CN111732178A - Hydrogen-rich water generating device and method for generating hydrogen-rich water using same - Google Patents

Abstract

The invention provides a hydrogen-rich water generating device and a method for generating hydrogen-rich water by using the device, which comprises a hydrogen-rich water generator, a hydrogen bag for providing hydrogen for the hydrogen-rich water generator and a pipeline for connecting the hydrogen bag and the hydrogen bag, wherein the hydrogen-rich water generator is provided with a water inlet, a water outlet, an air inlet and an air outlet; meanwhile, the device has the advantages of simple structure, easy realization and low cost, is suitable for being close to the public life, and can be used by people conveniently and quickly to play a role in health care.

Description

Hydrogen-rich water generating device and method for generating hydrogen-rich water using same

Technical Field

The invention relates to the technical field of drinking water equipment, in particular to a hydrogen-rich water generating device and a method for generating hydrogen-rich water by using the same.

Background

From the end of 2019 to 2020, pneumonia caused by the new coronavirus (with the scientific name of 2019-nCov) spreads worldwide, so that life and property of people are greatly lost, and people continue to find a method for preventing the new coronavirus by enhancing immunity before related vaccines are released. Research shows that hydrogen has the functions of resisting inflammation and resisting oxidation, has no side effect, is easy to obtain and convenient to inhale, and is an ideal option for resisting virus infection. However, after a human body inhales hydrogen, the hydrogen cannot be directly absorbed, but the hydrogen needs to be dissolved in water of the human body to enter blood circulation to exert the effect, and most of the hydrogen is discharged out of the body along with respiration because the hydrogen is difficult to dissolve in the water.

Therefore, people research a hydrogen-rich water generator to generate water rich in high-concentration hydrogen for people to drink, so that the hydrogen in the water enters the blood circulation of the human body along with the water, and the hydrogen has the same or better effect as the hydrogen is sucked. However, most of the existing hydrogen-rich water generators obtain hydrogen-rich water by utilizing the principle of generating hydrogen by electrolysis, and ozone which is harmful to human bodies is generated in the electrolysis process; meanwhile, the existing hydrogen-rich water generator basically supplements water intermittently, cannot be directly connected with a water purifier, and water and air are not isolated and are easily polluted by germs in the air, so that the purified water from the water purifier is polluted.

Disclosure of Invention

In order to overcome the defects of the existing hydrogen-rich water generator, the invention provides a novel hydrogen-rich water generating device and a method for generating hydrogen-rich water by using the device.

Therefore, the technical scheme adopted by the invention is as follows:

a hydrogen-rich water generating device comprising a hydrogen-rich water generator, a hydrogen bag for supplying hydrogen to the hydrogen-rich water generator, and a pipe connecting the two, wherein:

be provided with water inlet, air inlet, delivery port and gas outlet on the hydrogen-rich water generator respectively, the water inlet is linked together through inlet tube and outside water source, the air inlet is linked together through intake pipe and hydrogen bag, set up a water pump on the delivery port, the import of water pump stretches into extremely through the pipeline hydrogen-rich water generator's inside, the export setting of water pump is in hydrogen-rich water generator's outside (the pump body generally can only set up in hydrogen-rich water generator's outside, and consequently the import of pump need get into hydrogen-rich water generator inside through the pipeline), the gas outlet is linked together through outlet duct and hydrogen bag.

Furthermore, the positions of the water inlet, the water outlet, the air inlet and the air outlet on the hydrogen-enriched water generator are not limited, and the functions of the hydrogen-enriched water generator can be realized on the upper part, the lower part, the top, the bottom and the side edges; and it is further preferable that one end of the air outlet pipe is disposed at the top of the hydrogen-rich water generator so as to discharge air therein, one end of the air inlet pipe is disposed at the bottom of the hydrogen-rich water generator so as to bubble gas therein, one end of the water outlet pipe is disposed at the bottom of the hydrogen-rich water generator so as to discharge water therein as much as possible, and the position of the water inlet pipe is relatively flexible but is restricted by a water level so as to maintain a proper water level.

Furthermore, a pipeline tee joint is connected to the hydrogen bag, a valve is arranged at the joint of the pipeline tee joint and the hydrogen bag, and the other two ends of the pipeline tee joint are respectively connected with an air inlet pipe and an air outlet pipe; or set up two exports on the hydrogen bag, all set up valve or check valve on two exports, one of them exit linkage intake pipe, another exit linkage outlet duct, no matter what kind of setting, as long as satisfy the hydrogen in the hydrogen bag can the business turn over, based on this reason, when the connecting tube tee bend on the hydrogen bag, the valve that its junction set up can not be check valve.

