阅读说明：本技术 一种即时吸食氢气系统 (Instant hydrogen gas sucking system ) 是由 刘鹏 于 2021-10-14 设计创作，主要内容包括：本申请涉及一种即时吸食氢气系统,其包括上开口的容器、用于电解水的电解机构和吸管,电解机构和吸管设置在容器内,吸管上端伸出容器；电解机构包括安装管、用于连接电源的插头、导线和连接在导线一端的电极；安装管靠近容器底部的一端向上弯着呈钩型,电极设置在安装管钩型结构的端部,导线远离电极的一端从安装管内穿出并与插头连接,插头连接有电源；吸管伸入容器的一端与安装管安装有电极的一端连接,吸管与安装管之间留有使水通过的间隙。本申请具有吸氢效率高、使用安全、便于携带和便于清洗的效果。(The application relates to an instant hydrogen gas sucking system, which comprises a container with an upper opening, an electrolysis mechanism for electrolyzing water and a suction pipe, wherein the electrolysis mechanism and the suction pipe are arranged in the container, and the upper end of the suction pipe extends out of the container; the electrolysis mechanism comprises an installation pipe, a plug for connecting a power supply, a lead and an electrode connected to one end of the lead; one end of the installation pipe close to the bottom of the container is bent upwards to be in a hook shape, the electrode is arranged at the end part of the hook-shaped structure of the installation pipe, one end of the lead far away from the electrode penetrates out of the installation pipe and is connected with the plug, and the plug is connected with a power supply; one end of the suction pipe extending into the container is connected with one end of the mounting pipe provided with the electrode, and a gap for water to pass through is reserved between the suction pipe and the mounting pipe. The hydrogen absorption device has the advantages of high hydrogen absorption efficiency, safety in use, portability and convenience in cleaning.)

1. A system for instantly absorbing hydrogen is characterized in that: comprises a container (1) with an upper opening, an electrolysis mechanism (2) for electrolyzing water and a suction pipe (31), wherein the electrolysis mechanism (2) and the suction pipe (31) are arranged in the container (1), and the upper end of the suction pipe (31) extends out of the container (1);

the electrolysis mechanism (2) comprises a mounting pipe (21), a plug (22) for connecting a power supply, a lead (23) and an electrode (24) connected to one end of the lead (23); one end of the installation pipe (21) close to the bottom of the container (1) is bent upwards to be in a hook shape, the electrode (24) is arranged at the end part of the hook-shaped structure of the installation pipe (21), one end of the lead (23) far away from the electrode (24) penetrates out of the installation pipe (21) and is connected with the plug (22), and the plug (22) is connected with a power supply;

one end of the suction pipe (31) extending into the container (1) is connected with one end of the mounting pipe (21) provided with the electrode (24), and a gap for water to pass through is reserved between the suction pipe (31) and the mounting pipe (21).

2. The instant hydrogen gas absorption system according to claim 1, wherein: the opening of container (1) can be dismantled and the lid is equipped with installation lid (11), offers first mounting hole (111) with installation pipe (21) adaptation and second mounting hole (112) with straw (31) adaptation on installation lid (11).

3. The instant hydrogen gas absorption system according to claim 1, wherein: the electrode (24) is made of platinum materials (24).

4. The instant hydrogen gas absorption system according to claim 1, wherein: a constant flow pipe (33) is arranged between the suction pipe (31) and the mounting pipe (21), and a gap for water to pass through is reserved between the lower end of the constant flow pipe (33) and the bottom of the container (1).

5. The instant hydrogen gas absorption system according to claim 1, wherein: the plug (22) is connected with a mobile power supply (25) or a power adapter.

6. The instant hydrogen gas absorption system according to claim 1, wherein: and a protective cover (311) is arranged at one end of the straw (31) far away from the electrode (24).

7. The instant hydrogen gas absorption system according to claim 1, wherein: the electrode assembly further comprises a mask (41), and one end, far away from the electrode (24), of the suction pipe (31) penetrates through the mask (41).

