CN107198402A - A kind of hydrogen-rich cup of high hydrogen purity and content - Google Patents

A kind of hydrogen-rich cup of high hydrogen purity and content Download PDF

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Publication number
CN107198402A
CN107198402A CN201710331803.9A CN201710331803A CN107198402A CN 107198402 A CN107198402 A CN 107198402A CN 201710331803 A CN201710331803 A CN 201710331803A CN 107198402 A CN107198402 A CN 107198402A
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China
Prior art keywords
oxygen
cup
hydrogen
water
bin
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CN201710331803.9A
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Chinese (zh)
Inventor
林福兴
王旭昂
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Guangdong Yueyang Intelligent Technology Co Ltd
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Guangdong Yueyang Intelligent Technology Co Ltd
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Priority to CN201710331803.9A priority Critical patent/CN107198402A/en
Publication of CN107198402A publication Critical patent/CN107198402A/en
Pending legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G19/00Table service
    • A47G19/22Drinking vessels or saucers used for table service
    • A47G19/2205Drinking glasses or vessels
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45FTRAVELLING OR CAMP EQUIPMENT: SACKS OR PACKS CARRIED ON THE BODY
    • A45F3/00Travelling or camp articles; Sacks or packs carried on the body
    • A45F3/16Water-bottles; Mess-tins; Cups
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G19/00Table service
    • A47G19/22Drinking vessels or saucers used for table service
    • A47G19/2288Drinking vessels or saucers used for table service with means for keeping liquid cool or hot
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/46Treatment of water, waste water, or sewage by electrochemical methods
    • C02F1/461Treatment of water, waste water, or sewage by electrochemical methods by electrolysis
    • C02F1/46104Devices therefor; Their operating or servicing

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Organic Chemistry (AREA)
  • Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)

Abstract

The invention provides a kind of hydrogen-rich cup of high hydrogen purity and content, it is related to the technical field of cup, including cup lid, cup body, drain pan and oxygen discharger, the electrolysis unit for being electrolysed water in cup body is provided with drain pan, the hydrogen that negative electrode is produced in electrolysis unit is entered in the water inside cup body by one-way conduction component, and the oxygen that positive electrode is produced in electrolysis unit is discharged in outside air by oxygen discharger;It is provided with all side surfaces of oxygen discharger in storing bin, storing bin and is filled with packing material.The cup can discharge the oxygen produced at the positive electrode of electrolysis unit by oxygen discharge-channel, improve the purity of hydrogen content in cup, it is to avoid other harmful gases enter in the water in cup body, and harm user's is healthy.In addition, the complementary common many kinds of substance that body health benefits are provided for user of hydrogen that there is the cup packing material in storing bin, storing bin can be produced with negative electrode.

Description

Hydrogen-rich water cup with high hydrogen purity and content
Technical Field
The invention relates to the technical field of water cups, in particular to a hydrogen-rich water cup with high hydrogen purity and content.
Background
As is well known, the reduction hydrogen production reaction (HER) and the oxidation oxygen production reaction (OER) of electrolyzed water, i.e. water, are carried out by placing both positive and negative electrodes in water, the positive electrode producing oxygen and the negative electrode producing hydrogen in a volume ratio of 1: 2, the amount of hydrogen produced is approximately twice that of oxygen. The negative electrode generates hydrogen gas beneficial to human body, and the positive electrode generates oxygen gas containing odor. Since german chemists bebaine (schanbeiin) doctor first proposed odor generated in water electrolysis and spark discharge, the odor generated after natural lightning was the same as that generated after natural lightning, it was named OZONE. In addition, chlorine (chemical formula Cl) is generated in the positive electrode when water is electrolyzed2) Hydrogen peroxide (H)2O2) Equal pairThe problem to be solved by the prior art is how to remove ozone, hydrogen peroxide and chlorine from gases and substances harmful to human health.
The water electrolysis device is arranged in the water cup in the prior art, and the generated hydrogen is obtained by using the water electrolysis mode and is dissolved in water, so that a user drinks hydrogen-rich water. The main disadvantages of the method are that oxygen cannot be discharged completely, and harmful substances such as ozone, hydrogen peroxide, chlorine and the like can be generated after the electrodes are electrified, so that the method is harmful to human bodies. In addition, the substances beneficial to human bodies contained in the existing hydrogen-rich water cup are single, and the substances beneficial to human bodies cannot be provided for users from multiple aspects.
Disclosure of Invention
The invention aims to provide a hydrogen-rich water cup with high hydrogen purity and content, which aims to solve the technical problems that the existing hydrogen-rich water cup is low in hydrogen purity, mixed with oxygen, chlorine and other gases harmful to human bodies, and single in beneficial substances provided by the existing hydrogen-rich water cup.
The invention provides a hydrogen-rich water cup with high hydrogen purity and content, which comprises: the water storage cup comprises a cup cover, a cup body, a bottom shell and an oxygen exhaust device, wherein an electrolysis assembly for electrolyzing water in the cup body is arranged in the bottom shell, hydrogen generated by a negative electrode in the electrolysis assembly enters water stored in the cup body through a one-way conduction assembly, and oxygen generated by a positive electrode in the electrolysis assembly is exhausted to the outside air through the oxygen exhaust device;
the peripheral side surface of the oxygen discharge device is provided with a storage bin, and the storage bin is filled with filling materials.
Furthermore, the oxygen discharging device comprises a first oxygen bin and a second oxygen bin, wherein the first oxygen bin is arranged on one side of the electrolysis assembly and used for storing oxygen generated at a positive electrode in the electrolysis assembly, the second oxygen bin is communicated with the first oxygen bin, two ends of the second oxygen bin are opened, an opening at one end of the second oxygen bin is connected with the first oxygen bin through a connecting piece, and a silica gel plug is arranged at an opening at the other end of the second oxygen bin; the top of silica gel stopper is provided with the through-hole, and along gaseous flow direction, the oxygen that produces at the positive electrode in the electrolysis subassembly passes through in proper order first oxygen storehouse, second oxygen storehouse and silica gel stopper the through-hole certainly in the inside of cup body discharges to the external environment.
