CN212593388U - Hydrogen bag is inhaled in hydrogen production - Google Patents

Abstract

The utility model relates to a hydrogen bag is inhaled in hydrogen production, include: an air bag with a closed space formed inside; a communicating tube communicated with the inside of the air bag; the cover body is detachably arranged at one end of the communicating pipe far away from the air bag and used for sealing the communicating pipe; and the hydrogen-producing medicine bag is arranged in the air bag and can react with water to generate hydrogen, water is injected into the air bag through the communicating pipe, and then the hydrogen is discharged outwards through the communicating pipe so as to be inhaled by a user. The utility model discloses the effectual current problem of inhaling hydrogen ware portable not of having solved, it need not the power consumption to inhale hydrogen bag hydrogen production in-process, and is small, can conveniently carry, and preparation low cost is fit for disposable.

Description

Hydrogen bag is inhaled in hydrogen production

Technical Field

The utility model relates to the field of pharmaceutical preparations, in particular to a hydrogen-producing and hydrogen-absorbing bag.

Background

Along with the improvement of living standard of people, the pursuit of people to healthy life is also becoming popular day by day, and domestic hydrogen absorber gets into people's the field of vision gradually, and hydrogen has positive therapeutic value to diseases such as malignant tumor, colitis, encephalopathy after carbon monoxide poisoning, and hydrogen source is most produced through the brineelectrolysis device among the current hydrogen absorber, needs the electricity, and bulky portable, still need cooperate the nose oxygen pipe to breathe during the use, very inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a hydrogen bag is inhaled in hydrogen production, solved the current problem of inhaling hydrogen ware portable not, inhale hydrogen bag hydrogen production in-process and need not the power consumption, small, can conveniently carry, and preparation low cost is fit for disposable.

The technical scheme for realizing the purpose is as follows:

the utility model provides a hydrogen bag is inhaled in hydrogen production, include:

an air bag with a closed space formed inside;

a communicating tube communicated with the inside of the air bag;

the cover body is detachably arranged at one end of the communicating pipe far away from the air bag and used for sealing the communicating pipe; and

the hydrogen-producing medicine bag which is arranged in the air bag and can react with water to generate hydrogen is filled with water into the air bag through the communicating pipe, and then the hydrogen is discharged outwards through the communicating pipe to be inhaled by a user.

The utility model provides a hydrogen bag is inhaled in hydrogen production, through pulling down the lid and to the water injection in the gasbag bag, cover the lid, make water and hydrogen production cartridge bag fully react and generate hydrogen, and then pull down the lid, the user inhales the hydrogen in the gasbag bag through communicating pipe, water and hydrogen production cartridge bag fully react the back, can judge out the content of hydrogen according to the degree of swelling of gasbag bag, the nostril supplies the user to inhale hydrogen in addition can be filled in communicating pipe, the problem that current hydrogen uptake ware is not convenient for carry has been solved, hydrogen bag hydrogen production in-process need not the power consumption, only need to the gasbag bag in water injection can, the whole hydrogen bag that produces hydrogen is small, can conveniently carry, and low in cost of manufacture, and be fit for disposable.

The hydrogen-producing and hydrogen-absorbing bag of the utility model is further improved in that the hydrogen-producing and hydrogen-absorbing bag also comprises a reducer pipe detachably connected with the communicating pipe, and the cover body is detachably arranged at one end of the reducer pipe away from the communicating pipe;

through pulling down the reducing pipe in order to the gasbag bag water injection and installing the reducing pipe in order to shutoff communicating pipe for water and hydrogen production cartridge reaction, and then pull down the lid, make the user inhale hydrogen through communicating pipe and reducing pipe.

The hydrogen production hydrogen absorption bag of the utility model is further improved by comprising a check valve arranged in the reducer pipe.

The hydrogen production hydrogen absorption bag of the utility model is further improved by comprising a gas filter arranged in the reducer pipe.

The utility model discloses the hydrogen bag is inhaled in hydrogen production's further improvement lies in, and this reducing pipe is including supplying with the first connecting portion that are connected communicating pipe and the second connecting portion of being connected with the lid, and the diameter of this second connecting portion is less than the diameter of first connecting portion.

The utility model discloses the hydrogen bag is inhaled in hydrogen production's further improvement lies in, and the diameter of this second connecting portion matches with the diameter in user's nostril.

The utility model discloses the hydrogen bag is inhaled in hydrogen production's further improvement lies in, and the lateral part of this communicating pipe is fixed connection elasticity rope still.

