CN106315773B

CN106315773B - Portable dual-purpose hydrogen-rich water bottle and working method thereof

Info

Publication number: CN106315773B
Application number: CN201610745892.7A
Authority: CN
Inventors: 徐道华; 郑德谋; 胡悦丽; 王一强
Original assignee: Fuzhou Pinxing Technology Development Co Ltd
Current assignee: Fuzhou Pinxing Technology Development Co Ltd
Priority date: 2016-08-29
Filing date: 2016-08-29
Publication date: 2023-08-04
Anticipated expiration: 2036-08-29
Also published as: CN106315773A

Abstract

The invention relates to a portable dual-purpose hydrogen-rich water bottle and a working method thereof, wherein the portable dual-purpose hydrogen-rich water bottle comprises a transparent bottle body, a base movably and hermetically connected with the bottom of the bottle body, a detachable bottle cap arranged at the top of the bottle body, an electrolysis mechanism arranged in the bottle body, a power supply device arranged in the base and a PCB circuit board; the bottle cap is provided with a nozzle and a pressure relief valve; the nozzle is connected with the push type sprayer; the electrolysis mechanism also comprises a suction pipe, a gas collecting hood, a gas collecting cover and an electrolysis device which are arranged from top to bottom; one end of the suction pipe is connected with the pressing sprayer, and the other end of the suction pipe extends downwards to the top of the gas collecting hood; the bottom of the gas collecting hood is opposite to the top of the gas collecting cover; the bottom of the gas collecting cover is connected with the electrolysis device; the electrolysis device is arranged on the base; the power supply device is respectively and electrically connected with the control circuit and the electrolysis device on the PCB. The portable dual-purpose hydrogen-rich water bottle can be used as a drinking water bottle and a beauty sprayer, and oxygen bubbles and hydrogen bubbles generated by electrolysis are not mutually interfered.

Description

Portable dual-purpose hydrogen-rich water bottle and working method thereof

Technical Field

The invention relates to a hydrogen-rich water bottle and a working method thereof, in particular to a portable dual-purpose hydrogen-rich water bottle and a working method thereof.

Background

Hydrogen-rich water, as the name implies, is hydrogen-rich water. English is hydrogenRich water and Japanese is "plain water". As a selective antioxidant substance, the hydrogen has a therapeutic effect on a plurality of diseases and has very wide application prospect.

In recent years, the hydrogen-rich water and water-based aquatic products in the domestic market are gradually increased, and the cups of the hydrogen-rich water and the water-based aquatic products are also seen, wherein the technology of producing hydrogen by electrolysis occupies a considerable proportion, including the emergence of related patent technologies. In the electrolytic hydrogen production cup and the patent technology thereof, electrode structures which are arranged horizontally are common, such as Chinese patent application numbers 201510366113.8, 201510126957.5, 2015120051049. X and the like, and electrode structures which are arranged up and down, such as Chinese patent application number 201520786526.7 and the like. The electrode structures of the two arrangements are experimental or practical, and the insufficient phenomenon of the electrode structures is still found.

Firstly, the electrode slice plane arrangement structure is used in the transparent cup body, and bubbles generated by electrolysis can be observed: oxygen-hydrogen-oxygen-hydrogen interval upwards releases bubbles, wherein hydrogen bubbles are tiny, more in quantity and less in lifting force, oxygen bubbles are large, less in quantity and more in lifting force, the lifting speed is high, the two bubbles reach the middle upper part of the cup body to start to interfere with each other, and the oxygen bubbles collide with the hydrogen bubbles upwards to accelerate the release and overflow of hydrogen.

Secondly, the electrode slice is arranged up and down and is used in the transparent cup body, and bubbles generated by electrolysis can be observed: the oxygen-hydrogen-oxygen interval is upward or the hydrogen-oxygen overlap is vertically upward, the two bubble rising processes are mutually interfered, the oxygen bubbles collide with the hydrogen bubbles upward more seriously, in particular to a structure with the hydrogen-oxygen overlap vertically upward, the bubbles are concentrated in the central part of the cup body, and the part close to the circumference of the cup body is a blank area. Because the anode plate is arranged below, the produced oxygen is influenced by water pressure and the like, and hydrogen bubbles are easier to push upwards and release faster and more easily.

