CN215480163U - Hydrogen-rich water dispenser with barreled type and pipeline type sterilization functions - Google Patents

Abstract

The utility model provides a compromise barreled formula and pipeline formula and have hydrogen-rich water dispenser of function of disinfecting includes: the hydrogen-enriched water dispenser comprises a water dispenser body, a first water inlet pipe, an air adding pipe, a water storage tank, a hydrogen-enriched water generating unit and a hydrogen bag, wherein one end of the first water inlet pipe is positioned outside the water dispenser body, the other end of the first water inlet pipe is communicated with the water storage tank, the air adding pipe is positioned outside the water dispenser body, one end of the air adding pipe is connected with a first valve and then extends into the water dispenser body to be communicated with the hydrogen bag, and the other end of the air adding pipe is connected with a second valve; a water outlet of the water storage tank is communicated with a water inlet of the hydrogen-rich water generating unit through a water conveying pipe; the water outlet of the hydrogen-rich water generating unit is connected with a water outlet tap outside the water dispenser body through a water outlet pipe. The advantages are that: can satisfy the long-term requirement that can obtain hydrogen-rich water of use barreled water person, also can satisfy and use the water purifier to carry out the demand that continuous moisturizing person used hydrogen-rich water, sustainable sterilization guarantees the cleanness of people's drinking water, avoids the inconvenience of regular washing to the water dispenser.

Description

Hydrogen-rich water dispenser with barreled type and pipeline type sterilization functions

Technical Field

The utility model relates to the technical field of energy storage systems, in particular to a hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function.

Background

The hydrogen has the functions of anti-inflammation and anti-oxidation, has no side effect, is easy to obtain and convenient to inhale, and is an ideal option for resisting virus infection. The university of medical science in Hebei made a random control double blind experiment on 96 healthy non-smoking sanitation workers in Shijiazhuang in 2006. As a result, the hydrogen inhalation treatment is helpful for reducing the inflammatory level related to the oxidative stress injury of the airway and improving the symptoms of the respiratory system such as cough. Animal experiment research of students of Shenyang Chinese medical university in 2013 proves that animal sepsis lung injury can be controlled by breathing hydrogen. The 2016 university scholars of Tianjin medical further confirmed the role of hydrogen in the rescue of acute septic lung injury. In 2018, experimental studies of Guangzhou respiratory disease research institute show that hydrogen absorption (mixed with hydrogen and oxygen) can inhibit airway mucus accumulation and inflammatory cell infiltration, reduce inflammatory factors in tracheal alveolar lavage fluid BALF and reduce airway resistance. In 20 lung cancer patients, who did not receive any treatment for 2 weeks and who took only hydrogen, it was surprisingly found that the "cellular immunity" was improved in almost all patients, especially natural killer cells and T cells. Of the viruses that invade, the two cells are most important.

Water is a life source, about 70 percent of human bodies are water, and clean drinking water is very important for the health of people. When the existing water fountain is used, water is exposed to the air, and germs in the air are dissolved in the water, so that the cleanliness of the water is affected; the germs in the water can still breed in the air environment, so that the existing barreled water dispenser has great sanitation risk.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function, and aims to at least overcome the technical defect.

In order to realize the purpose of the utility model, the utility model provides the following technical scheme:

the utility model provides a compromise barreled formula and pipeline formula and have hydrogen-rich water dispenser of function of disinfecting includes: the water dispenser comprises a water dispenser body, a first water inlet pipe, an air adding pipe, a water storage tank, a hydrogen-rich water generating unit and a hydrogen bag, wherein the water storage tank, the hydrogen-rich water generating unit and the hydrogen bag are sequentially arranged in the water dispenser body from top to bottom;

the water outlet of the water storage tank is communicated with the water inlet of the hydrogen-rich water generation unit through a water delivery pipe, a branch pipe extending into the water dispenser body is connected to a pipe section of the gas adding pipe between the first valve and the second valve, a venturi ejector is arranged at the other end of the branch pipe, the venturi ejector is connected with the water delivery pipe, and a one-way valve is arranged on a pipe section of the water delivery pipe positioned at the upper part of the venturi ejector;

the water outlet of the hydrogen-rich water generating unit is connected with a water outlet tap outside the water dispenser body through a water outlet pipe.

