CN111036131A - Nano hydrogen water preparation system and bathing device - Google Patents

Abstract

The invention discloses a nano hydrogen water preparation system which comprises a water inlet joint, a gas-liquid mixing pump, a first gas-liquid separator, a hydrogen generating device, a second gas-liquid separator, a Venturi module and a water outlet joint, wherein a first inlet of the gas-liquid mixing pump is communicated with the water inlet joint, an outlet of the gas-liquid mixing pump is communicated with an inlet of the first gas-liquid separator, a first outlet of the first gas-liquid separator is communicated with a first inlet of the second gas-liquid separator, an outlet of the hydrogen generating device is communicated with a second inlet of the second gas-liquid separator, a first outlet of the second gas-liquid separator is communicated with a second inlet of the gas-liquid mixing pump, the second gas-liquid separator is provided with a second outlet for discharging water liquid in the second gas-liquid separator, and an inlet of the Venturi module is communicated with a second outlet of the. The nanometer hydrogen water preparation system simplifies the system structure, reduces the cost, can also repeatedly utilize undissolved hydrogen, and avoids resource waste. The invention also discloses a bathing device.

Description

Nano hydrogen water preparation system and bathing device

Technical Field

The invention relates to the technical field of hydrogen bath devices, in particular to a nano hydrogen water preparation system and a bath device.

Background

With the scientific confirmation of the action of hydrogen, hydrogen health preservation and hydrogen beauty treatment are gradually popularized, and for example, the nano milk hydrogen bath technology is more and more widely known by people.

The fashionable bath mode does not need to add milk, but converts common water into milky nanometer high hydrogen-containing water through a high-tech technology. The principle of the nano hydrogen water preparation system is that the molecular clash is applied, and then the ultrahigh frequency magnetic wave cutting is used, so that the water molecules and the micro bubbles are close to nanocrystallization, and a large amount of milky-white high-concentration micro-nano hydrogen-rich water is prepared. As the nano-scale is approached, the negative ions and water molecules can quickly permeate into skin pores, remove dirt in the pores and deeply clean the skin. After the water molecules with high hydrogen content penetrate into skin capillary pores, the hydrogen content in skin and blood is increased, harmful free radicals are removed, skin aging is slowed down, cells are activated, vivotoxin is discharged, blood circulation is promoted, and the effects of removing dirt, whitening and cleaning skin can be achieved.

At present, the existing nano hydrogen water preparation system comprises a dipping container, a dissolved hydrogen water system and a nano foaming generation system, but the dissolved hydrogen water system and the nano foaming generation system are two independent systems respectively communicated with the dipping container, so that the structure is more, the structure is complex, the cost is higher, undissolved hydrogen cannot be recycled, and the waste of hydrogen is caused.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the objectives of the present invention is to provide a nano hydrogen water preparation system, which simplifies the system structure, reduces the cost, and can also reuse the undissolved hydrogen to avoid wasting resources.

The second purpose of the invention is to provide a bathing device using the nano hydrogen water preparation system.

The purpose of the invention is realized by adopting the following technical scheme:

the nano hydrogen water preparation system comprises a water inlet joint, a gas-liquid mixing pump, a first gas-liquid separator, a hydrogen generating device, a second gas-liquid separator, a Venturi module and a water outlet joint, wherein the water inlet joint and the water outlet joint are both used for being communicated with an external bathing container, the water inlet joint is used for allowing water in the bathing container to enter the nano hydrogen water preparation system, the water outlet joint is used for allowing nano hydrogen water in the nano hydrogen water preparation system to enter the bathing container, the water inlet joint is communicated with a first inlet of the gas-liquid mixing pump, an outlet of the gas-liquid mixing pump is communicated with an inlet of the first gas-liquid separator, a first outlet of the first gas-liquid separator is communicated with a first inlet of the second gas-liquid separator, and an outlet of the hydrogen generating device is communicated with a second inlet of the second gas-liquid separator, the first export of second vapour and liquid separator with the second entry intercommunication of gas-liquid mixing pump, second vapour and liquid separator has the second export that is used for supplying its inside water liquid exhaust, the second export of first vapour and liquid separator with the entry intercommunication of venturi module, the export of venturi module with water connectors intercommunication.