8. The system for instantly absorbing hydrogen as claimed in claim 4, wherein: one end of the suction pipe (31) close to the installation pipe (21) is detachably connected with an installation sleeve (32) made of hard material, and the lower end of the installation sleeve (32) is sleeved at one end of the installation pipe (21) provided with the electrode (24); the constant flow tube (33) is arranged between the mounting sleeve (32) and the mounting tube (21).

9. The system for instantly absorbing hydrogen as claimed in claim 8, wherein: the mounting sleeve (32) is a transparent mounting sleeve (32).

10. The instant hydrogen gas absorption system according to claim 1, wherein: also included is a safety system comprising a push switch (51) provided at the electrolysis mechanism (2).

Technical Field

The application relates to the field of hydrogen gas suction devices, in particular to an instant hydrogen gas suction system.

Background

Hydrogen of the formula H₂The molecular weight is 2.01588, and the gas is extremely easy to burn, colorless, transparent, odorless and tasteless and insoluble in water at normal temperature and normal pressure; the density of hydrogen was 0.089g/L at 1 atm and 0 deg.C.

Research in 2007 by Ohsawa et al shows that hydrogen dissolved in a cell-free system at different concentrations can effectively and selectively remove hydroxyl radicals and peroxynitrate anions, and a strong antioxidant effect is exhibited without affecting active oxygen having important physiological functions such as superoxide anion groups, hydrogen peroxide, nitric oxide radicals and the like. The in-vivo rat plug wire is utilized to block a cerebral middle artery cerebral ischemia reperfusion injury model, and the fact that the level of an animal intracerebral oxidative injury final product can be effectively eliminated by breathing a small amount of hydrogen (2 percent and the breathing time is 35min) is found, the cerebral infarction volume after cerebral ischemia of a rat is remarkably improved, the proliferation of microglial cells is inhibited, the effect of treating the cerebral ischemia is similar to that of an immunosuppressant FK-506, and the treatment effect is remarkably superior to that of the currently clinically unique antioxidant medicament edaravone. The advent of this report immediately brought high attention to scholars at home and abroad. The biological activity of hydrogen and the effect thereof in preventing and treating various diseases are rapidly researched, and the prevention and treatment effect of hydrogen on other various diseases is discovered by researchers. For example, hydrogen has good prevention and treatment effects on radiation injury, organ ischemia, arteriosclerosis, liver cirrhosis, oxygen poisoning, diabetes, organ and system inflammation, trauma, Parkinson's disease, senile dementia, carbon monoxide poisoning, paraquat poisoning and the like of experimental animals, and shows wide research and development prospects in the field of biomedicine. (plunger cloud sea, Sun school, Chua Jianming, Hydrogen biology and its medical applications [ J ]. BioPhysics, 2012,28(09):705-

When a high-pressure hydrogen bottle is used indoors and stored, leaked hydrogen rises and stays on a roof and is difficult to discharge, and explosion is easily caused when meeting sparks; then, in order to suck hydrogen, the user purchases hydrogen-rich water on the market, and the hydrogen is sucked by drinking water containing hydrogen; however, in practice, hydrogen is hardly soluble in water at normal temperature and pressure, and the amount of hydrogen that can be taken in by a user is relatively low.

In view of the above-mentioned related art, the inventors found that the difficulty of storing and storing hydrogen gas is dangerous, so that hydrogen gas is not easily taken along, and the characteristic that hydrogen gas is hardly dissolved in water also makes hydrogen gas not easily taken in.

Disclosure of Invention

In order to make the user more conveniently absorb more hydrogen, the application provides an instant hydrogen absorption system.