Furthermore, the hydrogen-rich water generating unit comprises a cooler, a heater, a first emptying pipe and a second emptying pipe, wherein water inlets of the cooler and the heater are respectively communicated with two water outlets of the water storage tank through two water conveying pipes, water outlets of the cooler and the heater are respectively connected with two water outlets through a water outlet pipe, and the water outlets are positioned outside the water dispenser body;

gaps are reserved between the water outlet of the cooler and the water outlet of the heater and the tops of the cooler and the heater respectively, and the gaps are used for storing gas;

the first emptying pipe and the second emptying pipe are respectively communicated with the cooler and the top of the heater, and the other end of the first emptying pipe and the other end of the second emptying pipe are respectively connected with a third valve and a fourth valve.

Furthermore, one end of the branch pipe, which is far away from the gas filling pipe, is divided into two paths, one path is connected with one venturi ejector and then communicated with one water pipe, and the water pipe is communicated with the cooler, the other path is connected with the other venturi ejector and then communicated with the other water pipe, and the water pipe is communicated with the heater; and the water outlet pipe connected with the cooler and the heater is communicated with the two pipelines on the branch pipe through a vent pipe.

Furthermore, four branches are arranged at one end of each branch pipe, which is far away from the gas filling pipe, wherein one ends of the two branches, which are far away from the branch pipes, are respectively communicated with a water outlet pipe connected with the cooler and the heater, and three check valves are arranged on the two branches; the other two branches are positioned at the tail ends of the branch pipes, and one ends of the other two branches, which are far away from the branch pipes, are respectively communicated with the water conveying pipes connected with the cooler and the heater, and four check valves are respectively arranged on the two branches; and the branch pipe is provided with an air pump which is positioned between the third check valve and the fourth check valve.

Further, still including set up in clever seat at water storage tank top, the cask that is used for adorning the pure water, liquid level control moisturizing device, the cask install in on the clever seat, liquid level control moisturizing device is located the water dispenser body with between the water storage tank on the pipeline section of inlet tube.

Further, still include ball-cock assembly, No. two inlet tubes, No. two check valves, suction pump, be used for adorning the cask of pure water, the ball-cock assembly be located in the storage water tank, and with be located in the storage water tank the pipe section of an inlet tube is connected, the water inlet of storage water tank lower part passes through No. two inlet tubes with the cask intercommunication, the cask is located this internal lower part of water dispenser, and be located below the hydrogen bag, from last down connecting gradually on No. two inlet tubes No. two check valves the suction pump.

Further, the hydrogen-rich water generating unit further comprises two sewage pipes and two plugs, wherein the two sewage pipes are located at the outer part of the water dispenser body, one ends of the two sewage pipes are respectively communicated with the cooler and the sewage outlet at the bottom of the heater, and the other ends of the two sewage pipes are respectively connected with one plug.

Furthermore, one end of the first water inlet pipe, which is positioned outside the water dispenser body, is connected with a fifth valve.

Further, an ozone generator is arranged in the water storage tank.

The utility model discloses a hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function, and the hydrogen-rich water dispenser has the advantages that: this water dispenser adopts water dispenser body + clever seat + storage water tank + ozone generator + liquid level controller + water temperature regulator (including cooler or heater) + venturi ejector + hydrogen bag's scheme, make them form an open space and confined space and combine together, hydrogen can cyclic utilization add water, disinfect and generate hydrogen-rich water's complete system, can satisfy the long-term requirement that uses barreled water person can obtain hydrogen-rich water, also can satisfy the demand that uses the water purifier to carry out continuous moisturizing person and use hydrogen-rich water, sustainable sterilization simultaneously, guarantee the cleanness of people's drinking water, avoid the abluent inconvenience of regular pair water dispenser.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. In the drawings:

FIG. 1 is a schematic structural diagram according to a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram according to a second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a third embodiment of the present invention;

wherein:

the water dispenser comprises a water dispenser body 1 and a fifth valve 11;

a first water inlet pipe 2 and a ball float valve 21;

the air filling pipe 3, a first valve 31, a second valve 32, a branch pipe 33, a third check valve 33a, a fourth check valve 33b, an air pump 33c, a Venturi ejector 34 and an air pipe 35;

a water storage tank 4, a smart seat 41, a water bucket 42, a water guide pipe 41a, a liquid level control water replenishing device 43 and an ozone generator 44;

the hydrogen-rich water generating unit 5, the cooler 51, the heater 52, the first emptying pipe 53, the third valve 531, the second emptying pipe 54, the fourth valve 541, the sewage discharge pipeline 55 and the plug 56;

a hydrogen bag 6, a water delivery pipe 7 and a first check valve 71;

a water outlet pipe 8 and a water outlet faucet 81;

a second water inlet pipe 9, a second check valve 91 and a water pump 92.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