Furthermore, the hydrogen generating device is a first hydrogen-producing electrolytic tank, the nanometer hydrogen water preparation system further comprises a second hydrogen-producing electrolytic tank and a raw water tank for storing water, the raw water tank is provided with a first water inlet for adding water, an anode chamber water inlet of the first hydrogen-producing electrolytic tank and an anode chamber water inlet of the second hydrogen-producing electrolytic tank are communicated with a water outlet of the raw water tank, an anode chamber water outlet of the first hydrogen-producing electrolytic tank and an anode chamber water outlet of the second hydrogen-producing electrolytic tank are communicated with a second water inlet of the raw water tank, a gas outlet of the first hydrogen-producing electrolytic tank is communicated with a second inlet of the second gas-liquid separator, and a gas outlet of the second hydrogen-producing electrolytic tank is communicated with an external hydrogen pipeline.

Further, the nanometer hydrogen water preparation system further comprises a third gas-liquid separator, an inlet of the third gas-liquid separator is communicated with an air outlet of the second hydrogen production electrolytic tank, and a first outlet of the third gas-liquid separator is communicated with an external hydrogen pipeline.

Further, a second outlet of the third gas-liquid separator is communicated with an inlet of the raw water tank, and a water pump is arranged on a pipeline between the second outlet of the third gas-liquid separator and the inlet of the raw water tank.

Furthermore, a first electromagnetic valve is further arranged on a pipeline between a second outlet of the third gas-liquid separator and an inlet of the raw water tank, the first electromagnetic valve is located between the water pump and the second outlet of the third gas-liquid separator, and a first high liquid level sensor and a first low liquid level sensor are arranged in the third gas-liquid separator.

Furthermore, a second low liquid level sensor is arranged in the raw water tank.

Further, the second outlet of the second gas-liquid separator is communicated with an external drainage system.

Further, a second electromagnetic valve is arranged between the first outlet of the second gas-liquid separator and the second inlet of the gas-liquid mixing pump.

Further, a first one-way valve is arranged between the water inlet joint and a first inlet of the gas-liquid mixing pump.

Further, a second one-way valve is arranged on the first outlet pipeline of the first gas-liquid separator.

Further, the venturi module is a venturi tube or a venturi mixer.

The bath device comprises the nano hydrogen water preparation system and a bath container.

Furthermore, the bathing device is also provided with a hydrogen absorption pipeline and a pipe joint, and the hydrogen absorption pipeline and the hydrogen pipeline of the nano hydrogen water preparation system run independently and do not interfere with each other.

Furthermore, a second high liquid level sensor is arranged in the bathing container, and the liquid level sensor monitors that the water level is higher than the water inlet connector.

Furthermore, the water inlet joint and the water outlet joint are respectively arranged on two opposite side walls of the bathing container or are respectively connected with the water inlet joint and the water outlet joint in a water receiving pipe mode, and the water inlet pipe and the water outlet pipe are put into the two opposite sides of the bathing container.

Further, when the nano hydrogen water system is started, the height difference between the highest liquid level in the bathing container and the first inlet of the gas-liquid mixing pump is preferably controlled to be h less than or equal to 50 cm.

Compared with the prior art, the invention has the beneficial effects that:

this nanometer hydrogen water preparation system forms nanometer hydrogen water system through will dissolving water hydrogen system and nanometer bubble and take place system both and unite two into one, can form nanometer hydrogen water through this nanometer hydrogen water system, has simplified the system architecture for this nanometer hydrogen water preparation system's overall cost can reduce, in addition, this nanometer hydrogen water preparation system can also realize not dissolving hydrogen can reuse, can not cause the wasting of resources, further reduce cost.

Drawings

Fig. 1 is a schematic structural diagram of a nano hydrogen water preparation system according to the present invention.

In the figure: 1. a bath container; 21. a water inlet joint; 22. a water outlet joint; 23. a gas-liquid mixing pump; 24. a first gas-liquid separator; 25. a second gas-liquid separator; 26. a venturi module; 27. a first hydrogen-producing electrolytic cell; 271. a first power supply; 28. a second hydrogen-producing electrolytic cell; 281. a second power supply; 29. a raw water tank; 30. a third gas-liquid separator; 31. a first check valve; 32. a third check valve; 33. a second solenoid valve; 34. a second one-way valve; 35. a water pump; 36. a first solenoid valve; 37. a hydrogen gas conduit; 38. a wastewater tank; 381. a drain pipe; 382. and (4) exhausting the gas.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1, there is shown a bathing apparatus according to a preferred embodiment of the present invention, which comprises a nano hydrogen water preparation system and a bathing container 1.

