CN216494877U - Hydrogen-rich water machine capable of absorbing hydrogen - Google Patents

Abstract

The utility model relates to a hydrogen-rich water machine capable of absorbing hydrogen, which comprises a machine body, wherein an electrolytic bath, a hydrogen production water tank and a drinking water tank are arranged in the machine body, the hydrogen production water tank is communicated with the electrolytic bath, the cathode side of the electrolytic bath is communicated with the drinking water tank, a cathode water collector and a micropore hydrogen dissolving device are communicated between the electrolytic bath and the drinking water tank, the cathode water collector and the hydrogen production water tank are communicated, the cathode water collector and the micropore hydrogen dissolving device are arranged between the cathode side of the electrolytic bath and the drinking water tank, hydrogen generated at the cathode side of the electrolytic bath is separated from water molecules through the cathode water collector, the purity of the hydrogen is improved, the micropore hydrogen dissolving device disperses the hydrogen into fine airflow to enter the drinking water tank on one hand, the high-concentration dissolution of the hydrogen in the drinking water tank is promoted, on the other hand, the air pressure generated by the micropore hydrogen dissolving device while the hydrogen is dispersed is used for sending the water molecules in the cathode water collector back to the hydrogen production tank, electrolytic water circulation is realized; meanwhile, the requirement of hydrogen absorption of a user can be met by arranging the gas outlet end on the drinking water tank.

Description

Hydrogen-rich water machine capable of absorbing hydrogen

Technical Field

The utility model relates to the technical field of hydrogen-rich water machines, in particular to a hydrogen-rich water machine capable of absorbing hydrogen.

Background

The hydrogen is used as a selective antioxidant substance, has a therapeutic effect on a plurality of diseases, and has a very wide application prospect. The human body can take hydrogen in various ways, such as respiratory intake, intravenous injection or drinking of hydrogen-rich water. Respiratory intake was the earliest studied and most effective mode; at present, the hydrogen-rich water machine in the market only has the function of producing hydrogen-rich water, but does not have the function of producing hydrogen. Meanwhile, most of the existing hydrogen-rich water machines adopt an electrolytic tank with a proton exchange membrane to prepare hydrogen, deionized water is diffused to the anode side of the proton exchange membrane through a diffusion layer, oxygen and hydrogen ions are generated by electrolysis under the action of a catalyst, the oxygen flows out of the electrolytic tank along with the deionized water which does not participate in the electrolysis, and the hydrogen ions pass through the proton exchange membrane to the cathode side and then generate the hydrogen.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problem of how to provide a hydrogen-rich water machine which has high hydrogen purity and high hydrogen-rich water quality and can absorb hydrogen.

In order to solve the problems, the utility model provides a hydrogen-rich water machine capable of absorbing hydrogen, which comprises a machine body, wherein an electrolytic bath, a hydrogen production water tank and a drinking water tank are arranged in the machine body, the drinking water tank is connected with drinking water through a pipeline, the hydrogen production water tank is connected with electrolytic bath through a pipeline, the cathode side of the electrolytic bath is connected with the drinking water tank through a pipeline, a cathode water collector and a micropore hydrogen dissolving device are sequentially connected on the pipeline between the electrolytic bath and the drinking water tank, the cathode water collector is connected with the hydrogen production water tank through a pipeline, a water outlet end and an air outlet end are arranged on the drinking water tank, the water outlet end is connected with a water outlet tap through a pipeline, and the air outlet end is connected with an air outlet valve port through a pipeline.

The utility model has the beneficial effects that: according to the hydrogen-enriched water machine, the cathode water collector and the microporous hydrogen dissolving device are arranged between the cathode side of the electrolytic cell and the drinking water tank, hydrogen produced on the cathode side of the electrolytic cell is separated from water molecules through the cathode water collector, so that the purity of the hydrogen is improved, on one hand, the microporous hydrogen dissolving device disperses the hydrogen into fine air flows to enter the drinking water tank, the high-concentration dissolution of the hydrogen in the drinking water tank is promoted, on the other hand, the air pressure produced by the microporous hydrogen dissolving device while the hydrogen is dispersed is used for sending the water molecules in the cathode water collector back to the hydrogen making water tank, and the circulation of electrolyzed water is realized; meanwhile, the requirement of hydrogen absorption of a user can be met by arranging the air outlet end on the drinking water tank.

