CN109052572B - Hydrogen-rich generator and corresponding water dispenser - Google Patents

Abstract

The invention provides a hydrogen-rich generator, which comprises a shell, a base and a hydrogen-rich generating structure; wherein the hydrogen-rich generating structure comprises an upper electrode, a lower electrode and an ion film; the upper electrode is connected with the negative pole of the power supply and is arranged on the base through a waterproof rubber mat; the lower electrode is connected with the positive electrode of the power supply and is arranged on the base through a waterproof rubber mat; the ion film is arranged between the upper electrode and the lower electrode and used for isolating hydrogen-rich water and oxygen-rich water. The invention also provides a water dispenser, and the hydrogen-rich generator and the corresponding water dispenser can conveniently perform hydrogen enrichment treatment on drinking water, thereby effectively solving the technical problem that the existing water dispenser cannot perform hydrogen enrichment treatment on the drinking water.

Description

Hydrogen-rich generator and corresponding water dispenser

Technical Field

The invention relates to the field of water dispensers, in particular to a hydrogen-rich generator and a corresponding water dispenser.

Background

With the development of society, the requirements of people on living standard are higher and higher, and people need to obtain more nutrient elements beneficial to the body in daily diet. The hydrogen-rich water has strong reducing power and can neutralize active oxygen free radicals in blood and cells of a human body, so that partial human aging factors are eliminated, and the human immunity is improved to generate a good positive auxiliary effect on a large number of sub-health conditions.

The existing water dispenser generally has the functions of filtering and purifying drinking water, and cannot perform rich hydrogenation treatment on the drinking water.

Therefore, it is necessary to provide a hydrogen-rich generator and a corresponding water dispenser to solve the above technical problems.

Disclosure of Invention

The invention provides a hydrogen-rich generator and a water dispenser which can conveniently carry out hydrogen-rich treatment on drinking water; the technical problem that the existing water dispenser cannot perform rich hydrogenation treatment on drinking water is solved.

An embodiment of the present invention provides a hydrogen rich generator, which includes:

the water inlet and the water outlet are arranged on the shell;

the base is arranged at the bottom of the shell and forms a hydrogen-rich water containing space with the shell; and

a hydrogen-rich water containing space provided in the base and containing hydrogen;

wherein the hydrogen-rich production structure comprises:

the upper electrode is connected with the negative electrode of the power supply and is arranged on the base through a waterproof rubber mat;

the lower electrode is connected with the positive electrode of the power supply and is arranged on the base through a waterproof rubber mat;

an ion membrane disposed between the upper electrode and the lower electrode for isolating hydrogen-rich water to form a membrane

And oxygen-enriched water.

In the hydrogen rich generator of the present invention, the base is provided with a waste water discharge hole for discharging the oxygen-enriched water generated by the hydrogen rich generating structure.

In the hydrogen-rich generator of the present invention, an observation window through which the hydrogen-rich generating structure can be observed is disposed on one side of the housing, and a reaction indicator lamp is disposed between the upper electrode and the lower electrode of the hydrogen-rich generating structure.

In the hydrogen-rich generator of the present invention, the hydrogen-rich generating structure is fixed to the base by an annular fixing member, and the annular fixing member is provided with a waterproof setting hole for placing the reaction prompting lamp.

In the hydrogen rich generator of the present invention, the annular fixing member is provided with water leakage holes so that the lower electrode discharges ionized oxygen through the waste water discharge hole.

In the hydrogen rich generator of the present invention, the upper electrode is a circular upper electrode having a plurality of upper electrode through holes, the arrangement density of the upper electrode through holes in the middle of the circular upper electrode is greater than the arrangement density of the upper electrode through holes in the periphery of the circular upper electrode, and the size of the upper electrode through holes in the middle of the circular upper electrode is smaller than the size of the upper electrode through holes in the periphery of the circular upper electrode.

