CN216367451U - Water purifying drinking machine with hydrogen production function - Google Patents

Abstract

The utility model relates to a water purifying drinking machine with hydrogen production function, which comprises a filter element component communicated and filtered with external tap water, a drinking water storage tank communicated with the filter element component and a hydrogen production component, the hydrogen outlet of the hydrogen production assembly is sequentially communicated with a hydrogen dissolving device for scattering hydrogen molecules into micro-nano hydrogen bubbles and dissolving the micro-nano hydrogen bubbles with water, a first self-sucking pump for boosting and improving the hydrogen solubility, a fifth water inlet electromagnetic valve and an aeration head for assisting the first self-sucking pump to form bubble hydrogen-rich water, the first self-sucking pump is matched with the aeration head to form nanoscale bubble hydrogen-rich water, so that the concentration of the hydrogen-rich water is improved, and the taste of the hydrogen-rich water is improved; in addition, the water purifying drinking machine has various functional forms, meets the multi-level requirements of users, and improves the user experience.

Description

Water purifying drinking machine with hydrogen production function

Technical Field

The utility model relates to the technical field of drinking equipment, in particular to a water purifying dispenser with a hydrogen production function.

Background

In recent years, with the improvement of living standard of people, drinking water is not only required for quenching thirst, but also the quality of water and whether the water contains health elements beneficial to human bodies become important points of attention of people. Therefore, on the basis of water purification, the water purification device has the functions of adding mineral water, hydrogen-rich water, bubble water and the like, so that consumers can enjoy beneficial element water with different tastes and experiences, and the trend of market development is bound to be achieved.

The hydrogen-rich water has stronger reduction function because a proper amount of hydrogen is dissolved in the water, can neutralize malignant free radicals in body blood and cells, prevents the free radicals from damaging the cells, is easy to enter cell channels, participates in metabolism in the new city, promotes cell detoxification, increases the hydration of the cells, improves the immunity of a human body, has remarkable treatment and prevention effects on the melting of gallstones, cardiovascular and cerebrovascular diseases, cerebral arteriosclerosis, hypertension, diabetes, cancer, improvement of the physiological cycle of women, gastrointestinal circulation and constipation, elimination of female climacteric symptoms, elimination of body toxins and the like, and can also effectively prevent and even treat various diseases; meanwhile, the micromolecular water is easy to be absorbed by human cells, can promote the growth of animals and plants and inhibit tumor cells, and can kill bacteria in water by the principle, so that the water body is more suitable for the requirements of people.

In the prior art, although water containing hydrogen also exists, the content of hydrogen in the beverage is often less, and hydrogen is continuously separated out in the process of being dissolved into the beverage, so that the phenomena of long production time, low efficiency, poor gas filling effect and the like are caused. In addition, wherein the electrolytic water machine has been researched and developed on the market and has been carried out the electrolysis to water, and hydrogen-rich water machine is the more electrolytic water machine product of circulation on the market, and although hydrogen-rich water machine on the market can realize producing hydrogen-rich water, the taste of hydrogen-rich water is single, and its function is also comparatively single, can't satisfy user's multi-level needs, influences user's experience.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problems of how to increase the hydrogen content in the hydrogen-rich water, how to increase the taste of the hydrogen-rich water and how to meet various drinking water requirements of users.

In order to solve the problems, the utility model provides a water purifying and drinking machine with a hydrogen production function, which comprises a filter element assembly, a drinking water storage tank and a hydrogen production assembly, wherein the filter element assembly is communicated with external tap water and is used for filtering, the drinking water storage tank is communicated with the filter element assembly, the hydrogen production assembly is used for producing hydrogen, a hydrogen dissolver used for scattering hydrogen molecules into micro-nano hydrogen bubbles and dissolving the hydrogen bubbles into water, a first self-sucking pump used for boosting and improving the solubility of the hydrogen, a fifth water inlet electromagnetic valve and an aeration head used for assisting the first self-sucking pump to form bubble hydrogen-enriched water are sequentially communicated with a hydrogen outlet of the hydrogen production assembly through pipelines, the water outlet end of the drinking water storage tank is divided into a first water channel branch and a second water channel branch through a multi-way pipe, the first water channel branch is communicated with the direct drinking hydrogen dissolver to supply water, and the second water channel branch is sequentially communicated with a sixth water inlet electromagnetic valve and a water outlet faucet.

