CN212050693U - Hydrogen-rich water purifying and drinking device - Google Patents

Abstract

The utility model discloses a rich hydrogen water purification watering device relates to rich hydrogen drink preparation field, including electrolysis trough and hydrogen dissolution case, the electrolysis trough has anode chamber and cathode chamber, and intercommunication second goes out hydrogen pipe on the cathode chamber, and the second goes out the hydrogen pipe and the hydrogen dissolves the intercommunication outlet duct between the case, and hydrogen dissolves the one end that the incasement set up the evacuation pipe, and the other end of evacuation pipe stretches out hydrogen dissolution case and installs the blowoff valve, the last one end of intercommunication outlet pipe of hydrogen dissolution case. The utility model discloses well hydrogen is long at aquatic dwell time, and the hydrogen content of dissolving in the aquatic is high, and the hydrogen content is high in the hydrogen-rich water, the utility model discloses the hydrogen-rich water of preparing not with the air contact, aquatic hydrogen concentration falling speed is slow, the utility model discloses an electrolysis hydrogen manufacturing technique carries out continuous hydrogen manufacturing, and production and circulation are with low costs.

Description

Hydrogen-rich water purifying and drinking device

Technical Field

The utility model relates to a hydrogen-rich water preparation field, concretely relates to hydrogen-rich water purification watering device.

Background

The existing water purifier needs to be fixedly installed to be connected to a tap water pipeline, and the hydrogen-rich water dispenser needs to be hydrogenated periodically, so that inconvenience is brought to people; current hydrogen-rich water purifier produces hydrogen-rich water through installing electrolysis water installation on water purifier water outlet channel to overcome aforementioned two not enough, people can drink hydrogen-rich water, but this hydrogen-rich water exposes in the air, is unfavorable for the save of aquatic hydrogen, leads to hydrogen-rich water concentration low, has influenced hydrogen-rich water's efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of current hydrogen-rich water purifier hydrogen-rich water exposes in the air, a hydrogen-rich water purification watering device is provided, it adopts the electrolysis hydrogen manufacturing technique to carry out continuous hydrogen manufacturing, dissolve the case to hydrogen and carry out continuous hydrogen supplementation, hydrogen dissolves the incasement at hydrogen and dissolves in aquatic formation hydrogen-rich water, the hydrogen-rich water that generates is isolated with the air, do benefit to the save of aquatic hydrogen, hydrogen concentration is high in the hydrogen-rich water that generates, can not produce negative effects to hydrogen-rich water's efficiency.

In order to realize the utility model discloses the mesh, the utility model provides a rich hydrogen water purification watering device, including electrolysis trough and hydrogen dissolution case, the electrolysis trough has anode chamber and cathode chamber, electrolysis trough bottom intercommunication leakage fluid dram, intercommunication second goes out hydrogen pipe on the cathode chamber, the second goes out hydrogen pipe and hydrogen and dissolves the intercommunication outlet duct between the case, hydrogen dissolves the one end that sets up the evacuation pipe in the incasement, the other end of evacuation pipe stretches out hydrogen dissolution case and installation exhaust valve, the one end of intercommunication outlet pipe on the hydrogen dissolution case, intercommunication moisturizing pipe between the other end of outlet pipe and the cathode chamber, communicate first delivery port on the outlet pipe, set up the valve on the first delivery port, all set up the check valve on outlet duct and the moisturizing pipe.

Furthermore, a liquid storage device is arranged on the water replenishing pipe, a ball float valve is arranged in the liquid storage device, and the liquid storage device and the cathode chamber are located on the same horizontal plane.

Furthermore, a hot water tank is arranged on the water outlet pipe, and a second water outlet is communicated with the hot water tank.

Further, the hydrogen dissolves the incasement and sets up the baffle, and the baffle separates the inner space of hydrogen dissolution case for upper plenum and cavity down, and the one end of evacuation pipe is located the upper portion in cavity down, and the hydrogen dissolves the incasement and sets up the filter chamber, sets up filter equipment in the filter chamber, and the filter chamber communicates with each other with upper plenum through filter equipment, communicates the one end of inlet tube on the baffle, and the other end of inlet tube is located the lower part in cavity down.