In the hydrogen-rich generator of the present invention, the lower electrode is a circular lower electrode having a plurality of lower electrode through holes, and the lower electrode through holes on the circular lower electrode are uniformly arranged on the entire circular lower electrode.

The embodiment of the invention also provides a water dispenser, which comprises:

the water filtering structure is used for filtering the drinking water;

the heating structure is used for heating the drinking water;

the hydrogen-rich generator is arranged between the water filtering structure and the heating structure and is used for carrying out hydrotreatment on the drinking water;

wherein the hydrogen-rich generator comprises:

the water inlet and the water outlet are arranged on the shell;

the base is arranged at the bottom of the shell and forms a hydrogen-rich water containing space with the shell; and

a hydrogen-rich water containing space provided in the base and containing hydrogen;

wherein the hydrogen-rich production structure comprises:

the upper electrode is connected with the negative electrode of the power supply and is arranged on the base through a waterproof rubber mat;

the lower electrode is connected with the positive electrode of the power supply and is arranged on the base through a waterproof rubber mat;

and the ion film is arranged between the upper electrode and the lower electrode and used for isolating hydrogen-rich water and oxygen-rich water.

In the water dispenser, the water dispenser also comprises a water outlet structure, and the water outlet structure comprises a drinking output port for outputting drinking water, an input port connected with the heating structure and a circulating output port connected with the water filtering structure.

In the water dispenser, one side of the shell is provided with an observation window through which the hydrogen-rich generating structure can be observed, and a reaction prompt lamp is arranged between an upper electrode and a lower electrode of the hydrogen-rich generating structure;

the upper electrode is a circular upper electrode with a plurality of upper electrode through holes, the arrangement density of the upper electrode through holes in the middle of the circular electrode is greater than that of the upper electrode through holes at the periphery of the circular electrode, and the size of the upper electrode through holes in the middle of the circular electrode is smaller than that of the upper electrode through holes at the periphery of the circular electrode;

the lower electrode is a circular lower electrode with a plurality of lower electrode through holes, and the lower electrode through holes in the circular lower electrode are uniformly formed in the whole circular lower electrode.

Compared with the prior art, the hydrogen-rich generator and the corresponding water dispenser can conveniently perform hydrogen-rich treatment on the drinking water, and effectively solve the technical problem that the existing water dispenser cannot perform hydrogen-rich treatment on the drinking water.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding to some embodiments of the present invention.

FIG. 1 is a schematic diagram of an exploded structure of a preferred embodiment of a water dispenser of the present invention;

FIG. 2a is a schematic structural diagram of a hydrogen-rich generator corresponding to the water dispenser of the present invention;

FIG. 2b is a schematic diagram of an exploded structure of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention;

FIG. 3 is a schematic cross-sectional structure diagram of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention;

fig. 4a is a schematic structural diagram of an upper electrode of a hydrogen-rich generating structure of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention;

fig. 4b is a schematic structural diagram of a lower electrode of a hydrogen-rich generating structure of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic diagram of an explosion structure of a preferred embodiment of a water dispenser of the present invention. The water dispenser comprises a water filtering structure, a heating structure, a hydrogen-rich generator and a water outlet structure.

The water filtering structure is used for filtering drinking water and comprises a floating ball 1, a water tank 2, a water tank filter element 3, a barreled water inlet nozzle 4, a pure water inlet nozzle 5, a water making motor 6, an installation chassis 8, a filter element group 11, a pure water tank 12, an electronic control board 13, a power supply 14, an electromagnetic valve group 15, a water suction pump 21 and a three-way connector 22.

The heating structure is used for heating the drinking water, and comprises a heater 7.

The water outlet structure comprises a water pan 10, a front mounting plate 18, a middle mounting plate 17, a rear mounting plate 16, a control panel 19 and a gas-water separation device 20. Wherein the gas-water separation device 20 comprises a drinking output port 201 for outputting drinking water, an input port 202 connected with the heating structure, and a circulating output port 203 connected with the water filtering structure.

