CN217535540U - Hydrogen-rich water inhales hydrogen machine trouble early warning device - Google Patents

Abstract

The utility model relates to a hydrogen-rich water oxyhydrogen machine technical field just discloses a hydrogen-rich water hydrogen absorption machine trouble early warning device, include: the water tank is provided with a water feeding mechanism and a water discharging mechanism on the surface, and one ends of the water feeding mechanism and the water discharging mechanism are connected with the surface of the electrolytic cell body. This hydrogen-rich water hydrogen absorption machine fault early warning device, through setting up the water tank, electrolysis trough body and gas flow sensor, add water in the water tank, water gets into the electrolysis trough body through lower mouth of a river and downcomer, the electrolysis trough body is electrolyzed water, the hydrogen of electrolysis play is through hydrogen delivery outlet output, rethread air duct is with gaseous direction gas flow sensor, it is gaseous through gas flow sensor motion to gas water separator, gas flow sensor is used for monitoring the flow value of hydrogen, can in time give the feedback when hydrogen flow becomes little, avoid the user to drink the water that contains hydrogen deficiency or can not inhale the hydrogen of capacity.

Description

Hydrogen-rich water hydrogen absorption machine fault early warning device

Technical Field

The utility model relates to a hydrogen-rich water oxyhydrogen machine technical field specifically is a hydrogen-rich water hydrogen absorption machine trouble early warning device.

Background

The hydrogen absorption is to absorb high-purity hydrogen generated by water electrolysis into a human body or apply water rich in hydrogen, hydrogen production is generally carried out by a hydrogen absorption machine, the core component of the hydrogen absorption machine is an electrolytic tank which comprises a membrane electrode assembly, a current collector, a frame, a sealing gasket and the like, the membrane electrode assembly and the current collector are the core components of the electrolytic tank, water is electrically decomposed into oxygen and protons at an anode, the protons are combined with electrons from an external circuit to form hydrogen from the cathode to the anode through an electrolyte, namely a proton exchange membrane, and the hydrogen generated is introduced into the water, so that the hydrogen solubility is strong, and the water is rich in the hydrogen.

If the hydrogen production device fails in the use process of the hydrogen-rich water machine and the hydrogen absorption machine at present, such as no hydrogen is produced or the amount of produced hydrogen is insufficient, a user can hardly find that the water containing low hydrogen or no hydrogen is drunk and the gas containing no hydrogen or little hydrogen is absorbed.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model provides a hydrogen-rich water hydrogen absorption machine trouble early warning device has solved the problem mentioned in the above-mentioned background.

The utility model provides a following technical scheme: the utility model provides a hydrogen-rich water hydrogen absorption machine trouble early warning device, includes: the hydrogen-water electrolysis device comprises a water tank, an electrolysis bath body, a gas flow sensor and a gas-water separator, wherein a water feeding mechanism and a water discharging mechanism are respectively arranged on the surface of the water tank, one end of each of the water feeding mechanism and the water discharging mechanism is connected with the surface of the electrolysis bath body, and a hydrogen output mechanism is arranged on the surface of the electrolysis bath body;

the hydrogen output mechanism comprises a hydrogen output port and an air guide pipe, the hydrogen output port is arranged on the surface of the electrolytic bath body, and one end of the air guide pipe is connected with one end of the hydrogen output port;

the top of the gas-water separator is respectively provided with a gas inlet and a gas outlet, the top of the gas outlet is connected with a gas outlet pipe, the gas inlet is connected with a gas guide pipe,

the gas flow sensor is arranged on the gas guide tube or the gas outlet tube.

Preferably, the water feeding mechanism comprises a water feeding port and a water feeding pipe, the water feeding port is connected to the surface of the water tank, the water feeding pipe is connected to the bottom end of the water feeding port, and one end, far away from the water feeding port, of the water feeding pipe is installed on the surface of the electrolytic cell body.

Preferably, the drainage mechanism comprises a drainage port and a drainage pipe, the drainage port is connected to the surface of the water tank, one end of the drainage pipe is connected with the bottom end of the drainage port, and the other end of the drainage pipe is installed on the surface of the electrolytic cell body.

Preferably, a water outlet is formed in the bottom of the gas-water separator.

