CN217039227U - Portable kettle for producing oxygen by electrolyzing water - Google Patents

Abstract

The utility model discloses a portable kettle for electrolyzing water to produce oxygen, which comprises a kettle main body and an oxygen producing mechanism; the kettle main body comprises a kettle body, and the kettle body is provided with a water storage cavity; the oxygen generation mechanism comprises an electrolytic water device, a mobile power supply, a first air pipe and a first water-proof breathable film, wherein the electrolytic water device is provided with an anode rod and a cathode rod, the anode rod and the cathode rod are both arranged in the water storage cavity, the mobile power supply is electrically connected with the electrolytic water device, and one end of the first air pipe is sleeved on the anode rod. The utility model provides a technical scheme's beneficial effect is: hydrogen ion and oxygen ion of aquatic separately, and hydrogen ion gathers in the cathode bar and produces hydrogen, and oxygen ion gathers in the anode bar and produces oxygen, and the oxygen of production supplies the user to use via first trachea discharge, and the effect of first water proof ventilated membrane prevents in water gets into first trachea, hydrogen then releases in the air, because this device system oxygen principle is simple, the volume is less, portable to can be used to short time oxygen suppliment under the emergency.

Description

Portable kettle for producing oxygen by electrolyzing water

Technical Field

The utility model belongs to the technical field of articles for daily use technique and specifically relates to a portable kettle of electrolysis water system oxygen is related to.

Background

Oxygen is indispensable for human survival, and proper oxygen inhalation can also be used for correcting hypoxia, improving the partial pressure of arterial oxygen and the oxygen saturation level and promoting metabolism. At present, the oxygen generating equipment is widely used in life (for example, the Chinese utility model patent with the application number of CN 201921440763.2), and various types of oxygen generating and supplying equipment are already available, such as oxygen generators, oxygen bags, oxygen bottles and the like.

However, the conventional oxygen generator is large in size and inconvenient to carry, and can be carried inconveniently in critical moments, such as oxygen deficiency in high altitude areas, oxygen deficiency in mountaineering, oxygen deficiency in long tunnels or deep holes, oxygen deficiency caused by sudden accidents in the construction process and the like.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a portable kettle for oxygen generation by electrolyzing water, so as to solve the technical problems of large volume and inconvenient carrying of the existing oxygen generator.

In order to realize the aim, the utility model provides a portable kettle for producing oxygen by electrolyzing water, which comprises a kettle main body and an oxygen producing mechanism;

the kettle main body comprises a kettle body, and the kettle body is provided with a water storage cavity;

oxygen mechanism includes electrolysis water installation, portable power source, first trachea and first water proof ventilated membrane, the electrolysis water installation has anode rod and cathode bar, the anode rod reaches the cathode bar all set up in the water storage cavity, portable power source with the electrolysis water installation electricity is connected, first tracheal pot head is located on the anode rod, first water proof ventilated membrane embedded in the first trachea.

In some embodiments, the kettle body further includes a handle fixed to the kettle body, the handle is hollow and has an air guide cavity, the air guide cavity is communicated with the other end of the first air tube, and an oxygen outlet communicated with the air guide cavity is formed in an outer wall of the handle.

In some embodiments, an air outlet valve is further mounted on the handle, and the air outlet valve is arranged in the air guide cavity and used for controlling the on-off of the air guide cavity.

In some embodiments, a pressure sensor is disposed within the airway cavity for sensing a pressure within the airway cavity.

In some embodiments, the oxygen supply system further comprises a nasal suction tube, an inlet of the nasal suction tube being in communication with the oxygen outlet.

In some embodiments, the oxygen generating mechanism further comprises a mounting case, the mounting case is fixed on the main body of the kettle and has an accommodating cavity, and the water electrolyzing device and the mobile power supply are both arranged in the accommodating cavity.

In some embodiments, the oxygen generation mechanism further comprises a temperature sensor disposed within the receiving cavity and configured to detect a temperature within the receiving cavity.

