CN211962827U

CN211962827U - Hydrogen-oxygen breathing mask

Info

Publication number: CN211962827U
Application number: CN201921252203.4U
Authority: CN
Inventors: 林明贤
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-02
Filing date: 2019-08-02
Publication date: 2020-11-20
Anticipated expiration: 2029-08-02

Abstract

A oxyhydrogen breathing mask comprises a mask body unit, a containing unit and at least one gas generating unit connected with the containing unit. The mask body unit comprises a body suitable for covering the nose and two wearing pieces. The containing unit is arranged on the inner surface of the body and comprises a liquid containing piece which defines a containing space suitable for containing liquid, and the top of the liquid containing piece is provided with a plurality of exhaust holes communicated with the containing space. At least one of the gas generating units comprises a housing member and an electrolysis member adapted to electrolyze the working liquid into a mixed gas of hydrogen and oxygen. The electrolysis element electrolyzes the action liquid to form the hydrogen-oxygen mixed gas, and the hydrogen-oxygen mixed gas can be upwards discharged and absorbed by a user by matching with the arrangement of the exhaust holes, so that the effect of actively providing clean air is achieved.

Description

Hydrogen-oxygen breathing mask

Technical Field

The utility model relates to a oxyhydrogen breathing mask, in particular to an oxyhydrogen breathing mask for providing oxyhydrogen.

Background

The air pollution problem is gradually concerned by people in recent years, and how to resist invisible pollution sources is a big topic. The mask which is declared to be capable of resisting fine suspended particles in air in the market is mostly a single-layer or multi-layer filter material, and the fine suspended particles flowing along with the air are filtered by the filter material to achieve the air filtering effect

The mask can certainly achieve the effect of filtering air, but the particle size of the fine suspended particles is too small, so that the aperture of the filter material must be made smaller to filter the fine suspended particles when air flows, however, the airtight filter material with smaller aperture is more difficult to pass through, and a user can easily feel a breathing difficulty when wearing the mask, so that even if clean air can be breathed, the breathing quality is still influenced to a certain extent.

Disclosure of Invention

An object of the utility model is to provide an initiative provides the oxyhydrogen breathing mask of clean air.

The utility model discloses oxyhydrogen breathing mask contains the cover body unit that is applicable to the human nose of cladding, set up in the appearance dress unit of cover body unit, at least one connect in the unit of making gas of appearance dress unit.

The mask body unit comprises a body suitable for wrapping the nose of a human body, two wearing pieces extending outwards from two sides of the body respectively, and the body is provided with an inner surface close to the human body and an outer surface positioned on the opposite side of the inner surface.

The containing unit comprises a liquid containing piece which defines a containing space suitable for containing liquid, and the top of the liquid containing piece is provided with a plurality of exhaust holes communicated with the containing space.

The at least one gas generating unit comprises a shell part, an electrolytic part, a control part and a power supply part, wherein the electrolytic part is arranged on the shell part and is suitable for electrolyzing the acting liquid into hydrogen-oxygen mixed gas, the control part controls the action of the electrolytic part, and the power supply part is electrically connected with the electrolytic part and the control part.

The purpose of the utility model and the technical problem thereof can be further realized by adopting the following technical measures.

Preferably, the accommodating unit further includes a first terminal extending from one side of the liquid containing member to the at least one gas generating unit and surrounding a first channel defining and communicating with the accommodating space; the at least one gas generating unit further comprises a second terminal which is formed on the housing member, surrounds a second channel which is communicated with the first channel and is in a shape corresponding to the first terminal and can be mutually embedded.

Preferably, the first terminal and the second terminal are screwed to each other, so that the housing unit and the at least one gas generating unit are connected and fixed to the cover unit.

Preferably, the oxyhydrogen breathing mask further comprises an air adjusting unit, wherein the air adjusting unit comprises an exhaust member defining an air outlet penetrating through the mask body unit, an adjusting member adapted to adjust air, and a cover member detachably covering the exhaust member and having a plurality of air inlets.

Preferably, the aforementioned oxyhydrogen breathing mask, wherein the adjusting member of the air adjusting unit is a filter screen detachably covering the air outlet.

Preferably, aforementioned oxyhydrogen breathing mask, wherein, the regulating part of the unit of adjusting qi be for set up in the venthole and be applicable to only supply the one-way air valve of the ambient air outdiffusion of internal surface.