This device has overcome current water dispenser neither has the function of disinfecting, also can not generate hydrogen-rich water, and barreled water dispenser can not connect the water purifier pipeline to carry out continuous moisturizing, the barreled pure water can not be used to pipeline formula water dispenser, defects such as hydrogen-rich water dispenser can not trade the bucket, combine hydrogen-rich water dispenser and ordinary water dispenser's function together, and increase electrolysis water sterilizing equipment, make this water dispenser both can use as traditional barreled water dispenser, also can use as pipeline formula water dispenser, still have the function of disinfecting and generating hydrogen-rich water, make people all can acquire the aseptic in succession in each occasion, high concentration hydrogen-rich water, be free from the unpick and wash to water dispenser, it is more convenient to use.

The first embodiment is as follows:

in order to make people who use both barreled water and pipeline water obtain continuous hydrogen-rich water, according to the figure 1, the utility model relates to a hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function, comprising: the hydrogen-enriched water dispenser comprises a water dispenser body 1, a first water inlet pipe 2, an air adding pipe 3, a water storage tank 4, a hydrogen-enriched water generating unit 5 and a hydrogen bag 6, wherein the water storage tank 4, the hydrogen-enriched water generating unit 5 and the hydrogen bag 6 are sequentially arranged in the water dispenser body 1 from top to bottom, one end of the first water inlet pipe 2 is positioned outside the water dispenser body 1, the other end of the first water inlet pipe extends into the water dispenser body 1 and then is communicated with the water storage tank 4, the air adding pipe 3 is positioned outside the water dispenser body 1, one end of the air adding pipe is connected with a first valve 31 and then extends into the water dispenser body 1 and is communicated with the hydrogen bag 6, and the other end of the air adding pipe is connected with a second valve 32 and is used for adding hydrogen into the hydrogen bag 6;

the water outlet of the water storage tank 4 is communicated with the water inlet of the hydrogen-rich water generation unit 5 through a water delivery pipe 7, a branch pipe 33 extending into the water dispenser body 1 is connected to the pipe section of the gas adding pipe 3 between the first valve 31 and the second valve 32, a venturi ejector 34 is arranged at the other end of the branch pipe 33, the venturi ejector 34 is connected with the water delivery pipe 7, a first check valve 71 is arranged on the pipe section of the water delivery pipe 7 at the upper part of the venturi ejector 34, and when the second valve 32 is closed and the first valve 31 is opened, hydrogen in the hydrogen 6 enters the hydrogen-rich water generation unit 5 through the branch pipe 33, the venturi ejector 34 and the water delivery pipe 7 to generate hydrogen-rich water;

the delivery port of the hydrogen-rich water generating unit 5 is connected with the water outlet tap 81 outside the water dispenser body 1 through the water outlet pipe 8, so that water in the water storage tank 4 flows out of the water outlet tap 81 after passing through the water delivery pipe 7, the hydrogen-rich water generating unit 5 and the water outlet pipe 8, and is used by people. The height of the branch pipe 33 is higher than that of the water outlet in the water storage tank 4, so that water is prevented from flowing back into the branch pipe 33.

In a specific embodiment, the hydrogen-rich water generating unit 5 includes a cooler 51, a heater 52, a first emptying pipe 53 and a second emptying pipe 54, water inlets of the cooler 51 and the heater 52 are respectively communicated with two water outlets of the water storage tank 4 through two water pipes 7, water outlets of the cooler 51 and the heater 52 are respectively connected with two water taps 81 through a water outlet pipe 8, and the water taps 81 are located outside the water dispenser body 1; gaps are reserved between the water outlet of the cooler 51 and the water outlet of the heater 52 and the tops of the coolers and the heaters for storing gas; the first emptying pipe 53 and the second emptying pipe 54 are respectively communicated with the top of the cooler 51 and the top of the heater 52, and the other ends of the first emptying pipe 53 and the second emptying pipe 54 are respectively connected with a third valve 531 and a fourth valve 541;