The utility model has the beneficial effects that: according to the utility model, pure water after filtration is adopted for electrolytic hydrogen production, micro-nano bubbles are physically dissolved with hydrogen through a hydrogen dissolver to improve the solubility and the storage time of the hydrogen, the dissolved concentration of the hydrogen is further improved through pressurization of a first self-sucking pump, and simultaneously, the first self-sucking pump is matched with an aeration head to form nano-scale bubble hydrogen-rich water, so that the taste of the hydrogen-rich water is improved while the concentration of the hydrogen-rich water is improved; in addition, the water purifying drinking machine has various functional forms, meets the multi-level requirements of users, and improves the user experience.

As preferred, the filter element group spare includes the cotton filter core of first PP, CTO filter core, the cotton filter core of third PP, first solenoid valve of intaking, second self priming pump, RO membrane filter core, third water intake solenoid valve and T33 filter core that put through in proper order through the pipeline, the end of intaking of drinking the storage water tank is put through with the play water end of T33 filter core, the play water end of drinking the storage water tank is put through on the pipeline between first water intake solenoid valve and second self priming pump through third branch water route, it has the second solenoid valve of intaking to connect on the third branch water route, the end of intaking of hydrogen manufacturing subassembly through behind the pipe connection fourth water intake solenoid valve with the pipeline switch-on between RO membrane filter core and the third water intake solenoid valve, introduce the RO membrane filter core through the fourth solenoid valve of intaking and carry out the RO membrane filtration of second time, provide the brineelectrolysis that meets the requirements for the electrolysis trough.

Preferably, a wastewater electromagnetic valve is communicated with the RO membrane filter element and is used for flushing the RO membrane filter element.

Preferably, the hydrogen production assembly comprises a hydrogen production water tank and an electrolytic tank which are sequentially communicated, a first water level monitor, a TDS probe and a third thermometer are arranged in the hydrogen production water tank, a hydrogen outlet of the electrolytic tank is communicated with the hydrogen dissolving device through a pipeline, and hydrogen produced by the hydrogen production assembly is conveyed to the hydrogen dissolving device to produce hydrogen-rich water.

As preferred, dissolve hydrogen chamber in having in the hydrogen ware, be equipped with the micropore board in dissolving the hydrogen ware, the micropore board will dissolve the hydrogen chamber and divide into intake antrum and air inlet chamber, the hydrogen export of hydrogen manufacturing subassembly and the chamber switch-on of admitting air, drink the water storage tank and pass through first water route branch and intake antrum switch-on, will dissolve the hydrogen chamber through setting up of micropore board and divide into intake antrum and air inlet chamber, the hydrogen of air inlet intracavity is broken up through the micropore board and is dissolved in the water of intake intracavity behind the micro-nano bubble to promote the solubility of hydrogen.

As preferred, it has water route control by temperature change switching module still to put through between drinking storage water tank and the multi-ported pipe, water route control by temperature change switching module includes diverter valve, refrigeration courage and heats the courage, the refrigeration courage is put through to have the compressor that is used for refrigeration and carries cold air, it has connect the heater that is used for heating to heat the courage, it puts through with refrigeration courage or the courage switch-on respectively through the diverter valve to drink the storage water tank, be equipped with the second thermometer in the refrigeration courage, be equipped with first thermometer in the courage of heating to provide the pure water or the hydrogen-rich water of suitable temperature for the user.

Preferably, a second water level monitor is further arranged in the drinking water storage tank.

Preferably, the device also comprises a purified drinking machine body, wherein the aerator and the direct drinking water outlet tap are arranged on the purified drinking machine body, and the hydrogen production assembly, the filter element assembly, the drinking water storage tank, the hydrogen dissolving device, the first self-priming pump and the fifth water inlet electromagnetic valve are arranged in the purified drinking machine body.

Preferably, the hydrogen dissolver is of a hollow tubular structure, the microporous plate is also of a hollow tubular structure, the inner hollow of the microporous plate tube is used as a water inlet cavity, and a gas inlet cavity is formed between the outside of the microporous plate tube and the inside of the hydrogen dissolver tube.

Drawings

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

FIG. 2 is a control diagram of the present invention;

FIG. 3 is a layout view of the water purifying dispenser of the present invention;

FIG. 4 is a schematic sectional view of a hydrogen dissolver according to embodiment 1 of the present invention;

fig. 5 is a schematic cross-sectional view of a hydrogen dissolver according to embodiment 2 of the present invention.