Preferably, the adjusting member of the air adjusting unit is a fan disposed in the air outlet hole, electrically connected to the power supply member, and adapted to discharge the ambient air on the inner surface to the outside.

Preferably, the oxyhydrogen breathing mask comprises two gas generating units.

The beneficial effects of the utility model reside in that: the action liquid contained in the containing space is electrolyzed by the electrolytic piece to form hydrogen-oxygen mixed gas with relatively low density, and the hydrogen-oxygen mixed gas moves upwards and passes through the exhaust hole to be breathed by a user, so that the effect of actively providing clean air is achieved.

Drawings

FIG. 1 is an exploded perspective view illustrating a first embodiment of the oxyhydrogen breathing mask according to the present invention;

FIG. 2 is a schematic view illustrating electrolysis of the working liquid by the electrolytic element into a mixed gas of hydrogen and oxygen;

FIG. 3 is a schematic view illustrating a second embodiment of the oxyhydrogen breathing mask according to the present invention;

FIG. 4 is a schematic view illustrating a third embodiment of the oxyhydrogen breathing mask according to the present invention;

FIG. 5 is a schematic view illustrating a fourth embodiment of the oxyhydrogen breathing mask according to the present invention; and

fig. 6 is a schematic diagram. A fifth embodiment of the oxyhydrogen breathing mask according to the present invention will be described.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and embodiments:

before the present invention is described in detail, it should be noted that in the following description, like elements are represented by like reference numerals.

Referring to fig. 1 and 2, a first embodiment of the oxyhydrogen breathing mask according to the present invention comprises a mask body unit 1 adapted to cover the nose and mouth of a human body, a gas generating unit 3 disposed in the housing unit 2, a gas regulating unit 4 disposed in the mask body unit 1, and a connecting unit disposed in the housing unit 2.

The mask unit 1 comprises a body 11 adapted to cover the nose and mouth of a human body, two wearing pieces 12 extending from two sides of the body 11, respectively, wherein the body 11 has an inner surface 111 adjacent to the human body and an outer surface 112 opposite to the inner surface 111. In order to effectively block external pollution sources and have sufficient structural strength for the containing unit 2 and the gas making unit 3 to be arranged, the material of the body 11 of the cover body unit 1 is preferably one or a combination of plastic, silica gel and rubber; the wearing member 12 may be an elastic band surrounding the ears to achieve a fixing effect, or a silica gel band surrounding the head to achieve a fixing effect, as long as the body 11 can be fixed and cover the nose of the user, which belongs to the patent scope of the present invention.

The containing unit 2 is disposed on the inner surface 111 of the body 11, and includes a liquid containing member 21 defining a containing space 211 suitable for containing the acting liquid L, and a first terminal 23 extending from a side of the liquid containing member 21 to the gas generating unit 3 and surrounding a first channel 22 defining a communicating space 211. The top of the liquid container 21 has a plurality of air vents 24 communicating with the receiving space 211. It is worth mentioning that the acting liquid L contained in the liquid containing member 21 is one of pure water, distilled water and mineral water.

The gas generating unit 3 includes a housing member 31, a second terminal 33 formed in the housing member 31 and surrounding a second passage 32 defining a second passage 32 communicating with the first passage 22 and having a shape corresponding to the first terminal 23 to be threadably engaged with each other, an electrolytic member 34 provided in the housing member 31 and adapted to electrolyze the working liquid L into an oxyhydrogen gas mixture V, a control member 35 for controlling the operation of the electrolytic member 34, and a power supply member 36 electrically connected to the electrolytic member 34 and the control member 35. Specifically, the acting liquid L is one of pure water, mineral water, or distilled water; and the power supply unit 36 is a battery that can store and supply electric power.

The air-conditioning unit 4 includes an air discharge member 42 defining an air outlet hole 41 penetrating the cover unit, a conditioning member 43 adapted to condition air, and a cover member 45 detachably covering the air discharge member 42 and having a plurality of air inlet holes 44.

Specifically, the first terminal 23 is first inserted through the body 11 of the cover unit 1 and exposed to the outer surface 112, and then screwed to the second terminal 33 having a shape corresponding to the first terminal 23, so as to connect the housing unit 2 and the gas generating unit 3 and fix the housing unit 1. After the connection is completed, the housing unit 2 is disposed on the inner surface 111 of the mask unit 1 and is located relatively below the nose of the user.