one end of the branch pipe 33, which is far away from the gas filling pipe 3, is divided into two paths, one path is connected with a venturi ejector 34 and then communicated with a water conveying pipe 7, and the water conveying pipe 7 is communicated with the cooler 51; the other path is connected with another venturi ejector 34 and then communicated with another water conveying pipe 7, and the water conveying pipe 7 is communicated with the heater 52; the water outlet pipes 8 connected with the cooler 51 and the heater 52 are communicated with the two pipelines on the branch pipe 33 through a vent pipe 35, so that cooling water and/or heating water can be selected according to requirements;

the hydrogen-rich water generating unit 5, the venturi ejector 34 and the hydrogen bag 6 form a closed system of a hydrogen-rich water generator, when water passes through the venturi ejector 34 from the water storage tank 4 through the water pipe 7, hydrogen gas is sucked into the water pipe 7, a hydrogen-water mixture is formed in the water pipe 7 and flows into the hydrogen-rich water generating unit 5, high-concentration hydrogen-rich water is formed, a part of surplus hydrogen gas converges to the top of the container, a part of surplus hydrogen gas enters the water outlet pipe 8 along with water, so that hydrogen-rich water flows out from the water outlet tap 81 through the water outlet pipe 8, hydrogen gas returns to the hydrogen generating unit 6 for recycling through the vent pipe 35, the branch pipe 33 and the air adding pipe 3, the water outlet pipe 8 of the hydrogen-rich water generating unit 5 is lower than the top thereof to keep hydrogen gas at the top of the hydrogen-rich water generating unit 5, the part of hydrogen is continuously dissolved in water, so that the concentration of hydrogen-rich water is improved; the water outlet tap 81 is opened, and high-concentration hydrogen-rich water can be obtained. People can conveniently use the hydrogen-rich water, and the effects of enhancing immunity and preventing virus invasion are achieved.

In a specific embodiment, the water storage tank further comprises a smart seat 41 arranged at the top of the water storage tank 4, a water bucket 42 for containing purified water, and a liquid level control water replenishing device 43, wherein the water bucket 42 is arranged on the smart seat 41, so that people can conveniently change the bucket; the liquid level control water replenishing device 43 is positioned on the pipe section of the first water inlet pipe 2 between the water dispenser body 1 and the water storage tank 4 to be connected with a water outlet pipe of a water purifier, so that the water storage tank 4 is replenished continuously, and the water dispenser simultaneously takes barreled hydrogen-rich water and pipeline hydrogen-rich water into consideration;

more specifically, the water conduit 41a of the smart seat 41 is adapted to the water outlet of the water tank 42 for pouring the water in the water tank 42 into the water storage tank 4.

In a specific embodiment, the hydrogen-rich water generating unit 5 further includes two drain pipes 55 and two plugs 56 located outside the water dispenser body 1, one end of each of the two drain pipes 55 is respectively communicated with the cooler 51 and a drain outlet at the bottom of the heater 52, and the other end of each of the two drain pipes is respectively connected with one plug 56, so that when hydrogenation is performed, a hydrogen source is connected to the gas filling pipe 3, the first valve 31 and the second valve 32 are opened, the plug 56 is opened again, hydrogen is pressed into the hydrogen-rich water generating unit 5, water in the hydrogen-rich water generating unit is discharged until the hydrogen is completely discharged, and then the hydrogen flows into and fills the hydrogen-rich water generating unit 5, and the plug 56 is plugged.

One end of the water inlet pipe, which is positioned outside the water dispenser body 1, is connected with a fifth valve 11 for controlling a water outlet pipe of the water purifier to convey water into the first water inlet pipe 2.

The top in the water storage tank 4 is also provided with an ozone generator 44 to generate a small amount of hydrogen, oxygen and ozone in the water storage tank 4, and the ozone can sterilize the air between the water storage tank 4 and the smart seat 41, so that the water dispenser is ensured to be clean in water quality, i.e. has a sterilization function.