As a preferred embodiment, the bathing container 1 may be a bathtub or a bathing pool or a bathing tub for bathing, and the like, the bottom of the bathing container 1 may be provided with a water outlet, the side thereof may be provided with a water inlet, the water outlet is used for communicating with an external drainage system, the water inlet is communicated with an external water source system through a water inlet pipe, a second high liquid level sensor is further disposed in the bathing container 1, and the second high liquid level sensor monitors that the water level is equal to or higher than the water inlet joint 21.

With continued reference to fig. 1, the nano hydrogen water preparation system comprises a water inlet joint 21, a water outlet joint 22, a first one-way valve 31, a gas-liquid mixing pump 23, a first gas-liquid separator 24, a second one-way valve 34, a hydrogen generating device, a second one-way valve 34, a second gas-liquid separator 25, a second electromagnetic valve 33 and a venturi module 26, wherein the water inlet joint 21 and the water outlet joint 22 are both arranged on the bathing container 1 and are communicated with the inside of the bathing container 1, wherein the water inlet joint 21 is used for allowing water in the bathing container 1 to enter the nano hydrogen water system, the water outlet joint 22 is used for allowing nano hydrogen water in the nano hydrogen water system to enter the bathing container 1, the water inlet joint 21 is communicated with a first inlet of the gas-liquid mixing pump 23, and a first one-way valve 31 is arranged on a pipeline between the first inlet of the gas-liquid mixing pump 23 and the water inlet joint 21, the water in the bathing container 1 can enter the nano hydrogen water system through the water inlet joint 21, but the water in the nano hydrogen water system can not flow back into the bathing container 1 through the nano hydrogen water inlet, the outlet of the gas-liquid mixing pump 23 is communicated with the inlet of the first gas-liquid separator 24, a water flow switch is arranged on the pipeline between the outlet of the gas-liquid mixing pump 23 and the inlet of the first gas-liquid separator 24, the first outlet of the first gas-liquid separator 24 is communicated with the first inlet of the second gas-liquid separator 25, a second one-way valve 34 is arranged on the pipeline communicating the first gas-liquid separator 24 and the second gas-liquid separator 25, the second inlet of the second gas-liquid separator 25 is communicated with the outlet of the hydrogen generating device, the first outlet of the second gas-liquid separator 25 is communicated with the second inlet of the gas-liquid mixing pump 23, a second solenoid valve 33 and a third check valve 32 are disposed in a pipeline between the first outlet of the second gas-liquid separator 25 and the second inlet of the gas-liquid mixing pump 23, the second solenoid valve 33 is a normally open solenoid valve, the second outlet of the second gas-liquid separator 25 is communicated with an external drainage system through a pipeline, the inlet of the venturi module 26 is communicated with the second outlet of the first gas-liquid separator 24 through a first pipeline, and the outlet of the venturi module 26 is communicated with the water outlet 22 through a second pipeline.

This nanometer hydrogen water preparation system is through two into one dissolving water hydrogen system and nanometer bubble generating system, form nanometer hydrogen water system, and make nanometer hydrogen water system and bathing container 1 pass through pipe-line system fluid intercommunication, can form nanometer hydrogen water-rich water through this nanometer hydrogen water system, the system architecture has been simplified, make this nanometer hydrogen water preparation system's overall cost can reduce, in addition, this nanometer hydrogen water preparation system can also realize that the hydrogen that does not dissolve can reuse, can not cause the wasting of resources, further reduce cost.

In order to make the function of the nano hydrogen water preparation system more versatile, as a preferred embodiment, the hydrogen generating device is a first hydrogen production electrolytic tank 27, the nano hydrogen water preparation system further includes a second hydrogen production electrolytic tank 28, a raw water tank 29 for storing water, and a third gas-liquid separator 30, an anode chamber water inlet of the first hydrogen production electrolytic tank 27 and an anode chamber water inlet of the second hydrogen production electrolytic tank 28 are both communicated with a water outlet of the raw water tank 29, an inlet of the third gas-liquid separator 30 is communicated with a gas outlet of the second hydrogen production electrolytic tank 28, an anode chamber water outlet of the first hydrogen production electrolytic tank 27 and an anode chamber water outlet of the second hydrogen production electrolytic tank 28 are both communicated with a second water inlet of the raw water tank 29, and a first outlet of the third gas-liquid separator 30 is communicated with an external hydrogen pipeline 37. The hydrogen generated by the second hydrogen-producing electrolytic tank 28 can be directly absorbed by the user, and the hydrogen absorption can make the human internal organs more directly utilize the reduction effect of the hydrogen, so that the internal organs of the human body can be improved, and particularly, the hydrogen-producing electrolytic tank has excellent improving effect on human respiratory system diseases, cardiovascular diseases and the like.