The hydrogen-rich generator 9 is arranged between the water filtering structure and the heating structure and is used for carrying out hydrotreatment on the drinking water.

Referring to fig. 2a, fig. 2b and fig. 3, fig. 2a is a schematic structural diagram of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention; FIG. 2b is a schematic diagram of an exploded structure of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention; fig. 3 is a schematic cross-sectional structure diagram of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention. The hydrogen rich generator 9 includes a housing 91, a base 92, and a hydrogen rich generating structure 93.

A water inlet and a water outlet are arranged on the shell 91; the base 92 is arranged at the bottom of the shell 91 and forms a hydrogen-rich water accommodating space with the shell 91, and the base 92 is provided with a waste water discharge hole 921 for discharging the oxygen-rich water generated by the hydrogen-rich generating structure 93; the hydrogen rich generation structure 93 is provided in the hydrogen rich water containing space on the side close to the base 92.

Wherein the hydrogen rich generation structure 93 includes an upper electrode 931, a lower electrode 932, and an ion membrane 933. The upper electrode 931 is connected with the negative electrode of the power supply and is arranged on the base 92 through a waterproof rubber mat 934; the lower electrode 932 is connected with the positive electrode of the power supply and is arranged on the base 92 through a waterproof rubber mat 935; the ion membrane 933 is provided between the upper electrode 931 and the lower electrode 932, and serves to isolate the hydrogen-rich water and the oxygen-rich water. In this way, hydrogen generated by the upper electrode 931 during ionization can be well dissolved into the drinking water above the ion membrane 933 to form hydrogen-rich water, and oxygen generated by the lower electrode 932 during ionization can be well dissolved into the wastewater below the ion membrane 933 to form oxygen-rich water, and the oxygen-rich water is discharged from the wastewater discharge hole 921.

An observation window 911 through which the hydrogen rich generating structure 93 can be observed is provided on one side of the housing 91, and a reaction indicator lamp (not shown) is provided between the upper electrode 931 and the lower electrode 932 of the hydrogen rich generating structure 93. A user can observe whether the hydrogen rich production structure 93 is operating normally and the operating state of the reaction indicating lamp through the observation window 911. Specifically, the hydrogen rich generating structure 93 is fixed to the base 92 by a ring-shaped fixing member 922, and a waterproof installation hole 9221 for installing the reaction indicating lamp is provided in the ring-shaped fixing member 922. Thus, the user can judge whether the hydrogen rich generating structure 93 is operating normally by observing the bubbles generated from the upper electrode 931 and the state of the reaction indicating lamps around the hydrogen rich generating structure 93.

In order to further improve the working efficiency of the hydrogen rich generating structure 93, the ring-shaped fixing member 922 is further provided with water leakage holes 9222 so that water in the hydrogen rich water containing space leaks to the lower electrode 932 below the ion membrane 933, so that the lower electrode 932 can perform ionization operation well and discharge oxygen produced by ionization through the waste water discharge hole 921.

Since a user needs to observe the hydrogen generation condition of the hydrogen rich generating structure 93, the upper electrode 931 of the hydrogen rich generating structure 93 may be a circular upper electrode having a plurality of upper electrode through holes 9311, the arrangement density of the upper electrode through holes 9311 in the middle of the circular upper electrode should be greater than the arrangement density of the upper electrode through holes 9311 in the periphery of the circular upper electrode, and the size of the upper electrode through holes 9311 in the middle of the circular upper electrode should be smaller than the size of the upper electrode through holes 9311 in the periphery of the circular upper electrode. Referring to fig. 4a, fig. 4a is a schematic structural diagram of an upper electrode of a hydrogen-rich generating structure of a preferred embodiment of a hydrogen-rich generator corresponding to a water dispenser of the present invention.