The embodiment is realized as follows:

1. emptying: adding water into the water storage tank 4, opening the third valve 531 and the fourth valve 541, allowing water in the water storage tank 4 to flow into the hydrogen-rich water generating unit 5 (including the cooler 51 and the heater 52), exhausting air therein (allowing water to flow out of an emptying pipe), and closing the third valve 531 and the fourth valve 541;

2. hydrogenation: a hydrogen source is connected into the gas filling pipe 3, the second valve 32 is opened, the plug 56 is opened, hydrogen is pressed into the hydrogen-rich water generating unit 5, water in the hydrogen-rich water generating unit 5 is discharged until the hydrogen is discharged, then the hydrogen flows into and fills the hydrogen-rich water generating unit 5, and the drain pipe 55 is plugged by the plug 56; opening the second valve 32, continuing to add gas into the hydrogen bag 6 until the hydrogen bag 6 is filled, closing the second valve 32, and disconnecting the hydrogen source;

3. generation of hydrogen rich water: the barreled water is inversely installed on the smart seat 41, or the water outlet pipe 8 of the water purifier is connected to the liquid level control water replenishing device 43, the water in the water bucket 42 or the water of the water purifier flows into the water storage tank 4, the water outlet faucet 81 requiring water temperature is opened, the water in the water storage tank 4 flows into the hydrogen-rich water generating unit 5, hydrogen is fully mixed with the water in the water conveying pipe 7 through the Venturi ejector 34 to form high-concentration hydrogen-rich water and enters the hydrogen-rich water generating unit 5, the hydrogen at the top of the hydrogen-rich water generating unit 5 is continuously dissolved in the water to improve the concentration of the hydrogen-rich water, and when the water level reaches the water outlet of the hydrogen-rich water generating unit 5, the hydrogen-rich water flows to the water outlet faucet 81 through the water outlet pipe 8, so that the high-concentration hydrogen-rich water can be obtained; at this time, after the hydrogen which is not dissolved in the water outlet pipe 8 passes through the vent pipe 35 communicated with the water outlet pipe, the hydrogen sequentially passes through the branch pipe 33, the venturi ejector 34 and the water delivery pipe 7, and is finally mixed with the water, so that the hydrogen is recycled;

4. and (3) sterilization: the power switch of the ozone generator 44 is turned on, the ozone generator starts to work to generate ozone, and the ozone can kill germs in the air, so that the cleanness of the water in the water storage tank 4 is ensured.

5. Hydrogen supplement: when the hydrogen in the hydrogen bag 6 is insufficient, hydrogen needs to be supplemented. The hydrogen supplementing step is to connect a hydrogen source into the gas adding pipe 3, open the second valve 32 and the first valve 31 on the gas adding pipe, allow hydrogen to enter the hydrogen bag 6 through the gas adding pipe 3 until the hydrogen bag is full, close the second valve 32 and the first valve 31 on the gas adding pipe 3 and disconnect the hydrogen source.

Example two:

the difference from the first embodiment is that:

as shown in fig. 2, the water dispenser further comprises a ball float valve 21, a second water inlet pipe 9, a second check valve 91, a water pump 92 and a water bucket 42 for containing purified water, wherein the ball float valve 21 is positioned in the water storage tank 4 and is connected with a pipe section of the first water inlet pipe 2 positioned in the water storage tank 4, a water inlet at the lower part of the water storage tank 4 is communicated with the water bucket 42 through the second water inlet pipe 9, the water bucket 42 is positioned at the lower part of the water dispenser body 1 and is positioned below the hydrogen gas bag 6, and the second check valve 91 and the water pump 92 are sequentially connected to the second water inlet pipe 9 from top to bottom to pump water in the water bucket 42, so that people can conveniently use barreled purified water.

The pipe section of the first water inlet pipe 2 is not provided with a liquid level control water replenishing device 43.

The bottom outside the water storage tank 4 is also provided with an ozone generator 44 to excite oxygen in the air in the water dispenser body 1 to become ozone, and the ozone can sterilize the air in the water dispenser body 1, namely, the water dispenser has a sterilization function.

The embodiment is realized as follows:

1. emptying: opening the water suction pump 92 or connecting a water purifier water outlet pipe 8 to the first water inlet pipe 2 and opening the fifth valve 11, adding water into the water storage tank 4, opening the third valve 531 and the fourth valve 541, allowing water in the water storage tank 4 to flow into the hydrogen-rich water generating unit 5 (including the cooler 51 and the heater 52), exhausting air in the hydrogen-rich water generating unit (water flowing out of the emptying pipe), and closing the third valve 531, the fourth valve 541, the fifth valve 11 or the water suction pump 92;

2. hydrogenation: a hydrogen source is connected into the gas filling pipe 3, the plug 56 is opened, hydrogen is pressed into the hydrogen-rich water generation unit 5, water in the hydrogen-rich water generation unit 5 is discharged until the water is discharged, at this time, the hydrogen fills the hydrogen-rich water generation unit 5, and the drain pipe 55 is plugged by the plug 56; and (3) opening the first valve 31, continuously filling gas into the hydrogen bag 6 until the hydrogen bag 6 is filled, closing the second valve 32, and disconnecting the hydrogen source.

