CN211814657U - Proton membrane electrolysis water hydrogen and oxygen mixing adjustable device for oxyhydrogen machine - Google Patents

Proton membrane electrolysis water hydrogen and oxygen mixing adjustable device for oxyhydrogen machine Download PDF

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Publication number
CN211814657U
CN211814657U CN202020334350.2U CN202020334350U CN211814657U CN 211814657 U CN211814657 U CN 211814657U CN 202020334350 U CN202020334350 U CN 202020334350U CN 211814657 U CN211814657 U CN 211814657U
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water
gas
hydrogen
oxygen
shell
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朱读全
吴贞星
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Yishengrui Shanghai Biotechnology Co ltd
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Yishengrui Shanghai Biotechnology Co ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/30Hydrogen technology
    • Y02E60/36Hydrogen production from non-carbon containing sources, e.g. by water electrolysis

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Abstract

The utility model discloses a proton membrane electrolysis water hydrogen and oxygen mixing adjustable device for oxyhydrogen machine, which comprises a shell, an air-water circulation integrated device, an electrolytic bath, a heat dissipation system and a master control; the front end of the shell is provided with a detachable humidifying cup, the side surface of the shell is provided with a heat dissipation window, and the top of the shell is provided with a display screen; the gas-water circulation integrated device is arranged in the shell and comprises a purification system, a pure water tank, a water quality sensor TDS, an electromagnetic valve, a water level sensor and a gas-water separator group; the heat dissipation system comprises a built-in intelligent double fan and a heat dissipation metal bottom plate; the main control is a functional core circuit program and is respectively connected with the water quality sensor TDS, the water pump, the water level sensor, the two-way electromagnetic valve, the pressure monitoring A, the pressure monitoring B and the intelligent double fans. The utility model discloses improved manufacturing cost greatly, saved the space volume, avoided the complicated technology of manufacturing, reduced the crisscross seepage trouble that probably takes place in gas circuit water route.

Description

Proton membrane electrolysis water hydrogen and oxygen mixing adjustable device for oxyhydrogen machine
Technical Field
The utility model belongs to the technical field of oxyhydrogen machine, concretely relates to oxyhydrogen machine proton membrane electrolysis water hydrogen manufacturing and oxygen mix adjustable device.
Background
Hydrogen is receiving increasing attention as a new medical gas because it is a selective scavenger of toxic reactive oxygen radicals in humans, which are associated with the development and progression of many pathological conditions, including cancer. In recent years, a great deal of research has been conducted on hydrogen and the human internal environment, cytology, genetics, signal transmission, disease models, human diseases, treatment-related pathologies, and pathophysiology, and hydrogen molecular biology and hydrogen medicine have been established therefor.
The hydrogen is the gas with the lightest mass and the smallest molecules in the atmosphere, and due to the special physical characteristics of the hydrogen, the hydrogen is inhaled, so that the flow velocity resistance of the gas in the bronchial tree can be reduced, the utilization rate of the oxygen is improved, the airway resistance is reduced, the symptom of dyspnea is relieved, and the oxygen dispersion can be increased by the oxygen in the mixed gas, so that the hydrogen can be used for the management auxiliary treatment of some chronic diseases.
At present, the preparation of hydrogen and oxygen by water electrolysis is one of the widely applied and mature methods. The solid polymer electrolyte electrolytic bath is also called as a proton exchange membrane water electrolysis hydrogen and oxygen production technology: the high-purity gas has the advantages of high current density and current efficiency, good mechanical strength and chemical stability, small ohmic loss, high gas purity, safety, reliability and no pollution.
Water for preparing hydrogen and oxygen by decomposing hydrogen product in industry is decomposed into H through anode chamber of electrolytic cell+And OH-Then, H+Penetrate through the proton membrane electrode to the cathode side to obtain electrons, and then are reduced into hydrogen and OH-Oxygen is generated after oxidation in the anode chamber.
The traditional electrolytic water production device and the product have more defects as follows:
1-more parts, complicated structure, staggered air and water paths, and serious influence on the mass production of products and leakage faults of the air and water paths.