Preferably, the air flow sensor further comprises a display screen, and the display screen is electrically connected with the air flow sensor.

Preferably, the electrolytic cell also comprises a control panel, wherein the control panel is electrically connected with the electrolytic cell body, and the control panel is electrically connected with the airflow sensor.

Compared with the prior art, the utility model discloses possess following beneficial effect:

1. this hydrogen-rich water hydrogen absorption machine fault early warning device, through setting up the water tank, electrolysis trough body and gas flow sensor, add water in the water tank, water gets into the electrolysis trough body through lower mouth of a river and downcomer, the electrolysis trough body is electrolyzed water, the hydrogen of electrolysis play passes through hydrogen delivery outlet output, rethread air duct is with gaseous direction gas flow sensor, gas passes through gas flow sensor motion to gas water separator, gas flow sensor is used for monitoring the flow value of hydrogen, can in time give the feedback when the hydrogen flow becomes little, avoid the user to drink the water that hydrogen-containing tolerance is not enough or can not inhale the hydrogen of capacity.

2. This hydrogen-rich water hydrogen absorption machine trouble early warning device through setting up the display screen, shows the flow value that gas flow sensor will detect in real time.

Drawings

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

FIG. 2 is a schematic view of the display screen connection structure of the present invention;

fig. 3 is a schematic view of the connection structure of the control panel of the present invention.

In the figure: 1. a water tank; 2. an electrolytic cell body; 3. an airflow sensor; 4. a gas-water separator; 5. a water feeding mechanism; 51. a water feeding port; 52. a water feeding pipe; 6. a launching mechanism; 61. a water outlet; 62. a sewer pipe; 7. a hydrogen output mechanism; 71. a hydrogen gas outlet; 72. a gas-guide tube; 8. an air inlet; 9. an air outlet; 10. an air inlet pipe; 11. an air outlet pipe; 12. a water outlet; 13. a display screen; 14. and a control panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only 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 efforts all belong to the protection scope of the present invention.

Please refer to fig. 1-3, a hydrogen-rich water hydrogen absorption machine fault early warning device, water tank 1, electrolysis trough body 2, air flow sensor 3 and gas-water separator 4, the surface of water tank 1 is provided with upper water mechanism 5 and lower water mechanism 6 respectively, the one end of upper water mechanism 5 and lower water mechanism 6 all is connected with the surface of electrolysis trough body 2, upper water mechanism 5 includes upper water inlet 51 and upper water pipe 52, upper water inlet 51 connects the surface at water tank 1, upper water pipe 52 connects the bottom at upper water inlet 51, the one end that upper water pipe 52 kept away from upper water inlet 51 is installed on the surface of electrolysis trough body 2, lower water mechanism 6 includes lower water inlet 61 and downcomer 62, lower water inlet 61 connects on the surface of water tank 1, the one end of downcomer 62 is connected with lower water inlet 61's bottom, the other end of downcomer 62 is installed on the surface of electrolysis trough body 2, the surface of electrolysis trough body 2 is provided with hydrogen output mechanism 7, hydrogen output mechanism 7 includes hydrogen delivery outlet 71 and air duct 72, hydrogen delivery outlet 71 is installed on the surface of electrolysis trough body 2, the one end of downcomer 72 is connected with the one end of hydrogen outlet 71 and the outlet 4 of outlet 71, the gas outlet 9 is connected with the gas outlet of hydrogen outlet 9, the gas flow sensor 4 is connected with the gas outlet 12, the gas outlet 12 is connected with the gas outlet 9 of gas outlet 9, the gas outlet 12 is provided with the gas outlet 12, the gas outlet 12 is connected with the gas outlet of gas outlet 9 and the gas outlet of gas outlet 9, the gas outlet 9 is connected with the gas outlet 12, the gas outlet 9, the gas outlet 12 is connected with the gas outlet of gas outlet 9, the gas outlet 9 is connected with the gas outlet 9. The gas-water separator 4 adopts existing products or structures, such as: the figure uses a container that is connected to a pipe and is capable of condensing.

In addition, an air inlet pipe 10 may be connected to the top of the air inlet 8, one end of the air inlet pipe 10 is connected to the air duct 72, and in this embodiment, the airflow sensor 3 is connected between the air inlet pipe 10 and the air duct 72.