3. Generation of hydrogen rich water: opening the water pump 92 or the valve 11 No. five connected to a water purifier, so that water flows into the water storage tank 4, opening the water outlet tap 81, allowing water in the water storage tank 4 to flow into the hydrogen-rich water generation unit 5, fully mixing hydrogen with water in the water delivery pipe 7 through the venturi ejector 34 to form high-concentration hydrogen-rich water, and allowing the high-concentration hydrogen-rich water to enter the hydrogen-rich water generation unit 5, continuously dissolving hydrogen at the top of the hydrogen-rich water generation unit 5 in water, increasing the concentration of the hydrogen-rich water, and allowing the hydrogen to flow to the water outlet tap 81 through the water outlet pipe 8 when the water level reaches the water outlet of the hydrogen-rich water generation unit 5, so as to obtain high-concentration hydrogen-rich water;

at this time, after the hydrogen which is not dissolved in the water outlet pipe 8 passes through the vent pipe 35 communicated with the water outlet pipe, the hydrogen sequentially passes through the branch pipe 33, the venturi ejector 34 and the water delivery pipe 7, and is finally mixed with the water, so that the hydrogen is recycled;

4. and (3) sterilization: the power switch of the ozone generator 44 is turned on, the ozone generator starts to work to generate ozone, and the ozone can kill germs in the air, so that the cleanness of the water in the water dispenser body 1 is ensured.

5. Hydrogen supplement: when the hydrogen in the hydrogen bag 6 is insufficient, hydrogen is needed to be supplemented. The hydrogen supplementing step is to connect a hydrogen source into the gas adding pipe 3, open the second valve 32 and the first valve 31 on the gas adding pipe, allow hydrogen to enter the hydrogen bag 6 through the gas adding pipe 3 until the hydrogen bag is full, close the second valve 32 and the first valve 31 on the gas adding pipe 3 and disconnect the hydrogen source.

EXAMPLE III

The difference from the second embodiment is that:

one end of the branch pipe 33, which is far away from the gas filling pipe 3, is not divided into two paths, but is provided with four branches, wherein one end of each branch pipe, which is far away from the branch pipe 33, is respectively communicated with the water outlet pipe 8 connected with the cooler 51 and the heater 52, and the two branch pipes are respectively provided with a three-way check valve 33 a;

the other two branches are positioned at the tail ends of the branch pipes, and one ends of the other two branches, which are far away from the branch pipes 33, are respectively communicated with the water conveying pipes 7 connected with the cooler 51 and the heater 52, and four check valves 33b are respectively arranged on the two branches; an air pump 33c is arranged on the branch pipe 33, and the air pump 33c is positioned between the third check valve 33a and the fourth check valve 33 b.

The top in the water storage tank 4 is also provided with an ozone generator 44 to generate a small amount of hydrogen, oxygen and ozone in the water storage tank 4, and the ozone can sterilize the air between the water storage tank 4 and the smart seat 41, so that the water dispenser is ensured to be clean in water quality, i.e. has a sterilization function.

The embodiment is realized as follows:

1. emptying: opening the water suction pump 92 or connecting a water purifier water outlet pipe 8 to the first water inlet pipe 2 and opening the fifth valve 11, adding water into the water storage tank 4, opening the third valve 531 and the fourth valve 541, allowing water in the water storage tank 4 to flow into the hydrogen-rich water generating unit 5 (including the cooler 51 and the heater 52), exhausting air in the hydrogen-rich water generating unit (water flowing out of the emptying pipe), and closing the third valve 531, the fourth valve 541, the fifth valve 11 or the water suction pump 92;

2. hydrogenation: a hydrogen source is connected into the gas filling pipe 3, the plug 56 and the air pump 33c are opened, hydrogen is pressed into the hydrogen-rich water generation unit 5, water in the hydrogen-rich water generation unit 5 is discharged until the hydrogen is discharged, the hydrogen fills the hydrogen-rich water generation unit 5, the air pump 33c is closed, and the blow-off pipe 55 is plugged by the plug 56; and (3) opening the first valve 31, continuously filling gas into the hydrogen bag 6 until the hydrogen bag 6 is filled, closing the second valve 32, and disconnecting the hydrogen source.

