equipment.
Description
Technical field
The present invention relates to Hydrogen Energy source domains, and in particular to a kind of water-electrolytic hydrogen making equipment.
Background technology
With the development of science and technology, social progress, country promotes high-tech development always, and the development of new energy is compeled in eyebrow
Eyelash, in traditional hydrogen energy source evolution, the preparation always important link of hydrogen, traditional hydrogen production equipment
It can not realize efficient automation, this equipment largely solves the problems, such as this.
Invention content
The purpose of the present invention is to provide a kind of water-electrolytic hydrogen making equipments, can overcome the drawbacks described above of the prior art.
According to the present invention, a kind of water-electrolytic hydrogen making equipment of present device, including reaction unit, oxygen collecting device and
Hydrogen collection device, the reaction unit includes being provided with decomposition chamber in the babinet A, the babinet A that are fixedly arranged on stent, described
Bifurcated pipe, the bifurcated pipe or so end face is provided with and communicated in decomposition chamber lower end wall to be provided with and communicated with outside valve A, the valve A
Side end face is provided with and communicated with pipeline A, and the decomposition chamber lower end wall is symmetrical to be installed with sensor, and the decomposition chamber top is fixed
There is a heating chamber in the babinet A, the heating chamber is installed with several heating tubes between end wall up and down, on the babinet A
End face boss position thread fitting is connected with latch segment A and latch segment B, and the latch segment A upper surfaces bolt is connected
Cover board B is provided with, the latch segment B upper surfaces bolt mating connection, which is provided with to be installed in cover board C, the latch segment A, to be stretched into
The conductive column A for decomposing chamber and extending upward exterior space, the conductive column A outer surfaces and the latch segment A and cover board B
The position of contact is installed with insulation sleeve A, and the conductive column A upper surfaces are installed with to be installed in circuit A, the latch segment A and stretch into
The conductive column A for decomposing chamber and extending upward exterior space, the conductive column A outer surfaces and the latch segment A and cover board B
The position of contact is installed with insulation sleeve A, and the conductive column A upper surfaces are installed with to be installed in circuit A, the latch segment B and stretch into
The conductive column B for decomposing chamber and extending upward exterior space, the conductive column B outer surfaces and the latch segment B and cover board C
The position of contact is installed with insulation sleeve, and the conductive column B upper surfaces are installed with circuit B, connect and set in the decomposition chamber left end wall
Pipeline F is equipped with, the pipeline F left sides are provided with and communicated with valve D, and the valve D left sides are provided with and communicated with discharge pipe, described
The drying box positioned at exterior space is provided on the left of discharge pipe, drying chamber is provided in the drying box, the pipeline D runs through institute
It states drying box and stretches into the drying chamber, cover board D, the drying chamber are hingedly installed between the drying chamber left and right sides end wall
The pipeline E extended to the left is provided with and communicated in left end wall, it is left that the pipeline E left sides are provided with and communicated with valve B, the valve B
End face is provided with and communicated with pipeline D, and the Hydrogen collection device includes the transmission case for being fixedly arranged on truss, is provided in the transmission case
It is open towards left atrium, is provided with atrium in the atrium right end wall, cylinder is installed in the atrium upper end wall,
The push rod lower face of the cylinder is installed with fixed block, and the fixed block front end face is installed with the swan neck extended to the left, described
The pipeline D that swan neck right side is provided with and communicated with through the atrium and is connected with the valve B, the swan neck lower left
Truss is provided with, the truss right side is installed with electromagnetism guide rail, and the electromagnetism guide rail right side is slidably provided with electromagnetism
Sliding block A, the electromagnetism sliding block A right sides are installed in babinet B, the babinet B and are provided with collecting chamber, the collecting chamber lower end wall
Pipeline B is inside provided with and communicated with, the pipeline B lower faces are provided with and communicated with valve C, and the valve C lower faces are provided with and communicated with pipe
Road C, the pipeline C outer surfaces socket are provided with collection air bag, and the babinet B upper surfaces are provided with and the swan neck bending section
Split-phase pair and the sealing valve A connected with the collecting chamber are provided with and communicated with the connecting leg extended to the right in the decomposition chamber right end wall,