Preferably, the machine body comprises an outer shell, a front panel and a rear panel, the hydrogen production water tank, the electrolytic cell and the drinking water tank are all located in the outer shell, the water outlet faucet and the air outlet valve port are all connected and arranged on the front panel, the drinking water tank is a transparent water tank, a transparent window is arranged on the front panel corresponding to the drinking water tank, and a user can observe the hydrogen dissolving process in the drinking water tank through the transparent window.

Preferably, a circuit board is embedded in the outer shell, a display panel is arranged on the outer shell corresponding to the upper cover of the circuit board, a power supply is arranged on the rear panel, and the power supply, the display panel and the electrolytic cell are electrically connected with the circuit board, so that a user can conveniently control the hydrogen-enriched water machine.

Preferably, the air outlet end is positioned at the upper end part of the drinking water tank, and the water outlet end is positioned at the lower end part of the drinking water tank; a first one-way valve is communicated with a pipeline between the air outlet end and the air outlet valve port, a pressure balance pipeline is connected with the pipeline between the air outlet end and the first one-way valve and communicated with the outside, and a second one-way valve is connected with the pressure balance pipeline; and a third water pump and a temperature control unit are sequentially communicated on a pipeline between the water outlet end and the water outlet faucet along the water flow direction, a first thermometer is connected on the temperature control unit, and the first check valve, the second check valve, the third water pump, the temperature control unit and the first thermometer are all electrically connected with the circuit board.

Preferably, the outlet valve port is connected with a humidification bottle through a pipeline, and the humidification bottle is used for further filtering and purifying hydrogen and improving the concentration of the hydrogen during hydrogen absorption.

Preferably, a current limiter and a brake valve are connected to a pipeline between the cathode water collector and the hydrogen production water tank, the brake valve is electrically connected with the circuit board, and the current limiter can prevent the gas cut-off phenomenon in the process of opening the brake valve.

Preferably, the upper end part of the cathode water collector is communicated with the microporous hydrogen dissolving device through a pipeline, and the lower end part of the cathode water collector is communicated with the hydrogen production water tank through a pipeline.

Preferably, a first water level meter is arranged in the drinking water tank, and a second water level meter, a second thermometer and a TDS probe are arranged in the hydrogen production water tank; the pipeline of access electrolytic water of hydrogen manufacturing water tank is put through and is had first water pump, it has connect second water pump and water inlet solenoid valve in proper order to drink on the pipeline of access drinking water of water tank, first fluviograph, second thermometer, TDS probe, first water pump, second water pump and water inlet solenoid valve all are connected with the circuit board electricity.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a waterway diagram of the present invention;

FIG. 4 is a water circuit diagram between the hydrogen production water tank, the electrolytic cell and the cathode water collector according to the present invention;

description of reference numerals:

1. a body; 1.1, an outer shell; 1.2, a front panel; 1.3, a rear panel; 2. an electrolytic cell; 3. a hydrogen production water tank; 4. a drinking water tank; 4.1, an air outlet end; 4.2, a water outlet end; 4.3, a transparent window; 5. a cathode water collector; 6. a microporous hydrogen dissolver; 7. a water outlet tap; 8. an air outlet valve port; 9. a circuit board; 10. a display panel; 11. a power source; 12. a first check valve; 13. a pressure balancing conduit; 14. a second one-way valve; 15. a third water pump; 16. a temperature control unit; 17. a first thermometer; 18. a humidification bottle; 19. a current limiter; 20. a brake valve; 21. a first water level gauge; 22. a second water gauge; 23. a second thermometer; 24. a TDS probe; 25. a first water pump; 26. a second water pump; 27. water inlet solenoid valve.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