The utility model discloses hydrogen production hydrogen absorption bag's further improvement lies in, still including setting up in the sticky tape of air-bag lateral part, through folding air-bag, and then utilize the sticky tape bonding fixed to make air-bag keep fold condition.

Drawings

Fig. 1 is a schematic view of the hydrogen production and absorption bag in an expanded state.

Fig. 2 is a schematic view of the folded state of the hydrogen-producing hydrogen absorption bag of the utility model.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1, the utility model provides a hydrogen bag is inhaled in hydrogen production, through pulling down the lid and to the water injection in the gasbag bag, cover the lid, make water and hydrogen production cartridge bag fully react and generate hydrogen, and then pull down the lid, the user inhales the hydrogen in the gasbag bag through communicating pipe, water and hydrogen production cartridge bag fully react the back, can judge the content of hydrogen according to the degree of swelling of gasbag bag, communicating pipe can fill in the nostril in addition and supply the user to inhale hydrogen, the problem of having solved current hydrogen uptake ware portable not convenient to carry, hydrogen bag hydrogen production in-process need not the power consumption, only need to the gasbag bag in the water injection can, the whole hydrogen bag of inhaling is small, can conveniently carry, and the cost of manufacture is cheap, be fit for disposable. The hydrogen production and absorption bag of the present invention will be described with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic view of the hydrogen production and absorption bag of the present invention in an expanded state. The hydrogen-producing hydrogen-absorbing bag of the present invention will be described with reference to fig. 1.

As shown in fig. 1, the hydrogen-producing hydrogen-absorbing bag of the utility model comprises:

an airbag 11 having a closed space formed therein;

a communication tube 12 communicating with the interior of the airbag bag 11;

a cover 13 detachably mounted on an end of the communication tube 12 remote from the airbag 11 and sealing the communication tube 12; and

the hydrogen-producing drug bag 14 which is arranged in the air bag 11 and can react with water to generate hydrogen gas is injected into the air bag 11 through the communicating pipe 12, so that the water reacts with the hydrogen-producing drug bag 14 to generate the hydrogen gas, and the hydrogen gas is discharged outwards through the communicating pipe 12 to be inhaled by a user.

Specifically, the hydrogen-producing medicine bag is MgH₂Micro-nano powder, wherein the weight content of magnesium hydride is 40-400 mg/dose, and MgH₂The size of the micro-nano powder is 100 nm-100 mu m, and the hydrogen content of the hydrogen-producing medicine bag is 72-720 mL/dose.

As a preferred embodiment of the present invention, the present invention further comprises a reducer pipe 16 detachably connected to the communication pipe 12, and the cover 13 is detachably mounted on one end of the reducer pipe 16 away from the communication pipe;

by removing the reducing pipe 16 to fill the airbag 11 with water and installing the reducing pipe 16 to close the communication pipe 12, the water reacts with the hydrogen-producing drug cartridge 14, and further removing the lid body 13, the user inhales hydrogen gas through the communication pipe 12 and the reducing pipe 16.

Specifically, the hydrogen-containing gas bag further comprises a one-way valve arranged in the reducer pipe 16, so that air outside the gas bag 11 is prevented from entering the gas bag 11, and the purity of hydrogen is prevented from being influenced.

Specifically, the gas filter is arranged in the reducer pipe 16, when a user breathes, gas in the airbag 11 is filtered by the gas filter and then is inhaled by the user, and when water is injected into the airbag 11, dust impurities in the air can enter the airbag 11, so that solid impurities such as other dust impurities in the airbag 11 can be filtered by the gas filter, and the breathed hydrogen is ensured to be clean.

Specifically, the reducer pipe 16 includes a first connection portion for connecting with the communication pipe 12 and a second connection portion connected with the cover 13, and the diameter of the second connection portion is smaller than that of the first connection portion, so that the user can conveniently plug the second connection portion into the nostril for direct breathing.

Preferably, the diameter of the second connecting part is matched with the diameter of the nostril of the user, the outer diameter of the second connecting part is 10 mm-13 mm, the length is 5 mm-10 mm, and the second connecting part can be matched with the nasal cavity of an adult, or the outer diameter is 3 mm-10 mm, the length is 3 mm-8 mm, and the second connecting part can be matched with the nasal cavity of an infant.

Preferably, the cover 13 and the second connection portion are connected by a screw connection, and the first connection portion and the communication pipe 12 are connected by a screw connection.