The connecting leg right side is provided with and communicated with valve E, and the valve E right sides are provided with and communicated with pipeline G, the oxygen collecting device
Chamber is held including being set in the babinet C, the babinet C below the pipeline G to be provided with, the babinet C upper surfaces are installed with
With the sealing valve B for holding chamber and connecting, described hold is installed with below chamber positioned at the interior water containing chamber, described to hold under chamber
End wall is provided with and communicated with the siphunculus for stretching into the water containing chamber, and the siphunculus lower face is provided with and communicated under valve F, the valve F
End face is provided with and communicated with pipeline H, and the water containing chamber lower end wall is provided with and communicated with aqueduct, the aqueduct lower face connection setting
There is water check valve, the babinet C lower faces are installed with several stabilizer blades, are provided with and the fixed water tank in ground, institute below the stabilizer blade
It states and opening up water capacity chamber is provided in water tank, the lower face of the stabilizer blade offsets with the water capacity chamber lower end wall, so as to structure
Hydrogen plant is prepared into complete electrolysis water, effectively increases hydrogen preparation efficiency.
Further technical solution, the sensor include the pedestal being connected with the decomposition chamber lower end wall bolt,
Opening up heat transfer chamber is provided in the pedestal, sealing plate, the heat transfer are installed between the heat transfer chamber left hand end wall
Intracavitary is provided with spool A and the spool B that thermo-sensitive tube, the thermo-sensitive tube or so end face is installed in the pedestal, the line
Pipe A and spool B are connected with peripheral control unit, it is achieved thereby that temperature sensing controls.
Further technical solution, the swan neck are reclinate rigid pipe, and the pipeline D is retractable and flexible
Pipe, so as to make Hydrogen collection more preferably efficient.
Further technical solution has filled with drier in the drying chamber, has been collected after making the hydrogen desiccation of moistening, so as to
Improve drying effect.
Further technical solution, the circuit A are communicated with the cathode of extraneous power supply, the circuit B and extraneous power supply
Anode communicates, it is achieved thereby that the electrolysis of water.
Further technical solution, the water capacity chamber hold in chamber and water containing chamber and are loaded with liquid water, make oxygen described
It holds after intracavitary is collected and squeezes out liquid, so as to improve the reliability of equipment.
The beneficial effects of the invention are as follows:
Since present device is in original state, the cylinder is in stop working state, the valve A, valve B, valve
C, valve D, valve E, valve F, water check valve and sealing valve B are closed, not conductive in the circuit A and circuit B, so as to
Above structure is made to be located at initial position in original state, can be adjusted in follow-up work, effectively improve the work of equipment
Make harmony.
When equipment is run, the valve A is opened, and by the bifurcated pipe liquid water is passed through the decomposition intracavitary, and will
The decomposition chamber is closed full of the rear valve A, and the circuit A and circuit B is made to be connected with power supply, in the decomposition intracavitary electrolysis
Water makes the conductive column A outer surfaces generate hydrogen, and the conductive column B outer surfaces is made to generate oxygen, and the valve D is opened, hydrogen
Entered in the drying chamber by the pipeline F, valve D and discharge pipe, by the desiccant dryness in the drying chamber, the electricity
Magnetic slider A drives the babinet B to move to and immediately below the swan neck, the sealing valve A and the swan neck face are described
Cylinder drives the fixed block to move down, and the sealing valve A is opened, and the swan neck is made to put in the collecting chamber, described
Sealing valve A uses dynamic sealing formula structure, makes the swan neck that can still ensure to seal after entering the sealing valve A, described
Valve B is opened, and dry hydrogen is passed through on the upside of the collecting chamber, and the air of the collecting chamber is downward by the swan neck
It squeezes, the valve C is opened, and surplus air is discharged into the collection air bag, described in when being full of air in the collecting chamber
Valve C, valve B and sealing valve A are closed, and the electromagnetism sliding block A drives the babinet B to run to loading place, the conductive column B again
The oxygen of generation enters in the connecting leg, and the valve E and sealing valve B are opened, and intracavitary, the valve are held described in oxygen entrance
F and water check valve are opened, and liquid water is held chamber and water containing chamber squeezes into the water capacity intracavitary by oxygen by described, when it is described hold chamber and
It is filled with the valve F and water check valve after oxygen in water containing chamber to close, then described hold in chamber and water containing chamber is filled with oxygen,
It is achieved thereby that efficient oxygen is prepared with hydrogen.