The utility model provides a hydrogen-rich water machine that can absorb hydrogen, includes organism 1, organism 1 includes shell body 1.1, front panel 1.2 and rear panel 1.3, be equipped with electrolysis trough 2, hydrogen manufacturing water tank 3 and drinking water tank 4 in the shell body 1.1, drinking water tank 4 passes through the pipeline and inserts the drinking water, hydrogen manufacturing water tank 3 passes through the pipeline and inserts the brineelectrolysis, hydrogen manufacturing water tank 3 is used for providing the brineelectrolysis for electrolysis trough 2 through pipeline and electrolysis trough 2 switch-on, the cathode side of electrolysis trough 2 passes through the pipeline and drinks water tank 4 switch-on, it has cathode water collector 5, micropore hydrogen dissolving ware 6 to switch-on in proper order on the pipeline between electrolysis trough 2 and the drinking water tank 4, specifically, the upper end of cathode water collector 5 passes through the pipeline and micropore hydrogen dissolving ware 6 switch-on, the lower tip of cathode water collector 5 passes through hydrogen manufacturing pipeline and water tank 3 switch-on, and cathode water collector 5 separates hydrogen and water, in order to discharge water in the cathode water collector 5, the cathode water collector 5 is communicated with the hydrogen production water tank 3 through a pipeline, a current limiter 19 and a brake valve 20 are connected to the pipeline between the cathode water collector 5 and the hydrogen production water tank 3, the brake valve 20 is electrically connected with the circuit board 9, the current limiter 19 can prevent the gas cut-off phenomenon generated in the process of opening the brake valve 20, and hydrogen generated on the cathode side of the electrolytic bath 2 is separated from water molecules through the cathode water collector 5, so that the purity of the hydrogen is improved; meanwhile, after the hydrogen enters the microporous hydrogen dissolver 6, the microporous hydrogen dissolver 6 scatters the hydrogen into the drinking water tank 4 to promote the high-concentration dissolution of the hydrogen in the drinking water tank 4, and the air pressure generated by the microporous hydrogen dissolver 6 while scattering the hydrogen is used for sending the water molecules in the cathode water collector 5 back to the hydrogen production water tank 3, in the specific embodiment, the pressure of the hydrogen passing through the microporous hydrogen dissolver 6 is 0.2-0.5kg, so that the circulation of electrolyzed water is realized; after hydrogen scattered by the microporous hydrogen dissolver 6 enters the drinking water tank 4, a small part of hydrogen is dissolved with drinking water in the drinking water tank 4 to form hydrogen-rich water with the concentration of 1500ppd, and most other hydrogen exists in the drinking water tank 4, therefore, a water outlet end 4.2 and an air outlet end 4.1 are arranged on the drinking water tank 4, the air outlet end 4.1 is positioned at the upper end part of the drinking water tank 4 and is used for discharging undissolved hydrogen in the drinking water tank 4, and the water outlet end 4.2 is positioned at the lower end part of the drinking water tank 4 and is used for discharging the hydrogen-rich water at the later stage; the water outlet end 4.2 is communicated with a water outlet tap 7 through a pipeline, the gas outlet end 4.1 is communicated with a gas outlet valve port 8 through a pipeline, and the purity of hydrogen absorbed by the hydrogen is further improved; the water outlet faucet 7 and the air outlet valve port 8 are connected to the front panel 1.2, the drinking water tank 4 is a transparent water tank, a transparent window 4.3 is arranged at the position, corresponding to the drinking water tank 4, of the front panel 1.2, and a user can observe the hydrogen dissolving process in the drinking water tank 4 through the transparent window 4.3.

In addition, a circuit board 9 is embedded on the outer shell 1.1, a display panel 10 is arranged on the outer shell 1.1 corresponding to the circuit board 9, a power supply 11 is arranged on the rear panel 1.3, and the power supply 11, the display panel 10 and the electrolytic bath 2 are all electrically connected with the circuit board 9, so that a user can conveniently operate the hydrogen-enriched water machine;

meanwhile, a first one-way valve 12 is communicated with a pipeline between the air outlet end 4.1 and the air outlet valve port 8 to prevent liquid in the humidification bottle 18 from flowing back into the drinking water tank 4, a pressure balance pipeline 13 is connected with the pipeline between the air outlet end 4.1 and the first one-way valve 12, the pressure balance pipeline 13 is communicated with the outside, so that the pressure in the drinking water tank 4 can be balanced after the first one-way valve 12 is closed, hydrogen-enriched water can be conveniently discharged from the water outlet faucet 7, and a second one-way valve 14 is connected with the pressure balance pipeline 13 to prevent hydrogen from leaking from the pressure balance pipe; go up along rivers direction and connect gradually third water pump 15, temperature control unit 16 on the pipeline between water outlet 4.2 and the play tap 7, temperature control unit 16 is used for providing the hydrogen-rich water of needs temperature for the user, it has first thermometer 17 to connect on the temperature control unit 16, first check valve 12, second check valve 14, third water pump 15, temperature control unit 16, first thermometer 17 all are connected with circuit board 9 electricity.

In addition, a first water level gauge 21 is arranged in the drinking water tank 4, and a second water level gauge 22, a second thermometer 23 and a TDS probe 24 are arranged in the hydrogen production water tank 3; the switch-on has first water pump 25 on the pipeline of access brineelectrolysis of hydrogen manufacturing water tank 3, it has connect second water pump 26 and the solenoid valve 27 of intaking in proper order on the pipeline of the access drinking water of drinking water tank 4, first fluviograph 21, second fluviograph 22, second thermometer 23, TDS probe 24, first water pump 25, second water pump 26 and the solenoid valve 27 of intaking all are connected with circuit board 9 electricity.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present disclosure, and such changes and modifications will fall within the scope of the present invention.