Furthermore, an oxygen discharge channel is arranged on the cup cover, the oxygen discharge channel is provided with a first opening and a second opening, the first opening is arranged on the side wall of the cup cover, and the second opening is arranged on a plane of one side of the cup cover facing the cup bottom; and a waterproof breathable film is arranged at any position of the oxygen discharge channel.
Further, the storage bin is arranged on the second oxygen bin and used for being in contact with the water stored in the cup body in the circumferential side, and at least one second water inlet and outlet which is used for communicating the storage bin with the water stored in the cup body is arranged on the storage bin.
Furthermore, along the direction that the top of the cup body points to the bottom, a negative electrode screw, a second waterproof ring, an ionic membrane, a positive electrode screw and a third waterproof ring in the electrolytic component are sequentially arranged in the bottom shell, wherein,
and central holes are respectively formed in the negative electrode, the second waterproof ring, the ionic membrane, the positive electrode and the third waterproof ring, so that a through hole arranged in the middle of the connecting piece can penetrate through and communicate the first oxygen bin and the second oxygen bin.
Furthermore, a plurality of through holes are distributed around the central hole of the negative electrode, one of the through holes is connected with the negative electrode screw and then connected to the negative electrode of the power supply, a plurality of through holes are distributed around the central hole of the positive electrode, and one of the through holes is connected with the positive electrode screw and then connected to the positive electrode of the power supply.
Furthermore, the electronic charging device comprises a rechargeable battery arranged at the bottom of the bottom shell, a power input port and a power output port which are arranged on the shell of the bottom shell, wherein the power input port and the power output port are respectively and electrically connected with a circuit board assembly, and the circuit board assembly is electrically connected with the rechargeable battery.
Furthermore, the circuit board assembly comprises a power management module and a main controller, wherein the power management module is respectively and electrically connected with the positive electrode, the negative electrode, the rechargeable battery, the power output port and the power input port; the main controller is electrically connected with the rechargeable battery; the main controller is also electrically connected with a control switch for controlling the main controller.
Furthermore, the main controller is also connected with a prompting component for prompting different states of the charged sub-equipment.
Further, the prompting component is a colorful LED lamp with RGB combined color; or,
the prompting component is an LED lamp which is formed by simultaneously emitting light from LED lamps with two colors to form a third color.
The hydrogen-rich water cup with high hydrogen purity and content provided by the invention can produce the following beneficial effects:
the invention provides a hydrogen-rich water cup with high hydrogen purity and content, which comprises: the cup comprises a cup cover, a cup body, a bottom shell and an oxygen exhaust device, wherein an electrolysis assembly for electrolyzing water in the cup body is arranged in the bottom shell, hydrogen generated by a negative electrode in the electrolysis assembly enters water stored in the cup body through a one-way conduction assembly, and oxygen generated by a positive electrode in the electrolysis assembly is exhausted out of the cup body through the oxygen exhaust device; the peripheral surface of the oxygen discharge device is provided with a storage bin, and the storage bin is filled with filling materials. When the water storage cup is used, the electrolysis assembly in the bottom shell electrolyzes water in the cup body, hydrogen generated by the negative electrode enters water in the cup body through the one-way conduction assembly to form hydrogen-rich water, and oxygen generated by the positive electrode is stored and discharged out of the cup through the oxygen discharge channel and is discharged to the external environment. Meanwhile, the filling material in the storage bin soaked in the water in the cup body releases substances beneficial to the human body into the water.
The hydrogen-rich water cup with high hydrogen purity and content provided by the invention can discharge oxygen generated at the positive electrode of the electrolysis assembly through the oxygen discharge channel, so that the purity of the hydrogen content in the water cup is improved, and other gases harmful to human bodies are prevented from entering water in the cup body and damaging the health of users. In addition, the hydrogen-enriched water cup with high hydrogen purity and content provided by the invention is provided with the storage bin, and the filling material in the storage bin can complement the hydrogen generated by the positive electrode to provide various substances beneficial to body health for a user.
Drawings
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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.
Fig. 1 is a schematic view of a bottom case structure according to an embodiment of the present invention;
FIG. 2 is a schematic structural view of a cup body according to an embodiment of the present invention;
FIG. 3 is a schematic view of a lid structure provided in an embodiment of the present invention;
fig. 4 is a schematic view of an overall structure of a hydrogen-rich cup with high hydrogen purity and content according to an embodiment of the present invention.
Icon: 1-a cup cover; 2-the cup body; 3-a bottom shell; 4-a negative electrode; 5-a positive electrode; 6-an oxygen exhaust device; 6.1-a first oxygen silo; 6.2-second oxygen bin; 6.3-connecting piece; 6.4-silica gel plug; 6.5-oxygen discharge channel; 6.6-waterproof breathable film; 7-a storage bin; 7.1-a second water inlet and outlet; 8-a filler material; 9-negative electrode screw; 10-a second waterproof ring; 11-an ionic membrane; 12-positive electrode screw; 13-third water prevention ring; 14-a rechargeable battery; 15-power input port; 16-power output port; 17-a circuit board assembly; 18-a control switch; 19-prompt component.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. 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.
The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.
Numerous medical studies have shown that many diseases, including aging, are caused by the accumulation of free radicals in the body which cannot be removed in a timely manner. Free radicals are chemical substances, also called active oxygen, which are very active and have strong oxidation effect and are generated by human cells in the metabolic process. The free radicals attack living macromolecules to cause tissue cell damage, which is the root cause of organism aging and the important cause of malignant diseases such as tumor. Excessive reactive oxygen radicals generate destructive action, resulting in damage to normal cells and tissues of the human body, thereby causing various diseases such as heart disease, senile dementia, parkinson's disease, tumor, and the like. In addition, sunlight radiation, air pollution, smoke, pesticides and the like in the external environment can promote the human body to generate more active oxygen free radicals, so that nucleic acid mutation is caused, and the root cause of human aging and diseases is provided.
The water containing hydrogen has the function of eliminating free radicals in organisms. Hydrogen itself is an optimal antioxidant, because hydrogen molecules are very fine, the hydrogen can rapidly permeate to the whole body after entering the body, and can penetrate through cell membranes to take away malignant active oxygen which is difficult to eliminate in the process, and synthetic water of the malignant active oxygen is discharged out of the body without influencing other benign active oxygen and the operation of body functions. Most importantly, the damaged and oxidized cells can be recovered. The hydrogen in water has the strongest reducing capability, most of the antioxidants such as vitamins which are frequently eaten by people do not easily penetrate cell membranes, malignant active oxygen cannot be killed in a targeted manner, and in addition, a large amount of vitamins are eaten and are difficult to store and absorb in the body.