3. Generation of hydrogen rich water: opening the water pump 92 or the valve 11 connected to the water purifier, flowing water into the water storage tank 4, flowing into the hydrogen-rich water generation unit 5 along the water pipe 7, starting the air pump 33c and the check valve 33b, pumping hydrogen gas from the air feeding pipe 3 and the branch pipe 33 into the hydrogen-rich water generation unit 5 in the hydrogen bag 6 in sequence, and mixing with the water in the hydrogen-rich water generation unit 5 to form high-concentration hydrogen-rich water, wherein the hydrogen gas at the top of the hydrogen-rich water generation unit 5 is continuously dissolved in water to increase the concentration of the hydrogen-rich water, when the water level reaches the water outlet, opening the water outlet to obtain high-concentration hydrogen-rich water, when the water level reaches the water outlet of the hydrogen-rich water generation unit 5, the hydrogen gas flows to the water outlet 81 through the water outlet pipe 8 to obtain high-concentration hydrogen-rich water, and at this time, the hydrogen gas in the water outlet pipe 8, after entering the branch communicated with the water outlet, flows through the check valve 33a, The fourth check valve 33b and the water delivery pipe 7 are finally mixed with water to achieve the recycling of hydrogen;

4. and (3) sterilization: the power switch of the ozone generator 44 is turned on, the ozone generator starts to work to generate ozone, and the ozone can sterilize the air between the water storage tank 4 and the smart seat 41, so that the water quality is ensured to be clean, and the water dispenser has a sterilization function.

5. Hydrogen supplement: when the hydrogen in the hydrogen bag 6 is insufficient, hydrogen is needed to be supplemented. The hydrogen supplementing step is to connect a hydrogen source into the gas adding pipe 3, open the second valve 32 and the first valve 31 on the gas adding pipe, allow hydrogen to enter the hydrogen bag 6 through the gas adding pipe 3 until the hydrogen bag is full, close the second valve 32 and the first valve 31 on the gas adding pipe 3 and disconnect the hydrogen source.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. The utility model provides a compromise barreled formula and pipeline formula and have hydrogen-rich water dispenser of function of disinfecting includes: the water dispenser comprises a water dispenser body (1), a first water inlet pipe (2), a gas adding pipe (3), a water storage tank (4), a hydrogen-rich water generating unit (5) and a hydrogen bag (6), wherein the water storage tank (4), the hydrogen-rich water generating unit and the hydrogen bag (6) are sequentially arranged in the water dispenser body (1) from top to bottom, one end of the first water inlet pipe (2) is positioned outside the water dispenser body (1), the other end of the first water inlet pipe extends into the water dispenser body (1) and then is communicated with the water storage tank (4), the gas adding pipe (3) is positioned outside the water dispenser body (1), one end of the gas adding pipe is connected with a first valve (31) and then extends into the water dispenser body (1) and is communicated with the hydrogen bag (6), and the other end of the gas adding pipe is connected with a second valve (32);

the water outlet of the water storage tank (4) is communicated with the water inlet of the hydrogen-enriched water generation unit (5) through a water delivery pipe (7), a branch pipe (33) extending into the water dispenser body (1) is connected to the pipe section of the air adding pipe (3) between the first valve (31) and the second valve (32), a venturi ejector (34) is arranged at the other end of the branch pipe (33), the venturi ejector (34) is connected with the water delivery pipe (7), and a one-way valve (71) is arranged on the pipe section of the water delivery pipe (7) at the upper part of the venturi ejector (34);

the water outlet of the hydrogen-rich water generating unit (5) is connected with a water outlet tap (81) outside the water dispenser body (1) through a water outlet pipe (8).

2. The hydrogen-rich water dispenser with both barreled and pipeline functions and a sterilization function as claimed in claim 1, is characterized in that: the hydrogen-rich water generating unit (5) comprises a cooler (51), a heater (52), a first emptying pipe (53) and a second emptying pipe (54), wherein water inlets of the cooler (51) and the heater (52) are respectively communicated with two water outlets of the water storage tank (4) through two water conveying pipes (7), water outlets of the cooler (51) and the heater (52) are respectively connected with two water outlet taps (81) through a water outlet pipe (8), and the water outlet taps (81) are positioned outside the water dispenser body (1);

gaps are reserved between the water outlet of the cooler (51), the water outlet of the heater (52) and the respective tops of the cooler and the heater for storing gas;

the first emptying pipe (53) and the second emptying pipe (54) are respectively communicated with the cooler (51) and the top of the heater (52), and the other ends of the first emptying pipe (53) and the second emptying pipe (54) are respectively connected with a third valve (531) and a fourth valve (541).