2-the requirement on the electrolysis water is very high (pure water with the resistivity of more than 1M omega is required), the accuracy of water quality detection has larger error, and the cost of the device is higher;
3-due to the particularity of the product structure, hydrogen enters the gas-water separation for reservation, more oxygen directly enters the water tank along with the waterway, and the oxygen is discharged through an external oxygen ventilation window of the water tank and is not utilized, so that the resource waste exists, and the oxygen is a substance on which people live;
4-the water level monitoring mode of the water tank is more in electrode point contact type monitoring, and the electrode point is in long-term contact with the water body, so that the water body is polluted, and the service life of the water proton membrane electrolytic cell is further influenced to generate faults;
5-hydrogen or oxygen generated after water electrolysis by the electrolysis device has higher temperature and is relatively dry, so that the use comfort is poor, and whether gas is generated or not is difficult to observe in the use process;
the efficiency and hydrogen flow of the 6-water electrolysis device have certain requirements, and the hydrogen absorption product belongs to high current operation, so that heating and radiating devices in the machine need to be considered in a key way, the running time period exists, the product performance is not monitored in place, the service life of the product is greatly influenced, and the like, so that the known electrolysis device is inconvenient to use.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a proton membrane electrolysis water system hydrogen and oxygen for oxyhydrogen machine, promote safe operation monitoring and gas water circulation integral type and supply in respiratory hydrogen and the mixed adjustable device of oxygen to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a proton membrane electrolysis water hydrogen making and oxygen mix adjustable device for oxyhydrogen machine, its structural feature lies in: comprises a shell 28, a gas-water circulation integrated device, an electrolytic cell 1, a heat dissipation system 18 and a main control 14;
the humidifying cup is characterized in that a detachable humidifying cup 10 is arranged at the front end of the shell 28, a heat dissipation window 37 is formed in the side face of the shell 28, a display screen 39 is arranged at the top of the shell 28, the humidifying cup 10 consists of a humidifying cup base 42, a humidifying cup body 49, an upper cover, a filter element, an air outlet and a lamp strip, and a hydrogen interface 47 and an oxygen interface 48 are arranged on the humidifying cup body 4;
the gas-water circulation integrated device is arranged in the shell 28 and comprises a purification system 3, a pure water tank 2, a water quality sensor TDS 6, an electromagnetic valve 13, a water level sensor 12 and a gas-water separator group 7; the purification system 3 comprises a water pump 4, a cation resin filter element 5 and a waterway pipeline 26 which are connected in sequence, the pure water tank 2 is used for containing pure water required by the electrolytic tank 1, the bottom of the pure water tank 2 is provided with a waterway interface I25 and a waterway interface II 27, the waterway interface I25 is coupled with a quick tee, one joint of the quick tee is connected with a water inlet of the electrolytic tank 1 through the waterway pipeline 26, the other joint of the quick tee is directly inserted into the water quality sensor TDS 6, the waterway interface II 27 is coupled with the quick tee, one joint of the quick tee is connected with a water pipe extending out of the shell 28 through an electromagnetic valve 13, and the other joint of the quick tee is connected with the water pump 4; the water level sensor 12 is arranged on the outer wall of the pure water tank 2; the gas-water separator group 7 is arranged in the pure water tank 2, the gas-water separator group 7 comprises a gas-water separator A for hydrogen separation and a gas-water separator B for oxygen separation, the structure of the gas-water separator A is consistent with that of the gas-water separator B, the gas-water separator A is a sealed tank body consisting of an upper cover 31, an air inlet 29, an air outlet 30, a base 32 and a built-in floating platform 33, wherein the bottom of the base 32 is provided with a drain hole 34, a drain limit floating platform 35 and a fastener 40, and the air inlet 29 of the upper cover 31 is provided with a two-way electromagnetic valve 17, one end of the air outlet 30 of the gas-water separator A is provided with a pressure monitoring A9, one end of the air outlet 30 of the gas-water separator B is provided with a pressure monitoring B8, the pressure monitoring A9 is connected with the hydrogen interface 47 through the hydrogen gas path 45, and the pressure monitoring B8 is connected with the oxygen interface 48 through the oxygen gas path 46;
the electrolytic cell 1 is arranged in the shell 28, the electrolytic cell 1 is connected with an electrolytic cell power supply 15, and a hydrogen outlet of the electrolytic cell 1 is coupled with an air inlet 29 of the gas-water separator A; the oxygen outlet of the electrolytic cell is coupled with the air inlet of the gas-water separator B;
the heat dissipation system 18 comprises a built-in intelligent double fan 36 and a heat dissipation metal bottom plate 38;
the main control 14 be function core circuit program, wherein the main control 14 is connected with power 16, and the main control is connected with water quality sensor TDS 6, water pump 4, level sensor 12, two-way solenoid valve 17, pressure monitoring A9, pressure monitoring B8, intelligent double fan 36 respectively.