Furthermore, the gas outlet pipe is communicated with one end of a first hydrogen outlet pipe, the other end of the first hydrogen outlet pipe is communicated with a hydrogen generator, a filter cartridge and a hydrogen production agent are arranged in the hydrogen generator, and the hydrogen production agent is positioned in the filter cartridge.

Furthermore, a cleaning bottle is arranged on the first hydrogen outlet pipe, and a valve is arranged on the cleaning bottle.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses well hydrogen is long at aquatic dwell time, and the hydrogen content of dissolving in the aquatic is high, and the hydrogen content is high in the hydrogen-rich water, the utility model discloses the hydrogen-rich water of preparing not with the air contact, aquatic hydrogen concentration falling speed is slow, the utility model discloses an electrolysis hydrogen manufacturing technique carries out continuous hydrogen manufacturing, and production and circulation are with low costs.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

In order to make the technical problem, technical scheme and beneficial effect that the utility model will solve more clearly understand, combine the embodiment below, it is right the utility model discloses further detailed description proceeds. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which embodiments of the invention belong. If a definition set forth in this section is contrary to or otherwise inconsistent with a definition set forth in the patents, patent applications, published patent applications, and other publications that are herein incorporated by reference, the definition set forth in this section prevails over the definition that is incorporated herein by reference.

In addition, the weight of the related components mentioned in the embodiment specification of the present invention may not only refer to the specific content of each component, but also represent the proportional relationship of the weight between each component, therefore, it is within the scope of the embodiment specification of the present invention to scale up or scale down the content of the related components according to the embodiment specification of the present invention.

The embodiment of the utility model provides a rich hydrogen water purification watering device, dissolve case 3 including electrolysis trough 1 and hydrogen, electrolysis trough 1 has anode chamber 5 and cathode chamber 6, 1 bottom intercommunication leakage fluid dram of electrolysis trough, intercommunication second goes out hydrogen pipe 15 on the cathode chamber 6, the second goes out hydrogen pipe 15 and hydrogen and dissolves intercommunication outlet duct 7 between the case 3, hydrogen dissolves the one end that sets up evacuation pipe 11 in the case 3, the other end of evacuation pipe 11 stretches out hydrogen and dissolves case 3 and install the blowoff valve, the last one end of intercommunication outlet pipe 9 of hydrogen dissolution case 3, intercommunication moisturizing pipe 16 between the other end of outlet pipe 9 and the cathode chamber 6, communicate first delivery port 10 on the outlet pipe 9, set up the valve on the first delivery port 10, all set up the check valve on outlet duct 7 and the moisturizing pipe 16. The cathode chamber and the anode chamber are isolated by a partition plate and a permeable membrane, the lower part of the partition plate is provided with an electrode, the permeable membrane is arranged between the electrodes, and electrolyte can penetrate through the permeable membrane. An oxygen discharge pipe is arranged at the top of the anode chamber, and a valve is arranged on the oxygen discharge pipe so as to discharge oxygen obtained by electrolysis.

The use steps of the structure are as follows:

firstly, feeding materials;

adding electrolyte to the cathode chamber 6;

the electrolyte is 0 to 30 percent of acetic acid or sodium acetate or potassium acetate or sodium hydroxide or potassium hydroxide.

Secondly, emptying;

the power supply on the electrolytic cell 1 and the valve on the oxygen discharge pipe on the anode chamber 5 are opened, the cathode chamber 6 of the electrolytic cell 1 generates hydrogen, the hydrogen presses the air in the hydrogen into the hydrogen dissolving tank 3 through the second hydrogen discharge pipe 15 and the air outlet pipe 7, and the oxygen generated by the anode chamber 5 is emptied through the oxygen discharge pipe. And opening an emptying valve on the emptying pipe, adding water into the hydrogen dissolving tank 3 until the hydrogen dissolving tank 3 is filled with water, discharging the gas in the hydrogen dissolving tank 3 through the emptying pipe 11, and closing the emptying valve.

Thirdly, hydrogenation;

opening a valve on a first water outlet 10, enabling hydrogen generated by the cathode chamber 6 to enter the hydrogen dissolving tank 3 through a second hydrogen outlet pipe 15 and an air outlet pipe 7, extruding water with the same volume through an water outlet pipe 9 and the first water outlet 10, and closing the valve on the first water outlet 10 until the hydrogen occupies one third of the volume of the hydrogen dissolving tank 3;

generating hydrogen-rich water;

the hydrogen in the hydrogen dissolving tank 3 is dissolved in water to generate hydrogen-rich water, the valve on the first water outlet 10 is opened, and the hydrogen-rich water flows out from the first water outlet 10.