In some embodiments, the oxygen generating mechanism further includes a second air tube and a second water-proof and gas-permeable membrane, one end of the second air tube is sleeved on the cathode rod, the other end of the second air tube is located outside the water storage cavity, and the second water-proof and gas-permeable membrane is embedded in the second air tube.

In some embodiments, the kettle body further comprises a lower cover for covering the kettle body.

In some embodiments, the kettle main body further includes a water suction pipe and an upper cover, one end of the water suction pipe is communicated with the water storage cavity, the other end of the water suction pipe penetrates through the lower cover, the upper cover is used for covering the lower cover, and when the upper cover covers the lower cover, the other end of the water suction pipe is in a closed state.

Compared with the prior art, the utility model provides a technical scheme's beneficial effect is: when using, when emergent system oxygen of needs, to the internal running water of packing into of kettle main part, river or creek water, open portable power source, the internal electrolytic reaction that takes place of kettle this moment, the hydrogen ion and the oxygen ion of aquatic separately, the hydrogen ion gathers in the cathode bar, and produce hydrogen, the oxygen ion gathers in the anode bar, and produce oxygen, the oxygen of production is discharged via first trachea and is supplied the user to use, and the effect of first water proof ventilated membrane prevents that water from getting into in the first trachea, hydrogen is then released in the air, because this device system oxygen principle is simple, the volume is less, and easy to carry, thereby can be used to short time oxygen suppliment under the emergent condition.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of a portable water bottle for oxygen production by electrolysis of water;

FIG. 2 is a schematic view of the portable water pitcher of FIG. 1;

FIG. 3 is an enlarged partial view of area A of FIG. 2;

in the figure: 1-a kettle main body, 11-a kettle body, 12-a handle, 121-an oxygen outlet, 13-an air outlet valve, 14-a pressure sensor, 15-a lower cover, 16-a water suction pipe, 17-an upper cover, 2-an oxygen generating mechanism, 21-an electrolytic water device, 211-an anode bar, 212-a cathode bar, 213-an oxygen generating switch, 22-a mobile power supply, 23-a first air pipe, 24-a first waterproof and breathable film, 25-an installation shell, 26-a temperature sensor, 27-a second air pipe, 28-a second waterproof and breathable film and 3-a nasal suction pipe.

Detailed Description

The following detailed description of the preferred embodiments of the invention, which is to be read in connection with the accompanying drawings, forms a part of this application, and together with the embodiments of the invention, serve to explain the principles of the invention and not to limit its scope.

Referring to fig. 1-3, the utility model provides a portable kettle for electrolyzing water to produce oxygen, which comprises a kettle body 1 and an oxygen producing mechanism 2.

The kettle main body 1 comprises a kettle body 11, and the kettle body 11 is provided with a water storage cavity.

Oxygen mechanism 2 includes electrolysis water installation 21, portable power source 22, first trachea 23 and first water proof ventilated membrane 24, electrolysis water installation 21 has anode rod 211 and cathode bar 212, anode rod 211 reaches cathode bar 212 all set up in the water storage cavity, portable power source 22 with electrolysis water installation 21 electricity is connected, a pot head of first trachea 23 is located on the anode rod 211 (certain clearance has between the inner wall of first trachea 23 and the lateral wall of anode rod 211), first water proof ventilated membrane 24 embedded in first trachea 23.

When using, when the emergent system oxygen of needs, to the interior running water of packing into of kettle main part 1, river or creek, open portable power source 22, the electrolytic reaction takes place in the kettle body 11 this moment, the hydrogen ion and the oxygen ion of aquatic are separated, the hydrogen ion gathers in negative pole stick 212, and produce hydrogen, the oxygen ion gathers in positive pole stick 211, and produce oxygen, the oxygen of production is discharged via first trachea 23 and is supplied the user to use, and the effect of first water proof ventilated membrane 24 is in preventing that water from getting into first trachea 23, hydrogen is then released in the air, because this device system oxygen principle is simple, the volume is less, portable, thereby can be used to short time oxygen suppliment under the emergency situation.