In order to control the hydrogen-rich water generator to continuously generate hydrogen-rich water, a liquid level control valve is arranged in the position, close to a water inlet, in the hydrogen-rich water generator, a valve is arranged on the water inlet pipe, when the water level in the hydrogen-rich water generator is too low, the liquid level control valve plays a role, the control valve is opened to feed water, and when the water level reaches the liquid level, the valve is automatically closed to cut off a water source.

Further, all be equipped with the valve on air inlet and the gas outlet, the valve, including the above-mentioned valve that sets up on the inlet tube is two-way valve or check valve.

In addition, a feed inlet can be further arranged on the air inlet pipe, and a two-way valve or a one-way valve is also arranged on the feed inlet.

Correspondingly, the method for generating hydrogen-rich water by adopting the hydrogen-rich water generating device with the structure comprises the following steps: discharging air in the hydrogen-rich water generator → adding hydrogen into the hydrogen-rich water generator → generating hydrogen-rich water → replenishing hydrogen, and the specific process is as follows:

discharging air in hydrogen-rich water generator

Ensuring that a valve at the outlet of the hydrogen bag is in a closed state, disconnecting an air outlet pipe from a valve of an air outlet, connecting an external water source into a feed inlet, opening the valve on the feed inlet, simultaneously opening the valves on the air inlet pipe and the air outlet pipe, and injecting water into the hydrogen-rich water generator until water flows out of the air outlet, so that air in the hydrogen-rich water generator is emptied;

② adding hydrogen into the hydrogen-rich water generator

Closing a valve on the feeding hole, disconnecting a water source from the feeding hole, closing valves on the water inlet pipe and the air outlet pipe, then connecting the air outlet pipe to a valve of the air outlet pipe, opening a valve on the hydrogen bag and the air inlet pipe, and then opening a pump on the water outlet, so that hydrogen in the hydrogen bag enters the hydrogen-rich water generator filled with water along the air inlet pipe, wherein a two-way valve can be used for controlling, and a one-way valve can also be used;

③ generating hydrogen-rich water

Because the pump on the water outlet is in an open state, negative pressure is generated in the hydrogen-rich water generator, hydrogen is sucked into the hydrogen-rich water generator in a bulge mode through the air inlet pipe, and the hydrogen entering the hydrogen-rich water generator is dissolved in water to form hydrogen-rich water;

fourthly, water replenishing

When the water level in the hydrogen-rich water generator is low, a valve on the water inlet pipe is opened, and the liquid level control valve is automatically opened to supplement water until the water level reaches the control water level; it should be noted that, here, a two-way valve may be used for control, or a one-way valve with a certain positive pressure may be used (note: only when the pressure difference reaches a certain value, the valve is opened);

hydrogen supplement

When the hydrogen in the hydrogen bag is insufficient, an external hydrogen source is connected to the feed inlet or directly connected to the valve inlet of the hydrogen bag, and then hydrogen can be supplemented to the hydrogen bag; it should be noted that in the technical scheme of the present invention, when hydrogen is added to the hydrogen-rich water generator, the outlet pipe is also in an open state, a part of hydrogen entering the hydrogen-rich water generator is dissolved in water to form hydrogen-rich water, and the rest hydrogen returns to the pipeline along the outlet port to realize recycling, which saves the consumption of hydrogen, and moreover, the hydrogen bag is made of aluminum material, has high compactness and is not easy to leak, so the device of the present invention does not need to supplement hydrogen frequently, and has the advantage of convenient use.

The invention has the beneficial effects that:

the invention provides a hydrogen-rich water generating device and a method for generating hydrogen-rich water by using the same, wherein the principle is that hydrogen is directly dissolved in water to generate hydrogen-rich water, and the electrolysis mode of the existing hydrogen-rich water generator is replaced, so that ozone is not generated any more when the hydrogen-rich water is generated, and the harm to a human body is reduced; meanwhile, the device can continuously replenish water in the hydrogen-rich water generator, and solves the problem that the existing hydrogen-rich water generator cannot continuously replenish water, so that water is isolated from air and is not easily polluted by germs in the air, and the risk of the polluted hydrogen-rich water is reduced; in addition, the device of the invention has simple structure, easy realization and low cost, is suitable for being widely used in daily life and office work of people, and can obviously improve the physique and prevent virus invasion when people drink hydrogen-rich water for a long time.

