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Oxyhydrogen cabin

A hydrogen-oxygen and chamber technology, applied in the field of hydrogen-oxygen chambers, can solve problems such as difficulty in popularization and application, difficulty in safe operation, and high cost, and achieve the effect of good user experience, no safety risk, and easy operation

Pending Publication Date: 2019-03-01
YUNNAN DELINHAI MEDICAL INVESTMENT CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] 2. There is high-purity hydrogen in the chamber. If it leaks, it will pose a great safety hazard and it will be difficult to popularize and apply;
[0011] 3. There are two sources of hydrogen supply in the warehouse, one is the hydrogen cylinder, which is difficult to operate safely and has high risks; the other is the hydrogen production device. The consumption is huge, the cost is too high, and it does not conform to the sustainable development strategy;
[0012] 4. It is inconvenient to dispose of the high-purity hydrogen in the chamber after use, and improper operation will cause explosion hazard;
[0013] 5. People in the cabin need to wear oxygen breathing devices in real time, which is inconvenient for movement and poor user experience; and limited by the amount of oxygen produced by the oxygen breathing device, people in the cabin cannot use the high-pressure hydrogen tank for a long time

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] Such as image 3 As shown, in the hydrogen-oxygen cabin shown in Embodiment 1, the air source 20 is an air injection device, and the air outlet 211 of the air injection device is connected to the air inlet 10 through an air duct 213, and the air is delivered to the interior space 12 of the cabin 1 .

[0042] The hydrogen source 21 is a hydrogen production device, and the hydrogen gas outlet 214 of the hydrogen production device is connected with the air pipeline 213 through the hydrogen pipeline 215, and the air pipeline 213 between the hydrogen pipeline 215 and the air pipeline 213 connection to the air inlet 10 can realize hydrogen Mix with air, and deliver the mixed gas to the inner space 12 of the cabin 1 . The air containing hydrogen has a physical therapy effect on the human body and improves the body's antioxidant capacity. In actual use, the device for mixing hydrogen and air is not limited to the air duct 213 itself, and a closed chamber can also be used inst...

Embodiment 2

[0045] Such as Figure 4 As shown, in the hydrogen-oxygen cabin shown in Embodiment 2, the air source 20 is an oxygen generator, the hydrogen source 21 is a hydrogen generator, and the oxygen generator includes an oxygen outlet 210 and an air outlet 211, and the oxygen outlet 210 passes through an oxygen pipeline 212 communicates with the interior space 12 of the cabin 1; the air outlet 211 is connected with the air inlet 10 through the air pipeline 213, the hydrogen gas outlet 214 of the hydrogen production device is connected with the air pipeline 213 through the hydrogen pipeline 215, and the hydrogen pipeline 215 and the air The air pipeline 213 between the connection of the pipeline 213 and the air inlet 10 can realize the mixing of hydrogen and air, and deliver the mixed gas to the inner space 12 of the cabin 1 . The air containing hydrogen has a physical therapy effect on the human body. In this embodiment, oxygen is transported into the inner space 12 to mix with the a...

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Abstract

The invention discloses an oxyhydrogen cabin. The oxyhydrogen cabin comprises a cabin body, an air source and a hydrogen source. The cabin body is provided with an air inlet, a depressurizing component, an opening part allowing the human body to get in and out, and an inner space for containing the human body. After the hydrogen source and the air source are mixed, mixed gas capable of being directly inhaled by the human body is formed, the concentration of hydrogen in the mixed gas is smaller than 4%, the mixed gas is connected with the air inlet, the air inlet is communicated with the innerspace of the cabin body, and the depressurizing component is communicated with the inner space of the cabin body. Exhaust of the gas in the inner space is achieved, and the pressure of the inner spaceis kept below 0.3 MPa. The oxyhydrogen cabin is simple in structure, convenient to use, safe and reliable, the hydrogen containing mixed capable of being directly inhaled with the human body is provided, and the antioxidant ability of the human body is improved.

Description

technical field [0001] The invention belongs to the field of health care equipment, and more specifically relates to a hydrogen-oxygen chamber. Background technique [0002] Under normal temperature and pressure, hydrogen is a colorless, transparent, odorless and tasteless gas. Hydrogen burns in air at concentrations ranging from 4% to 75%. Hydrogen is the gas with the smallest density known in the world. The density of hydrogen is only 1 / 14 of that of air. That is, at 0°C and one standard atmospheric pressure, the density of hydrogen is 0.0899 g / L. Hydrogen is present in very low amounts in the air and is mainly distributed in the top layers of the atmosphere. Hydrogen is the substance with the smallest relative molecular mass and is mainly used as a reducing agent. The early application of hydrogen in medicine was mainly in diving medicine, because hydrogen, as a gas for human diving breathing, has been deeply studied by many important diving medical research institutes...

Claims

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Application Information

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IPC IPC(8): A61G10/02
CPCA61G10/02
Inventor 肖薇
Owner YUNNAN DELINHAI MEDICAL INVESTMENT CO LTD
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