In practical use, the working liquid L is poured into the liquid containing member 21, and is screwed to the first terminal 23 and the second terminal 33, so that after the working liquid L flows to the gas generating unit 3 through the first channel 22 and the second channel 32, the control member 35 is driven to control the electrolytic member 34 to form an anode and a cathode in the working liquid L, so as to generate a current to pass through and electrolyze the working liquid L to form the hydrogen-oxygen mixed gas V, and then the hydrogen-oxygen mixed gas V moves upward and passes through the exhaust hole 24 due to the characteristic of low gas density, so as to be directly absorbed by a user. When the liquid level of the acting liquid L is gradually reduced along with the use, the hydrogen-oxygen mixed gas V can be generated again only by directly taking out the containing unit 2, pouring the acting liquid L again and arranging the acting liquid L in the cover body unit 1. Considering that the existing mask may be contaminated as the using time increases and then needs to be directly discarded and replaced, the embodiment can achieve the effect of repeated use compared with the existing mask.

In addition, considering that the mask unit 1 covers the mouth and nose of the human body and further restricts the discharge of the exhaled air from the mouth or nose, the air pressure inside the mask unit 1 may gradually increase over a long period of time. In order to solve this problem without affecting the efficiency of providing clean air, the adjusting member 43 of the first embodiment is a filter 46, the user can cover the filter 46 on the air discharging member 42, and then cover the air discharging member 42 and the filter 46 with the cover 45, at this time, even if the external pollution source enters the air conditioning unit 4 through the air inlet 44 of the cover 45, the external pollution source will be filtered by the fine pores on the surface of the filter 46, so as to ensure the purity of the air entering from the air conditioning unit 4. On the other hand, the gas exhaled by the human body will flow out through the air outlet 41 according to the diffusion law, so as to achieve the effect of adjusting the internal air pressure without affecting the effect of blocking the external pollution source.

Oxygen is a substance necessary for the human body to maintain cell operation, and the absorption of oxygen can make the loop operation of each function in the human body smoother, and achieve the effects of eliminating fatigue, protecting the environment in the body, and improving learning ability and memory. The hydrogen is an antioxidant substance, can slow down the aging of each part of a human body, and can achieve the effects of restoring the skin elasticity and reducing wrinkles in the aspect of beautifying and maintaining; on the other hand, because any part in the human body is likely to generate free radicals for searching electron neutralization, and the free radicals can generate oxidation reaction when generating electron neutralization reaction with cells and proteins in the human body, and then accumulate oxidized fat to influence the normal operation of the human body, because hydrogen belongs to a reducing agent in the oxidation-reduction reaction and can be combined with the free radicals in the human body, the accumulation of the oxidized fat in the human body can be avoided, and the effects of detoxification and purification can be achieved. Moreover, the effect of recovering the injury in vivo can be achieved by absorbing hydrogen, so that the effect of rehabilitation is achieved.

Referring to fig. 3, a second embodiment of the oxyhydrogen breathing mask according to the present invention is different from the first embodiment in that the adjusting member 43 of the air regulating unit 4 of the second embodiment is a one-way air valve 47 disposed in the air outlet 41 and adapted to allow only the air inside the mask body unit 1 to diffuse outward. The problem to be solved by the first embodiment can also be solved by the feature that the one-way air valve 47 restricts the direction of air flow, restricts the inflow of external pollution sources, and provides a conduit for the discharge of internal air.

Referring to fig. 4, a third embodiment of the oxyhydrogen breathing mask according to the present invention is different from the first and second embodiments in that the adjusting member 43 of the third embodiment is a fan 48 disposed in the air outlet 41 and electrically connected to the power source 36 and adapted to discharge air inside the mask body unit 1 to the outside. The fan 48 regulates the internal air pressure and restricts the inflow of external pollution sources, thereby achieving the same effects as those achieved by the first and second embodiments.

Referring to fig. 5, a fourth embodiment of the oxyhydrogen breathing mask of the present invention, specifically, in order to improve the efficiency of oxyhydrogen production, the difference between the fourth embodiment and the first embodiment is the number of gas generating units 3, the fourth embodiment comprises two gas generating units 3, which are symmetrically disposed on both sides of the outer surface 112 of the mask body unit 1 and are connected to the housing unit 2, and the action liquid L (not shown) can flow along the first channel 22 and the second channel 32 to the gas generating units 3, and is electrolyzed to form the oxyhydrogen gas mixture V (not shown), and then discharged through the exhaust hole 24, so as to achieve the effect of improving the oxyhydrogen production.