In order to lead out oxygen conveniently, please refer to fig. 2, in a preferred embodiment, the kettle main body 1 further includes a handle 12, the handle 12 is fixed on the kettle body 11, the handle 12 is a hollow structure and has an air guide cavity, the air guide cavity is communicated with the other end of the first air pipe 23, an oxygen outlet 121 communicated with the air guide cavity is opened on an outer wall of the handle 12, and the oxygen outlet 121 can be detachably communicated with a straw, so as to facilitate oxygen inhalation.

In order to control the discharge of oxygen, referring to fig. 2, in a preferred embodiment, the handle 12 is further provided with an air outlet valve 13, the air outlet valve 13 is disposed in the air guide cavity and is used for controlling the on-off of the air guide cavity, when oxygen supply is not needed for a short time in use, the air outlet valve 13 can be closed, at this time, oxygen continues to be generated, the generated oxygen is continuously collected in the first air pipe 23, and when oxygen absorption is needed again, the air outlet valve 13 is opened. Meanwhile, the water electrolysis device 21 is provided with an oxygen generation switch 213, and when oxygen supply is not needed for a long time, the oxygen generation switch 213 can be directly closed to stop oxygen supply, so that the electric energy of the mobile power supply 22 is saved.

In order to prevent the danger caused by the over-high pressure in the air guide cavity, referring to fig. 2, in a preferred embodiment, a pressure sensor 14 is arranged in the air guide cavity, the pressure sensor 14 is used for detecting the pressure in the air guide cavity, and when the pressure in the air guide cavity is greater than a preset pressure value, the system gives an alarm and cuts off the power supply.

In order to facilitate oxygen inhalation, referring to fig. 1 and 2, in a preferred embodiment, the portable kettle for oxygen production by electrolyzing water further comprises a nasal suction tube 3, and an inlet of the nasal suction tube 3 is communicated with the oxygen outlet 121.

In order to protect the oxygen generating mechanism 2, referring to fig. 1 and fig. 2, in a preferred embodiment, the oxygen generating mechanism 2 further includes a mounting case 25, the mounting case 25 is fixed on the kettle main body 1 and has a containing cavity, and the water electrolyzing device 21 and the mobile power source 22 are both disposed in the containing cavity.

In order to prevent the mobile power source 22 from being dangerous due to an excessively high temperature, referring to fig. 2, in a preferred embodiment, the oxygen generator 2 further includes a temperature sensor 26, the temperature sensor 26 is disposed in the accommodating cavity and is configured to detect a temperature in the accommodating cavity, and when the temperature in the accommodating cavity exceeds a preset temperature value during use, the mobile power source 22 is automatically powered off, so as to prevent the mobile power source 22 from being dangerous due to an excessively high temperature, such as fire or even explosion.

In order to discharge the generated hydrogen, please refer to fig. 2 and fig. 3, in a preferred embodiment, the oxygen generating mechanism 2 further includes a second air tube 27 and a second water-stop and gas-permeable membrane 28, one end of the second air tube 27 is sleeved on the cathode rod 212 (a certain gap is formed between the inner wall of the second air tube 27 and the outer side wall of the cathode rod 212), the other end of the second air tube 27 is located outside the water storage cavity, the second water-stop and gas-permeable membrane 28 is embedded in the second air tube 27, and the second water-stop and gas-permeable membrane 28 prevents water from entering the second air tube 27.

For the convenience of use, referring to fig. 2, in a preferred embodiment, the kettle body 1 further comprises a lower cover 15, and the lower cover 15 is used for covering the kettle body 11.

For drinking, referring to fig. 2, in a preferred embodiment, the kettle main body 1 further includes a water suction pipe 16 and an upper cover 17, one end of the water suction pipe 16 is communicated with the water storage cavity, the other end of the water suction pipe 16 passes through the lower cover 15, the upper cover 17 is used for covering the lower cover 15, when the upper cover 17 covers the lower cover 15, the other end of the water suction pipe 16 is in a sealed state, specifically, when the upper cover 17 covers, the upper end of the water suction pipe 16 is bent, so that the upper end of the water suction pipe 16 is sealed, and water is prevented from being discharged from the water suction pipe 16.