In order to facilitate the user to observe the working state of the hydrogen rich generating structure, the number of the upper electrode through holes 9311 in the middle region of the circular upper electrode should be large, so that the hydrogen bubbles generated in the middle part of the hydrogen rich water containing space are large, and the user can easily observe the working state of the hydrogen rich generating structure 93 under the illumination of the reaction prompting lamp. If the user observes that the hydrogen bubbles generated in the region of the upper electrode 931 are less, this indicates that the hydrogen rich generating structure 93 is operating abnormally. The size of the upper electrode through hole 9311 in the middle of the circular upper electrode is set smaller than the size of the upper electrode through hole 9311 in the periphery of the circular upper electrode also in order to further increase the number of the upper electrode through holes 9311 in the middle region of the circular upper electrode.

Since the volume of the space under the ion membrane 933 is small and the space receives external water only through the water leakage holes 9222. To facilitate the discharge of the ionized oxygen, the lower electrode 932 of the hydrogen-rich generating structure 93 may be a circular lower electrode having a plurality of lower electrode through holes 9321, the lower electrode through holes 9321 on the circular lower electrode being uniformly disposed on the entire circular lower electrode; referring to fig. 4b, fig. 4b is a schematic structural diagram of a lower electrode of a hydrogen-rich generating structure of a preferred embodiment of a hydrogen-rich generator corresponding to the water dispenser of the present invention. The ionized oxygen gas can be uniformly dissolved into the waste water in the space under the ion membrane 933, so that the waste water discharged through the waste water discharge holes 921 can take out the ionized oxygen gas to the maximum extent.

When the water dispenser of the preferred embodiment is used, purified water to be treated enters the water tank 2 through the barreled water inlet nozzle 4 or the purified water inlet nozzle 5, and then the purified water to be treated in the water tank 2 is filtered through the water tank filter element 3 and the filter element 11 under the driving of the water generator 6, and the filtered purified water is stored in the purified water tank 12.

Then, the purified water in the pure water tank 12 is fed to the hydrogen-rich generator 9 to be subjected to hydrotreating. That is, the upper and lower electrodes of the hydrogen-rich water generating structure 93 directly perform an electrolysis operation on purified water in the hydrogen-rich water accommodating space, so that generated hydrogen gas is dissolved into purified water above the ion film 933, and generated oxygen gas is dissolved into purified water below the ion film 933, to form wastewater. The waste water is discharged to the water receiving tray 10 through the waste water discharge holes 921 of the base 92, and the purified water below the ion membrane 933 is supplemented through the water leakage holes 9222 of the ring-shaped fixing member 922.

The user can check the operating state of the hydrogen rich generating structure 93 through the observation window, and specifically, can check whether a large amount of bubbles are generated on the surface of the upper electrode 931 through the illumination of the reaction prompting lamp.

The purified water in the hydrogen-rich water containing space is subjected to hydrogenation treatment, then is input into a heater 7 of the water dispenser for heating treatment, and finally is output through a drinking output port 201 of the gas-water separation device 20 of the water outlet structure, and because a large amount of water vapor is generated due to heating, a circulating output port 203 of the gas-water separation device 20 returns redundant water vapor to be input into the purified water tank 12 for recycling.

Thus, the purified water treatment processes of the filtration treatment, the hydrogen enrichment treatment and the heating treatment of the water dispenser of the preferred embodiment are completed.