Fifthly, replenishing liquid;

water in the hydrogen dissolving tank 3 can enter the cathode chamber 6 through the water outlet pipe 9 and the water replenishing pipe 16 to replenish electrolyte consumed by electrolysis in the cathode chamber 6.

The water replenishing pipe 16 is provided with a liquid storage device 17, a ball float valve is arranged in the liquid storage device 17, and the liquid storage device 17 and the cathode chamber 6 are positioned on the same horizontal plane. The reservoir 17 is capable of storing water flowing from the hydrogen dissolution tank 3 to the cathode chamber 6.

The water outlet pipe 9 is provided with a hot water tank 12, and the hot water tank 12 is communicated with a second water outlet.

Set up baffle 18 in the hydrogen dissolves case 3, baffle 18 separates the inner space of hydrogen dissolution case 3 for upper plenum and cavity down, and the upper portion in cavity down is located to the one end of evacuation pipe 11, sets up filter chamber 19 in the hydrogen dissolves case 3, sets up filter equipment 20 in the filter chamber 19, and filter chamber 19 communicates with each other with upper plenum through filter equipment 20, communicates the one end of inlet tube 21 on the baffle 18, and the other end of inlet tube 21 is located the lower part in cavity down. The filtering device 20 may be a coarse filtering PP cotton layer, a fine filtering PP cotton layer, an activated carbon layer and/or a sintered activated carbon layer, an anti-permeation film layer. When the water level in the lower cavity is too low, water needs to be supplemented into the lower cavity, and the supplemented water can be purified water or non-purified water. When hydrogen-rich water is prepared, raw water is poured into the filter cavity 19, is filtered by the filter device 20 to generate drinking water, enters the upper cavity and enters the lower cavity through the water inlet pipe 21, and hydrogen is dissolved in water. This kind of structure is when hydrogenation, need the valve on the first delivery port 10 of intermittent type open, because the upper chamber is UNICOM with cavity down, when cavity hydrogenation down, the water of cavity down can get into the upper chamber through inlet tube 21, and when the upper chamber water level was too high (spilled over), need be through the drainage of first delivery port 10.

Because the present electrolysis water hydrogen-rich water purifier is unsuitable to directly add the pure water, otherwise because the pure water electrolysis hydrogen production is low, the hydrogen-rich water concentration that it made is lower, in addition, because receive the restriction of space and cost, the hydrogen production of single-stage electrolysis cell is lower for hydrogen dissolving tank 3 hydrogenation time is long, and the hydrogen-rich water concentration that it made is also low, in order to overcome this condition, the one end of first play hydrogen pipe 8 of intercommunication on the outlet duct 7, the other end setting of first play hydrogen pipe 8 and intercommunication hydrogen generator 2 set up cartridge filter 13 and hydrogen manufacturing agent 14 in the hydrogen generator 2, and hydrogen manufacturing agent 14 is located cartridge filter 13. The reaction liquid can be fed through the feed inlet of the hydrogen generator 2. The structure can rapidly generate a large amount of hydrogen at one time, and greatly shortens the hydrogenation time of the hydrogen dissolving tank 3.

Set up washing bottle 4 on the first hydrogen pipe 8, set up the valve on washing bottle 4, hydrogen that produces in hydrogen generator 2 and the cathode chamber 6 gets into washing bottle 4 to wash and get into hydrogen dissolving tank 3 after the cooling in washing bottle 4. Adding a cleaning solution: and opening a valve on the cleaning bottle 4, injecting the purified water into the cleaning bottle 4 until the cleaning bottle 4 is full of the purified water, and closing the valve on the cleaning bottle 4.

The lower part of the hydrogen dissolving tank 3 is communicated with an air outlet pipe 7, and the air outlet pipe 7 is connected with the top of the cleaning bottle 4. A check valve is arranged on the water inlet pipe of the hot water tank 12, and a valve is arranged on the water outlet pipe of the hot water tank 12. The bottom of the cleaning bottle 4 is communicated with the gas outlet of the hydrogen generator 2 through a first hydrogen outlet pipe 8, the bottom of the cleaning bottle 4 is provided with a liquid outlet, and a valve is arranged on the liquid outlet, so that the pure water in the cleaning bottle can be conveniently replaced.