An important argument of the "hydrogen molecular biology" compiled by the university of second army medical science Sun Xuejun teaches: "the biggest obstacle encountered in the development of saturated hydrogen-rich aquatic products is not the solubility of hydrogen, but hydrogen is very easily released from water. The bubbles generated by the two electrode slice devices can rise at intervals but not in different channels or densely rise in the same channel, thereby proving the fact that the mutual interference and the boosting hydrogen are easier to release. This is an undesirable phenomenon, which is also a disadvantage of the prior art.

Disclosure of Invention

The invention aims to provide a portable dual-purpose hydrogen-rich water bottle and a working method thereof.

The invention is realized by adopting the following technical scheme: the utility model provides a portable dual-purpose hydrogen-rich water bottle, includes transparent body, with body bottom movable airtight connection's base and installs at the detachable bottle lid at body top, its characterized in that: the bottle body is provided with a bottle body top plate, a bottle body cover plate and a bottle body cover plate, and is characterized by further comprising an electrolysis mechanism arranged in the bottle body, a power supply device arranged in the base and a PCB circuit board arranged below the bottle body top plate; a control circuit is arranged on the PCB; the bottle cap is provided with a nozzle and a pressure relief valve; the nozzle is connected with the push type sprayer; the electrolysis mechanism further comprises a suction pipe, a gas collecting hood, a gas collecting cover and an electrolysis device which are arranged from top to bottom; one end of the suction pipe is connected with the pressing sprayer, and the other end of the suction pipe extends downwards to the top of the gas collecting hood; the bottom of the gas collecting hood is opposite to the top of the gas collecting cover; the bottom of the gas collecting cover is connected with the electrolysis device; the electrolysis device is arranged on the base; the power supply device is electrically connected with the control circuit and the electrolysis device respectively.

In one embodiment of the present invention, the power supply device includes a rechargeable battery, a charging port, and a button; the charging port and the button are respectively arranged on the outer side of the base.

In an embodiment of the invention, the LED lamp further comprises N LED lamps arranged in the base; the N LED lamps are arranged along the inner side of the base; the N LED lamps are respectively connected with the control circuit; wherein N is a natural number not less than 3.

Further, the LED lamp is an RGB LED lamp.

Further, the control circuit is a single chip microcomputer minimum system.

In one embodiment of the invention, the electrolysis device comprises a bracket, and a cathode plate, a first gasket, an ion membrane, a second gasket and an anode plate which are arranged on the bracket from top to bottom; and the support below the anode plate is also provided with an air guide hole.

In one embodiment of the invention, the gas collecting cover is an inverted cone, and a plurality of ventilation holes are distributed on the connecting surface of the gas collecting cover and the electrolysis device.

The working method based on the portable dual-purpose hydrogen-rich water bottle comprises the following steps of: s1: the commercial power charges the storage battery through the charging port; s2: filling water to be electrolyzed into the bottle body and covering the bottle cap; s3: pressing a button, starting electrolysis, and flashing the LED lamp with preset color and frequency by a control circuit; s4: hydrogen generated by the cathode plate in the electrolysis process sequentially passes through the gas collecting cover, the gas collecting cover and the suction pipe; oxygen generated by the anode passes through the air guide hole, the air release valve sets a threshold value, and the oxygen is discharged when the pressure is over-pressure;

s5: when the electrolysis is finished, the LED lamp is turned off, and the pressing type sprayer can be pressed down to spray hydrogen-rich water mist; if the beverage is needed, the bottle cap is directly opened, or the air release valve is screwed out, and water is discharged from the air release port.

Compared with the prior art, the portable water bottle provided by the invention reduces the influence of oxygen bubbles on the rising and dissolution of hydrogen bubbles in the water electrolysis process in the prior art, thereby improving the hydrogen solubility; has multiple uses, and can be used for drinking hydrogen-rich water and as a beauty sprayer.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic view of an electrolytic device according to an embodiment of the present invention.

Fig. 3 is a top view of the bottom of the body of the present invention.

Detailed Description

The invention is further illustrated by the following description in conjunction with the accompanying drawings and specific embodiments.

The invention provides a portable dual-purpose hydrogen-rich water bottle, and the main structure diagram is shown in figure 1.