A hydrogen-rich cup is a device that generates hydrogen-rich water. Water is converted into electrolytic reduction water by an electrolysis technology to generate hydrogen. The hydrogen-rich water can improve sub-health, and has adjuvant treatment effect on partial diseases. In the prior art, the water electrolysis device is arranged in the hydrogen-rich water cup, and the generated hydrogen is obtained by using the water electrolysis mode and is dissolved in water, so that a user can drink the hydrogen-rich water. The water electrolysis device is arranged in the water cup in the prior art, and the generated hydrogen is dissolved in water in a water electrolysis mode, so that a user drinks hydrogen-rich water. The main disadvantages of the method are that oxygen cannot be discharged completely, and harmful substances such as ozone, hydrogen peroxide, chlorine and the like can be generated after the electrodes are electrified, so that the method is harmful to human bodies. In addition, the substances beneficial to human bodies contained in the existing hydrogen-rich water cup are single, and the substances beneficial to human bodies cannot be provided for users from multiple aspects.
Therefore, as shown in fig. 1-4, the present invention provides a hydrogen-rich water cup with high hydrogen purity and content, comprising: the cup comprises a cup cover 1, a cup body 2, a bottom shell 3 and an oxygen exhaust device 6, wherein an electrolysis assembly for electrolyzing water in the cup body 2 is arranged in the bottom shell 3, hydrogen generated by a negative electrode 4 in the electrolysis assembly enters water stored in the cup body 2 through a one-way conduction assembly, and oxygen generated by a positive electrode 5 in the electrolysis assembly is exhausted to the outside air through the oxygen exhaust device 6;
the peripheral side surface of the oxygen discharging device 6 is provided with a storage bin 7, and the storage bin 7 is filled with a filling material 8.
The filler 8 is a substance beneficial to the human body.
Specifically, in use, as shown in fig. 1, the electrolysis assembly in the bottom case 3 electrolyzes water in the cup body 2, hydrogen generated by the negative electrode 4 enters the water storage in the cup body 2 through the one-way conduction assembly to form hydrogen-rich water, and oxygen generated by the positive electrode 5 is stored and discharged out of the cup through the oxygen discharge passage to the external environment. Meanwhile, the filling material 8 in the storage bin 7 soaked in the water in the cup body 2 releases substances beneficial to the human body into the water.
It should be noted that the hydrogen-enriched water cup with high hydrogen purity and content provided by the invention can discharge oxygen generated at the positive electrode 5 of the electrolytic assembly through the oxygen discharge channel 6.5, so that the purity of the hydrogen content in the water cup is improved, and other gases harmful to human bodies are prevented from entering water in the cup body 2 and harming the health of users. In addition, the hydrogen-enriched water cup with high hydrogen purity and content provided by the invention is provided with the storage bin 7, and the filling material 8 in the storage bin 7 can complement the hydrogen generated by the positive electrode 5 to provide a plurality of substances beneficial to the health of a user.
In addition, the oxygen discharging device 6 comprises a first oxygen bin 6.1 which is arranged at one side of the electrolytic component and used for storing oxygen generated at the positive electrode 5 in the electrolytic component and a second oxygen bin 6.2 which is communicated with the first oxygen bin 6.1 and has two open ends, an opening at one end of the second oxygen bin 6.2 is connected with the first oxygen bin 6.1 through a connecting piece 6.3, and a silica gel plug 6.4 is arranged at an opening at the other end; the top of the silica gel plug 6.4 is provided with a through hole, and oxygen generated at the positive electrode 5 in the electrolytic assembly is discharged from the inside of the cup body 2 to the external environment through the first oxygen bin 6.1, the second oxygen bin 6.2 and the through hole of the silica gel plug 6.4 along the flowing direction of the gas.
Specifically, when in use, the electrolysis assembly electrolyzes water in the cup body 2, hydrogen generated at the negative electrode 4 enters the water stored in the cup body 2 through the one-way conduction assembly, so that the water in the cup body 2 forms hydrogen-rich water beneficial to a human body, oxygen generated at the positive electrode 5 is stored in a first oxygen bin 6.1 communicated with the positive electrode 5, the oxygen stored in the first oxygen bin 6.1 enters a second oxygen bin 6.2 connected with the first oxygen bin, and then the gas can be discharged into the outside air through holes in a silica gel plug 6.4 in the second oxygen bin 6.2.
It should be noted that, as shown in fig. 4, the hydrogen-rich water cup with high hydrogen purity and content provided by the present invention has a first oxygen chamber 6.1 and a second oxygen chamber 6.2, the two oxygen chambers can primarily store oxygen generated by the positive electrode 5 of the electrolysis assembly, and after the cup cover 1 is opened, the oxygen is discharged from the two oxygen chambers through the through holes of the silicone plug 6.4, so as to be discharged out of the water cup. In the process from the generation of oxygen by the positive electrode 5 to the discharge of the oxygen, the gas generated by the positive electrode 5 is always isolated from the water in the cup, so that the danger of harmful substances to human bodies caused by the gas dissolved in the water is avoided.
In addition, only the hydrogen generated by the negative electrode 4 in the hydrogen-rich water cup with high hydrogen purity and content is dissolved in water, so that the hydrogen content in the water cup is high in purity, and the hydrogen dissolved in the water is ensured to be pure hydrogen.
Moreover, the hydrogen-enriched water cup with high hydrogen purity and content provided by the invention adopts the first oxygen bin 6.1, the second oxygen bin 6.2 and the through holes on the silica gel plug 6.4 to discharge the gas generated by the positive electrode 5, so that the stable discharge of the gas is always kept, and the phenomena that the silica gel plug 6.4 fails and the gas cannot be discharged are avoided.
A through hole in the middle of the silica gel plug 6.4 is used as an oxygen sealing opening, the silica gel plug 6.4 is made of a telescopic silica gel material, when the cup cover 1 is covered, the cup cover 1 presses the through hole of the silica gel plug 6.4, oxygen generated after electrolysis is sealed and stored in the first oxygen bin 6.1 and the second oxygen bin 6.2, and the volume of the oxygen needing to be electrolyzed is smaller than the volume of the first oxygen bin 6.1 and the second oxygen bin 6.2.