Description of reference numerals:

1. a filter element assembly; 1.1, a first PP cotton filter element; 1.2, a CTO filter element; 1.3, a third PP cotton filter element; 1.4, a first water inlet electromagnetic valve; 1.5, a second self-priming pump; 1.6, an RO membrane filter element; 1.7, a third water inlet electromagnetic valve; 1.8, T33 filter element; 2. a drinking water storage tank; 3. a hydrogen-producing component; 3.1, a hydrogen production water tank; 3.2, an electrolytic cell; 3.3, a first water level monitor; 3.4, TDS probe; 3.5, a third thermometer; 4. a hydrogen dissolver; 4.1, a microporous plate; 4.2, a water inlet cavity; 4.3, an air inlet cavity; 5. a first self-priming pump; 6. a fifth water inlet electromagnetic valve; 7. an aeration head; 8. a multi-pass tube; 9. a first waterway branch; 10. a second waterway branch; 11. a sixth water inlet solenoid valve; 12. a direct drinking water outlet tap; 13. a third branch waterway; 14. a second water inlet solenoid valve; 15. a fourth water inlet electromagnetic valve; 16. a wastewater solenoid valve; 17. a waterway temperature control switching component; 17.1, a switching valve; 17.2, a refrigerating liner; 17.3, heating the liner; 17.4, a compressor; 17.5, a heater; 17.6, a second thermometer; 17.7, a first thermometer; 18. a second water level monitor; 19. purifying the drinking machine body; 20. and displaying a control screen.

Detailed Description

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

Detailed description of the preferred embodiment 1

As shown in fig. 1-4, a water purification drinking machine with hydrogen production function comprises a filter element assembly 1 communicated and filtered with external tap water, a drinking water storage tank 2 communicated with the filter element assembly 1, and a hydrogen production assembly 3 for producing hydrogen, wherein a hydrogen outlet of the hydrogen production assembly 3 is sequentially communicated with a hydrogen dissolver 4 for scattering hydrogen molecules into micro-nano hydrogen bubbles and dissolving the micro-nano hydrogen bubbles into water, a first self-priming pump 5 for increasing pressure and improving hydrogen solubility, a fifth water inlet electromagnetic valve 6, and an aeration head 7 for assisting the first self-priming pump to form bubble hydrogen-rich water through a pipeline, and the aeration head also has throttling effect, so that the first self-priming pump is prevented from being incapable of working due to too large flow velocity;

the filter element assembly 1 comprises a first PP cotton filter element 1.1, a CTO filter element 1.2, a third PP cotton filter element 1.3, a first water inlet electromagnetic valve 1.4, a second self-priming pump 1.5, an RO membrane filter element 1.6, a third water inlet electromagnetic valve 1.7 and a T33 filter element 1.8 which are sequentially communicated through a pipeline;

the water inlet end of the drinking water storage tank 2 is communicated with the water outlet end of a T33 filter element 1.8 to store water after filtering and purification, a second water level monitor 18 is arranged in the drinking water storage tank 2 to detect the water level in the drinking water storage tank 2, the water outlet end of the drinking water storage tank 2 is divided into a first water path branch 9 and a second water path branch 10 through a multi-way pipe 8, the first water path branch 9 is communicated with a hydrogen dissolver 4 to supply water, and the second water path branch 10 is sequentially communicated with a sixth water inlet electromagnetic valve 11 and a direct drinking water outlet faucet 12; the water purifying and drinking machine has the functions of preparing pure water and bubble hydrogen-rich water, and provides multiple choices for the drinking water requirements of users;

the hydrogen production component 3 comprises a hydrogen production water tank 3.1 and an electrolytic bath 3.2 which are sequentially communicated, the water inlet end of the hydrogen production water tank 3.1 is communicated with a pipeline between an RO membrane filter core 1.6 and a third water inlet electromagnetic valve 1.7 after being communicated with a fourth water inlet electromagnetic valve 15 through the pipeline, through detection, the TDS value of the outside tap water with the TDS of 500 is reduced to 25 after being sequentially filtered by a first PP cotton filter core 1.1, a CTO filter core 1.2, a third PP cotton filter core 1.3 and the RO membrane filter core 1.6, in order to provide the water quality requirement of the electrolytic water of the electrolytic bath 3.2, the water outlet end of the drinking water storage tank 2 is communicated on the pipeline between the first water inlet electromagnetic valve 1.4 and a second self-priming pump 1.5 through a third branch water channel 13, the third branch water inlet electromagnetic valve 13 is communicated with a second water inlet electromagnetic valve 14, therefore, the water in the drinking water storage tank 2 enters the RO membrane filter core 1.6 under the conveying of the third branch water channel 13 under the action of the second water inlet electromagnetic valve 14 to be filtered by an RO membrane for the second RO membrane, the TDS value after filtration is 1, and then the filtered TDS value enters a hydrogen production water tank 3.1 under the action of a fourth water inlet electromagnetic valve 15 to be used for electrolysis of an electrolytic bath 3.2; in order to ensure the filtering effect of the RO membrane filter element 1.6, a wastewater electromagnetic valve 16 is communicated with the RO membrane filter element 1.6 and is used for washing the RO membrane filter element 1.6;