Preferably, two sets of universal wheels 51 are mounted below the housing 28, and an armrest 50 is provided on the top of the housing 28.
Preferably, the electrolytic cell 1 is a proton membrane electrolytic cell.
Preferably, the water level sensor 12 is a non-contact monitoring device.
Preferably, the humidification cup 10 is provided with an outer air outlet 41 and is provided for the user through the oxyhydrogen suction pipe 11 connected to the outer air outlet 41.
Preferably, the housing 28 is provided with a flow monitoring module 19, a temperature sensing probe 20, an anti-tip sensor 21, a timing module 22, and a bluetooth and WIFI module 23 connected to the main control 14.
Preferably, the master control 14 includes a device display 39, a monitor display, and function buttons.
Compared with the prior art, the utility model adopts the method of producing hydrogen and oxygen by electrolyzing water through the proton membrane, integrates and adds other functional modes of products by utilizing the integral main structure of air-water circulation, greatly improves the production cost, saves the space volume, avoids the complex process of production and manufacture, and reduces the possible leakage faults of the staggered gas circuit and water circuit, etc.; the device is additionally provided with hydrogen and oxygen sharing, and the breathing can be performed by randomly adjusting and selecting hydrogen, oxygen or mixed gas of hydrogen and oxygen, so as to further meet the requirements of different users; secondly satisfy the user and can inhale hydrogen for a long time, equipment constantly electrolyzes water and produces the condition that hydrogen supplied to breathe and uses, has designed cooling system in order to inhale hydrogen for a long time to hydrogen generating device increase, and unique heat abstractor adopts intelligent double fan: the air cooling heat extraction and water cooling circulation mode improves the efficiency of the electrolytic cell and reduces the heat effect influence of the electrolytic cell; a humidifying cup (oxyhydrogen observation window) is additionally designed for filtering oxyhydrogen and moistening gas, so that the problem of respiratory dryness is solved, the respiratory comfort of a human body is greatly improved, and meanwhile, a user can see the size of the oxyhydrogen bubbles through the oxyhydrogen observation window and can timely confirm the normal operation prejudgment of equipment; in addition, a proton membrane electrolytic water purification system is added to the device, the water quality requirement is ensured, and a high-standard monitoring function is established by increasing an electrolytic cell which is a core component of the lifting device: the system comprises an Internet of things module for flow monitoring, non-contact water level monitoring, temperature monitoring, anti-toppling monitoring, accumulated running time and Bluetooth and WIFI; the complete operation monitoring scheme meets the hydrogen absorption and oxygen absorption requirements of different modes.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic structural diagram I of the gas-water circulation integrated device of the present invention;
FIG. 3 is a schematic structural view II of the gas-water circulation integrated device of the present invention;
FIG. 4 is a schematic view of the overall structure of the gas-water separator set of the present invention;
FIG. 5 is a schematic view of the gas-water separator set according to the present invention;
FIG. 6 is a schematic view of the internal structure of the gas-water separator set of the present invention;
FIG. 7 is a schematic view of the overall structure of the humidifying cup of the present invention;
FIG. 8 is a schematic view of the humidifying cup according to the present invention;
FIG. 9 is a schematic view of the internal structure of the humidifying cup of the present invention;
fig. 10 is a schematic structural view of the heat dissipation system of the present invention;
fig. 11 is a schematic diagram of the overall functional flow structure of the present invention;
in the figure: 1-an electrolytic cell, 2-a pure water tank, 3-a purification system, 4-a water pump, 5-a cation resin filter element, 6-a water quality sensor TDS, 7-a gas-water separator group, 8-a pressure monitoring B, 9-a pressure monitoring A, 10-a humidifying cup, 11-an oxygen absorption pipe, 12-a water level sensor, 13-an electromagnetic valve, 14-a main control, 15-an electrolytic cell power supply, 16-a power supply, 17-a two-way electromagnetic valve, 18-a heat dissipation system, 19-a flow monitoring module, 20-a temperature sensing probe, 21-an anti-overturning sensor, 22-a timing module, 23-a Bluetooth module, a WIFI module, 24-a gas path pipeline, 25-a first water path interface, 26-a water path pipeline, 27-a second water path interface and 28-a shell, 29-an air inlet, 30-an air outlet, 31-an upper cover, 32-a base, 33-a built-in floating platform, 34-a drain hole, 35-a drainage limiting floating platform, 36-an intelligent double fan, 37-a heat dissipation window, 38-a heat dissipation metal bottom plate, 39-a display screen, 40-a fastener, 41-an outer air outlet, 42-a humidifying cup base, 45-a hydrogen gas circuit, 46-an oxygen gas circuit, 47-a hydrogen gas interface, 48-an oxygen gas interface, 49-a humidifying cup body, 50-an armrest and 51-a universal wheel.