The hydrogen-rich water bottle comprises a transparent bottle body 3, a base 1 movably and hermetically connected with the bottom of the bottle body, a detachable bottle cap 4 arranged at the top of the bottle body, an electrolysis mechanism arranged in the bottle body, a power supply device arranged in the base 1 and a PCB (printed circuit board) 12 arranged below a top plate of the base; a control circuit is arranged on the PCB; the bottle cap is provided with a spout 43 and a pressure release valve 44; the nozzle 43 is connected with the push sprayer 42; the electrolysis mechanism also comprises a suction pipe 41, a gas collecting hood 32, a gas collecting cover 25 and an electrolysis device which are arranged from top to bottom; one end of the suction pipe 41 is connected with the push type sprayer 42, and the other end of the suction pipe extends downwards to the top of the gas collecting hood 32; the bottom of the gas collecting hood 32 is opposite to the top of the gas collecting cover 25; the bottom of the gas collecting cover is connected with the electrolysis device; the electrolysis device is arranged on the base; the power supply device is electrically connected with the control circuit and the electrolysis device respectively.

The power supply device comprises a rechargeable storage battery 14, a charging port 13 and a button 15; the charging port and the button are respectively arranged on the outer side of the base.

The electrolysis device comprises a bracket 2, a cathode plate 21, a first gasket 26-1, an ion membrane 22, a second gasket 26-2 and an anode plate 23 which are arranged on the bracket from top to bottom; and the bracket below the anode sheet is also provided with an air guide hole 24. FIG. 2 is an enlarged view of a portion of the electrolyzer of FIG. 1.

The LED lamp comprises a base, and N LED lamps 11 arranged in the base; the N LED lamps 11 are arranged along the inner side of the base; the N LED lamps are respectively connected with the control circuit; wherein N is a natural number not less than 3. The LED lamp is arranged on the periphery of the inner side of the base, can not be shielded by the electrolysis device, and has better prompting effect. Taking fig. 3 as an example, a total of 4 LED lamps are provided. LED lamp preferred RGB LED lamp. The RGB LED lamps are controlled by the control circuit to display different colors.

The gas collecting cover is a reverse cone, and a plurality of vent holes 25-1 are arranged on the connecting surface (inner circular surface) of the gas collecting cover and the electrolysis device.

The control circuit can select the minimum system of the single chip microcomputer (the single chip microcomputer, a crystal oscillator circuit, a reset circuit, a power supply circuit and a serial port circuit, and peripheral circuits such as an i/o port are expanded).

The working method based on the portable dual-purpose hydrogen-rich water bottle comprises the following steps of: s1: the commercial power charges the storage battery through the charging port; s2: filling water to be electrolyzed into the bottle body and covering the bottle cap; s3: pressing a button, starting electrolysis, and flashing the LED lamp with preset color and frequency by a control circuit; s4: hydrogen bubbles 5 generated by the cathode plate in the electrolysis process sequentially pass through the gas collecting cover 25, the gas collecting cover 32 and the suction pipe 41; the anode generates oxygen bubbles 6, and the oxygen bubbles pass through the air guide holes 24, the air release valve sets a threshold value, and oxygen is discharged when the pressure is over-pressure; s5: when the electrolysis is finished, the LED lamp is turned off, and the pressing type sprayer can be pressed down to spray hydrogen-rich water mist; if the beverage is needed, the bottle cap is directly opened, or the air release valve is screwed out, and water is discharged from the air release port.

A portable hydrogen-rich water spray cosmetic device and method (application No. 2016610209741. X) also provides a hydrogen-rich water spray device, but differs from the present invention in that: 1. the invention adopts the direct drinking water produced by the water purifier of cosmetic water, mineral water or non-purified water, and does not need residual chlorine and activated carbon adsorption; secondly, because the special electrolysis mechanism can lead oxyhydrogen bubbles to flow and rise upwards to be released, the oxyhydrogen bubbles go away from the center, and the oxygen bubbles go away from the periphery, so that mutual interference is avoided; thirdly, a gas collecting hood and a suction pipe are arranged above the hydrogen bubble concentration area to enable the hydrogen concentration of the hydrogen-enriched water to be relatively larger; fourthly, the air release valve arranged at the upper end of the bottle is beneficial to oxygen release and accelerating the electrolytic reaction. In comparison with the patent, the electrodes are overlapped up and down, hydrogen and oxygen can only go straight up and interfere with each other, and oxygen bubbles are few and big and forcefully rise, so that the boost hydrogen is released more quickly, which is a phenomenon observed from experiments. The arrangement of the upper and lower pole pieces of the comparative patent is not enough as the prior art. The technical scheme of the invention can perfectly solve the defect.