In addition, the second oxygen chamber 6.2 is provided with a connecting part which is fixedly supported with the inner side surface of the cup opening of the cup body 2, and the connecting part is provided with a first water inlet and a first water outlet which enable water to flow through the connecting part from the cup opening and enter the inner side of the cup body 2.
It should be noted that, the second oxygen bin 6.2 is arranged in the cup body 2, and the water stored in the cup body 2 is surrounded around the second oxygen bin 6.2, and in order to keep the stability of the second oxygen bin 6.2, a connecting part is arranged on the inner side surface of the cup mouth of the second oxygen bin 6.2 and the cup body 2, and the connecting part supports the second oxygen bin 6.2.
In addition, in order to ensure that water can be smoothly guided into or out of the cup body 2 without being influenced by the connecting part, the connecting part is provided with a first water inlet and a first water outlet which enable water to flow through the connecting part from the cup opening and enter the inner side of the cup body 2.
In addition, as shown in fig. 3, an oxygen discharge channel 6.5 is arranged on the cup cover 1, the oxygen discharge channel 6.5 is provided with a first opening and a second opening, the first opening is arranged on the side wall of the cup cover 1, the second opening is arranged on a side plane of the cup cover 1 facing the cup bottom, and when the cup cover 1 is buckled with the cup body 2, the second opening is communicated with the through hole of the silica gel plug 6.4 to discharge the gas in the second oxygen chamber 6.2 and the first oxygen chamber 6.1.
Specifically, when the cup cover 1 is buckled with the opening of the cup body 2, the oxygen discharge channel 6.5 on the cup cover 1 is communicated with the through hole on the silica gel plug 6.4, so that the gas in the first oxygen bin 6.1 and the second oxygen bin 6.2 is discharged to the external environment through the cup cover 1 through the communicated oxygen discharge channel 6.5.
It should be noted that the hydrogen-enriched water cup with high hydrogen purity and content provided by the invention adopts the structure of the cup cover 1, so that oxygen generated by the electrolysis assembly is discharged to the external environment through the first oxygen bin 6.1, the second oxygen bin 6.2, the silica gel plug 6.4 with holes and the oxygen discharge channel under the condition that the cup cover 1 is buckled with the cup body 2, and substances harmful to human bodies due to gas generated by oxygen dissolved in water are effectively avoided, so that the water in the cup body 2 only contains the negative electrode 4 to generate hydrogen.
The hydrogen-rich water cup with high hydrogen purity and content provided by the invention not only improves the purity of hydrogen in the cup body 2, but also accelerates the oxygen discharge efficiency, and enhances the safety and reliability of the whole device.
In addition, the cup cover 1 comprises a first cover body and a second cover body, the first cover body is provided with a cavity with an opening at one end, the second cover body is arranged in the cavity, a cavity is arranged between the second cover body and the first cover body, an oxygen discharge channel 6.5 is arranged in the cavity, the first opening is positioned on the side wall of the first cover body, and the second opening is positioned on a side plane of the second cover body facing the cup bottom.
In addition, a waterproof and breathable film 6.6 is arranged at any position of the oxygen discharge channel 6.5. The material of waterproof ventilated membrane 6.6 can block water and can not the separation gas, can make the through-hole that enters into in the oxygen discharge passageway 6.5 from silica gel plug 6.4 effectively, smoothly pass through when preventing external moisture from getting into oxygen discharge passageway 6.5 effectively, and the oxygen in the whole in-process oxygen discharge passageway 6.5 can not combine with water to make the oxygen smooth and easy discharge into the external environment from the oxygen discharge passageway 6.5 on the bowl cover 1.
It should be noted that when the second oxygen chamber 6.2 is filled with oxygen, the air pressure is increased, the formed air pressure can make the waterproof breathable film 6.6 generate micro-deformation, and the oxygen is discharged out of the cup body through the oxygen discharge channel 6.5 through the waterproof breathable film 6.6. The oxygen discharge passage 6.5 is a passage which can be filled with water, and the waterproof breathable film 6.6 can prevent external water from entering the cup body and influencing the discharge of oxygen.
It should be noted that, because oxygen is discharged to the outside air through the oxygen discharge passage 6.5, the waterproof air permeable membrane 6.6 is disposed at any position of the oxygen discharge passage 6.5, which can achieve the above effects of preventing the outside moisture from entering the oxygen discharge passage 6.5 and ensuring the normal discharge of oxygen.
In addition, a plug or a cover can be added at the first opening, when the gas in the first oxygen bin 6.1, the second oxygen bin 6.2 and the oxygen discharge channel 6.5 needs to be discharged, the plug or the cover is opened, and when the gas is not needed, the first opening is closed.
It should be noted that the plug or the cover is additionally installed at the first opening, so that the user can discharge the oxygen generated by the electrolytic component in the cup body 2.
In addition, a boss protruding towards the cup bottom is arranged on the second cover body, and the second opening is arranged on the boss.
In addition, the connecting piece 6.3 is connected with the first oxygen bin 6.1 through a convex column and a concave hole; in the process of the production of the composite material,
the connecting piece 6.3 is connected with the first oxygen bin 6.1 through a rotary thread; in the process of the production of the composite material,
the connecting piece 6.3 is connected with the first oxygen bin 6.1 in a buckling mode.
It should be noted that the connection manner between the connecting piece 6.3 and the first oxygen bin 6.1 may be any one of the above connection manners, and the specific connection manner may be determined according to the use requirement.
In addition, the storage bin 7 is arranged on the second oxygen bin 6.2 and used for being in contact with the water stored in the cup body 2, and at least one second water inlet and outlet 7.1 used for communicating the storage bin 7 with the water stored in the cup body 2 is arranged on the storage bin 7.
Specifically, when the cup is used, the storage bin 7 is immersed in water in the cup body 2, and the water in the cup body 2 enters the storage bin 7 through the second water inlet/outlet 7.1, so that the filling material 8 in the storage bin 7 is immersed in the water and volatilizes substances which are beneficial to a human body in the water.