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.
In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
Referring to fig. 1-11, the present invention provides a technical solution, a proton membrane electrolysis water hydrogen and oxygen mixing adjustable device for oxyhydrogen machine, comprising a housing 28, a gas-water circulation integrated device, an electrolytic cell 1, a heat dissipation system 18 and a main control 14;
the humidifying cup is characterized in that a detachable humidifying cup 10 is arranged at the front end of the shell 28, a heat dissipation window 37 is formed in the side face of the shell 28, a display screen 39 is arranged at the top of the shell 28, the humidifying cup 10 consists of a humidifying cup base 42, a humidifying cup body 49, an upper cover, a filter element, an air outlet and a lamp strip, and a hydrogen interface 47 and an oxygen interface 48 are arranged on the humidifying cup body 4;
the gas-water circulation integrated device is arranged in the shell 28 and comprises a purification system 3, a pure water tank 2, a water quality sensor TDS 6, an electromagnetic valve 13, a water level sensor 12 and a gas-water separator group 7; the purification system 3 comprises a water pump 4, a cation resin filter element 5 and a waterway pipeline 26 which are connected in sequence, the pure water tank 2 is used for containing pure water required by the electrolytic tank 1, the bottom of the pure water tank 2 is provided with a waterway interface I25 and a waterway interface II 27, the waterway interface I25 is coupled with a quick tee, one joint of the quick tee is connected with a water inlet of the electrolytic tank 1 through the waterway pipeline 26, the other joint of the quick tee is directly inserted into the water quality sensor TDS 6, the waterway interface II 27 is coupled with the quick tee, one joint of the quick tee is connected with a water pipe extending out of the shell 28 through an electromagnetic valve 13, and the other joint of the quick tee is connected with the water pump 4; the water level sensor 12 is arranged on the outer wall of the pure water tank 2; the gas-water separator group 7 is arranged in the pure water tank 2, the gas-water separator group 7 comprises a gas-water separator A for hydrogen separation and a gas-water separator B for oxygen separation, the structure of the gas-water separator A is consistent with that of the gas-water separator B, the gas-water separator A is a sealed tank body consisting of an upper cover 31, an air inlet 29, an air outlet 30, a base 32 and a built-in floating platform 33, wherein the bottom of the base 32 is provided with a drain hole 34, a drain limit floating platform 35 and a fastener 40, and the air inlet 29 of the upper cover 31 is provided with a two-way electromagnetic valve 17, one end of the air outlet 30 of the gas-water separator A is provided with a pressure monitoring A9, one end of the air outlet 30 of the gas-water separator B is provided with a pressure monitoring B8, the pressure monitoring A9 is connected with the hydrogen interface 47 through the hydrogen gas path 45, and the pressure monitoring B8 is connected with the oxygen interface 48 through the oxygen gas path 46;
the electrolytic cell 1 is arranged in the shell 28, the electrolytic cell 1 is connected with an electrolytic cell power supply 15, and a hydrogen outlet of the electrolytic cell 1 is coupled with an air inlet 29 of the gas-water separator A; the oxygen outlet of the electrolytic cell is coupled with the air inlet of the gas-water separator B;
the heat dissipation system 18 comprises a built-in intelligent double fan 36 and a heat dissipation metal base plate 38, and adopts air cooling to dissipate heat, and the heat is discharged through a device heat dissipation window 37 and the heat dissipation metal base plate 38; air cooling increases waterway circulation to reduce heat, and water cooling circulation is formed; the part is furnished with silica gel hose and metal capillary, and the wind channel structure trend in the device is reasonable in design, greatly reduced device in the heat that high current operation in-process produced. (ii) a
The main control 14 be function core circuit program, wherein the main control 14 is connected with power 16, and the main control is connected with water quality sensor TDS 6, water pump 4, level sensor 12, two-way solenoid valve 17, pressure monitoring A9, pressure monitoring B8, intelligent double fan 36 respectively.
