CN107935155B

CN107935155B - Hydrogen-rich water dispenser

Info

Publication number: CN107935155B
Application number: CN201711179529.4A
Authority: CN
Inventors: 庞婉青
Original assignee: Guangzhou Naneng Environmental Protection Technology Development Co Ltd
Current assignee: Guangzhou Naneng Environmental Protection Technology Development Co., Ltd.
Priority date: 2017-11-23
Filing date: 2017-11-23
Publication date: 2020-01-14
Anticipated expiration: 2037-11-23
Also published as: CN107935155A

Abstract

The invention discloses a hydrogen-rich water dispenser, which comprises: the reaction control rod type hydrogen production device comprises a water source box and a hydrogen production device which are communicated with each other, wherein a plurality of reaction control rods are arranged in an inner cavity of the hydrogen production device, a plurality of circles of electromagnetic coils are arranged in an interlayer of the side wall of each reaction control rod in a surrounding manner, the axis of each reaction control rod is the inner cavity of the reaction control rod, magnesium metal and electrolyte are filled in the inner cavity, and the electromagnetic coils are connected with a power supply through; the inner wall of the hydrogen production device is made of pottery or purple sand, an air passage is formed in the inner wall of the hydrogen production device, and the air passage is communicated with the inner cavity of the reaction control rod. Add hydrogen generator through the water dispenser front end of going out among the prior art, make hydrogen-rich water dispenser, guarantee that the drinking water after the heating can form hydrogen-rich water after hydrogen generator, such benefit can guarantee hydrogen-rich water's ageing, and hydrogen dissolves promptly and drinks promptly, and the effect is better. And the water source box heats the drinking water, so that the temperature of the magnesium reaction is increased, and the smooth reaction is facilitated.

Description

Hydrogen-rich water dispenser

Technical Field

The invention relates to a hydrogen-rich water device, in particular to a hydrogen-rich water dispenser.

Background

The hydrogen is properly taken by human bodies, which is very effective for enhancing the oxidation resistance of the organisms, and the data shows that the hydrogen has good effects for eliminating free radicals in the bodies, resisting aging, treating cancers, reducing blood pressure, reducing blood sugar values and the like. The high concentration hydrogen water has good therapeutic effect on diabetes, pollinosis, allergy, atopic disease, constipation, ventilation, rheumatism, arrhythmia, asthma, cerebral infarction, renal failure, Alzheimer's disease, climacteric disorder, adult diseases, chronic diseases, circulatory system diseases, etc. Water and food taken by a human body every day are oxidizing and reducing, for example, many medicines have strong oxidizing property, vegetables, vitamin C, vitamin E and the like taken at ordinary times have reducing property, people need to have oxygen to maintain life, but the strong oxidizing property of the oxygen continuously enables cells of the body to rust, and finally the cells are diseased, so that the peroxidation state of the human body is eliminated, the rusted and denatured cells of the body are reduced, and the health state is very important for improving the immunity of the body and keeping the body in a healthy state. A large amount of hydrogen is added into drinking water to form hydrogen-rich water, and the body can be kept not in a 'peroxide' state by utilizing the reducibility of the hydrogen.

Most hydrogen-rich water machines in the prior art prepare hydrogen through an integrated hydrogen-oxygen generator, the scheme generally needs larger power consumption, simultaneously the gas outlet for preparing the hydrogen is unstable, and the preparation of the hydrogen-rich water is not ideal; in addition, in the scheme of generating hydrogen by reacting metal magnesium with water, the reaction rate of magnesium with water cannot be controlled in the process of preparing hydrogen, and basically, the factor influencing the generation rate of hydrogen is only one of water temperature, so that the effect of preparing hydrogen-enriched water is not ideal. The hydrogen production process is difficult to control effectively.

Disclosure of Invention

The invention overcomes the defects of the prior art and provides the hydrogen-rich water dispenser.

In order to achieve the purpose, the invention adopts the technical scheme that: a hydrogen-rich water dispenser comprising: the reaction control rod type hydrogen production device comprises a water source box and a hydrogen production device which are communicated with each other, wherein a plurality of reaction control rods are arranged in an inner cavity of the hydrogen production device, a plurality of circles of electromagnetic coils are arranged in an interlayer of the side wall of each reaction control rod in a surrounding manner, the axis of each reaction control rod is the inner cavity of the reaction control rod, magnesium metal and electrolyte are filled in the inner cavity, and the electromagnetic coils are connected with a power supply through; the inner wall of the hydrogen production device is made of pottery or purple sand, an air passage is formed in the inner wall of the hydrogen production device, and the air passage is communicated with the inner cavity of the reaction control rod.