When reacting progress, the sealing plate conduction temperature for decomposing chamber to the thermo-sensitive tube, the thermo-sensitive tube root
The electric current in the spool A and spool B is made to change according to temperature change, signal is sent out to controller, make the heating plumber
Make the heating aqueous for decomposing intracavitary, be in the temperature of reaction and be suitble to state, so as to improve the reaction high efficiency of equipment.
When only needing to collect the oxygen of certain component, when oxygen just enters the water containing chamber from the pipeline H, the valve
Door F can be closed, and make the intracavitary that holds full of oxygen, so as to improve the practicability of equipment.
Present device is simple in structure, easy to use, this equipment collects the hydrogen generated after electrolysis water using semi-automatic formula
Gas and oxygen effectively increase the efficiency of equipment.
The above, the specific embodiment only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Description of the drawings
It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution of the prior art
Attached drawing is briefly described needed in technology description, it should be apparent that, the accompanying drawings in the following description is only to invent
Some embodiments, for those of ordinary skill in the art, without creative efforts, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is a kind of overall structure diagram of water-electrolytic hydrogen making equipment of the present invention;
Fig. 2 is the enlarged internal structure diagram of sensor 143 in Fig. 1;
Fig. 3 is the enlarged diagram of A in Fig. 1.
Specific embodiment
All features or disclosed all methods disclosed in this specification or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
This specification(Including any accessory claim, abstract and attached drawing)Disclosed in any feature, except non-specifically chatting
It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only
It is an example in a series of equivalent or similar characteristics.
As shown in Figs. 1-3, a kind of water-electrolytic hydrogen making equipment of the invention, including reaction unit, oxygen collecting device and hydrogen
Gas collection device, the reaction unit include being provided with decomposition chamber in the babinet A104, the babinet A104 that are fixedly arranged on stent
103, described decompose in 103 lower end wall of chamber is provided with and communicated with bifurcated pipe 100, and 100 or so the end face of bifurcated pipe is provided with and communicated with
Valve A101, the valve A101 end face outsides are provided with and communicated with pipeline A102, and decomposition 103 lower end wall of chamber is symmetrical solid
Equipped with sensor 143,103 top of decomposition chamber is installed with the heating chamber 127 in the babinet A104, the heating chamber
Several heating tubes 128, the connection setting of babinet A104 upper surfaces boss position thread fitting are installed between about 127 end walls
There is a latch segment A126 and latch segment B130, the latch segment A126 upper surfaces bolt mating connection is provided with cover board B125, described
The bolt mating connection of latch segment B130 upper surfaces, which is provided with to be installed in cover board C131, the latch segment A126, stretches into the decomposition
Chamber 103 and the conductive column A124 for extending upward exterior space, the conductive column A124 outer surfaces and the latch segment A126 and
The position of cover board B125 contacts is installed with insulation sleeve A123, and the conductive column A124 upper surfaces are installed with circuit A122, the lock
The conductive column A124 for stretching into the decomposition chamber 103 and extending upward exterior space, the conductive column are installed in tight block A126
A124 outer surfaces are installed with insulation sleeve A123, the conductive column A124 with the latch segment A126 and cover board the B125 position contacted
Upper surface is installed in circuit A122, the latch segment B130 to be installed with and stretches into the decomposition chamber 103 and extend upward outside