Drawings

Fig. 1 is a schematic configuration diagram of an embodiment 1 of an apparatus for generating hydrogen-rich water according to the present invention.

Fig. 2 is a schematic structural view of an embodiment 2 of the hydrogen-rich water generator of the present invention.

Fig. 3 is a schematic structural view of an embodiment 3 of the hydrogen-rich water generator of the present invention.

Fig. 4 is a schematic structural view of an embodiment 4 of the hydrogen-rich water generator of the present invention.

Fig. 5 is a schematic structural view of an embodiment 5 of an apparatus for producing hydrogen-rich water according to the present invention.

Fig. 6 is a schematic structural view of an embodiment 6 of an apparatus for producing hydrogen-rich water according to the present invention.

Fig. 7 is a flow chart of the steps of hydrogen rich water generation of the present invention.

Shown in the figure: 1-hydrogen-rich water generator, 11-water inlet, 12-air inlet, 13-water outlet, 14-air outlet, 15-water inlet pump, 2-hydrogen bag, 3-water inlet pipe, 4-air inlet pipe, 5-water outlet pump, 6-air outlet pipe, 7-pipeline tee joint, 8-valve, 9-liquid level control valve and 10-feed inlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention.

Embodiment 1, the hydrogen-rich water generating device related to this embodiment, as shown in fig. 1, is composed of a hydrogen-rich water generator 1, a hydrogen bag 2 and a pipeline connecting the two, one side of the hydrogen-rich water generator 1 is provided with a water inlet 11, the other side bottom of the hydrogen-rich water generator 1 is provided with an air inlet 12, a water outlet 13 is arranged in the middle of the top of the hydrogen-rich water generator 1, a gas outlet 14 is arranged at a position of the top of the hydrogen-rich water generator 1 close to the air inlet 12, the water inlet 11 is communicated with an external water source through a water inlet pipe 3, the air inlet 12 is communicated with the hydrogen bag 2 through an air inlet pipe 4, a water outlet pump 5 is arranged on the water outlet 13, an inlet of the water outlet pump 5 enters the inside of the hydrogen-rich water generator 1 through the pipeline, an outlet of, the gas outlet 14 is communicated with the hydrogen bag 2 through a gas outlet pipe 6.

The hydrogen bag 2 is connected with a pipeline tee joint 7, a valve 8 is arranged at the joint of the pipeline tee joint 7 and the hydrogen bag 2, and the other two ends of the pipeline tee joint 7 are respectively connected with an air inlet pipe 4 and an air outlet pipe 6.

The external water source that embodiment 1 inserts is the water purifier, can get into hydrogen-rich water generator 1 in succession for the water in the messenger water purifier and generate hydrogen-rich water set up liquid level control valve 9 in the hydrogen-rich water generator 1 in the position of being close to water inlet 11 set up valve 8 on the inlet tube 3, when the water level in hydrogen-rich water generator 1 is low excessively, open valve 8, liquid level control valve 9 is automatic to be opened and is carried out the water supply source, and when moisturizing to a liquid level, liquid level control valve 9 can automatic closing stop the moisturizing, so can realize carrying out continuous moisturizing to hydrogen-rich water generator 1 repeatedly.

Further, in the present embodiment 1, valves 8 are provided on both the inlet 12 and the outlet 14 to control the inlet and outlet.

Still further, connect on the intake pipe 4 and set up a feed inlet 10 to be provided with valve 8 on feed inlet 10, the setting of feed inlet 10 has two effects: firstly, when the device is used for the first time, an external water source is connected to the feeding hole, the valve 8 at the air inlet 12 is opened, water can be injected into the hydrogen-rich water generator 1 through the feeding hole 10, and therefore the purpose of discharging air in the hydrogen-rich water generator 1 is achieved; secondly, when the hydrogen in the hydrogen bag 2 is insufficient, the feed port 10 is connected with an external hydrogen source, the valve 8 at the outlet of the hydrogen bag 2 is opened, and the hydrogen can be supplemented into the hydrogen bag 2 through the feed port 10 until the hydrogen is full.

It should be noted that, because the liquid level control valve 9 is disposed in the hydrogen-rich water generator 1 at a position close to the water inlet 11, if the water is injected from the water inlet 11 to discharge the air in the hydrogen-rich water generator 1, the liquid level control valve 9 will be closed to stop water inflow after reaching a certain water level, and at this time, the water is not injected into the hydrogen-rich water generator 1, the air will not be completely discharged, and therefore, the problem is solved by providing the water inlet 10 to supply water.