Furthermore, the side of the communication tube 12 is further fixedly connected with an elastic rope 15, and the elastic rope 15 is sleeved on the head of the user, so that the user can conveniently breathe hydrogen and the hands of the user are liberated.

Further, as shown in fig. 2, the hydrogen-production hydrogen-absorption bag further comprises an adhesive tape 111 disposed on a side portion of the airbag 11, and the adhesive tape 111 is used for bonding and fixing the airbag 11 by folding the airbag 11, so that the airbag 11 keeps a folded state, the volume of the whole hydrogen-production hydrogen-absorption bag is reduced, and the hydrogen-production hydrogen-absorption bag can be conveniently carried by a user.

The utility model discloses a concrete implementation method as follows:

the hydrogen-producing hydrogen absorption bag is in a folded state at the initial state, the reducing pipe 16 is disassembled when the hydrogen-producing hydrogen absorption bag is in the folded state, about 10mL of water is injected into the air bag 11 through the communicating pipe 12, the reducing pipe 16 is covered, and the hydrogen can be prevented from being generated due to the fact that the water is directly contacted with the hydrogen-producing medicine bag 14 through water injection in the folded state, and the hydrogen generated too early is prevented from leaking from the communicating pipe;

tearing the adhesive tapes 111 on two sides of the airbag 11 to unfold the airbag 11, wherein hydrogen is formed in the closed airbag 11 when water contacts the hydrogen-generating medicine bag 14, so that the airbag 11 is swelled, and the content of the hydrogen can be judged according to the swelling degree of the airbag 11;

the cover body 13 is detached, the second connecting part of the reducer pipe 16 is placed in the nasal cavity, hydrogen enters the nasal cavity of a user through the gas filter and the one-way valve in the reducer pipe 16, the one-way valve can prevent gas outside the air bag from entering the air bag 11 to ensure the purity of the hydrogen, and the gas filter can also filter solid impurities such as micro dust in the hydrogen to ensure that the breathed hydrogen is clean;

when a user inhales hydrogen gas, the elastic string 15 may be tied to the head to free both hands, without having to hold the airbag 11 all the time.

The present invention has been described in detail with reference to the embodiments shown in the drawings, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which are intended to be covered by the following claims.

Claims (8)

1. A hydrogen-producing hydrogen-absorbing bag, characterized by comprising:

an air bag with a closed space formed inside;

a communicating tube communicating with the inside of the airbag;

the cover body is detachably arranged at one end of the communicating pipe, which is far away from the airbag, and is used for sealing the communicating pipe; and

the hydrogen-producing medicine bag is arranged in the air bag and can react with water to generate hydrogen, water is injected into the air bag through the communicating pipe, so that the water reacts with the hydrogen-producing medicine bag to generate the hydrogen, and the hydrogen is discharged outwards through the communicating pipe to be inhaled by a user.

2. The hydrogen-producing hydrogen-absorbing bag according to claim 1, further comprising a reducer pipe detachably connected to the communicating pipe, wherein the cover body is detachably mounted on one end of the reducer pipe away from the communicating pipe;

the reducing pipe is detached to inject water into the air bag and is installed to plug the communicating pipe, so that water reacts with the hydrogen production medicine bag, the cover body is detached, and a user can inhale hydrogen through the communicating pipe and the reducing pipe.

3. The hydrogen-producing hydrogen-absorbing bag according to claim 2, further comprising a check valve disposed in the reducer pipe.

4. The hydrogen-producing hydrogen-absorbing bag according to claim 2, further comprising a gas filter disposed in the reducer pipe.

5. The hydrogen-producing hydrogen-absorbing bag according to claim 2, wherein the reducing pipe includes a first connection portion for connection with the communicating pipe and a second connection portion for connection with the lid body, the second connection portion having a diameter smaller than that of the first connection portion.

6. The hydrogen-producing hydrogen-absorbing bag according to claim 5, wherein the diameter of the second connecting portion matches the diameter of the nostril of the user.

7. The hydrogen-producing hydrogen-absorbing bag according to claim 1, wherein an elastic rope is fixedly connected to the side of the communicating tube.

8. The hydrogen-generating hydrogen-absorbing bag according to claim 1, further comprising an adhesive tape disposed on a side portion of the airbag, wherein the airbag is folded and then adhesively fixed by the adhesive tape so that the airbag maintains a folded state.

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