The conductive column B132 in space, the conductive column B132 outer surfaces are consolidated with the latch segment B130 and cover board the C1315 position contacted
Equipped with insulation sleeve 133, the conductive column B132 upper surfaces are installed with circuit B134, connect and set in the decomposition 103 left end wall of chamber
Pipeline F121 is equipped with, the pipeline F121 left sides are provided with and communicated with valve D120, the valve D120 left sides connection setting
There is discharge pipe 119,119 left side of discharge pipe is provided with the drying box 109 positioned at exterior space, is set in the drying box 109
Drying chamber 108 is equipped with, the pipeline D116 is through the drying box 109 and stretches into the drying chamber 108, the drying chamber
Cover board D118 between 108 left and right sides end walls is hingedly installed, is provided with and communicated with what is extended to the left in the 108 left end wall of drying chamber
Pipeline E117, the pipeline E117 left sides are provided with and communicated with valve B110, and the valve B110 left sides are provided with and communicated with pipe
Road D116, the Hydrogen collection device include the transmission case 150 for being fixedly arranged on truss, opening court are provided in the transmission case 150
Left atrium 166, is provided with atrium 151 in the 166 right end wall of atrium, fixed in 166 upper end wall of atrium
There is cylinder 152, the push rod lower face of the cylinder 152 is installed with fixed block 153, and 153 front end face of fixed block is fixed oriented
The swan neck 154 of left extension, 154 right side of swan neck be provided with and communicated with through the atrium 151 and with the valve
The pipeline D116 of B110 connections, 154 lower left of swan neck are provided with truss 158, and 158 right side of truss is installed with electricity
Magnetic conductance rail 159, it is right that 159 right side of electromagnetism guide rail is slidably provided with electromagnetism sliding block A157, the electromagnetism sliding block A157
End face, which is installed in babinet B115, the babinet B115, is provided with collecting chamber 114, connects and sets in 114 lower end wall of collecting chamber
Pipeline B111 is equipped with, the pipeline B111 lower faces are provided with and communicated with valve C113, the valve C113 lower faces connection setting
Have pipeline C112, the pipeline C112 outer surfaces socket, which is provided with, collects air bag 161, the babinet B115 upper surfaces be provided with
154 bending part of swan neck is opposite and the sealing valve A155 that connect with the collecting chamber 114, described to decompose 103 right end of chamber
The connecting leg 146 extended to the right is provided with and communicated in wall, 146 right side of connecting leg is provided with and communicated with valve E135, the valve
E135 right sides are provided with and communicated with pipeline G136, and the oxygen collecting device includes being set to the babinet below the pipeline G136
It is provided in C137, the babinet C137 and holds chamber 138, the babinet C137 upper surfaces are installed with to be connected with the chamber 138 that holds
Logical sealing valve B170,138 lower section of chamber that holds is installed with the water containing chamber 165 in described 139, described to hold chamber 138
Lower end wall is provided with and communicated with the siphunculus 146 for stretching into the water containing chamber 165, and 146 lower face of siphunculus is provided with and communicated with valve
F141, the valve F141 lower faces are provided with and communicated with pipeline H140, and 165 lower end wall of water containing chamber is provided with and communicated with aqueduct
163,163 lower face of aqueduct is provided with and communicated with water check valve 162, and the babinet C137 lower faces are installed with several stabilizer blades
164,164 lower section of stabilizer blade is provided with water tank 171 fixed with ground, and opening up water is provided in the water tank 171
Cavity volume 172, the lower face of the stabilizer blade 164 offset with 172 lower end wall of water capacity chamber, are prepared so as to form complete electrolysis water
Hydrogen plant effectively increases hydrogen preparation efficiency.