In conclusion, the nanometer hydrogen water preparation system has the nanometer hydrogen water preparation function and the hydrogen absorption function, so that the selection of users is richer and more various, and more importantly, the cyclic utilization of undissolved hydrogen can be realized, and the resource waste is avoided.

In addition, the nano hydrogen water preparation system can connect all the electrical components together through the control system, and is provided with corresponding functional keys to start or stop the nano hydrogen water preparation system, for example, the nano hydrogen water preparation system can be provided with three keys of 'hydrogen bath', 'hydrogen absorption' and 'stop'.

The specific implementation process is as follows:

starting the functions of the nano hydrogen milk bath: clicking a 'hydrogen bath' button to start the system, opening a water inlet, and adding water into the bath container 1; when the second high liquid level sensor monitors that the liquid level of the bath container 1 is higher than the water inlet joint 21, the normally open electromagnetic valve is closed for a certain time, for example, set for 45 seconds, the gas-liquid mixing pump 23 is started, and the first hydrogen production electrolytic tank 27 is also started; at the moment, the gas-liquid mixing pump 23 pumps water in the bathing container 1, the water flows back to the bathing container 1 from the water outlet joint 22 through the first one-way valve 31, the gas-liquid mixing pump 23, the first gas-liquid separator 24 and the Venturi module 26, and the pump cavity of the gas-liquid mixing pump 23 can form 4-8 kg of pressure under the action of the Venturi module 26 in a water path; after 45 seconds, the normally open solenoid valve is opened, hydrogen generated by the first hydrogen production electrolytic tank 27 enters the gas-liquid mixing pump 23 through the second gas-liquid separator 25 and the normally open solenoid valve, the hydrogen is rapidly dissolved in water under the action of 4 to 8 kilograms of pressure formed by the pump cavity of the gas-liquid mixing pump 23 under the high-speed rotation cutting of the gas-liquid mixing pump 23 to form hydrogen-rich water rich in hydrogen, the hydrogen which is not dissolved in water is simultaneously dissolved in the hydrogen-rich water and is converged into large bubbles, the large bubbles of hydrogen are separated from the water under the separation action of the first gas-liquid separator 24 when passing through the first gas-liquid separator 24, the hydrogen enters the second gas-liquid separator 25 together with the hydrogen newly generated by the first hydrogen production electrolytic tank 27, the second gas-liquid separator 25 realizes the separation of water and hydrogen, the hydrogen repeats the previous path, the solenoid valve is opened frequently and returns to the gas-liquid mixing pump 23 to be, the water circulation is carried out all the time, and the water vapor is discharged to an external drainage system through a pipeline; hydrogen-rich water gets into venturi module 26 after first vapour and liquid separator 24, and under venturi module 26 and gas-liquid mixing pump 23's combined action, hydrogen-rich water forms nanometer hydrogen-rich water after coming out from venturi module 26 to water is milk color, and the essence contains a large amount of nanometer level hydrogen bubbles in the aquatic, and water just can present milk color. So far, the system completes a cycle of a water path and a gas path, and the system continuously performs cycle work all the time in a set time, and realizes that the water of the whole bathing container 1 is hydrogen-rich water rich in hydrogen. The longer the system operation time is, the more concentrated the hydrogen-rich water is, and the operation time can be set according to actual need.

Starting a hydrogen absorption function: clicking a 'hydrogen absorption' button, starting a hydrogen absorption system, starting the second hydrogen production electrolytic tank 28, discharging hydrogen from a cathode chamber of the second hydrogen production electrolytic tank 28, separating by the third gas-liquid separator 30, and discharging the hydrogen from a hydrogen absorption pipeline for a user to use, wherein the hydrogen absorption time can be specifically set as an operation time according to actual needs.