Theory of operation, adding water in the water tank 1, water gets into electrolysis trough body 2 through lower mouth of a river 61 and downcomer 62, and current product is adopted to electrolysis ware body 2, for example: model SPE-300, electrolyzer body 2 electrolyzes water, and the hydrogen of electrolysis goes out through hydrogen delivery outlet 71 output, and gaseous leading gas flow sensor 3 is led to the rethread air duct 72 to gaseous gas flow sensor 3, and gas flow sensor 3 adopts current product, for example: the model FMA-A2000 gas moves to the gas-water separator 4 through the gas flow sensor 3, the gas flow sensor 3 is used for monitoring the flow value of the hydrogen, feedback can be given in time when the flow value of the hydrogen becomes small, and a user is prevented from drinking water with insufficient hydrogen or being incapable of sucking sufficient hydrogen.

In another embodiment, a display 13 is added, and the display 13 is electrically connected to the airflow sensor 3 to display the parameter information collected by the airflow sensor 3.

In another embodiment, a control board 14 is added, the control board 14 is electrically connected with the electrolyzer body 2, the control board 14 is electrically connected with the air flow sensor 3, the control board 14 controls the electrolyzer and the air flow sensor 3 to work, the air flow sensor 3 sends the detected flow value to the control board 14 in real time, and when the control board 14 receives a value lower than a preset value, the control board 14 stops the electrolyzer to work, wherein the control board 14 adopts the existing products, such as: the model HGJ-006 can be selected.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a hydrogen-rich water hydrogen absorption machine trouble early warning device which characterized in that includes: the device comprises a water tank (1), an electrolytic cell body (2), a gas flow sensor (3) and a gas-water separator (4), wherein a water feeding mechanism (5) and a water discharging mechanism (6) are respectively arranged on the surface of the water tank (1), one ends of the water feeding mechanism (5) and the water discharging mechanism (6) are both connected with the surface of the electrolytic cell body (2), and a hydrogen output mechanism (7) is arranged on the surface of the electrolytic cell body (2);

the hydrogen output mechanism (7) comprises a hydrogen output port (71) and an air guide pipe (72), the hydrogen output port (71) is arranged on the surface of the electrolytic bath body (2), and one end of the air guide pipe (72) is connected with one end of the hydrogen output port (71);

the top of the gas-water separator (4) is respectively provided with a gas inlet (8) and a gas outlet (9), the top of the gas outlet (9) is connected with a gas outlet pipe (11), the gas inlet (8) is connected with a gas guide pipe (72),

the air flow sensor (3) is arranged on the air guide pipe (72) or the air outlet pipe (11).

2. The hydrogen-rich water hydrogen absorption machine fault early warning device according to claim 1, characterized in that the water feeding mechanism (5) comprises a water feeding port (51) and a water feeding pipe (52), the water feeding port (51) is connected to the surface of the water tank (1), the water feeding pipe (52) is connected to the bottom end of the water feeding port (51), and one end of the water feeding pipe (52) far away from the water feeding port (51) is installed on the surface of the electrolytic tank body (2).

3. The hydrogen-rich water hydrogen absorption machine fault early warning device according to claim 1, characterized in that the sewer mechanism (6) comprises a sewer port (61) and a sewer pipe (62), the sewer port (61) is connected to the surface of the water tank (1), one end of the sewer pipe (62) is connected with the bottom end of the sewer port (61), and the other end of the sewer pipe (62) is installed on the surface of the electrolytic bath body (2).

4. The hydrogen-rich water hydrogen absorption machine fault early warning device according to claim 1, characterized in that a water outlet (12) is provided at the bottom of the gas-water separator (4).

5. The hydrogen-rich water hydrogen absorption machine fault early warning device according to claim 1, characterized by further comprising a display screen (13), wherein the display screen (13) is electrically connected with the gas flow sensor (3).

6. The hydrogen-rich water hydrogen absorption machine fault early warning device according to claim 5, characterized by further comprising a control board (14), wherein the control board (14) is electrically connected with the electrolytic cell body (2), and the control board (14) is electrically connected with the gas flow sensor (3).

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