In this embodiment, two sets of universal wheels 51 are installed below the housing 28, and an armrest 50 is disposed on the top of the housing 28. The handrail 50, the two groups of universal wheels 51 and the universal wheels are additionally designed, so that the locking can be realized, the inclination sliding can be prevented, and the convenience of a user in the carrying and moving process is improved.
In the present embodiment, the electrolytic cell 1 is a proton membrane electrolytic cell.
In the present embodiment, the water level sensor 12 is a non-contact monitoring device.
In the embodiment, the humidifying cup 10 is provided with an outer air outlet 41, and is used by a user through the oxyhydrogen absorption pipe 11 connected with the outer air outlet 41.
In this embodiment, the housing 28 is provided with a flow monitoring module 19, a temperature sensing probe 20, an anti-tip sensor 21, a timing module 22, and a bluetooth module 23, which are connected to the main control 14. The flow monitoring module 19 is connected with the main control 14 by measuring the voltage and the current of the electrolytic bath, and monitors and displays the hydrogen flow and the oxygen flow; temperature sensing probes 20 are fixed on two side walls of the electrolytic cell 1, are connected with the main control 14, and monitor and display the current operating temperature value; an anti-toppling sensor 21 is fixed on the side edge of the shell 28 and is connected with the main control 14, when the equipment is inclined for more than 45 degrees, the electrolytic tank 1 stops running, and sound and light warning is given out; the timing module 22 is connected with the main control 14, and the running of the equipment records all accumulated time; bluetooth, WIFI module 23 are located the main control 14 position, connect main control 14, mainly used connecting network and terminal APP, thing networking data transmission such as control and monitoring of being convenient for.
In this embodiment, the main control 14 includes a device display screen 39, a monitor display, and function keys.
The main principle of the gas-water separator A is that the electrolytic tank 1 electrolyzes hydrogen with water by utilizing the gravity of a floating platform 33 in the tank body to well separate the water from the gas, and a bottom drain hole 34 is used for sending the water separated by the gas circuit to the pure water tank 2; the drainage limit floating platform 35 is used for preventing the water in the pure water tank 2 from overflowing into the gas-water separator 7 to cause faults, and simultaneously forms double guarantee with the water level monitoring 12; the gas-water separator B mainly utilizes the gravity of a floating platform 33 in the tank body, oxygen with water is electrolyzed by the electrolytic tank 2, the water is well separated from the gas, and meanwhile, a two-way electromagnetic valve 17 is arranged at a gas inlet 29 of the upper cover 31; the hydrogen and oxygen mixing adjustable device is connected with the main control 14 through the gas-water separator B and the two-way electromagnetic valve 17, the flow direction of the output of oxygen can be completed by controlling the on-off of the two-way electromagnetic valve 17 through a program, and the proton membrane electrolytic cell 1 can be informed of the flow values of the output hydrogen and oxygen through program control.
Humidification cup 10 (oxyhydrogen observation window): the humidifying cup body 49 is internally provided with limited pure water, and the pure water is used for directly entering the humidifying cup 10 for filtering and humidifying through the hydrogen gas circuit 45 and the oxygen gas circuit 46 for mixing after the hydrogen and the oxygen which are sent to the humidifying cup 49 pass through the gas-water separator group 7, so as to be suitable for the breathing of a human body.