The hydrogen-rich water cup with high hydrogen purity and content provided by the invention can be used for electrolyzing hydrogen to form hydrogen-rich water by the electrolysis assembly, and can be soaked in water by the filling material 8 arranged in the storage bin 7 in the water cup to generate substances beneficial to human bodies. The substance generated by the filling material 8 in the storage bin 7 is complementary to the hydrogen in the hydrogen-rich water, and provides substances beneficial to the human body from multiple aspects, so that the user can drink the hydrogen-rich water and obtain other beneficial substances, thereby ensuring that the body is healthier.
The hydrogen-rich water, also called "molecular hydrogen water", is referred to as "elemental water" in japan and refers to water rich in hydrogen gas. The hydrogen-rich water integrates high hydrogen content, negative potential, alkalescence and small molecules. The hydrogen-rich water can easily enter a cell channel, promote metabolism, eliminate malignant active oxygen free radicals, promote cell detoxification, increase cell hydration and improve human immunity.
In addition, the hydrogen-rich water has the effects of preventing and treating diabetes, cardiovascular and cerebrovascular diseases, cancer lung metastasis, rheumatism, brain tumor, skin diseases, headache, dizziness, blood circulation disorder, kidney diseases, female climacteric syndrome, infantile eczema, bronchia, thyroid gland, insomnia, epilepsy and anaphylaxis, and also has the effects of beautifying, losing weight and resisting aging.
The filler 8 is a hydrogen-rich material that can generate hydrogen gas in a non-electrolytic manner.
It should be noted that the main purpose of selecting the filling material 8 as a hydrogen-rich material that generates hydrogen gas in a non-electrolytic manner is to add the hydrogen gas obtained during electrolysis and the hydrogen gas that can be generated without electrolysis, so as to increase the hydrogen content.
In addition, another purpose is when this product can't use electrolysis subassembly electrolysis to produce hydrogen because the electric quantity is not enough, and the filler 8 in the storing storehouse 7 can produce hydrogen after the same with water mixture, reaches to let the user can last to drink hydrogen-rich water's purpose.
Preferably, the hydrogen-rich material is selected from a hydrogen-rich water ball which is formed by compounding various mineral materials and alloy materials and baking the materials at a low temperature in a non-electrolytic mode and can generate hydrogen or a hydrogen-rich water porcelain which is prepared by sintering tourmaline, medical stone and alloy materials at a high temperature and other working procedures.
In addition, the storage bin 7 is not limited to be only filled with the filling material 8 capable of producing hydrogen, but also can be filled with other substances beneficial to health, such as active mineral nano-scale mineral composite material tourmaline, substances capable of releasing organic selenium and the like. The other health-beneficial substances can be replaced according to the adapted people and the need.
It should be noted that when selecting the filling material 8 in the storage bin 7 for removing other substances beneficial to human health that can produce hydrogen, can let the user use the utility model provides a pair of hydrogen-rich drinking cup with mineral substance carrier, except obtaining the benefit that hydrogen-rich water brought and can also enjoy the benefit that other substances beneficial to human health brought, kill two birds with one stone or even kill more.
The filling material 8 in the storage bin 7 can be one or more, and when the filling material 8 is selected to be more, substances harmful to human bodies are generated by the fact that the substances do not react, or substances harmful to human bodies are generated by the fact that the products of the substances do not react.
Further, when the filling material 8 is selected in various kinds, substances beneficial to the human body can be provided from various aspects. In order to meet the requirement that a plurality of filling materials 8 are filled in the storage bin 7 and the filling and replacement of the plurality of filling materials 8 are facilitated, a plurality of partition plates can be arranged in the storage bin 7 to form a plurality of sub-chambers, and one filling material 8 is placed in each chamber.
Furthermore, a second inlet/outlet opening 7.1 is provided in each sub-chamber so that the water in the cup comes into contact with each filling material 8, thereby enabling the filling material 8 to exert its own effect.
In addition, a gas discharge channel for discharging gas generated at the positive electrode 5 in the electrolytic component out of the inside of the cup body is arranged in the cup body, and the storage bin 7 is arranged on the circumferential surface of the gas discharge channel.
In addition, the storage bin 7 is arranged on the position of the gas discharge channel close to the cup bottom.
It should be noted that, in order to bring the filling material 8 in the storage bin 7 into contact with water and exert the effect of providing a beneficial substance to a user, the storage bin 7 is disposed at a position close to the bottom of the cup in the gas discharge passage.
Under the structure, when the water content in the water cup is not much, the storage bin 7 can be contacted with the water in the cup body 2 to play a role. The embarrassment that the storage bin 7 is too high away from the cup bottom and the effect of the storage bin 7 can be exerted when water reaches a certain amount is avoided.
In addition, the hydrogen-rich water cup with high hydrogen purity and content provided by the invention is also provided with a barrier layer for preventing materials in the storage bin 7 from entering the water storage of the cup body 2 through the second water inlet/outlet 7.1, and the barrier layer can enable water to flow into or out of the storage bin 7 at will.
It should be noted that the barrier layer may be a filter screen, a filter membrane through which small molecules that can supply water can permeate, or other substances that can achieve the function, and the specific barrier layer structure may be set according to actual requirements.
In addition, the storage bin 7 comprises a bin body and a bin cover, and the bin body and the bin cover are detachably connected.
It should be noted that, in order to facilitate filling or replacing the filling material 8 in the storage bin 7, the storage bin 7 includes a bin body and a bin cover, and the bin body is detachably connected to the bin cover. When the filling material 8 needs to be filled or replaced, the bin body and the bin cover are separated.
In addition, it should be noted that the detachable connection mode between the bin body and the bin cover can be realized by various structures, and the specific structure is as follows:
the bin body and the bin cover are connected in a mode of connecting the convex columns and the concave holes; in the process of the production of the composite material,
the bin body is connected with the bin cover in a rotary thread mode; in the process of the production of the composite material,
the bin body is connected with the bin cover in a buckling mode.
In addition, along the direction that the top of the cup body 2 points to the bottom, a negative electrode 4, a negative electrode screw 9, a second waterproof ring 10, an ionic membrane 11, a positive electrode 5, a positive electrode screw 12 and a third waterproof ring 13 in the electrolytic component are sequentially arranged in the bottom shell 3, wherein,
the negative electrode 4, the second waterproof ring 10, the ionic membrane 11, the positive electrode 5 and the third waterproof ring 13 are respectively provided with a central hole, so that a through hole arranged in the middle of the connecting piece 6.3 can penetrate through and communicate with the first oxygen bin 6.1 and the second oxygen bin 6.2.