Valuably, wherein, the sensor 143 includes the pedestal being connected with 103 lower end wall bolt of the decomposition chamber
200, opening up heat transfer chamber 204 is provided in the pedestal 200, is installed between 204 left hand end wall of heat transfer chamber close
Sealing plate 205 is provided with thermo-sensitive tube 202 in the heat transfer chamber 204, and 202 or so the end face of thermo-sensitive tube is installed with positioned at the base
Spool A201 and spool B203 in seat 200, the spool A201 and spool B203 are connected with peripheral control unit, it is achieved thereby that
Temperature sensing controls.
Valuably, wherein, the swan neck 154 is reclinate rigid pipe, and the pipeline D116 is telescopic soft
Property pipe, so as to make Hydrogen collection more preferably efficient.
Valuably, wherein, drier has been filled in the drying chamber 108, has been collected after making the hydrogen desiccation of moistening, so as to carry
High drying effect.
Valuably, wherein, the circuit A122 is communicated with the cathode of extraneous power supply, the circuit B134 and extraneous power supply
Anode communicates, it is achieved thereby that the electrolysis of water.
Valuably, wherein, the water capacity chamber 172 holds in chamber 138 and water containing chamber 165 and is loaded with liquid water, and oxygen is made to exist
Described hold in chamber 138 squeezes out liquid after collection, so as to improve the reliability of equipment.
For present device in original state, the cylinder 152 is in stop working state, the valve A101, valve
B110, valve C113, valve D120, valve E135, valve F141, water check valve 162 and sealing valve B170 are closed, institute
It states not conductive in circuit A122 and circuit B134.
When equipment is run, the valve A101 is opened, and liquid water is passed through the decomposition chamber by the bifurcated pipe 100
In 103, and the decomposition chamber 103 full of the rear valve A101 is closed, make the circuit A122 and circuit B134 and power supply
It connects, in the decomposition 103 Inner electrolysis water of chamber, the conductive column A124 outer surfaces is made to generate hydrogen, make the conductive column B132
Outer surface generates oxygen, and the valve D120 is opened, and hydrogen enters institute by the pipeline F121, valve D120 and discharge pipe 119
It states in drying chamber 108, by the desiccant dryness in the drying chamber 108, the electromagnetism sliding block A157 drives the babinet
B115 is moved to and 154 underface of swan neck, the sealing valve A155 and 154 face of swan neck, the cylinder 152
The fixed block 153 is driven to move down, the sealing valve A155 is opened, and the swan neck 154 is made to put in the collecting chamber 114
Interior, the sealing valve A155 uses dynamic sealing formula structure, and the swan neck 154 is made still may be used after entering the sealing valve A155
To ensure sealing, the valve B110 is opened, and dry hydrogen is passed through 114 upside of collecting chamber by the swan neck 154,
And be pressed down against the air of the collecting chamber 114, the valve C113 is opened, and surplus air is discharged into the collection air bag
In 161, the valve C113, valve B110 and sealing valve A155 are closed when air is full of in the collecting chamber 114, the electricity
Magnetic slider A157 drives the babinet B115 to run to loading place again, and the oxygen that the conductive column B132 is generated enters the connecting leg
In 146, the valve E135 and sealing valve B170 are opened, and are held in chamber 138 described in oxygen entrance, the valve F141 and sealing
Valve 162 is opened, and liquid water is held chamber 138 and water containing chamber 165 is squeezed into the water capacity chamber 172 by oxygen by described, when the Sheng
It puts and the valve F141 and water check valve 162 after oxygen are filled in chamber 138 and water containing chamber 165 close, then hold chamber 138 by described
Oxygen is filled with in water containing chamber 165.
When reacting progress, the sealing plate 205 conducts the temperature for decomposing chamber 103 to the thermo-sensitive tube 202, described
Thermo-sensitive tube 202 makes the electric current in the spool A201 and spool B203 change according to temperature change, and letter is sent out to controller
Number, make the work of the heating tube 128 heating aqueous decomposed in chamber 103, be in the temperature of reaction and be suitble to state.