For better understanding of the utility model, the following will explain the working process of the portable kettle for oxygen production by electrolyzing water with reference to fig. 1-3: when using, when needs emergent system oxygen, to packing into running water, river or creek water in the kettle main part 1, open portable power source 22, the electrolytic reaction takes place for this moment in the kettle body 11, the hydrogen ion and the oxygen ion of aquatic are separately, the hydrogen ion gathers in cathode bar 212, and produce hydrogen, the oxygen ion gathers in anode bar 211, and produce oxygen, the oxygen of production is discharged via first trachea 23 and is supplied the user to use, and first water proof ventilated membrane 24's effect prevents that water from getting into in first trachea 23, hydrogen is then released in the air, because this device system oxygen principle is simple, the volume is less, portable, thereby can be used to short time oxygen suppliment under the emergency situation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims (10)

1. A portable kettle for electrolyzing water to produce oxygen is characterized by comprising a kettle main body and an oxygen producing mechanism;

the kettle main body comprises a kettle body, and the kettle body is provided with a water storage cavity;

the oxygen generation mechanism comprises an electrolytic water device, a mobile power supply, a first air pipe and a first water-proof breathable film, wherein the electrolytic water device is provided with an anode rod and a cathode rod, the anode rod reaches the cathode rod which is arranged in the water storage cavity, the mobile power supply is electrically connected with the electrolytic water device, a first tracheal end sleeve is arranged on the anode rod, and the first water-proof breathable film is embedded in the first air pipe.

2. The portable kettle for electrolyzing water to produce oxygen according to claim 1, wherein the kettle body further comprises a handle, the handle is fixed on the kettle body, the handle is of a hollow structure and is provided with an air guide cavity, the air guide cavity is communicated with the other end of the first air pipe, and an oxygen outlet communicated with the air guide cavity is formed in the outer wall of the handle.

3. The portable kettle for electrolyzing water to produce oxygen according to claim 2, wherein the handle is further provided with an air outlet valve, and the air outlet valve is arranged in the air guide cavity and used for controlling the on-off of the air guide cavity.

4. The portable kettle for electrolyzing water to produce oxygen of claim 2, wherein a pressure sensor is disposed in the air-guiding chamber, and the pressure sensor is used for detecting the pressure in the air-guiding chamber.

5. The portable kettle for electrolyzing water to produce oxygen as claimed in claim 2, further comprising a nasal suction tube, wherein the inlet of the nasal suction tube is communicated with the oxygen outlet.

6. The portable kettle for electrolyzing water to produce oxygen according to claim 1, wherein the oxygen producing mechanism further comprises a mounting shell fixed on the kettle body and having a containing cavity, and the water electrolyzing device and the portable power source are both disposed in the containing cavity.

7. The portable kettle for electrolyzing water to produce oxygen as claimed in claim 6, wherein the oxygen producing mechanism further comprises a temperature sensor disposed in the accommodating chamber and used for detecting the temperature in the accommodating chamber.

8. The portable kettle for electrolyzing water to generate oxygen of claim 1, wherein the oxygen generating mechanism further comprises a second air pipe and a second water-proof and gas-permeable membrane, one end of the second air pipe is sleeved on the cathode rod, the other end of the second air pipe is positioned outside the water storage cavity, and the second water-proof and gas-permeable membrane is embedded in the second air pipe.

9. The portable kettle for electrolyzing water to produce oxygen as claimed in claim 1, wherein the kettle body further comprises a lower cover for covering the kettle body.

10. The portable kettle for electrolyzing water to produce oxygen as claimed in claim 9, wherein the kettle body further comprises a water suction pipe and an upper cover, one end of the water suction pipe is communicated with the water storage cavity, the other end of the water suction pipe passes through the lower cover, the upper cover is used for covering the lower cover, and when the upper cover is covered on the lower cover, the other end of the water suction pipe is in a sealed state.

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