The application provides an instant hydrogen system of inhaling adopts following technical scheme:

an instant hydrogen sucking system comprises a container with an upper opening, an electrolysis mechanism for electrolyzing water and a suction pipe, wherein the electrolysis mechanism and the suction pipe are arranged in the container, and the upper end of the suction pipe extends out of the container;

the electrolysis mechanism comprises an installation pipe, a plug for connecting a power supply, a lead and an electrode connected to one end of the lead; one end of the installation pipe close to the bottom of the container is bent upwards to be in a hook shape, the electrode is arranged at the end part of the hook-shaped structure of the installation pipe, one end of the lead far away from the electrode penetrates out of the installation pipe and is connected with the plug, and the plug is connected with a power supply;

one end of the suction pipe extending into the container is connected with one end of the mounting pipe provided with the electrode, and a gap for water to pass through is reserved between the suction pipe and the mounting pipe.

By adopting the technical scheme, the electrolysis mechanism electrolyzes water in the container to generate oxygen and hydrogen, wherein the hydrogen is insoluble in water at normal temperature and normal pressure and floats upwards along the suction pipe under the action of gravity, so that when a user sucks the hydrogen from the upper end of the suction pipe, the hydrogen which is not soluble in water can be sucked more accurately, and the user can suck more hydrogen more easily;

after the user stops sucking, the power supply of the electrolysis mechanism is cut off, so that the leakage of hydrogen is reduced, and the potential safety hazard is reduced; when the hydrogen is required to be sucked, the electrolysis mechanism is connected with the power supply, so that the hydrogen sucking device can generate hydrogen along with use; and the raw materials required by the instant hydrogen absorption system are only water, so that the raw materials can be conveniently obtained and supplemented.

Optionally, the detachable cover at the opening of the container is provided with an installation cover, and the installation cover is provided with a first installation hole matched with the installation pipe and a second installation hole matched with the suction pipe.

By adopting the technical scheme, the opening of the container can be protected by installing the cover, so that sundries are not easy to enter the container from the opening of the container to cause pollution, and a user can conveniently absorb hydrogen in various occasions, such as work, walking or before falling asleep in bed; through first mounting hole and second mounting hole, will install pipe and straw and install and cover in the installation, make electrolysis mechanism and suction mechanism installation more stable, can also separate between electrolysis mechanism and suction mechanism and the container through dismantling the installation lid to be convenient for wash the container.

Optionally, the electrode is made of platinum.

Through adopting above-mentioned technical scheme, the electrode adopts the electrode of platinum material, makes the electrode when the brineelectrolysis, is difficult for because the oxidation, is difficult for causing the pollution of water to it is safer when making the user absorb the mixture of hydrogen and water.

Optionally, a constant flow pipe is arranged between the suction pipe and the installation pipe, and a gap for water to pass through is reserved between the lower end of the constant flow pipe and the bottom of the container.

By adopting the technical scheme, the constant flow tube is arranged, water pressure in the suction tube and the container is balanced, so that water with the water level higher than the upper end of the constant flow tube in the container can continuously flow into the electrode through the constant flow tube, and electrolytic raw material water at the electrode is supplemented more constantly.

Optionally, the plug is connected with a mobile power supply or a power adapter.

By adopting the technical scheme, the plug is connected with the output end of the power adapter, and the power adapter is connected with the power supply, so that the plug is convenient to use at fixed positions such as a power socket; the plug can be connected with the output end of the mobile power supply, so that the instant hydrogen absorption system is convenient to use when being carried, and a user can also use the mobile power supply to absorb hydrogen when the power socket is not available.

Optionally, a protective cover is arranged at one end of the pipette, which is far away from the electrode.

Through adopting above-mentioned technical scheme, when the user carries, can establish the protective cover lid at the straw tip, the part that makes the user mouth and straw contact when sucking obtains sanitary protection, can also block impurity and get into the container through the straw to and reduce overflowing of water in the container.

Optionally, the electrode comprises a mask, and one end of the suction pipe, which is far away from the electrode, penetrates through the mask.

By adopting the technical scheme, through the arrangement of the mask, a user can wear the mask when sucking hydrogen by using the suction pipe, and can more effectively protect viruses in the air when sucking hydrogen in public places; meanwhile, when the mask is worn, hydrogen is sucked, a user does not need to hold a suction tube, and the mask is more convenient to use.