in the electrolytic working process of the electrolytic tank 3.2, the cathode and the anode used for electrolytic working adsorb soluble substances in water, so that the water quality of the electrolytic water is further ensured; in addition, in order to monitor the water level, water quality and temperature in the hydrogen production water tank 3.1, a first water level monitor 3.3, a TDS probe 3.4 and a third thermometer 3.5 are arranged in the hydrogen production water tank 3.1;

a hydrogen outlet of the electrolytic cell 3.2 is communicated with the hydrogen dissolver 4 through a pipeline, and hydrogen produced by the hydrogen production assembly 3 is conveyed to the hydrogen dissolver 4 to produce hydrogen-rich water; in order to improve the solubility of hydrogen in the hydrogen dissolver 4, a hydrogen dissolving cavity is arranged in the hydrogen dissolver 4, a microporous plate 4.1 is arranged in the hydrogen dissolver 4, the microporous plate 4.1 divides the hydrogen dissolving cavity into a water inlet cavity 4.2 and an air inlet cavity 4.3, a hydrogen outlet of the hydrogen production assembly 3 is communicated with the air inlet cavity 4.3, the drinking water storage tank 2 is communicated with the water inlet cavity 4.2 through a first water path branch 9, the hydrogen dissolving cavity is divided into the water inlet cavity 4.2 and the air inlet cavity 4.3 through the arrangement of the microporous plate 4.1, and hydrogen in the air inlet cavity 4.3 is dispersed into micro-nano bubbles through the microporous plate 4.1 and then dissolved in water in the water inlet cavity 4.2;

still the switch-on has water route control by temperature change switching module 17 between drinking storage water tank 2 and the multi-ported pipe 8, water route control by temperature change switching module 17 includes diverter valve 17.1, refrigeration courage 17.2, heats courage 17.3, refrigeration courage 17.2 switch-on has the compressor 17.4 that is used for refrigeration and carries cold air, it connects the heater 17.5 that is used for heating to heat courage 17.3, drinking storage water tank 2 is through diverter valve 17.1 respectively with refrigeration courage 17.2 or heat courage 17.3 switch-on, be equipped with second thermometer 17.6 in the refrigeration courage 17.2, be equipped with first thermometer 17.7 on the heating courage 17.3 to provide the pure water or the hydrogen-rich water of suitable temperature for the user.

In addition, the water purifying and drinking machine further comprises a water purifying and drinking machine body 19, the aerator 7 and the direct drinking water outlet faucet are arranged on a front end operation surface of the water purifying and drinking machine body 19, a display control screen 20 is further arranged on the front end operation surface, and the display control screen 20 is electrically connected with the display control screen for control and display, wherein the first water inlet electromagnetic valve 1.4, the second water inlet electromagnetic valve 14, the third water inlet electromagnetic valve 1.7, the fourth water inlet electromagnetic valve 15, the fifth water inlet electromagnetic valve 6, the sixth water inlet electromagnetic valve 11, the first self-sucking pump 5, the second self-sucking pump 1.5, the first thermometer 17.7, the second thermometer 17.6, the first water level monitor 3.3, the second water level monitor 18, the switching valve 17.1, the heater 17.5 and the electrolytic bath 3.2; as shown in the figure, 19 inside first putting board, second in proper order and putting board, third of putting of purified drink machine body from top to bottom put the board, drink storage water tank 2 and establish on first putting the board, refrigeration courage 17.2, heating courage 17.3 and second self priming pump 1.5 establish on the board is put to the second, hydrogen manufacturing subassembly 3 and filter element group 1 establish on the board is put to the third, compressor 17.4, the bottom of first self priming pump 5 in 19 in purified drink machine bodies.

Specific example 2

As shown in fig. 5, the present embodiment is different from embodiment 1 in that the hydrogen dissolver 4 has a hollow tubular structure, the microporous plate 4.1 also has a hollow tubular structure, the interior of the microporous plate 4.1 is hollow as the water inlet cavity 4.2, and the air inlet cavity 4.3 is formed between the exterior of the microporous plate and the interior of the hydrogen dissolver.