Referring to fig. 6, a fifth embodiment of the oxyhydrogen breathing mask according to the present invention, specifically, the fifth embodiment is different from the previous embodiments in that the mask body unit 1 of the fifth embodiment only covers the nose of the user, and since the human body can inhale air through the nose and exhale air from the mouth, the air pressure inside the mask body unit 1 does not continuously rise, so that it is not necessary to add the air adjusting unit 4 as in the previous embodiments, and the volume of the whole structure is reduced, thereby achieving the effect of convenient carrying.

In summary, the oxyhydrogen breathing mask of the present invention is connected to the first terminal 23 and the second terminal 33, so as to achieve the effect of connecting at least one gas generating unit 3 and the housing unit 2 and being disposed on the mask body unit 1; and then, matching with the characteristic of upward flow due to low gas density, when the acting liquid L is electrolyzed into the hydrogen-oxygen mixed gas V, the acting liquid L can be discharged through the vent hole 24 which is positioned relatively above and directly sucked by a user; most external pollution sources are blocked by the cover body unit 1 in the whole process, and fresh hydrogen-oxygen mixed gas V is continuously supplied by at least one gas making unit 3 and is matched with the air pressure regulation of the gas regulating unit 4 to achieve the effect of actively providing clean air, so that the aim of the utility model is really achieved.

However, the above embodiments are only examples of the present invention, and the scope of the present invention should not be limited thereto, and all the simple equivalent changes and modifications made according to the claims and the contents of the patent specification are still included in the scope of the present invention.

Claims

1. A oxyhydrogen breathing mask is characterized in that: the oxyhydrogen breathing mask includes:

the mask body unit comprises a body suitable for wrapping the nose of a human body, two wearing pieces extending outwards from two sides of the body respectively, and the body is provided with an inner surface adjacent to the human body and an outer surface positioned on the opposite side of the inner surface;

the containing unit is arranged on the inner surface of the body and comprises a liquid containing piece which defines a containing space suitable for containing action liquid, and the top of the liquid containing piece is provided with a plurality of vent holes communicated with the containing space; and

the gas generating unit comprises a shell member, an electrolysis member which is arranged on the shell member and is suitable for electrolyzing the acting liquid into hydrogen-oxygen mixed gas, a control member for controlling the electrolysis member to act, and a power supply member which is electrically connected with the electrolysis member and the control member.

2. The oxyhydrogen breathing mask according to claim 1, wherein: the action liquid contained in the liquid containing piece is one of pure water, distilled water and mineral water.

3. The oxyhydrogen breathing mask according to claim 1, wherein: the containing unit also comprises a first terminal which extends from one side of the liquid containing piece to at least one gas making unit and surrounds to define a first channel communicated with the containing space; the at least one gas generating unit further comprises a second terminal which is formed on the housing member, surrounds a second channel which is communicated with the first channel and is in a shape corresponding to the first terminal and can be mutually embedded.

4. The oxyhydrogen breathing mask according to claim 3, wherein: the first terminal and the second terminal are in threaded connection with each other, so that the containing unit and at least one gas making unit are connected and fixed on the cover body unit.

5. The oxyhydrogen breathing mask according to claim 1, wherein: the air conditioner also comprises an air conditioning unit, wherein the air conditioning unit comprises an exhaust piece which defines an air outlet hole penetrating through the cover body unit, a regulating piece suitable for regulating air, and a covering piece which can detachably cover the exhaust piece and is provided with a plurality of air inlet holes.

6. The oxyhydrogen breathing mask according to claim 5, wherein: the adjusting piece of the air adjusting unit is a filter screen which can cover the air outlet hole in a detachable mode.

7. The oxyhydrogen breathing mask according to claim 5, wherein: the regulating part of the air regulating unit is a one-way air valve which is arranged in the air outlet and is suitable for only supplying the outward diffusion of the ambient air of the inner surface.

8. The oxyhydrogen breathing mask according to claim 5, wherein: the adjusting piece of the air adjusting unit is a fan which is arranged in the air outlet hole, is electrically connected with the power supply piece and is suitable for discharging the ambient air on the inner surface outwards.

9. The oxyhydrogen breathing mask according to claim 1, wherein: the number of the gas making units is two.