In addition, a plurality of through holes are distributed around the central hole of the negative electrode 4, one of the through holes is connected with the negative electrode screw 9 and then connected to the negative electrode of the power supply, a plurality of through holes are distributed around the central hole of the positive electrode 5, and one of the through holes is connected with the positive electrode screw 12 and then connected to the positive electrode of the power supply.
Specifically, the installation relationship of the hydrogen-rich water cup with high hydrogen purity and content provided by the invention is as follows:
the bottom shell 3 is internally provided with a negative electrode 4, a negative electrode screw 9, a second waterproof ring 10, an ionic membrane 11, a positive electrode 5, a positive electrode screw 12 and a third waterproof ring 13 in the electrolytic component in sequence along the direction from the top to the bottom of the cup body 2,
the negative electrode 4, the second waterproof ring 10, the ionic membrane 11, the positive electrode 5 and the third waterproof ring 13 are respectively provided with a central hole, so that a through hole arranged in the middle of the connecting piece 6.3 can penetrate through and communicate with the first oxygen bin 6.1 and the second oxygen bin 6.2.
In addition, the connecting piece 6.3 is connected with the second oxygen bin 6.2 through a convex column and a concave hole; in the process of the production of the composite material,
the connecting piece 6.3 is connected with the second oxygen bin 6.2 in a manner of rotating threads; in the process of the production of the composite material,
the connecting piece 6.3 is connected with the second oxygen bin 6.2 in a buckling mode.
It should be noted that the connection manner between the connecting piece 6.3 and the second oxygen bin 6.2 may be any one of the above connection manners, and the specific connection manner may be determined according to the use requirement. The connecting piece 6.3 is a fixed support which is a circular cover and is provided with a through hole in the middle, a hydrogen hole is arranged on the side surface or the upper part, the hydrogen hole is communicated with the cup body 2 and is used as a through hole for water and hydrogen, and a first waterproof ring is arranged below the hydrogen hole and is used for preventing water from entering the first oxygen bin 6.1 and the second oxygen bin 6.2; the channel in the middle of the fixed bracket is communicated with the first oxygen bin 6.1 and the second oxygen bin 6.2.
In addition, the first part of the fixed bracket is used as a bin cover of the storage bin 7, and the bin cover is detachably connected with the bin body; a storage bin 7 is arranged on the periphery of the second oxygen bin 6.2 close to the bottom of the cup, the storage bin 7 is isolated from the second oxygen bin 6.2, a water inlet and outlet hole arranged on the side edge of the second oxygen bin 6.2 is communicated with water in the cup body 2, and substances in the storage bin 7 can be dissolved in the water in the cup body 2; the second oxygen chamber 6.2 is provided with a silica gel plug 6.4, and the middle of the silica gel plug 6.4 is provided with a through hole as an oxygen sealing port.
The positive electrode 5 is a positive electrode sheet made of a titanium material with a catalytic functional substance attached to the surface thereof. Materials with catalytic function such as noble metals platinum (Pt), palladium (Pd), iridium (Ir), ruthenium (Ru) and rhodium (Rh), and can also be novel composite nano carbon materials, and the like, and platinum (Pt) is preferably adopted as the material with catalytic function; the negative electrode 4 is a negative electrode sheet.
The positive electrode plate is provided with a central hole, a plurality of small through holes are distributed around the central hole, one of the through holes is respectively connected with the negative electrode screw 9 and the positive electrode screw 12 and then connected to the positive electrode and the negative electrode of the power supply, and when in electrolysis, according to the principle of water electrolysis, after the two electrodes are connected with the power supply, hydrogen generated by the negative electrode plate is dissolved in water through the small distributed holes through the hydrogen holes; oxygen generated by the positive electrode plate is discharged to the first oxygen bin 6.1 through the distributed small through holes.
In addition, a second waterproof ring 10 is arranged below the negative electrode plate, and the second waterproof ring 10 is characterized by consisting of an outer O-shaped ring and an inner O-shaped ring, so that a space is formed between the negative electrode plate and the ionic membrane 11, and hydrogen can more efficiently pass through small distribution holes of the negative electrode plate. At the same time, the inner O-ring prevents water from entering the first oxygen reservoir 6.1.
A through hole is arranged beside the central hole of the ionic membrane 11 to allow the positive electrode screw 12 to pass through, and the ionic membrane 11 is a diaphragm which has the functions of preventing oxygen from passing through and serving as an electrolytic medium and catalysis.
Because the base internal member is made of plastic products and has unavoidable tolerance, the tolerance number has a probability that the electrolytic component is assembled to generate uneven assembly or deviation to cause the waterproof failure of the inner O-shaped ring of the second waterproof ring 10, so that water can enter the first oxygen bin 6.1, and the third waterproof ring 13 is selected as a medium for enhancing the waterproof performance. The third waterproof ring 13 is made of a silica gel material and has elasticity. The further design of third water circle 13 can also be by two the same O type silica gel circle constitutions, adorn these two O type silica gels respectively in drain pan 3 in the screw hole top, play and correct positive electrode piece and reach the waterproof dual purpose in horizontal installation and screw hole clearance.
In addition, as shown in fig. 4, the electronic charging device is further included, the electronic charging device includes a rechargeable battery 14 disposed at the bottom of the bottom shell 3, and a power input port 15 and a power output port 16 disposed on the casing of the bottom shell 3, the power input port 15 and the power output port 16 are respectively electrically connected to a circuit board assembly 17, and the circuit board assembly 17 is electrically connected to the rechargeable battery 14.
It should be noted that, two screw holes are formed at the bottom of the electrolytic component, and the positive electrode screw 12 and the negative electrode screw 9 are connected to the positive electrode and the negative electrode of the circuit board component 17 respectively through the two screw holes.
In addition, the circuit board assembly 17 comprises a power management module and a main controller, wherein the power management module is electrically connected with the positive electrode 5, the negative electrode 4, the rechargeable battery 14, the power output port 16 and the power input port 15 respectively; the main controller is electrically connected with the rechargeable battery 14; the main controller is also electrically connected with a control switch 18 for controlling the main controller.