In a preferred embodiment of the invention, one end of the hydrogen generator is closed by a cover body, a plurality of first ends of the reaction control rods are fixed on the cover body, and when the cover body is closed at the end part of the hydrogen generator, the second ends of the reaction control rods are pressed against the other end of the hydrogen generator.

In a preferred embodiment of the invention, the top plate of the hydrogen production device is also provided with a pressure relief rubber block, and the pressure relief rubber block is provided with a plurality of puncture holes which penetrate through the top plate.

In a preferred embodiment of the present invention, the magnesium metal is magnesium flakes or magnesium particles.

In a preferred embodiment of the present invention, the electrolyte is a sodium chloride or ferric chloride solution.

In a preferred embodiment of the invention, a flow equalizing plate is arranged at the upper part of the inner cavity of the hydrogen producer, and the water source tank is communicated to the upper part of the flow equalizing plate through a pipeline.

In a preferred embodiment of the invention, a water outlet pipe is arranged at the bottom of the hydrogen generator.

In a preferred embodiment of the invention, a plurality of air passages are uniformly distributed around the inner wall of the hydrogen generator.

In a preferred embodiment of the invention, a drinking water heater is arranged in the water source tank, and a pipeline at the top of the water source tank is connected with a drinking water barrel.

In a preferred embodiment of the present invention, the power source is a built-in battery or an external power source.

In a preferred embodiment of the present invention, a gas pressure sensor is disposed in the reaction chamber, and the gas pressure sensor is connected to a power switch.

In a preferred embodiment of the present invention, the inner cavity is filled with gelatin or resin, and the electrolyte is adsorbed by gelatin or water-absorbent resin.

The invention solves the defects in the background technology, and has the following beneficial effects:

(1) add hydrogen generator through the water dispenser front end of going out among the prior art, make hydrogen-rich water dispenser, guarantee that the drinking water after the heating can form hydrogen-rich water after hydrogen generator, such benefit can guarantee hydrogen-rich water's ageing, and hydrogen dissolves promptly and drinks promptly, and the effect is better. And the water source box heats the drinking water, so that the temperature of the magnesium reaction is increased, and the smooth reaction is facilitated.

(2) After a certain amount of hydrogen is generated in the inner cavity of the reaction control rod, the air pressure in the air passage is gradually increased, so that the hydrogen can be gradually released into the drinking water of the cup body, and the hydrogen is ensured to be slowly released into the water.

(3) The electromagnetic coil is electrified with alternating current, so that the coil can heat the magnesium metal in the inner cavity of the reaction control rod without contacting, and the magnesium metal reaches the proper temperature for the reaction of magnesium and water. The solenoid coil does not contact liquid in the process and does not corrode the coil.

(4) The inverter can convert direct current of the battery into alternating current, and the electromagnetic coil can be guaranteed to heat metal magnesium.

(5) Can set up baroceptor in the air flue, baroceptor connects switch, and baroceptor can be through the atmospheric pressure control reaction process that detects the air flue, and when atmospheric pressure in the air flue reached rated pressure, baroceptor passed through signal instruction switch and closes, and solenoid just can stop the heating to metal magnesium like this, and then stops the reaction process. This allows for a controlled production of hydrogen rich water.

(6) The electrolyte is sodium chloride or ferric chloride solution, which provides sufficient ion concentration condition for the reaction of magnesium and water, so that the reaction is smoother. The use of gelatin or resin ensures that the magnesium metal is uniformly dispersed in the vertical direction within the internal cavity of the reaction control rod.

(7) The puncture hole on the pressure relief rubber block is formed by using a needle to puncture the through hole on the pressure relief rubber block. The pressure relief rubber block punctures a plurality of through holes to form puncture holes, when the air pressure in the hydrogen production device is too large, the gas is preferentially discharged from the puncture holes, and the pressure in the hydrogen production device is prevented from being too large. Meanwhile, the pressure can be released in an active pressure release mode, and the hollow needle is inserted into the puncture hole to enable the gas in the hydrogen production device to be released from the through hole of the hollow needle.

(8) The flow equalizing plate is provided with a raised structure and can be used as a temporary storage space of hydrogen, water in the water source tank can be immediately contacted with the hydrogen after entering, meanwhile, the flow equalizing plate can disperse the flow direction of the water to gradually disperse the water into the hydrogen production device, so that the newly entering water can be fully contacted with the inner wall of the hydrogen production device to dissolve the hydrogen to form hydrogen-rich water.