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

Claims (9)

1. The utility model provides a water purification drink machine with hydrogen manufacturing function, its characterized in that includes filter element group spare (1) that switches on and filterable with external running water, drink storage water tank (2) and hydrogen manufacturing subassembly (3) that are used for making hydrogen with filter element group spare (1) switch-on, the hydrogen outlet of hydrogen manufacturing subassembly (3) connects gradually through the pipeline has hydrogen dissolving device (4) that are used for scattering the hydrogen molecule to be micro-nano hydrogen bubble and dissolve with water, is used for the pressure boost to improve first self priming pump (5) of hydrogen solubility, fifth water inlet solenoid valve (6) and is used for assisting first self priming pump (5) to form bubble hydrogen-rich water's aeration head (7), the play water end of drinking storage water tank (2) divides into first water route branch (9) and second water route branch (10) through multi-pass pipe (8), first water route branch (9) and hydrogen dissolving device (4) switch-on in order to supply water, and the second waterway branch (10) is sequentially communicated with a sixth water inlet electromagnetic valve (11) and a direct drinking water outlet faucet (12).

2. The water purifier with hydrogen production function according to claim 1, wherein the filter element assembly (1) comprises a first PP cotton filter element (1.1), a CTO filter element (1.2), a third PP cotton filter element (1.3), a first water inlet solenoid valve (1.4), a second self-priming pump (1.5), an RO membrane filter element (1.6), a third water inlet solenoid valve (1.7) and a T33 filter element (1.8) which are sequentially connected through a pipeline, the water inlet end of the drinking water storage tank (2) is connected with the water outlet end of the T33 filter element (1.8), the water outlet end of the drinking water storage tank (2) is connected with the pipeline between the first water inlet solenoid valve (1.4) and the second self-priming pump (1.5) through a third branch water pipeline (13), a second water inlet solenoid valve (14) is connected with the third branch water pipeline (13), and the water inlet end of the hydrogen production water inlet assembly (3) is connected with the water inlet solenoid valve (1.6) and the RO membrane filter element (1.7) through the pipeline after being connected with the fourth water inlet solenoid valve (15).

3. The water purifying drinking machine with hydrogen production function as claimed in claim 2, characterized in that the RO membrane filter element (1.6) is connected with a waste water electromagnetic valve (16).

4. The water purifier with hydrogen production function according to claim 1, wherein the hydrogen production assembly (3) comprises a hydrogen production water tank (3.1) and an electrolytic tank (3.2) which are sequentially communicated, a first water level monitor (3.3), a TDS probe (3.4) and a third thermometer (3.5) are arranged in the hydrogen production water tank (3.1), and a hydrogen outlet of the electrolytic tank (3.2) is communicated with a hydrogen dissolving device (4) through a pipeline.

5. The water purifier with hydrogen production function according to claim 1, wherein the hydrogen dissolving device (4) is internally provided with a hydrogen dissolving cavity, a microporous plate (4.1) is arranged in the hydrogen dissolving device (4), the microporous plate (4.1) divides the hydrogen dissolving cavity into a water inlet cavity (4.2) and an air inlet cavity (4.3), a hydrogen outlet of the hydrogen production assembly (3) is communicated with the air inlet cavity (4.3), and the drinking water storage tank (2) is communicated with the water inlet cavity (4.2) through a first water path branch (9).

6. The water purifier with hydrogen production function according to claim 5, wherein the hydrogen dissolver (4) is of a hollow tubular structure, the microporous plate (4.1) is also of a hollow tubular structure, the inner of the microporous plate (4.1) is hollow as the water inlet cavity (4.2), and the air inlet cavity (4.3) is formed between the outside of the microporous plate and the inside of the hydrogen dissolver.

7. The water purifying and drinking machine with the hydrogen production function according to claim 1, wherein a waterway temperature control switching assembly (17) is further communicated between the drinking water storage tank (2) and the multi-way pipe (8), the waterway temperature control switching assembly (17) comprises a switching valve (17.1), a refrigerating liner (17.2) and a heating liner (17.3), the refrigerating liner (17.2) is communicated with a compressor (17.4) for refrigerating and delivering cold air, the heating liner (17.3) is connected with a heater (17.5) for heating, the drinking water storage tank (2) is respectively communicated with the refrigerating liner (17.2) or the heating liner (17.3) through the switching valve (17.1), a second thermometer (17.6) is arranged in the refrigerating liner (17.2), and a first thermometer (17.7) is arranged in the heating liner (17.3).

8. The water purifier with hydrogen production function according to claim 1, wherein a second water level monitor (18) is further arranged in the drinking water storage tank (2).

9. The water purifier with hydrogen production function according to claim 1, further comprising a water purifier body (19), wherein the aeration head (7) and the direct drinking water tap (12) are disposed on the water purifier body (19), and the hydrogen production assembly (3), the filter element assembly (1), the drinking water storage tank (2), the hydrogen dissolver (4), the first self-priming pump (5) and the fifth water inlet solenoid valve (6) are disposed in the water purifier body (19).

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