The working principle is as follows:
connecting a power supply 16, turning on a power switch, adding distilled water or pure water into a water filling port of the pure water tank 2, and when the water filling reaches a specified water full position, the device can timely report that the water is full;
clicking a start button, enabling water in the pure water tank 2 to pass through a water quality sensor TDS 6, enabling the water quality sensor 6 to monitor the water, setting the TDS value to be less than or equal to 10, enabling the monitored water meeting the requirements to enter the proton membrane electrolytic cell 1, and enabling the electrolytic cell 1 to start electrolysis for producing hydrogen and oxygen;
meanwhile, the purification system 3 is started, the water pump 4 pumps and presses the water in the pure water tank to pass through the cationic resin filter element 5, the water quality can be softened by filtration, and water scale and alkali are removed to remove hardness, and pollutants and bacteria possibly existing; the filter element can be replaced according to the service cycle;
the electrolytic bath 1 electrolyzes hydrogen and oxygen with water, wherein the hydrogen is coupled to a gas-water separator group A through a gas circuit to carry out gas-water separation; wherein the hydrogen concentration is more than 99.9%, the flow can be controlled to different flow: 2000mL/min, 1200mL/min, 600 mL/min; wherein oxygen connects to gas-water separator group B through the gas circuit coupling, carries out gas-water separation, different flow: 1000mL/min, 600mL/min, 400mL/min, 200 mL/min;
hydrogen and oxygen passing through the gas-water separator are subjected to independent gas circuit pressure monitoring 8 and 9, a main control 14 display screen displays 39, the pressure value range is 0-50 kPa, the normal pressure value range indicates that the device is normal, and the phenomenon of internal failure of equipment or gas blockage in the using process does not exist;
further hydrogen and oxygen are sent to the humidifying cup 10 through the gas circuit and directly enter the humidifying cup 10 to be filtered and humidified for mixing so as to adapt to the breathing of the human body; meanwhile, a user can see the size of the oxyhydrogen bubbles through the humidifying cup 10 (oxyhydrogen observation window) and can timely confirm the normal operation prejudgment of the equipment;
wherein pressing the "mode" button: for the first time, a single hydrogen production mode is selected, the device two-way electromagnetic valve 17 is opened, and oxygen directly enters the water tank 2 and is discharged; pressing the second mode, selecting the hydrogen-oxygen mode at present, and setting keys in a circulating way;
wherein, pressing the 'flow' button, selecting different flow modes set by the device: 3000mL/min, 1800mL/min, 600mL/min, 300 mL/min;
wherein, pressing the 'time' key, pressing the key, setting the timing time, directly and circularly switching in 1-8 hours, stepping for 1h, and simultaneously matching with a voice prompt function;
the voice prompt method comprises the steps that a language key is pressed, the key is pressed, switching is carried out between voice opening and voice closing, a display screen corresponding to a voice icon can be lightened and extinguished, the display screen is lightened to be in a voice opening state, and meanwhile, a voice prompt function is achieved. (ii) a
Wherein pressing the "clean" button, pressing this button, for the first time: voice broadcasting: "flushing function", second time: voice broadcasting: before opening, please open first, host computer "outlet" hole stopper ", the third time: voice broadcasting: "please confirm whether the host drain hole plug is opened", fourth: voice broadcasting: when the flushing is started, the equipment opens a drainage valve to start cleaning and drainage, and simultaneously, a flushing drainage icon of the display screen is flashing; fifth step: voice broadcasting: "flush off";
the operation is described as follows:
the product is operated in a countdown mode, if the set time is 2:00 hours, the product is automatically decremented every 1min until the countdown operation is finished, the equipment automatically stops operating, and the system can be restored to the initial default state.
In the operation process, the keys with the functions of mode, timing time and voice can be set, and the equipment does not stop
and a, pressing a 'cleaning' key in the operation process, wherein the voice prompts 'please stop operation firstly', and only when the equipment stops operating, the 'flushing and draining' function can be started.
And b, when the washing and draining function is started, the mode, the timing and the voice key setting function are normal, if the start key is pressed at the moment, the voice prompt of closing the flushing function firstly is given, and the hydrogen production function can be started only when the flushing and draining function of the equipment is closed.
c when the product is continuously used for 2 hours or more in the process of using the product, the system can give out voice prompt and warm prompt when the continuous operation is increased by 1 hour, you have continuously operated for 2 hours (maximum 8 hours), do not sit for a long time and properly move for benefiting health!
d is at the operation process, and when bluetooth, WIFI module 23 connected, the system can report "the bluetooth has connected", "the bluetooth has disconnected" etc..
And e, when the equipment detects a fault, the machine stops running, the display screen displays a corresponding fault code at regular time, the fault icon corresponding to the display screen can flash, and a buzzer and a voice broadcast prompt function are provided.