When only needing to collect the oxygen of certain component, when oxygen just enters the water containing chamber 165 from the pipeline H140,
The valve F141 can be closed, and make described hold in chamber 138 full of oxygen.
The beneficial effects of the invention are as follows:Since present device is in original state, the cylinder is in the shape that is stopped
State, the valve A, valve B, valve C, valve D, valve E, valve F, water check valve and sealing valve B are closed, the line
It is not conductive in road A and circuit B, so as to which above structure be made to be located at initial position in original state, can in follow-up work into
Row adjustment effectively improves the working regularity of equipment.
When equipment is run, the valve A is opened, and by the bifurcated pipe liquid water is passed through the decomposition intracavitary, and will
The decomposition chamber is closed full of the rear valve A, and the circuit A and circuit B is made to be connected with power supply, in the decomposition intracavitary electrolysis
Water makes the conductive column A outer surfaces generate hydrogen, and the conductive column B outer surfaces is made to generate oxygen, and the valve D is opened, hydrogen
Entered in the drying chamber by the pipeline F, valve D and discharge pipe, by the desiccant dryness in the drying chamber, the electricity
Magnetic slider A drives the babinet B to move to and immediately below the swan neck, the sealing valve A and the swan neck face are described
Cylinder drives the fixed block to move down, and the sealing valve A is opened, and the swan neck is made to put in the collecting chamber, described
Sealing valve A uses dynamic sealing formula structure, makes the swan neck that can still ensure to seal after entering the sealing valve A, described
Valve B is opened, and dry hydrogen is passed through on the upside of the collecting chamber, and the air of the collecting chamber is downward by the swan neck
It squeezes, the valve C is opened, and surplus air is discharged into the collection air bag, described in when being full of air in the collecting chamber
Valve C, valve B and sealing valve A are closed, and the electromagnetism sliding block A drives the babinet B to run to loading place, the conductive column B again
The oxygen of generation enters in the connecting leg, and the valve E and sealing valve B are opened, and intracavitary, the valve are held described in oxygen entrance
F and water check valve are opened, and liquid water is held chamber and water containing chamber squeezes into the water capacity intracavitary by oxygen by described, when it is described hold chamber and
It is filled with the valve F and water check valve after oxygen in water containing chamber to close, then described hold in chamber and water containing chamber is filled with oxygen,
It is achieved thereby that efficient oxygen is prepared with hydrogen.
When reacting progress, the sealing plate conduction temperature for decomposing chamber to the thermo-sensitive tube, the thermo-sensitive tube root
The electric current in the spool A and spool B is made to change according to temperature change, signal is sent out to controller, make the heating plumber
Make the heating aqueous for decomposing intracavitary, be in the temperature of reaction and be suitble to state, so as to improve the reaction high efficiency of equipment.
When only needing to collect the oxygen of certain component, when oxygen just enters the water containing chamber from the pipeline H, the valve
Door F can be closed, and make the intracavitary that holds full of oxygen, so as to improve the practicability of equipment.
Present device is simple in structure, easy to use, this equipment collects the hydrogen generated after electrolysis water using semi-automatic formula
Gas and oxygen effectively increase the efficiency of equipment.