In addition, the main controller is also connected with a prompting component 19 for prompting different states of the charged sub-equipment.
Specifically, when the user connects the charged sub-device to the power output port 16, the power management module identifies the charged sub-device by detecting a current or a signal, the power management module adjusts the voltage of the rechargeable battery 14 to a dc voltage required by the charged device by boosting, for example, the voltage of the battery is boosted to 5V-12V from 3.5V-4.7V, and specifically, after the voltage is boosted to 5V, the charged device is started and sends a signal to the power management module, and when the obtained signal is a voltage value requiring 9V or other voltage values within a range, the power management module further adjusts the voltage to a voltage value corresponding to the charged device. When the charging equipment does not send out the instruction, the equipment to be charged is charged at the standard 5V.
In addition, the prompting component 19 is a color LED lamp with RGB combined color; alternatively, the prompting component 19 is an LED lamp with two colors which are simultaneously combined to form an LED lamp with a third color.
Specifically, after the LED is added as the prompt component 19, the further implementation when charging the external device is as follows: the power management module can inform the user of what state the user is in according to the different states of the charged sub-equipment and the lighting form of the LED, for example, when the user accesses the charging equipment, the power management module outputs a signal to the main controller, the main controller controls the display state of the LED, and the states include multiple types: if the charging process is carried out when the charging voltage is 5V, the LED displays red, the color of the mixture of red and green is obtained when the charging voltage is half of the charging voltage, and the LED displays green after the charging is finished; if the charging process is carried out when the charging voltage is 9V, the LED is purple, the LED is blue when the charging voltage is half of the charging voltage, and the LED is green after the charging is finished; if in the charging process, the LED is displayed in a gradual change mode, when the charging current is large, the LED is brightest, and along with the gradual reduction of the charging current, the LED correspondingly becomes dark, when the charging is finished, the LED is extinguished or flickers at a darker or fixed frequency to remind a user that the charging is finished, and the gradual change display is in a reverse state; or the LED display mode with two colors is used for displaying alternately, for example, in the charging process, red and green colors flicker according to the preset frequency of the main controller, and the flicker according to the preset frequency of blue and green indicates that the charging is finished.
When the present device is charged, that is, the external power supply charges the rechargeable battery 14 of the present device: external power source adopts standard 5V DC power supply to be connected to power input port 15, and power module judges rechargeable battery 14 current electric quantity, according to the electric quantity at the required electric current of size adjustment, and main control unit generates corresponding light control signal according to the signal of telecommunication that above-mentioned charging current corresponds to use this light control signal control polychrome LED lamp to carry out corresponding light suggestion.
It should be noted that the external power source for charging the rechargeable battery 14 may be a quickcharger conforming to the QuickCharge charger of Qualcomm company, that is, a quick charger, when the charger is connected, the power module judges the current electric quantity of the rechargeable battery 14, adjusts the voltage of D +/D-according to the judgment, the quick charger identifies the voltage of D +/D-, and outputs the conforming voltage and current to charge the rechargeable battery 14 through the power module.
The Quick Charge charger determines which voltage is to be supplied to the rechargeable battery 14 for charging based on the voltage D +/D-outputted from the power supply module, and the output range of the voltage is 3.6V-24V, so as to improve the charging speed.
In the charging process, the power supply module sends a signal to the main controller in real time, the main controller generates a corresponding light control signal according to the electric signal corresponding to the charging voltage and the charging current, and the light control signal is used for controlling the multicolor LED lamp to perform corresponding light prompt.
In addition, it should be noted that the control switch 18 has multiple functions, and the specific functions are as follows: waiting for instruction action and preventing false start action: when the control switch 18 is pressed, a control instruction is transmitted to the main controller, the main controller outputs an instruction to drive the LED to light a color, such as green, and the main controller waits for the instruction, and if no further instruction is given, the main controller automatically shuts down according to a preset time, wherein the preset time can be 20 seconds to 1 minute. The purpose is that when a user puts the water cup into a backpack or the cup and the water is not contained, the user only touches the switch by mistake, and the implementation plays a role in preventing the false start.
Specifically, the waiting instruction includes an instruction of a hydrogen production function, an instruction of a night light, or an instruction of a further hydrogen production time.
A user presses the control switch 18 again during the instruction waiting period to achieve the hydrogen production function, at the moment, the main controller sends an instruction to the power management module, the power management module adjusts the voltage of the rechargeable battery 14 to a preset hydrogen production voltage value, such as a voltage value between 3V and 20V, and outputs the preset hydrogen production time within the preset time of the main controller, such as 1 minute to 7 minutes, the positive voltage electrode is connected with the positive electrode screw 12, the positive electrode screw 12 is connected with the positive electrode 5, the negative voltage electrode is connected with the negative electrode screw 9, the negative electrode screw 9 is connected with the negative electrode 4, and an electric field corresponding to the preset voltage value is generated; wherein the positive electrode 5 decomposes water to generate oxygen; the negative electrode 4 decomposes water to generate hydrogen; when hydrogen production is carried out, the LED light prompting process specifically comprises the following steps: when a hydrogen production instruction is obtained, the LEDs have corresponding instructions, and the specific instructions are various and can be set according to conditions and requirements.
When the user presses the control switch 18 again, the main controller is further configured to determine a current hydrogen production time, and control the power management module to produce hydrogen according to a preset time (e.g., 1-10 minutes), such as: when the control switch 18 is pressed, the main controller outputs an instruction to drive the LED to be red, which represents 2 minutes of hydrogen production time, and when the control switch 18 is pressed, the main controller outputs an instruction to drive the LED to be green, which represents 5 minutes of hydrogen production time.
Corresponding LED colors exist in the time selection process, when the preset time is reached, hydrogen production is finished, and the main controller generates corresponding light control signals to prompt a user that hydrogen production is finished; for example, when hydrogen production is being performed, the main controller can control the multi-color LED lamp to flash at a preset frequency, and the flash color can be purple; in addition, corresponding hydrogen production time can be selected according to the actual requirements of users, for example, the hydrogen production time is 3 minutes, 5 minutes and 8 minutes, the set range is 3 minutes to 30 minutes, correspondingly, corresponding light flashing colors can be set for different hydrogen production time, the LED has corresponding indication, the specific indication is various, and the setting can be carried out according to the conditions and the requirements.