Preferably, the valves 8 installed at the respective inlets and outlets are one-way valves (except for the valve 8 at the outlet of the hydrogen bag), which can realize automatic control of the device, and in practical applications, a two-way valve can be used to replace the one-way automatic valve.

As shown in fig. 7, the specific operation process of generating hydrogen-rich water in this embodiment 1 is as follows:

in a first step, air in the hydrogen-rich water generator 1 is discharged

Ensuring that a valve 8 at the outlet of the hydrogen bag is in a closed state, disconnecting an air outlet pipe 6 from a valve of an air outlet 14, connecting an external water source into a feed inlet 10, opening the valve on the feed inlet 10, simultaneously opening valves on an air inlet pipe 4 and the air outlet pipe 6, injecting water into the hydrogen-rich water generator 1 at the moment, and discharging air in the hydrogen-rich water generator 1 until water flows out of the air outlet 14;

second, hydrogen is added to the hydrogen-rich water generator 1

Closing a valve on the feeding hole 10, disconnecting a water source from the feeding hole 10, closing valves on the water inlet pipe 4 and the air outlet pipe 6, then connecting the air outlet pipe 6 to an air outlet pipe valve, opening the hydrogen bag 2 and a valve 8 on the air inlet pipe 4, and then opening the pump 5 on the water outlet, so that hydrogen in the hydrogen bag 2 enters the hydrogen-rich water generator 1 filled with water along the air inlet pipe 4;

a third step of generating hydrogen-rich water

Because the pump 6 on the water outlet 13 is in an open state, negative pressure is generated in the hydrogen-rich water generator 1, hydrogen is sucked into the hydrogen-rich water generator 1 in a bulge mode through the air inlet pipe 4, and the hydrogen entering the hydrogen-rich water generator 1 is dissolved in water to form hydrogen-rich water;

the fourth step, replenishing water

When the water level in the hydrogen-rich water generator 1 is low, the liquid level control valve 9 automatically controls the valve 8 on the water inlet pipe 3 to open for water supplement until the water level reaches the control water level;

the fifth step, hydrogen supplement

When the hydrogen in the hydrogen bag 2 is insufficient, an external hydrogen source is connected to the feed port 10 or directly connected to the valve inlet of the hydrogen bag 2, so that the hydrogen can be supplemented to the hydrogen bag 2.

In the above process, when the hydrogen is added into the hydrogen-rich water generator 1, the gas outlet 14 is also in an open state, part of the hydrogen entering the hydrogen-rich water generator 1 is dissolved in water to form hydrogen-rich water, and the rest hydrogen returns to the pipeline along the gas outlet 14 to realize cyclic utilization, which saves the consumption of hydrogen, and moreover, the hydrogen bag 2 is made of aluminum material, has high compactness and is not easy to leak, so the device of the invention does not need to supplement hydrogen frequently and has the advantage of convenient use.

In the third step process, hydrogen is sucked into the hydrogen-rich water generator 1 through the air inlet pipe 4 in a bulging manner, so that hydrogen nanobubbles in water are increased, water disturbance is increased, hydrogen-rich water with higher concentration is obtained, meanwhile, the hydrogen-rich water generator 1 is in a negative pressure state, and hydrogen leakage is reduced.

Embodiment 2, as shown in fig. 2, the hydrogen-rich water generating apparatus of the present embodiment is basically the same in structure and the specific operation process of hydrogen-rich water generation as embodiment 1, except that the present embodiment is provided with a water inlet pump 15 at a position of the water inlet pipe 3 near the water inlet 11 of the hydrogen-rich water generator 1, for the purpose of better replenishing water to the hydrogen-rich water generator 1 by the action of the water inlet pump 15 when the water level in the hydrogen-rich water generator 1 is too low, and the front end of the present embodiment considers that barreled water is taken as an external water source, and therefore, the water inlet pump 15 is provided here to facilitate water supply.

Embodiment 3, as shown in fig. 3, the hydrogen-rich water generating apparatus provided in this embodiment has a structure substantially the same as that of the hydrogen-rich water generating apparatus of embodiment 1, except that the water inlet pipe 3 and the corresponding valve 8 and liquid level control valve 9 are not provided in this embodiment 3, and other structures are completely the same, and correspondingly, other steps in the specific process of generating hydrogen-rich water in this embodiment 3 are completely the same as those in embodiment 1, except that the water replenishing function in the fourth step is performed by the water inlet port 10 in this embodiment 3, because the water inlet pipe 3 is removed, specifically: when the water level in the hydrogen-rich water generator 1 is found to be low, an external water source is connected into the feed port 10, and a valve on the feed port 10 is opened to supplement water into the feed port until the water level reaches a specified position.