The utility model adopts the method of producing hydrogen and oxygen by electrolyzing water through the proton membrane, integrates and adds other functional modes of products by utilizing the gas-water circulation integrated main structure, greatly improves the production cost, saves the space volume, avoids the complex process of production and manufacture, and reduces the leakage faults and the like which can occur by the staggering of gas circuits and water paths; the device is additionally provided with hydrogen and oxygen sharing, and the breathing can be performed by randomly adjusting and selecting hydrogen, oxygen or mixed gas of hydrogen and oxygen, so as to further meet the requirements of different users; secondly satisfy the user and can inhale hydrogen for a long time, equipment constantly electrolyzes water and produces the condition that hydrogen supplied to breathe and uses, has designed cooling system in order to inhale hydrogen for a long time to hydrogen generating device increase, and unique heat abstractor adopts intelligent double fan: the air cooling heat extraction and water cooling circulation mode improves the efficiency of the electrolytic cell and reduces the heat effect influence of the electrolytic cell; a humidifying cup (oxyhydrogen observation window) is additionally designed for filtering oxyhydrogen and moistening gas, so that the problem of respiratory dryness is solved, the respiratory comfort of a human body is greatly improved, and meanwhile, a user can see the size of the oxyhydrogen bubbles through the oxyhydrogen observation window and can timely confirm the normal operation prejudgment of equipment; in addition, a proton membrane electrolytic water purification system is added to the device, the water quality requirement is ensured, and a high-standard monitoring function is established by increasing an electrolytic cell which is a core component of the lifting device: the system comprises an Internet of things module for flow monitoring, non-contact water level monitoring, temperature monitoring, anti-toppling monitoring, accumulated running time and Bluetooth and WIFI; the complete operation monitoring scheme meets the hydrogen absorption and oxygen absorption requirements of different modes.
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a proton membrane electrolysis water hydrogen and oxygen mix adjustable device for oxyhydrogen machine which characterized in that: comprises a shell, a gas-water circulation integrated device, an electrolytic cell, a heat dissipation system and a master control;
the humidifying cup is composed of a humidifying cup base, a humidifying cup body, an upper cover, a filter element, an air outlet and a lamp belt, and is provided with a hydrogen interface and an oxygen interface;
the gas-water circulation integrated device is arranged in the shell and comprises a purification system, a pure water tank, a water quality sensor TDS, an electromagnetic valve, a water level sensor and a gas-water separator group; the purification system comprises a water pump, a cationic resin filter element and a waterway pipeline which are connected in sequence, the pure water tank is used for containing pure water required by the electrolytic cell, the bottom of the pure water tank is provided with a waterway interface I and a waterway interface II, the waterway interface I is coupled with a shortcut tee joint, one joint of the shortcut tee joint is connected with a water inlet of the electrolytic cell through the waterway pipeline, the other joint of the shortcut tee joint is directly inserted into the TDS of the water quality sensor, the waterway interface II is coupled with the shortcut tee joint, one joint of the shortcut tee joint is connected with a water pipe extending out of the shell through an electromagnetic valve, and the other joint of the shortcut tee joint is connected with the water pump; the water level sensor is arranged on the outer wall of the pure water tank; the gas-water separator group is arranged in a pure water tank and comprises a gas-water separator A for hydrogen separation and a gas-water separator B for oxygen separation, the structures of the gas-water separator A and the gas-water separator B are consistent, the gas-water separator A is a sealed tank body consisting of an upper cover, a gas inlet, a gas outlet, a base and a built-in floating platform, a drain hole, a drainage limiting floating platform and a fastener are arranged at the bottom of the base, a two-way electromagnetic valve is arranged at the gas inlet of the upper cover, a pressure monitoring A is arranged at one end of the gas outlet of the gas-water separator A, a pressure monitoring B is arranged at one end of the gas outlet of the gas-water separator B, the pressure monitoring A is connected with a hydrogen interface through a hydrogen gas path, and the pressure monitoring B is connected with an oxygen interface through an oxygen;
the electrolytic cell is arranged in the shell and is connected with an electrolytic cell power supply, and a hydrogen outlet of the electrolytic cell is coupled with an air inlet of the gas-water separator A; the oxygen outlet of the electrolytic cell is coupled with the air inlet of the gas-water separator B;
the heat dissipation system comprises a built-in intelligent double fan and a heat dissipation metal bottom plate;
the master control be function core circuit program, wherein the power is connected to the master control, and the master control is connected with water quality sensor TDS, water pump, level sensor, bi-pass solenoid valve, pressure monitoring A, pressure monitoring B, intelligent double fan respectively, the master control contain device display screen, monitoring show, function button.
2. The adjustable device for mixing hydrogen and oxygen produced by water electrolysis of proton membrane for oxyhydrogen machine according to claim 1, characterized in that: two groups of universal wheels are installed below the shell, and handrails are arranged at the top of the shell.
3. The adjustable device for mixing hydrogen and oxygen produced by water electrolysis of proton membrane for oxyhydrogen machine according to claim 1, characterized in that: the electrolytic cell is a proton membrane electrolytic cell.