Optionally, one end of the suction pipe close to the installation pipe is detachably connected with an installation sleeve made of hard material, and the lower end of the installation sleeve is sleeved at one end of the installation pipe provided with the electrode; the constant flow pipe is arranged between the installation sleeve and the installation pipe.

Through adopting above-mentioned technical scheme, can protect electrode department through the installation sleeve pipe of stereoplasm, make the electrode be difficult for receiving the damage, can also be convenient for install and connect straw and installation pipe, make the straw be convenient for the dismouting in order to wash or change.

Optionally, the mounting sleeve is made of a transparent material.

By adopting the technical scheme, the electrolytic condition at the electrode can be observed more conveniently through the transparent mounting sleeve, and whether the electrolytic mechanism normally operates is judged by observing the bubble condition at the electrolytic position, so that the potential safety hazard is reduced;

the power supply can be further set to be a power supply capable of adjusting current, so that the flow of bubbles at the electrolytic part of the electrode can be observed through the transparent mounting sleeve, the current is adjusted to change the electrolytic efficiency, and the hydrogen absorption efficiency is convenient to adjust.

Optionally, a safety system is included, the mounting system including a push switch disposed at the electrolysis mechanism.

Through adopting above-mentioned technical scheme, when the user pressed down press the switch, electrolysis mechanism carries out the work of electrolysis water, and after the user finishes sucking, unclamp press the switch, electrolysis mechanism suspended working to reduce the potential safety hazard of electrolysis mechanism long-time work.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the electrolysis mechanism electrolyzes water in the container to generate oxygen and hydrogen, wherein the hydrogen is insoluble in water at normal temperature and normal pressure and floats upwards along the suction pipe under the action of gravity, so that when a user sucks the hydrogen from the upper end of the suction pipe, the hydrogen which is not soluble in water can be sucked more accurately, and the user can suck more hydrogen more easily;

2. the electrode is made of platinum, so that the electrode is not easy to oxidize and cause water pollution when electrolyzing water, and a user can absorb a mixture of hydrogen and water more safely;

3. by arranging the mask, a user can wear the mask when sucking hydrogen by using the suction pipe, and can more effectively protect viruses in the air when sucking hydrogen in public places; meanwhile, when the mask is worn, hydrogen is sucked, a user does not need to hold a suction tube, and the mask is more convenient to use.

Drawings

FIG. 1 is a schematic perspective view of an instantaneous hydrogen gas absorption system in example 1;

FIG. 2 is a sectional view of an instantaneous hydrogen gas absorption system in example 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic perspective view of the instant hydrogen gas absorption system of embodiment 1 when a power adapter is used for supplying power;

fig. 5 is a schematic perspective view of the system for instantly absorbing hydrogen in example 2.

Description of reference numerals: 1. a container; 11. installing a cover; 111. a first mounting hole; 112. a second mounting hole; 2. an electrolysis mechanism; 21. installing a pipe; 211. a mounting seat; 22. a plug; 23. a wire; 24. an electrode; 25. a mobile power supply; 26. a power adapter; 3. a suction mechanism; 31. a straw; 311. a protective cover; 32. installing a sleeve; 33. a constant current tube; 4. a protection mechanism; 41. a mask; 51. the switch is pressed.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

Example 1

The embodiment of the application discloses a system for instantly sucking hydrogen. Referring to fig. 1, the instant hydrogen gas absorption system comprises a container 1 for containing water for electrolysis, an electrolysis mechanism 2 for electrolyzing water in the container 1, and a absorption mechanism 3 for absorbing hydrogen gas.

In this embodiment, the container 1 has a cylindrical structure and an upper opening, and the container 1 may also be a square container 1 or a container 1 with other shapes according to different appearance requirements; an installation cover 11 which is sealed and covered is arranged at the opening of the container 1, and the installation cover 11 is sealed and covered at the opening of the container 1.