Example 4 as shown in fig. 4, the hydrogen-rich water generator according to this example has a structure substantially the same as that of the hydrogen-rich water generator according to example 1, except that in this example 4, the feed port 10 and the valve 8 on the feed port 10 are not provided, and the first step of discharging air from the hydrogen-rich water generator 1 and the fifth step of hydrogen supply during the specific operation of hydrogen-rich water generation are different from those of example 1, and the remaining steps are completely the same.

Specifically, in the first step of this embodiment 4, the air in the hydrogen-rich water generator 1 is discharged, specifically: and (3) closing the valve 8 at the outlet of the hydrogen bag 2, disconnecting the air outlet pipe 6 from the valve of the air outlet 14, disconnecting the water outlet pump 5 of the water outlet 13 from the water outlet, opening the valve 8 on the air outlet 14, connecting an external water source into the water outlet 13, adding water into the hydrogen-rich water generator 1 through the water outlet 13 until water flows out of the air outlet 14, and discharging the air in the hydrogen-rich water generator 1.

It should be noted that, because the liquid level control valve 9 is disposed in the hydrogen-rich water generator 1 at a position close to the water inlet 11, if water is injected from the water inlet 11 to discharge air in the hydrogen-rich water generator 1, the water will stop being injected from the liquid level control valve 9 after reaching a certain water level, and at this time, the water is not fully injected into the hydrogen-rich water generator 1, so that the air will not be completely discharged.

In addition, compared with the hydrogen replenishing process of example 1, the hydrogen replenishing process of the fifth step in this embodiment 4 requires less feeding port 10 for hydrogen replenishing, and the hydrogen bag 2 can be replenished with hydrogen only by connecting an external hydrogen source to the valve inlet directly connected to the hydrogen bag 2.

Embodiment 5, as shown in fig. 5, this embodiment provides a hydrogen-rich water generating apparatus, whose structure is substantially the same as that of the hydrogen-rich water generating apparatus of embodiment 4, except that in this embodiment 5, a water inlet pump 15 is provided at a position of the water inlet pipe 3 near the water inlet 11 of the hydrogen-rich water generator 1, in order to make it possible to supply water to the hydrogen-rich water generator 1 better by the action of the water inlet pump 15 when the water level in the hydrogen-rich water generator 1 is too low, and the front end of this embodiment 5 considers that barreled water is taken as an external water source, and therefore considers that a water inlet pump 15 is provided here to facilitate water supply, while the external water source at the front end of embodiment 4 considers that a water purifier is taken into consideration.

Embodiment 6, as shown in fig. 6, the structure of the hydrogen-rich water generating apparatus provided in this embodiment is substantially the same as that of the hydrogen-rich water generating apparatus of embodiment 4, except that in this embodiment 6, the liquid level control valve 9 and the valve 8 are not provided, and the water inlet pipe 3 is only provided with the water inlet pump 15, so that the purpose of discharging air by injecting water into the hydrogen-rich water generator 1 through the water inlet pipe 3 and the water inlet 11 during the specific process of generating hydrogen-rich water is achieved, while other structures of this embodiment and the specific process of generating hydrogen-rich water are the same as those of embodiment 4, and are not described again here.

In addition, in addition to the embodiments 1 to 6, the hydrogen-rich water generating apparatus according to the present invention may further include a water outlet 13 of the hydrogen-rich water generator 1 disposed at the bottom of the hydrogen-rich water generator 1, and a valve 8 disposed on the water outlet 13, so that water can be discharged by opening the valve 8 under the action of gravity without disposing the water discharge pump 5. The structural changes described in the above embodiments 1 to 6 can be made based on the structure in which the water outlet 13 is provided in the middle of the lower portion of the hydrogen-rich water generator 1, and the modifications made based on the structural changes are all within the scope of the present invention.

In summary, the present invention has been described in detail with reference to the structure of the hydrogen-rich water generating apparatus and the specific process for generating hydrogen-rich water by examples 1 to 6, and it can be seen that the hydrogen-rich water generating apparatus according to the present invention can generate high-concentration hydrogen-rich water without generating ozone harmful to human body during the generation process, and can continuously supply water so that the water is not easily contaminated by air; meanwhile, the device has the advantages of simple structure, easy realization and low cost, is suitable for being close to the public life, and can be used by people conveniently and quickly to play a role in health care.