4. The adjustable device for mixing hydrogen and oxygen produced by water electrolysis of proton membrane for oxyhydrogen machine according to claim 1, characterized in that: the water level sensor is a non-contact monitoring device.
5. The adjustable device for mixing hydrogen and oxygen produced by water electrolysis of proton membrane for oxyhydrogen machine according to claim 1, characterized in that: the humidifying cup is provided with an outer gas outlet and is used by a user through a hydrogen and oxygen absorption pipe connected with the outer gas outlet.
6. The adjustable device for mixing hydrogen and oxygen produced by water electrolysis of proton membrane for oxyhydrogen machine according to claim 1, characterized in that: the shell be equipped with the flow monitoring module, the temperature sensing probe that are connected with the master control, prevent empting sensor, timing module and bluetooth, WIFI module.
CN202020334350.2U 2020-03-17 2020-03-17 Proton membrane electrolysis water hydrogen and oxygen mixing adjustable device for oxyhydrogen machine Active CN211814657U (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113088994A (en) * 2021-05-10 2021-07-09 泰好康电子科技(福建)有限公司 High-safety water electrolysis hydrogen production system
CN113416964A (en) * 2021-06-15 2021-09-21 纳诺科斯电子(北京)有限公司 Generating device for sucking oxyhydrogen gas
CN113445068A (en) * 2021-07-20 2021-09-28 氢电(杭州)科技有限公司 Water electrolysis device with purification function and water quality control method thereof
CN113604826A (en) * 2021-07-22 2021-11-05 陕西工业职业技术学院 Multifunctional hydrogen and oxygen production water machine
CN113893426A (en) * 2021-11-01 2022-01-07 佛山市益发智能科技有限公司 Original ecological negative ion hydrogen-oxygen generator
CN114000173A (en) * 2021-11-29 2022-02-01 广东氢时代健康产业科技有限公司 Large-flow oxyhydrogen machine
CN114622219A (en) * 2022-03-24 2022-06-14 阳光氢能科技有限公司 Pure water circulation system for hydrogen production device, control method of pure water circulation system and hydrogen production device
CN115433951A (en) * 2022-09-22 2022-12-06 广东骏丰频谱股份有限公司 Modularized electrolysis device
WO2023082362A1 (en) * 2021-11-13 2023-05-19 中国科学院大连化学物理研究所 Hydrogen-oxygen mixed gas preparation device capable of adjusting hydrogen content and method therefor
CN116688299A (en) * 2023-05-26 2023-09-05 绵阳等离子与智慧能源科技有限公司 Intelligent oxyhydrogen breathing machine with water magnetizing device

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113088994A (en) * 2021-05-10 2021-07-09 泰好康电子科技(福建)有限公司 High-safety water electrolysis hydrogen production system
CN113088994B (en) * 2021-05-10 2024-02-02 泰好康电子科技(福建)有限公司 High-safety water electrolysis hydrogen production system
CN113416964A (en) * 2021-06-15 2021-09-21 纳诺科斯电子(北京)有限公司 Generating device for sucking oxyhydrogen gas
CN113445068A (en) * 2021-07-20 2021-09-28 氢电(杭州)科技有限公司 Water electrolysis device with purification function and water quality control method thereof
CN113604826A (en) * 2021-07-22 2021-11-05 陕西工业职业技术学院 Multifunctional hydrogen and oxygen production water machine
CN113893426A (en) * 2021-11-01 2022-01-07 佛山市益发智能科技有限公司 Original ecological negative ion hydrogen-oxygen generator
WO2023082362A1 (en) * 2021-11-13 2023-05-19 中国科学院大连化学物理研究所 Hydrogen-oxygen mixed gas preparation device capable of adjusting hydrogen content and method therefor
CN114000173A (en) * 2021-11-29 2022-02-01 广东氢时代健康产业科技有限公司 Large-flow oxyhydrogen machine
CN114622219A (en) * 2022-03-24 2022-06-14 阳光氢能科技有限公司 Pure water circulation system for hydrogen production device, control method of pure water circulation system and hydrogen production device
CN115433951A (en) * 2022-09-22 2022-12-06 广东骏丰频谱股份有限公司 Modularized electrolysis device
CN116688299A (en) * 2023-05-26 2023-09-05 绵阳等离子与智慧能源科技有限公司 Intelligent oxyhydrogen breathing machine with water magnetizing device

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