Claims (8)

1. The hydrogen-rich water machine capable of absorbing hydrogen comprises a machine body (1) and is characterized in that an electrolytic bath (2), a hydrogen production water tank (3) and a drinking water tank (4) are arranged in the machine body (1), the drinking water tank (4) is connected into drinking water through a pipeline, the hydrogen production water tank (3) is connected into electrolyzed water through a pipeline, the hydrogen production water tank (3) is connected with the electrolytic bath (2) through a pipeline, the cathode side of the electrolytic bath (2) is connected with the drinking water tank (4) through a pipeline, a cathode water collector (5) and a micropore hydrogen dissolving device (6) are sequentially connected on the pipeline between the electrolytic bath (2) and the drinking water tank (4), the cathode water collector (5) is connected with the hydrogen production water tank (3) through a pipeline, a water outlet end (4.2) and a gas outlet end (4.1) are arranged on the drinking water tank (4), and a water outlet end (4.2) is connected with a water outlet tap (7) through a pipeline, the air outlet end (4.1) is communicated with an air outlet valve port (8) through a pipeline.

2. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 1, wherein the machine body (1) comprises an outer shell (1.1), a front panel (1.2) and a rear panel (1.3), the hydrogen production water tank (3), the electrolytic bath (2) and the drinking water tank (4) are all located in the outer shell (1.1), the water outlet tap (7) and the air outlet valve port (8) are all connected to the front panel (1.2), the drinking water tank (4) is a transparent water tank, and a transparent window (4.3) is opened on the front panel (1.2) corresponding to the drinking water tank (4).

3. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 2, wherein the outer casing (1.1) is embedded with a circuit board (9), the outer casing (1.1) is provided with a display panel (10) corresponding to the upper cover of the circuit board (9), the rear panel (1.3) is provided with a power supply (11), and the power supply (11), the display panel (10) and the electrolytic tank (2) are all electrically connected with the circuit board (9).

4. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 3, characterized in that the gas outlet end (4.1) is located at the upper end of the drinking water tank (4), and the water outlet end (4.2) is located at the lower end of the drinking water tank (4); a first one-way valve (12) is communicated with a pipeline between the air outlet end (4.1) and the air outlet valve port (8), a pressure balance pipeline (13) is connected with the pipeline between the air outlet end (4.1) and the first one-way valve (12), the pressure balance pipeline (13) is communicated with the outside, and a second one-way valve (14) is connected with the pressure balance pipeline (13); the pipeline between the water outlet end (4.2) and the water outlet tap (7) is sequentially communicated with a third water pump (15) and a temperature control unit (16) along the water flow direction, the temperature control unit (16) is connected with a first thermometer (17), and the first check valve (12), the second check valve (14), the third water pump (15), the temperature control unit (16) and the first thermometer (17) are all electrically connected with the circuit board (9).

5. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 3, characterized in that a humidification bottle (18) is connected with the outlet valve port (8) through a pipeline.

6. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 3, characterized in that a flow restrictor (19) and a brake valve (20) are connected on the pipeline between the cathode water collector (5) and the hydrogen production water tank (3), and the brake valve (20) is electrically connected with the circuit board (9).

7. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 3, characterized in that the upper end of the cathode water collector (5) is communicated with the microporous hydrogen dissolving vessel (6) through a pipeline, and the lower end of the cathode water collector (5) is communicated with the hydrogen production water tank (3) through a pipeline.

8. The hydrogen-rich water machine capable of absorbing hydrogen as claimed in claim 3, characterized in that a first water level gauge (21) is arranged in the drinking water tank (4), and a second water level gauge (22), a second temperature gauge (23) and a TDS probe (24) are arranged in the hydrogen production water tank (3); the utility model discloses a water purification device, including hydrogen manufacturing water tank (3), have put through on the pipeline of the access brineelectrolysis of water manufacturing water tank (3) and have first water pump (25), it has second water pump (26) and water inlet solenoid valve (27) to connect gradually on the pipeline of the access drinking water of drinking water tank (4), first water level gauge (21), second water level gauge (22), second thermometer (23), TDS probe (24), first water pump (25), second water pump (26) and water inlet solenoid valve (27) all are connected with circuit board (9) electricity.

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