The hydrogen-rich generator and the corresponding water dispenser can conveniently perform hydrogen-rich treatment on the drinking water, and effectively solve the technical problem that the existing water dispenser cannot perform hydrogen-rich treatment on the drinking water.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims (8)

1. A hydrogen-rich generator, comprising:

the water inlet and the water outlet are arranged on the shell;

the base is arranged at the bottom of the shell and forms a hydrogen-rich water containing space with the shell; and

a hydrogen-rich water containing space provided in the base and containing hydrogen;

wherein the hydrogen-rich production structure comprises:

the upper electrode is connected with the negative electrode of the power supply and is arranged on the base through a waterproof rubber mat;

the lower electrode is connected with the positive electrode of the power supply and is arranged on the base through a waterproof rubber mat;

the ion film is arranged between the upper electrode and the lower electrode and is used for isolating hydrogen-rich water and oxygen-rich water;

wherein one side of the shell is provided with an observation window through which the hydrogen-rich generating structure can be observed, and a reaction prompting lamp is arranged between an upper electrode and a lower electrode of the hydrogen-rich generating structure;

the hydrogen-rich water storage space comprises an upper electrode, a circular upper electrode and a circular upper electrode, wherein the upper electrode is provided with a plurality of upper electrode through holes, the arrangement density of the upper electrode through holes in the middle of the circular upper electrode is greater than that of the upper electrode through holes on the periphery of the circular upper electrode, and the size of the upper electrode through holes in the middle of the circular upper electrode is smaller than that of the upper electrode through holes on the periphery of the circular upper electrode, so that more hydrogen bubbles are generated in the middle of the hydrogen-rich water storage space.

2. The hydrogen-rich generator of claim 1, wherein the base is provided with a waste water discharge hole for discharging oxygen-rich water generated by the hydrogen-rich production structure.

3. The hydrogen-rich generator according to claim 2, wherein the hydrogen-rich generating structure is fixed to the base by a ring-shaped fixing member having a waterproof setting hole for placing the reaction indicator lamp.

4. The hydrogen-rich generator of claim 3, wherein said annular fixture is provided with water drain holes so that said lower electrode discharges ionized oxygen through a waste water discharge hole.

5. The hydrogen-rich generator of claim 1, wherein the lower electrode is a circular lower electrode having a plurality of lower electrode through holes, and the lower electrode through holes of the circular lower electrode are uniformly arranged throughout the circular lower electrode.

6. A water dispenser, characterized in that it comprises:

the water filtering structure is used for filtering the drinking water;

the heating structure is used for heating the drinking water;

the hydrogen-rich generator is arranged between the water filtering structure and the heating structure and is used for carrying out hydrotreatment on the drinking water;

wherein the hydrogen-rich generator comprises:

the water inlet and the water outlet are arranged on the shell;

the base is arranged at the bottom of the shell and forms a hydrogen-rich water containing space with the shell; and

a hydrogen-rich water containing space provided in the base and containing hydrogen; wherein the hydrogen-rich production structure comprises:

the upper electrode is connected with the negative electrode of the power supply and is arranged on the base through a waterproof rubber mat;

the lower electrode is connected with the positive electrode of the power supply and is arranged on the base through a waterproof rubber mat;

the ion film is arranged between the upper electrode and the lower electrode and is used for isolating hydrogen-rich water and oxygen-rich water;

wherein one side of the shell is provided with an observation window through which the hydrogen-rich generating structure can be observed, and a reaction prompting lamp is arranged between an upper electrode and a lower electrode of the hydrogen-rich generating structure;

the hydrogen-enriched water storage space is provided with an upper electrode, the upper electrode is a circular upper electrode with a plurality of upper electrode through holes, the arrangement density of the upper electrode through holes in the middle of the circular electrode is larger than that of the upper electrode through holes on the periphery of the circular electrode, and the size of the upper electrode through holes in the middle of the circular electrode is smaller than that of the upper electrode through holes on the periphery of the circular electrode, so that more hydrogen bubbles are generated in the middle of the hydrogen-enriched water storage space.

7. The water dispenser of claim 6 further comprising a water outlet structure comprising a drinking outlet for outputting drinking water, an inlet connected to the heating structure, and a circulation outlet connected to the water filtering structure.

8. The water dispenser of claim 6, wherein the lower electrode is a circular lower electrode having a plurality of lower electrode through holes, and the lower electrode through holes on the circular lower electrode are uniformly arranged on the whole circular lower electrode.

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