The parts not described in the specification are prior art or common general knowledge. The present embodiments are illustrative only and not intended to limit the scope of the present invention, and modifications and equivalents thereof by those skilled in the art are considered to fall within the scope of the present invention as set forth in the claims.

Claims (10)

1. A hydrogen-rich water generation device characterized in that: the device includes hydrogen-rich water generator (1), does hydrogen-rich water generator (1) provides hydrogen bag (2) of hydrogen and connects the pipeline of the two, be provided with water inlet (11), air inlet (12), delivery port (13) and gas outlet (14) on hydrogen-rich water generator (1) respectively, water inlet (11) are linked together with outside water source through inlet tube (3), air inlet (12) are linked together with hydrogen bag (2) through intake pipe (4), set up a water outlet pump (5) on delivery port (13), the import of water outlet pump (5) stretches into extremely through the pipeline the inside of hydrogen-rich water generator (1), the export setting of water outlet pump (5) is in the outside of hydrogen-rich water generator (1), gas outlet (14) are linked together through outlet duct (6) and hydrogen bag (2).

2. The hydrogen-rich water generating apparatus according to claim 1, characterized in that: the hydrogen bag (2) is connected with a pipeline tee joint (7), a valve (8) is arranged at the joint of the pipeline tee joint (7) and the hydrogen bag (2), and the other two ends of the pipeline tee joint (7) are respectively connected with an air inlet pipe (4) and an air outlet pipe (6).

3. The hydrogen-rich water generating apparatus according to claim 2, characterized in that: be equipped with liquid level control valve (9) on the position of the interior nearly water inlet (11) of hydrogen-rich water generator (1), be equipped with valve (8) on inlet tube (3).

4. The hydrogen-rich water generating apparatus according to claim 2, characterized in that: and valves (8) are arranged on the air inlet (12) and the air outlet (14).

5. The hydrogen-rich water generating apparatus according to claim 3 or 4, characterized in that: the valves (8) on the water inlet pipe (3), the air inlet (12) and the air outlet (14) are two-way valves or one-way valves.

6. The hydrogen-rich water generating apparatus according to claim 1, characterized in that: the air inlet pipe (4) is provided with a feed inlet (10), and the feed inlet (10) is provided with a valve (8).

7. The hydrogen-rich water generating apparatus according to claim 6, characterized in that: the valve (8) on the feed port (10) is a two-way valve or a one-way valve.

8. A method of generating hydrogen-rich water using the hydrogen-rich water generating apparatus according to any one of claims 1 to 7, characterized by: the method comprises the following steps:

s1, exhausting air in the hydrogen-rich water generator (1) and filling the hydrogen-rich water generator (1) with water;

s2, adding hydrogen into the hydrogen-rich water generator (1);

s3, sucking the hydrogen in the step S2 into the hydrogen-rich water generator (1) in a bulging mode through the air inlet pipe (4), and dissolving the hydrogen entering the hydrogen-rich water generator (1) into water to form hydrogen-rich water;

s4, when the water level in the hydrogen-enriched water generator (1) is low, opening a valve (8) on the water inlet pipe (3) to supplement water until the water level reaches a control water level;

s5, when the hydrogen in the hydrogen bag (2) is insufficient, the hydrogen bag (2) can be replenished with hydrogen by connecting an external hydrogen source to the feed inlet (10) or directly connecting to the inlet of the valve (8) of the hydrogen bag (2).

9. The method of generating hydrogen-rich water of claim 8, characterized in that: the specific process of step S1 is as follows: guarantee that valve (8) in hydrogen bag (2) exit is in the closed condition, break off outlet duct (6) from gas outlet valve department, insert feed inlet (10) and open valve (8) on feed inlet (10) with outside water source, open the valve on intake pipe (4) and outlet duct (6) simultaneously, inject water into hydrogen-rich water generator (1) this moment, until there is water to flow out from the gas outlet, then the air in hydrogen-rich water generator (1) is discharged.

10. The method of generating hydrogen-rich water of claim 8, characterized in that: the specific process of step S2 is as follows: close valve (8) on feed inlet (10), break off the water source from feed inlet (10), open valve (8) on inlet tube (3), then insert outlet duct valve with outlet duct (6), open valve on hydrogen bag (2), intake pipe (4) and the outlet duct, open outlet pump (5) on the delivery port again, then hydrogen in hydrogen bag (2) enters into in hydrogen-rich water generator (1) that has been filled with water along intake pipe (4).

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