In addition, the hydrogen-rich water cup with high hydrogen purity and content provided by the invention can also have a currency detection function; or, a currency detection function; or, a function of color flashing.
Specifically, when the user quickly presses the control switch 18 twice during the waiting instruction, a noctilucent lighting function or a color flashing atmosphere lamp or a purple lamp capable of verifying the authenticity of the rmb can be arranged on the cup body, and the time for quickly pressing twice can be within 500 milliseconds to 3 seconds. When the function is activated, it flashes at a constant brightness or at a fixed frequency. The function is turned off when the control switch 18 is pressed again.
The control switch 18 includes a mechanical switch or a touch-type signal sensing switch.
In order to realize the currency detection function, or the color flashing function of the hydrogen-rich water cup with high hydrogen purity and content. The cup body 2 should be a material which can transmit light after being irradiated by the LED, and particularly a transparent plastic product, a glass product and the like, and the material can be selected according to the requirement.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A hydrogen-rich water cup with high hydrogen purity and content is characterized by comprising: the water-saving cup comprises a cup cover (1), a cup body (2), a bottom shell (3) and an oxygen exhaust device (6), wherein an electrolysis assembly for electrolyzing water in the cup body (2) is arranged in the bottom shell (3), hydrogen generated by a negative electrode (4) in the electrolysis assembly enters water stored in the cup body (2) through a one-way conduction assembly, and oxygen generated by a positive electrode (5) in the electrolysis assembly is exhausted to the outside air through the oxygen exhaust device (6);
the oxygen exhausting device is characterized in that a storage bin (7) is arranged on the surface of the peripheral side of the oxygen exhausting device (6), and a filling material (8) is filled in the storage bin (7).
2. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 1, wherein the oxygen discharging device (6) comprises a first oxygen bin (6.1) arranged at one side of the electrolytic component and used for storing oxygen generated at a positive electrode (5) in the electrolytic component, and a second oxygen bin (6.2) communicated with the first oxygen bin (6.1) and provided with two open ends, wherein an opening at one end of the second oxygen bin (6.2) is connected with the first oxygen bin (6.1) through a connecting piece (6.3), and a silica gel plug (6.4) is arranged at an opening at the other end; the top of silica gel stopper (6.4) is provided with the through-hole, and along gaseous flow direction, the oxygen that positive electrode (5) department in the electrolysis subassembly produced is in proper order via first oxygen storehouse (6.1), second oxygen storehouse (6.2) and silica gel stopper (6.4) the through-hole, certainly the inside of cup body (2) is discharged to the external environment in.
3. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 1, characterized in that the cup cover (1) is provided with an oxygen discharge channel (6.5), the oxygen discharge channel (6.5) is provided with a first opening and a second opening, the first opening is arranged on the side wall of the cup cover (1), and the second opening is arranged on a side plane of the cup cover (1) facing the cup bottom; and a waterproof breathable film (6.6) is arranged at any position of the oxygen discharge channel (6.5).
4. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 2, characterized in that the storage bin (7) is arranged on the periphery of the second oxygen bin (6.2) for contacting with the water stored in the cup body (2), and the storage bin (7) is provided with at least one second water inlet and outlet (7.1) for communicating the storage bin (7) with the water stored in the cup body (2).
5. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 2, characterized in that along the direction from the top to the bottom of the cup body (2), the bottom shell (3) is provided with a negative electrode (4), a negative electrode screw (9), a second waterproof ring (10), an ionic membrane (11), a positive electrode (5), a positive electrode screw (12) and a third waterproof ring (13) in the electrolytic component in sequence, wherein,
the negative electrode (4), the second waterproof ring (10), the ionic membrane (11), the positive electrode (5) and the third waterproof ring (13) are respectively provided with a central hole, so that a through hole arranged in the middle of the connecting piece (6.3) can penetrate through and communicate with the first oxygen bin (6.1) and the second oxygen bin (6.2).
6. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 5, characterized in that a plurality of through holes are distributed around the central hole of the negative electrode (4), one of the through holes is connected with the negative electrode screw (9) and then connected to the negative electrode of a power supply, and a plurality of through holes are distributed around the central hole of the positive electrode (5), one of the through holes is connected with the positive electrode screw (12) and then connected to the positive electrode of the power supply.
7. The hydrogen-rich water cup with high hydrogen purity and content according to claim 1, further comprising an electronic charging device, wherein the electronic charging device comprises a rechargeable battery (14) arranged at the bottom of the bottom shell (3), a power input port (15) and a power output port (16) arranged on the shell of the bottom shell (3), the power input port (15) and the power output port (16) are electrically connected with a circuit board assembly (17), respectively, and the circuit board assembly (17) is electrically connected with the rechargeable battery (14).
8. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 7, wherein the circuit board assembly (17) comprises a power management module and a main controller, wherein the power management module is electrically connected with the positive electrode (5), the negative electrode (4), the rechargeable battery (14), the power output port (16) and the power input port (15) respectively; the main controller is electrically connected with the rechargeable battery (14); the main controller is also electrically connected with a control switch (18) for controlling the main controller.
9. The hydrogen-rich water cup with high hydrogen purity and content according to claim 8, wherein the main controller is further connected with a prompting component (19) for prompting different states of the charged sub-equipment.
10. The hydrogen-enriched water cup with high hydrogen purity and content according to claim 9, wherein the prompting component (19) is a colored LED lamp with RGB combined colors; or,
the prompting component (19) is an LED lamp which is formed by simultaneously lightening and combining LED lamps with two colors into a third color.
CN201710331803.9A 2017-05-11 2017-05-11 A kind of hydrogen-rich cup of high hydrogen purity and content Pending CN107198402A (en)

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CN110184616B (en) * 2019-07-09 2023-11-24 深圳市锐劲宝能源电子有限公司 Hydrogen-rich water generating device based on aluminum air battery and hydrogen-rich water preparation method
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CN113769208A (en) * 2021-09-28 2021-12-10 广东喜玛拉雅氢能科技有限公司 Hydrogen-rich water spraying device
CN113769208B (en) * 2021-09-28 2023-08-15 广东喜玛拉雅氢能科技有限公司 Hydrogen-rich water spraying device

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