It will be appreciated that the anode chamber water circuits of first hydrogen-producing electrolyzer 27 and second hydrogen-producing electrolyzer 28 of the present invention may be self-circulating, with a portion of the water in the anode chamber being transported to the cathode chamber during operation, and the system being stopped and alerted to replenish water when the anode chamber water level is below a low level.

In the working process of the system, the system is provided with electric leakage safety protection, people can enter the bath container 1 for bathing with confidence, the work of the system cannot be influenced when people enter the bath container, and the system cannot cause accidents of the people. The nano hydrogen milk bath system and the hydrogen absorption system are organically combined and can be used independently or simultaneously, in the circulating working process of the system, after water molecules with high hydrogen content penetrate into capillary pores of skin, the hydrogen content in the skin and blood is increased, harmful free radicals are removed, skin aging is slowed down, cells are activated, vivotoxin is discharged, blood circulation is promoted, the effects of removing dirt, whitening and cleaning the skin are achieved, and meanwhile, the absorbed hydrogen continuously permeates into each part of a human body, blood, organs and cells, and the effect of removing certain harmful free radicals of the human body can be achieved.

In a preferred embodiment, in order to recycle water resources, the second outlet of the third gas-liquid separator 30 is communicated with the inlet of the raw water tank 29, a water pump 35 is provided in a pipeline between the second outlet of the third gas-liquid separator 30 and the inlet of the raw water tank 29, a first electromagnetic valve 36 is further provided in a pipeline between the second outlet of the third gas-liquid separator 30 and the inlet of the raw water tank 29, the first electromagnetic valve 36 is a normally closed electromagnetic valve, the first electromagnetic valve 36 is located between the water pump 35 and the second outlet of the third gas-liquid separator 30, and a first high liquid level sensor and a first low liquid level sensor are provided in the third gas-liquid separator 30. When the first high level sensor detects the highest water level, the first electromagnetic valve 36 is opened, the water liquid in the third gas-liquid separator 30 flows to the raw water tank 29 under the action of the water pump 35 to reuse the water liquid, so as to avoid waste, and when the first low level sensor detects the low water level, the water pump 35 and the first electromagnetic valve 36 are closed.

In a preferred embodiment, a second low level sensor is installed in the raw water tank 29, and when the second low level sensor in the raw water tank 29 detects a low water level, the nano hydrogen water preparation system stops and gives a warning to the user to replenish water, and it should be noted that the water in the raw water tank 29 is water with a TDS value of 1 or less, such as yibao drinking purified water or deionized water. In a preferred embodiment, the water inlet joint 21 is provided with a filtering device (such as a filter screen) to prevent the system from being blocked. As a preferred embodiment, when the nano hydrogen water system is started, the height difference between the highest liquid level in the bath container 1 and the first inlet of the gas-liquid mixing pump 23 is preferably controlled to be h less than or equal to 50cm, so as to ensure that the hydrogen gas of the second gas-liquid separator 25 can enter the gas-liquid mixing pump 23.

In a preferred embodiment, the first gas-liquid separator 24, the second gas-liquid separator 25, and the third gas-liquid separator 30 may be gas-liquid separation tanks or gas-liquid separation pumps, and in the present embodiment, the first gas-liquid separator 24 is a gas-liquid separation valve, and the second gas-liquid separator 25 and the third gas-liquid separator 30 are gas-liquid separation tanks.

In a preferred embodiment, the hydrogen generating device may be a hydrogen storage tank.

Specifically, the first hydrogen production electrolytic tank 27 and the second hydrogen production electrolytic tank 28 each include an anode chamber for generating oxygen and a cathode chamber for generating oxygen, and the first hydrogen production electrolytic tank 27 and the second hydrogen production electrolytic tank 28 are respectively provided with a first power source 271 and a second power source 281, the anode chamber water path can realize self-circulation, part of the moisture in the anode chamber can be carried to the cathode chamber in the working process, and when the water level of the raw water tank 29 is lower than a low level, the system stops and warns to remind a user of water replenishment. Oxygen generated in the anode chamber is discharged through an oxygen discharge port.

The bathing container 1 has conventional functions, such as surfing, lighting, heating and the like, and the conventional functions of the nano hydrogen water system and the bathing container 1 cannot be interfered.

In a preferred embodiment, the venturi module 26 is a venturi tube or a venturi mixer.