Drawings

The invention is further explained below with reference to the figures and examples;

FIG. 1 is a cross-sectional structural view of a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view of a hydrogen generator of a preferred embodiment of the present invention;

in the figure: 1. a hydrogen producer; 2. a cover body; 3. puncturing a hole; 4. an inner wall; 5. an airway; 6. a pipeline; 7. a water source tank; 8. a reaction control rod; 9. an inner cavity; 10. an electromagnetic coil; 11. magnesium metal; 12. an inverter; 13. a power source; 14. a drinking water barrel; 15. a flow equalizing plate; 16. and (5) discharging a water pipe.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings and examples, which are simplified schematic drawings and illustrate only the basic structure of the invention in a schematic manner, and thus show only the constituents relevant to the invention.

As shown in fig. 1 and 2, a hydrogen-rich water dispenser includes: the hydrogen production device comprises a water source tank 7 and a hydrogen production device 1 which are communicated with each other, wherein a drinking water heater is arranged in the water source tank 7, and a pipeline 6 at the top of the water source tank 7 is connected with a drinking water barrel 14. Add hydrogen generator 1 through the water dispenser front end that goes out among the prior art, make hydrogen-rich water dispenser, guarantee that the drinking water after the heating can form hydrogen-rich water after hydrogen generator 1, such benefit can guarantee hydrogen-rich water's ageing, and hydrogen dissolves promptly and drinks promptly, and the effect is better. And the water source box 7 heats the drinking water, so that the temperature of the magnesium reaction is increased, and the smooth proceeding of the reaction is facilitated.

The inner cavity 9 of the hydrogen production device 1 is provided with a plurality of reaction control panels 8, a plurality of circles of electromagnetic coils 10 are arranged in an interlayer on the side wall of each reaction control panel 8 in a surrounding manner, the inner cavity 9 is arranged at the axis of each reaction control panel 8, metal magnesium 11 and electrolyte are filled in the inner cavity 9, and the electromagnetic coils 10 are connected with a power supply 13 through an inverter 12; the electromagnetic coil 10 is electrified with alternating current, so that the coil can heat the metal magnesium 11 in the inner cavity 9 of the reaction control plate 8 under the condition of non-contact, and the metal magnesium reaches the proper temperature for the reaction of magnesium and water. The absence of the solenoid coil 10 from contact with the liquid during this process does not corrode the coil. The inverter 12 can convert the direct current of the battery into alternating current, and ensures that the electromagnetic coil 10 can heat the metal magnesium 11.

The inner wall 4 of the hydrogen production device 1 is made of pottery or purple sand, an air passage 5 is arranged in the inner wall 4 of the hydrogen production device 1, and the air passage 5 is communicated with the inner cavity 9 of the reaction control plate 8. As the reaction control plate 8 is made of pottery or purple sand, after a certain amount of hydrogen is generated in the inner cavity 9 of the reaction control plate 8, the air pressure in the air passage 5 is gradually increased, so that the hydrogen can be gradually released into the drinking water of the cup body, and the hydrogen is ensured to be slowly released into the water.

One end of the hydrogen production device 1 is sealed by the cover body 2, the first ends of the reaction control plates 8 are fixed on the cover body 2, and when the cover body 2 is sealed at the end part of the hydrogen production device 1, the second ends of the reaction control plates 8 are pressed against the other end of the hydrogen production device 1.

The top plate of the hydrogen production device 1 is also provided with a pressure relief rubber block, the pressure relief rubber block is provided with a plurality of puncture holes 3, and the puncture holes 3 penetrate through the top plate. The puncture hole 3 on the pressure relief rubber block is formed by using a needle to puncture the through hole of the pressure relief rubber block. Puncture hole 3 is formed after a plurality of through holes are punctured in the pressure relief rubber block, when the air pressure in hydrogen production device 1 is too large, gas is preferentially discharged from puncture hole 3, and the pressure in hydrogen production device 1 is prevented from being too large. Meanwhile, the pressure can be released in an active pressure release mode, and the gas in the hydrogen production device 1 is released from the through hole of the hollow needle by the hollow needle penetrating into the puncture hole 3.

The metal magnesium 11 is magnesium sheet or magnesium particle, and the electrolyte is sodium chloride or ferric chloride solution. The electrolyte is sodium chloride or ferric chloride solution, which provides sufficient ion concentration condition for the reaction of magnesium and water, so that the reaction is smoother. The inner cavity 9 is filled with gelatin or resin, the electrolyte is adsorbed by the gelatin or water-absorbent resin, and the gelatin or resin can ensure that the magnesium metal 11 can be uniformly dispersed in the inner cavity 9 of the reaction control plate 8 along the vertical direction.