The above, the specific embodiment only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Claims (6)
1. a kind of water-electrolytic hydrogen making equipment, including reaction unit, oxygen collecting device and Hydrogen collection device, the reaction dress
It puts including being provided with decomposition chamber in the babinet A, the babinet A that are fixedly arranged on stent, connection setting in the decomposition chamber lower end wall
There is bifurcated pipe, the bifurcated pipe or so end face to be provided with and communicated with valve A, the valve A end face outsides are provided with and communicated with pipeline A,
The decomposition chamber lower end wall is symmetrical to be installed with sensor, and described decompose is installed with adding in the babinet A above chamber
Hot chamber, the heating chamber are installed with several heating tubes between end wall up and down, and babinet A upper surfaces boss position thread fitting connects
It connects and is provided with latch segment A and latch segment B, the latch segment A upper surfaces bolt mating connection is provided with cover board B, the latch segment B
Upper surface bolt mating connection is provided in cover board C, the latch segment A to be installed with and stretches into the decomposition chamber and upwardly extend out
The conductive column A in portion space, the conductive column A outer surfaces are installed with insulation sleeve A with the latch segment A and cover board the B position contacted,
The conductive column A upper surfaces are installed in circuit A, the latch segment A to be installed with and stretch into the decomposition chamber and upwardly extend out
The conductive column A in portion space, the conductive column A outer surfaces are installed with insulation sleeve A with the latch segment A and cover board the B position contacted,
The conductive column A upper surfaces are installed in circuit A, the latch segment B to be installed with and stretch into the decomposition chamber and upwardly extend out
The conductive column B in portion space, the conductive column B outer surfaces are installed with insulation sleeve with the latch segment B and cover board the C position contacted,
The conductive column B upper surfaces are installed with circuit B, and pipeline F, the pipeline F left ends are provided with and communicated in the decomposition chamber left end wall
Face is provided with and communicated with valve D, and the valve D left sides are provided with and communicated with discharge pipe, are provided on the left of the discharge pipe positioned at outer
The drying box in portion space is provided with drying chamber in the drying box, and the pipeline D is through the drying box and stretches into the drying
Intracavitary is hingedly equipped with cover board D between the drying chamber left and right sides end wall, is provided with and communicated with to the left in the drying chamber left end wall
The pipeline E of extension, the pipeline E left sides are provided with and communicated with valve B, and the valve B left sides are provided with and communicated with pipeline D, institute
It states Hydrogen collection device and includes the transmission case for being fixedly arranged on truss, opening is provided in the transmission case towards left atrium, it is described
Atrium is provided in atrium right end wall, cylinder, the push rod lower face of the cylinder are installed in the atrium upper end wall
Fixed block is installed with, the fixed block front end face is installed with the swan neck extended to the left, the swan neck right side connection setting
There is the pipeline D for running through the atrium and being connected with the valve B, the swan neck lower left is provided with truss, the truss
Right side is installed with electromagnetism guide rail, and the electromagnetism guide rail right side is slidably provided with electromagnetism sliding block A, the electromagnetism sliding block A
Right side is installed in babinet B, the babinet B and is provided with collecting chamber, and pipeline B is provided with and communicated in the collecting chamber lower end wall,
The pipeline B lower faces are provided with and communicated with valve C, and the valve C lower faces are provided with and communicated with pipeline C, the pipeline C outer surfaces
Socket is provided with collection air bag, the babinet B upper surfaces be provided with it is opposite with the swan neck bending part and with the collection
The sealing valve A of chamber connection, described decompose are provided with and communicated with the connecting leg extended to the right in chamber right end wall, the connecting leg right side connection
Valve E is provided with, the valve E right sides are provided with and communicated with pipeline G, and the oxygen collecting device includes being set to the pipeline
It is provided in babinet C, the babinet C below G and holds chamber, the babinet C upper surfaces are installed with holds what chamber connected with described
Sealing valve B, described hold are installed with below chamber positioned at the interior water containing chamber, it is described hold chamber lower end wall and be provided with and communicated with stretch into
The siphunculus of the water containing chamber, the siphunculus lower face are provided with and communicated with valve F, and the valve F lower faces are provided with and communicated with pipeline
H, the water containing chamber lower end wall are provided with and communicated with aqueduct, and the aqueduct lower face is provided with and communicated with water check valve, the babinet C
Lower face is installed with several stabilizer blades, be provided with below the stabilizer blade with the fixed water tank in ground, be provided with opening in the water tank
Water capacity chamber upward, the lower face of the stabilizer blade offset with the water capacity chamber lower end wall.