In a preferred embodiment, the second outlet of the second gas-liquid separator 25 is connected to a waste water tank 38 through a pipe, a third high level sensor is disposed in the waste water tank 38, a vent pipe 382 and a drain pipe 381 connected to an external drain system are disposed in the waste water tank 38, and a normally closed solenoid valve is disposed in the drain pipe 381, and when the third level sensor detects a high level, the normally closed solenoid valve is opened to drain water in the waste water tank 38 to the external drain system.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (12)

1. The nanometer hydrogen water preparation system is characterized by comprising a water inlet connector, a gas-liquid mixing pump, a first gas-liquid separator, a hydrogen generating device, a second gas-liquid separator, a Venturi module and a water outlet connector, wherein the water inlet connector is used for supplying external water liquid to enter the nanometer hydrogen water preparation system, the water outlet connector is used for supplying nanometer hydrogen water in the nanometer hydrogen water preparation system to flow out, the water inlet connector is communicated with a first inlet of the gas-liquid mixing pump, an outlet of the gas-liquid mixing pump is communicated with an inlet of the first gas-liquid separator, a first outlet of the first gas-liquid separator is communicated with a first inlet of the second gas-liquid separator, an outlet of the hydrogen generating device is communicated with a second inlet of the second gas-liquid separator, a first outlet of the second gas-liquid separator is communicated with a second inlet of the gas-liquid mixing pump, the second gas-liquid separator is also provided with a second outlet for discharging water liquid inside the second gas-liquid separator, the second outlet of the first gas-liquid separator is communicated with the inlet of the venturi module, and the outlet of the venturi module is communicated with the water outlet connector.

2. The nano-hydrogen water preparation system according to claim 1, wherein the hydrogen generator is a first hydrogen production electrolytic tank, the nano-hydrogen water preparation system further comprises a second hydrogen production electrolytic tank and a raw water tank for storing water, the raw water tank is provided with a first water inlet for adding water, an anode chamber water inlet of the first hydrogen production electrolytic tank and an anode chamber water inlet of the second hydrogen production electrolytic tank are both communicated with a water outlet of the raw water tank, an anode chamber water outlet of the first hydrogen production electrolytic tank and an anode chamber water outlet of the second hydrogen production electrolytic tank are both communicated with a second water inlet of the raw water tank, a gas outlet of the first hydrogen production electrolytic tank is communicated with a second inlet of the second gas-liquid separator, and a gas outlet of the second hydrogen production electrolytic tank is communicated with an external hydrogen production hydrogen pipeline.

3. The nano hydrogen water preparation system according to claim 2, further comprising a third gas-liquid separator, wherein an inlet of the third gas-liquid separator is communicated with a gas outlet of the second hydrogen production electrolytic tank, and a first outlet of the third gas-liquid separator is communicated with an external hydrogen pipeline.

4. The nano-hydrogen water preparation system according to claim 3, wherein the second outlet of the third gas-liquid separator is communicated with the inlet of the raw water tank, and a water pump is provided on a pipe between the second outlet of the third gas-liquid separator and the inlet of the raw water tank.

5. The nano-hydrogen water preparation system according to claim 4, wherein a first solenoid valve is further disposed on a pipeline between the second outlet of the third gas-liquid separator and the inlet of the raw water tank, the first solenoid valve is located between the water pump and the second outlet of the third gas-liquid separator, and a first high liquid level sensor and a first low liquid level sensor are disposed in the third gas-liquid separator.

6. The nano-hydrogen water production system according to claim 2, wherein a second low level sensor is provided in the raw water tank.

7. The nano-hydrogen water preparation system as claimed in claim 1, wherein the second outlet of the second gas-liquid separator is communicated with an external drainage system.

8. The nano-hydrogen water preparation system as claimed in claim 1, wherein a second solenoid valve is provided between the first outlet of the second gas-liquid separator and the second inlet of the gas-liquid mixing pump.

9. The nano-hydrogen water preparation system as claimed in claim 1, wherein a first check valve is disposed between the water inlet joint and the first inlet of the gas-liquid mixing pump.

10. The nano-hydrogen water preparation system as claimed in claim 1, wherein the first outlet pipeline of the first gas-liquid separator is provided with a second check valve.

11. The nano-hydrogen water preparation system of claim 1, wherein the venturi module is a venturi tube or a venturi mixer.

12. An ablutionary installation, comprising the nano hydrogen water preparation system as claimed in any one of claims 1 to 11 and an ablutionary container, wherein the water inlet connector and the water outlet connector are both communicated with the ablutionary container.

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