The upper part of the inner cavity 9 of the hydrogen producer 1 is provided with a flow equalizing plate 15, and the water source tank 7 is communicated to the upper part of the flow equalizing plate 15 through a pipeline 6. The top plate above the flow equalizing plate 15 is provided with a raised structure, the flow equalizing plate 15 is uniformly provided with a plurality of through holes which can be used as a temporary storage space for hydrogen, water in the water source tank 7 can be immediately contacted with the hydrogen after entering, and meanwhile, the flow equalizing plate 15 can disperse the flow of the water to gradually disperse the water into the hydrogen generator 1, so that the newly entering water can be fully contacted with the inner wall 4 of the hydrogen generator 1 to dissolve the hydrogen to form hydrogen-rich water.

The bottom of the hydrogen producer 1 is provided with a water outlet pipe 16, so that the saturated hydrogen-rich water which is newly prepared when the water is connected and discharged from the water outlet pipe 16 is ensured.

A plurality of air passages 5 are uniformly distributed on the inner wall 4 of the hydrogen production device 1, so that the hydrogen is ensured to be uniformly and slowly dispersed in the water, and the hydrogen can be more suitable for the speed of dissolving the hydrogen into the water.

The power supply 13 is a built-in battery or an external power supply 13.

The reaction chamber is internally provided with an air pressure sensor which is connected with a power supply 13 switch, the air pressure sensor can be arranged in the air passage 5 and connected with the power supply 13 switch, the air pressure sensor can control the reaction process by detecting the air pressure of the air passage 5, and when the air pressure in the air passage 5 reaches the rated pressure, the air pressure sensor instructs the power supply 13 switch to be closed by a signal, so that the electromagnetic coil 10 can stop heating the metal magnesium 11, and further stop the reaction process. This allows for a controlled production of hydrogen rich water.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. A hydrogen-rich water dispenser comprising: a water source box and a hydrogen producer which are communicated with each other, which is characterized in that,

the reaction control rod is characterized in that a plurality of reaction control rods are arranged in the inner cavity of the hydrogen production device, a plurality of circles of electromagnetic coils are arranged in an interlayer on the side wall of each reaction control rod in a surrounding manner, the inner cavity is arranged at the axis of each reaction control rod, magnesium metal and electrolyte are filled in the inner cavity, and the electromagnetic coils are connected with a power supply through an inverter;

the inner wall of the hydrogen generator is made of ceramic or purple sand, an air passage is formed in the inner wall of the hydrogen generator, and the air passage is communicated with the inner cavity of the reaction control rod;

the upper portion of hydrogen manufacturing device inner chamber is provided with the flow equalizing board, and the water source case leads to flow equalizing board upper portion through the pipeline, and the roof of flow equalizing board department top has a structure of swelling, has evenly seted up a plurality of through-hole on the flow equalizing board, can regard as the space of keeping in of hydrogen, and water in the water source case can contact with hydrogen at once after getting into, and the flow equalizing board can make water disperse gradually in the hydrogen manufacturing device by the flow direction of dispersion water simultaneously, and the water of being convenient for newly getting into can fully contact with hydrogen manufacturing device inner wall, dissolves hydrogen and forms hydrogen-rich water.

2. The hydrogen-rich water dispenser of claim 1, wherein: one end of the hydrogen production device is sealed through a cover body, the first ends of the reaction control rods are fixed on the cover body, and when the cover body is sealed at the end part of the hydrogen production device, the second ends of the reaction control rods are pressed against the other end of the hydrogen production device.

3. The hydrogen-rich water dispenser of claim 1, wherein: the hydrogen production device top plate is further provided with a pressure relief rubber block, a plurality of puncture holes are formed in the pressure relief rubber block, and the puncture holes penetrate through the top plate.

4. The hydrogen-rich water dispenser of claim 1, wherein: the metal magnesium is magnesium sheet or magnesium particle.

5. The hydrogen-rich water dispenser of claim 1, wherein: the electrolyte is sodium chloride or ferric chloride solution.

6. The hydrogen-rich water dispenser of claim 1, wherein: the upper part of the inner cavity of the hydrogen production device is provided with a flow equalizing plate, and the water source box is communicated to the upper part of the flow equalizing plate through a pipeline.

7. The hydrogen-rich water dispenser of claim 1, wherein: and a water outlet pipe is arranged at the bottom of the hydrogen production device.

8. The hydrogen-rich water dispenser of claim 1, wherein: a plurality of air passages are uniformly distributed on the inner wall of the hydrogen production device.

9. The hydrogen-rich water dispenser of claim 1, wherein: the water source tank is internally provided with a drinking water heater, and the top of the water source tank is connected with a drinking water barrel.