The utility model discloses well hydrogen is long at aquatic dwell time, and the hydrogen content of dissolving in aquatic is high, and the hydrogen content is high in the hydrogen-rich water, the utility model discloses the hydrogen-rich water of preparing not with the air contact, aquatic hydrogen concentration falling speed is slow, the utility model discloses an electrolysis hydrogen manufacturing technique carries out continuous hydrogen manufacturing, and production and circulation are with low costs, dissolve the case to hydrogen and carry out continuous hydrogen supplementation, dissolve the incasement pressure when hydrogen and be greater than the hydrogen supplementation pressure, with regard to the automatic shutdown hydrogen supplementation to simplify the hydrogen supplementation process, made things convenient for the operation, because the cost of electrolysis hydrogen manufacturing is less than hydrogen manufacturing agent hydrogen manufacturing cost usually simultaneously, also reduced use cost, the device structure is simplified more.

The technical contents not described in detail in the present invention are all known techniques. The above is only the preferred embodiment of the present invention, the protection scope of the present invention is not limited to the above-mentioned embodiments, all belong to the technical solution of the present invention under the thought all belong to the protection scope of the present invention, it should be pointed out, to the ordinary skilled person in the present technical field, not deviating from the present invention discloses a plurality of improvements and decorations, these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a rich hydrogen water purification watering device, a serial communication port, including electrolysis trough (1) and hydrogen dissolving tank (3), electrolysis trough (1) has anode chamber (5) and cathode chamber (6), electrolysis trough (1) bottom intercommunication liquid transmission outlet, intercommunication second play hydrogen pipe (15) on cathode chamber (6), intercommunication outlet duct (7) between second play hydrogen pipe (15) and the hydrogen dissolving tank (3), set up the one end of evacuation pipe (11) in hydrogen dissolving tank (3), the other end of evacuation pipe (11) stretches out hydrogen dissolving tank (3) and installs the blowoff valve, the one end of intercommunication outlet pipe (9) is gone up in hydrogen dissolving tank (3), intercommunication moisturizing pipe (16) between the other end of outlet pipe (9) and cathode chamber (6), communicate first delivery port (10) on outlet pipe (9), set up the valve on first delivery port (10), all set up the check valve on outlet duct (7) and moisturizing pipe (16).

2. A hydrogen-rich purified water drinking device as claimed in claim 1, characterized in that the water supply pipe (16) is provided with a reservoir (17), a ball float valve is arranged in the reservoir (17), and the reservoir (17) and the cathode chamber (6) are positioned at the same level.

3. The hydrogen-rich purified water drinking device according to claim 1, wherein the water outlet pipe (9) is provided with a hot water tank (12), and the hot water tank (12) is communicated with the second water outlet.

4. The hydrogen-rich water purifying and drinking device as claimed in claim 1, wherein a partition plate (18) is arranged in the hydrogen dissolving tank (3), the partition plate (18) divides the inner space of the hydrogen dissolving tank (3) into an upper cavity and a lower cavity, one end of the emptying pipe (11) is positioned at the upper part in the lower cavity, a filter chamber (19) is arranged in the hydrogen dissolving tank (3), a filter device (20) is arranged in the filter chamber (19), the filter chamber (19) is communicated with the upper cavity through the filter device (20), one end of a water inlet pipe (21) is communicated with the partition plate (18), and the other end of the water inlet pipe (21) is positioned at the lower part in the lower cavity.

5. A hydrogen-rich purified water drinking device as claimed in any one of claims 1 to 4, wherein the outlet pipe (7) is connected to one end of a first hydrogen outlet pipe (8), the other end of the first hydrogen outlet pipe (8) is connected to the hydrogen generator (2), a filter cartridge (13) and a hydrogen producing agent (14) are arranged in the hydrogen generator (2), and the hydrogen producing agent (14) is located in the filter cartridge (13).

6. The hydrogen-rich purified water drinking device as claimed in claim 5, wherein the first hydrogen outlet pipe (8) is provided with a cleaning bottle (4), and the cleaning bottle (4) is provided with a valve.

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