3. The hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function as claimed in claim 2, is characterized in that: one end of the branch pipe (33) departing from the gas filling pipe (3) is divided into two paths, one path is connected with one venturi ejector (34) and then communicated with one water pipe (7), the water pipe (7) is communicated with the cooler (51), the other path is connected with the other venturi ejector (34) and then communicated with the other water pipe (7), and the water pipe (7) is communicated with the heater (52); the water outlet pipe (8) connected with the cooler (51) and the heater (52) is communicated with the two pipelines on the branch pipe (33) through a vent pipe (35).

4. The hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function as claimed in claim 2, is characterized in that: one end of each branch pipe (33) departing from the gas filling pipe (3) is provided with four branch circuits, wherein one end of each branch pipe (33) far away from the branch pipe is respectively communicated with a water outlet pipe (8) connected with the cooler (51) and the heater (52), and the two branch circuits are respectively provided with a three-way check valve (33 a);

the other two branches are positioned at the tail ends of the branch pipes, one ends of the other two branches, which are far away from the branch pipes (33), are respectively communicated with the water conveying pipes (7) connected with the cooler (51) and the heater (52), and four check valves (33b) are respectively arranged on the two branches;

an air pump (33c) is arranged on the branch pipe (33), and the air pump (33c) is located between the third check valve (33a) and the fourth check valve (33 b).

5. The hydrogen-rich water dispenser with both barreled and pipeline functions and a sterilization function as claimed in claim 3, is characterized in that: still including set up in clever seat (41), cask (42), the liquid level control water replenishing device (43) that are used for adorning the pure water at storage water tank (4) top, cask (42) install in on clever seat (41), liquid level control water replenishing device (43) are located water dispenser body (1) with between storage water tank (4) on the pipeline section of an inlet tube (2).

6. The hydrogen-rich water dispenser with both barreled and pipeline functions and a sterilization function as claimed in claim 3, is characterized in that: still include ball-cock assembly (21), No. two inlet tubes (9), No. two check valves (91), suction pump (92), be used for adorning the cask (42) of pure water, ball-cock assembly (21) are located in storage water tank (4), and with be located in storage water tank (4) the pipe section of inlet tube (2) is connected, the water inlet of storage water tank (4) lower part passes through No. two inlet tubes (9) with cask (42) intercommunication, cask (42) are located lower part in water dispenser body (1) and be located below hydrogen bag (6), from last down connecting gradually No. two check valves (91) on No. two inlet tubes (9) suction pump (92).

7. The hydrogen-rich water dispenser with both barreled and pipeline functions and a sterilization function as claimed in claim 4, is characterized in that: still include ball-cock assembly (21), No. two inlet tubes (9), No. two check valves (91), suction pump (92), be used for adorning the cask (42) of pure water, ball-cock assembly (21) are located in storage water tank (4), and with be located in storage water tank (4) the pipe section of inlet tube (2) is connected, the water inlet of storage water tank (4) lower part passes through No. two inlet tubes (9) with cask (42) intercommunication, cask (42) are located lower part in water dispenser body (1) and be located below hydrogen bag (6), from last down connecting gradually No. two check valves (91) on No. two inlet tubes (9) suction pump (92).

8. The hydrogen-rich water dispenser with both barreled and pipeline functions and a sterilization function as claimed in any one of claims 2 to 7, characterized in that: the hydrogen-rich water generating unit (5) further comprises two sewage pipes (55) and two plugs (56) located outside the water dispenser body (1), one ends of the two sewage pipes (55) are communicated with the cooler (51) and the sewage outlet at the bottom of the heater (52), and the other ends of the two sewage pipes are connected with the plugs (56) respectively.

9. The hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function as claimed in claim 8, is characterized in that: one end of the first water inlet pipe (2) positioned outside the water dispenser body (1) is connected with a fifth valve (11).

10. The hydrogen-rich water dispenser which is barrel-type and pipeline-type and has a sterilization function as claimed in claim 9, is characterized in that: an ozone generator (44) is also arranged in the water dispenser body (1).

Images