Referring to fig. 1 and 2, the container 1 is made of transparent plastic material for easy observation in this embodiment, so that a user can conveniently observe bubbles of hydrogen and oxygen generated after water electrolysis; glass materials or stainless steel materials which are more durable and heat-insulating can be adopted according to the requirements of different users; the mounting cover 11 is embedded and can be covered by screw threads according to different requirements.

Referring to fig. 2 and 3, the electrolysis mechanism 2 includes a mounting tube 21 for waterproofing and mounting, a plug 22 for connecting a power supply, a lead 23 for transmitting electric current, and an electrode 24 for electrolyzing water; the suction mechanism 3 includes a suction tube 31, a mounting sleeve 32 for connecting the suction tube 31 and the mounting tube 21, and a constant flow tube 33 for making the amount of water at the electrode 24 more stable.

A first mounting hole 111 for mounting the mounting pipe 21 and a second mounting hole 112 for mounting the suction pipe 31 are vertically formed in the mounting cover 11; the first mounting hole 111 is adapted to the mounting pipe 21, and the second mounting hole 112 is adapted to the suction pipe 31.

The mounting pipe 21 is of a hook-shaped structure and comprises a vertical part which is vertically arranged and a hook-shaped part which is arranged at the lower end of the vertical part, and the end part of the hook-shaped part far away from the vertical part is vertically and upwards arranged; the plug 22 is fixedly connected with one end of a lead 23, and the other end of the lead 23 penetrates into the mounting pipe 21 from the upper end of the vertical part; the electrodes 24 are two electrodes 24 of a cathode and an anode, the end part of the lead 23 penetrating the mounting tube 21 is divided into a positive electrode and a negative electrode, and the positive electrode and the negative electrode of the lead 23 are respectively fixedly connected with the corresponding electrodes 24. When the plug 22 is connected to a power source and energized, the electrodes 24 electrolyze the water in the straw 31 in the container 1, producing hydrogen and oxygen.

In order to install the electrode 24 and waterproof the lead 23, the installation tube 21 is provided with an installation seat 211 for installing the electrode 24, which is fixed inside the end of the electrode 24 in a sealing way; two electrodes 24 are fixedly inserted into the mounting seat 211 from one side of the mounting seat 211 close to the hook-shaped end part of the mounting tube 21, and the positive electrode and the negative electrode of the lead 23 penetrate into the mounting seat 211 from the other side of the mounting seat 211 and are fixedly connected with the electrodes 24.

By arranging the mounting seat 211, only the electrode 24 and water generate current when the power is on, and the possibility of faults caused by the influence of the water on the lead is reduced; further, the electrode 24 is made of platinum, so that the electrode 24 is not easy to cause water pollution due to oxidation when water is electrolyzed, and a user can absorb a mixture of hydrogen and water more safely.

Referring to fig. 1 and 2, the suction pipe 31 vertically penetrates the mounting cover 11 through the second mounting hole 112, and in this embodiment, the suction pipe 31 is detachably connected to the mounting cover 11, so that the suction pipe 31 can be easily detached for cleaning or replacement. The mounting sleeve 32 is arranged at one end of the suction pipe 31 penetrating into the container 1, one end of the mounting sleeve 32 is sleeved at the upper end of the hook-shaped part of the mounting pipe 21, and the other end of the mounting sleeve 32 is sleeved at the lower end of the suction pipe 31; a gap for installing the constant current pipe 33 is left between the installation sleeve 32 and the installation pipe 21.

In order to facilitate cleaning and replacement of the installation sleeve 32, the installation pipe 21 and the suction pipe 31 are detachably sleeved; the constant flow pipe 33 is inserted between the mounting sleeve 32 and the mounting pipe 21 through a gap between the mounting sleeve 32 and the mounting pipe 21, a gap for water to pass through is reserved between the lower end of the constant flow pipe 33 and the bottom of the container 1, and the upper end of the constant flow pipe 33 is flush with the end part of the hook-shaped part of the mounting pipe 21.

By arranging the constant flow pipe 33, water in the container 1 with the water level higher than the upper end of the constant flow pipe 33 can continuously flow into the electrode 24 through the constant flow pipe 33, so that the electrolytic raw material water at the electrode 24 is supplemented relatively constantly.