The foregoing description of the embodiments is merely provided to facilitate the understanding of the invention and is not intended to limit the invention. Those skilled in the art can make some modifications and changes by using the inventive idea, so long as the technical means thereof do not deviate from the inventive idea and gist, and still fall within the protection scope of the present invention.

Claims

1. The utility model provides a portable dual-purpose hydrogen-rich water bottle, includes transparent body, with body bottom movable airtight connection's base and installs at the detachable bottle lid at body top, its characterized in that: the bottle also comprises an electrolysis mechanism arranged in the bottle body, a power supply device arranged in the base and a PCB circuit board arranged below the top plate of the base; a control circuit is arranged on the PCB;

the bottle cap is provided with a nozzle and a pressure relief valve; the nozzle is connected with the push type sprayer;

the electrolysis mechanism further comprises a suction pipe, a gas collecting hood, a gas collecting cover and an electrolysis device which are arranged from top to bottom; one end of the suction pipe is connected with the pressing sprayer, and the other end of the suction pipe extends downwards to the top of the gas collecting hood; the bottom of the gas collecting hood is opposite to the top of the gas collecting cover; the bottom of the gas collecting cover is connected with the electrolysis device; the electrolysis device is arranged on the base;

the power supply device is respectively and electrically connected with the control circuit and the electrolysis device; a control circuit is arranged on the PCB;

the working method of the portable dual-purpose hydrogen-rich water bottle comprises the following steps:

s1: the commercial power charges the storage battery through the charging port;

s2: filling water to be electrolyzed into the bottle body and covering the bottle cap;

s3: pressing a button and starting electrolysis;

s4: hydrogen generated by the cathode plate in the electrolysis process sequentially passes through the gas collecting cover, the gas collecting cover and the suction pipe; oxygen generated by the anode passes through the air guide hole, the air release valve sets a threshold value, and the oxygen is discharged when the pressure is over-pressure;

s5: when the electrolysis is finished, the pressing type sprayer can be pressed down to spray hydrogen-rich water mist; if the bottle cap is needed to be drunk, the bottle cap is directly opened, or the air release valve is screwed out, and water is discharged from the air release port;

when the direct drinking water without residual chlorine produced by a water purifier of cosmetic water, mineral water or non-purified water is used as a beauty sprayer, the hydrogen-rich water bottle is provided with a gas collecting cover and a suction pipe above a hydrogen bubble concentration area, so that the hydrogen concentration of the hydrogen-rich water for spraying is relatively higher;

the gas collecting cover is a reverse cone, and a plurality of vent holes are arranged on the connecting surface of the gas collecting cover and the electrolysis device; the vent holes are mesh holes of a net structure.

2. The portable dual-purpose hydrogen-rich water bottle of claim 1, wherein: the power supply device comprises a chargeable storage battery, a charging port and a button; the charging port and the button are respectively arranged on the outer side of the base.

3. The portable dual-purpose hydrogen-rich water bottle of claim 1, wherein: the LED lamp also comprises N LED lamps arranged in the base; the N LED lamps are arranged along the inner side of the base; the N LED lamps are respectively connected with the control circuit; wherein N is a natural number not less than 3.

4. The portable dual-purpose hydrogen-rich water bottle of claim 3, wherein: the LED lamps are RGB LED lamps.

5. The portable dual-purpose hydrogen-rich water bottle of claim 1, wherein: the electrolysis device comprises a bracket, a cathode plate, a first gasket, an ion membrane, a second gasket and an anode plate, wherein the cathode plate, the first gasket, the ion membrane, the second gasket and the anode plate are arranged on the bracket from top to bottom; and the support below the anode plate is also provided with an air guide hole, and the first gasket, the ion membrane and the second gasket play an insulating role.

6. The portable dual-purpose hydrogen-rich water bottle of claim 3, wherein: the method comprises the following steps:

in step S3, the LED lamp flashes with the preset color and frequency of the control circuit;

and S5, when the electrolysis is finished, the LED lamp is turned off.