2. a kind of water-electrolytic hydrogen making equipment as described in claim 1, it is characterised in that:The sensor includes and the decomposition
The pedestal that chamber lower end wall bolt is connected is provided with opening up heat transfer chamber, the heat transfer chamber or so end in the pedestal
Sealing plate is installed between wall, thermo-sensitive tube, the thermo-sensitive tube or so end face is provided in the heat transfer chamber and is installed with positioned at described
Spool A and spool B in pedestal, the spool A and spool B are connected with peripheral control unit.
3. a kind of water-electrolytic hydrogen making equipment as described in claim 1, it is characterised in that:The swan neck is reclinate firm
Property pipe, the pipeline D be retractable and flexible pipe.
4. a kind of water-electrolytic hydrogen making equipment as described in claim 1, it is characterised in that:Drying has been filled in the drying chamber
Agent is collected after making the hydrogen desiccation of moistening.
5. a kind of water-electrolytic hydrogen making equipment as described in claim 1, it is characterised in that:The circuit A is negative with extraneous power supply
Pole communicates, and the circuit B is communicated with the anode of extraneous power supply.
6. a kind of water-electrolytic hydrogen making equipment as described in claim 1, it is characterised in that:The water capacity chamber holds chamber and Rong Shui
Intracavitary is loaded with liquid water, and oxygen is made to squeeze out liquid after intracavitary is collected in described hold.
Priority Applications (1)
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CN201810154390.6A CN108179436A (en) | 2018-02-23 | 2018-02-23 | A kind of water-electrolytic hydrogen making equipment |
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Application Number | Priority Date | Filing Date | Title |
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CN201810154390.6A CN108179436A (en) | 2018-02-23 | 2018-02-23 | A kind of water-electrolytic hydrogen making equipment |
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CN108179436A true CN108179436A (en) | 2018-06-19 |
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CN201810154390.6A Withdrawn CN108179436A (en) | 2018-02-23 | 2018-02-23 | A kind of water-electrolytic hydrogen making equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108895745A (en) * | 2018-07-17 | 2018-11-27 | 杨浩 | A kind of refrigerator-freezer being easy to open |
CN110681176A (en) * | 2019-11-07 | 2020-01-14 | 北京中电丰业技术开发有限公司 | Electric heating type gas-liquid separator |
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WO2011066841A1 (en) * | 2009-12-01 | 2011-06-09 | Neubert, Susanne | Process and apparatus for producing hydrogen by means of electrolysis |
CN104294309A (en) * | 2014-11-10 | 2015-01-21 | 刘枫 | Oxy-hydrogen mixed gas integrated generating device |
CN106119885A (en) * | 2016-07-26 | 2016-11-16 | 扬州中电制氢设备有限公司 | A kind of aqueous slkali electrolysis hydrogen production device and hydrogen production process |
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2018
- 2018-02-23 CN CN201810154390.6A patent/CN108179436A/en not_active Withdrawn
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011066841A1 (en) * | 2009-12-01 | 2011-06-09 | Neubert, Susanne | Process and apparatus for producing hydrogen by means of electrolysis |
CN104294309A (en) * | 2014-11-10 | 2015-01-21 | 刘枫 | Oxy-hydrogen mixed gas integrated generating device |
CN106119885A (en) * | 2016-07-26 | 2016-11-16 | 扬州中电制氢设备有限公司 | A kind of aqueous slkali electrolysis hydrogen production device and hydrogen production process |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108895745A (en) * | 2018-07-17 | 2018-11-27 | 杨浩 | A kind of refrigerator-freezer being easy to open |
CN110681176A (en) * | 2019-11-07 | 2020-01-14 | 北京中电丰业技术开发有限公司 | Electric heating type gas-liquid separator |
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Application publication date: 20180619 |