Preferably, the mounting sleeve 32 is made of transparent hard material, in this embodiment, transparent plastic is used, and transparent hard material such as transparent glass can also be used; the electrode 24 can be protected by the hard mounting sleeve 32, so that the electrode 24 is not easy to be damaged; the electrolysis condition of the electrode 24 can be observed more conveniently through the transparent mounting sleeve 32, and whether the electrolysis mechanism 2 normally operates or not is judged by observing the bubble condition of the electrolysis position, so that the potential safety hazard is reduced.

Referring to fig. 1 and 4, the power supply of the electrolysis mechanism 2 comprises a mobile power supply 25 and a power adapter 26, and the plug 22 is connected with the output end of the mobile power supply 25, so that the instant hydrogen gas absorption system is convenient to use when being carried; the plug 22 may also be connected to the output of the power adapter 26 to allow the power adapter 26 to be connected to a power source for use in a fixed location, such as a power outlet.

Electrifying the electrode 24 by a power supply to ensure that the electrode 24 electrolyzes water, and electrolyzing the water into hydrogen and oxygen; the hydrogen that produces behind the electrolysis water is a small part dissolved in water, and most hydrogen upwards floats under the effect of water buoyancy, gets into straw 31 along installation sleeve 32, and the user just can inhale the hydrogen that the electrolysis produced through straw 31, makes the hydrogen that does not dissolve in water also can be inhaled by the user.

Referring to fig. 1 and 2, in order to increase the safety of the sucking mechanism 3, a protecting cover 311 is disposed at one end of the straw 31 outside the mounting cover 11; when the user carries the container, the protecting cover 311 may cover the end of the straw 31, so that the portion of the mouth contacting the straw 31 is protected hygienically when the user sucks, and the impurities are prevented from entering the container 1 through the straw 31, and the overflow of water in the container is reduced.

The implementation principle of the embodiment 1 is as follows: after the plug 22 is connected with the mobile power supply 25 or the power adapter 26, the electrodes 24 electrolyze water, and the water electrolyzes water to generate hydrogen and oxygen, and the hydrogen and the oxygen float upwards along the suction pipe 31 under the action of water buoyancy and are sucked by a user under the action of suction of the user. The hydrogen gas which is not dissolved in water can be sufficiently sucked by a user through the limitation of the moving track of the hydrogen gas by the installation sleeve 32 and the suction pipe 31.

Example 2

Referring to fig. 5, the present embodiment is different from embodiment 1 in that the present embodiment further includes a protection mechanism 4 for protecting a user, the protection mechanism 4 includes a mask 41, an end of the suction pipe 31 located outside the container 1 penetrates from an outside to an inside of the mask 41, the user can wear the mask 41 when sucking hydrogen gas using the suction pipe 31, and viruses in the air can be protected more effectively when sucking hydrogen gas in a public place; meanwhile, when the mask 41 is worn, hydrogen is sucked, a user does not need to hold the suction pipe 31, and the use is more convenient.

Preferably, the present embodiment further includes a safety system for reducing the safety hazard, in the present embodiment, the safety system includes a push switch 51 for controlling the communication of the conducting wire 23, the push switch 51 is installed on the outer wall of the installation tube 21 penetrating out of the installation cover 11; when the user presses the press switch 51, the electrolysis mechanism 2 carries out the work of electrolysis water, and after the user finishes sucking, the press switch 51 is loosened, and the electrolysis mechanism 2 stops working, thereby reducing the potential safety hazard of long-time work of the electrolysis mechanism 2.

A sensor can be arranged in the suction pipe 31, when the sensor detects that the user does not suck for a period of time by detecting the water flow in the suction pipe 31, the electrolysis action of the electrolysis mechanism 2 is interrupted, so that the electrolysis mechanism 2 is not easy to electrolyze to generate hydrogen when the user does not suck, and the potential safety hazard is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.