CN217286790U - Hydrogen absorption machine - Google Patents

Abstract

The utility model relates to a hydrogen absorption machine, including water tank, electrolysis trough, vapour and liquid separator and humidifying bottle, be equipped with the TDS sensor on the pipeline between delivery port and electrolysis trough water inlet, be equipped with relief valve, pressure sensor and check valve on the connecting pipeline of vapour and liquid separator and humidifying bottle. The utility model provides a device which can safely and conveniently suck hydrogen for human body.

Description

Hydrogen absorption machine

Technical Field

The utility model belongs to hydrogen production facility field, concretely relates to hydrogen absorption machine.

Background

The results of the current study show that up to now 63 disease types have been demonstrated to be effectively treated by hydrogen. Not only cellular and animal research evidence, but also many human studies have shown that hydrogen is safer than oxygen and hardly toxic.

The molecular effects of hydrogen can occur in a variety of tissues and diseases, such as brain, spinal cord, eye, ear, lung, heart, liver, kidney, pancreas, small intestine, blood vessels, muscle, cartilage, metabolic system, perinatal disease, and inflammation. Of these organs, tissues and disease states, hydrogen gas has the most significant therapeutic effect on organ ischemia-reperfusion injury and inflammation-related diseases.

The mainstream view of the pathophysiology mechanism of hydrogen for treating diseases is the selective oxidation resistance of hydrogen, and on the basis of the selective oxidation resistance, people successively prove that the hydrogen has the treatment effect on oxidative damage, inflammatory reaction, apoptosis, abnormal vascular proliferation and the like in various disease processes.

Since the discovery of the biological effect of hydrogen, hydrogen has obvious protective effect on the dysfunction of central nervous system diseases represented by cerebrovascular diseases and senile dementia.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a safe and convenient hydrogen absorption machine.

The utility model adopts the technical proposal that:

the utility model provides a hydrogen absorption machine, the water tank is included, the electrolysis trough that communicates through the pipeline with the delivery port of water tank, pass through the vapour and liquid separator of pipeline intercommunication with the electrolysis trough hydrogen outlet of electrolysis trough and pass through the humidifying bottle of pipeline intercommunication with the hydrogen outlet of vapour and liquid separator, be equipped with electrolysis trough return water way between electrolysis trough and water tank, be equipped with separation return water pipeline between vapour and liquid separator and water tank, be equipped with the TDS sensor on the pipeline between water tank and electrolysis trough, be equipped with the check valve on the connecting pipeline of vapour and liquid separator and humidifying bottle.

Furthermore, a safety valve is arranged on a connecting pipeline of the gas-liquid separator and the humidification bottle, and the safety valve is positioned between the gas-liquid separator and the one-way valve.

Furthermore, a pressure sensor is arranged on a connecting pipeline of the gas-liquid separator and the humidification bottle, and the pressure sensor is positioned between the gas-liquid separator and the one-way valve.

Furthermore, the water outlet is positioned at the bottom of the water tank, and a water tank float switch is arranged on the inner bottom plate of the water tank.

Furthermore, a separator float switch is arranged on an inner top plate of the gas-liquid separator.

Furthermore, a tee joint is arranged on a pipeline between the water tank and the electrolytic bath and communicated with a water outlet through the tee joint, and the tee joint is positioned on the pipeline between the TDS sensor and the electrolytic bath.

Furthermore, a bottom water outlet is arranged at the bottom of the gas-liquid separator, a water tank bottom water return port is arranged at the bottom of the water tank, and two ends of the separation water return pipeline are respectively communicated with the bottom water outlet and the water tank bottom water return port.

Furthermore, an electromagnetic valve is arranged on the separation water return pipeline.

Further, the electrolytic cell employs CA-300 manufactured by Kavoro corporation.

The utility model discloses an actively the effect does:

the utility model provides a safe, convenient hydrogen device of inhaling compares in traditional hydrogen water of drinking, and hydrogen of inhaling can provide higher hydrogen dosage, and is stronger to respiratory system disease pertinence, and the effect is more obvious in the aspect of improving to the sleep to can use in the sleep.

The utility model can be also provided with a control system, the hydrogen production time is set by one key or is manually set according to personal habits, and the hydrogen absorption tube is convenient for users to use.

Drawings

Fig. 1 is a schematic diagram of the present invention.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the objects of the present invention, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Example 1

As shown in fig. 1, the present embodiment provides a hydrogen absorption machine, which comprises a water tank 100, an electrolytic bath 400, a gas-liquid separator 500 and a humidification bottle 800.

The water tank 100 is provided with a water outlet 101 and a water tank bottom return port 103 at the bottom, a water tank top return port 104 at the top, an electrolytic tank 400 is provided with an electrolytic tank water inlet 401, an electrolytic tank return port 402, and an electrolytic tank hydrogen outlet 403, a gas-liquid separator 500 is provided with a bottom drain port 501 at the bottom, and a gas-liquid separator water inlet 503 and a hydrogen outlet 504 at the top. A pipeline is communicated between the water outlet 101 and the water inlet 401 of the electrolytic tank, the water return port 402 of the electrolytic tank is communicated with the water return port 104 at the top of the water tank through the pipeline, the water inlet 503 of the gas-liquid separator is communicated with the hydrogen outlet 403 of the electrolytic tank through the pipeline, and the water outlet 501 at the bottom is communicated with the water return port 103 at the bottom of the water tank through the pipeline. The hydrogen outlet 504 is communicated with the humidification bottle 800 through a pipeline.

Preferably, a TDS sensor 200 is arranged on a pipeline between the water outlet 101 and the water inlet 401 of the electrolytic bath and is used as a water change alarm switch. A safety valve 600 and a pressure sensor 700 are arranged on a connecting pipeline of the gas-liquid separator 500 and the humidification bottle 800, and the safety valve 600 is used for mechanical overpressure protection and is positioned between the gas-liquid separator 500 and the one-way valve 1000. The pressure sensor 700 acts as an overpressure alarm switch and is located between the gas-liquid separator 500 and the check valve 1000.

Preferably, a tee joint is arranged on a pipeline between the water outlet 101 and the water inlet 401 of the electrolytic bath, and the tee joint is communicated with a water outlet 300.

The upper cover of the humidifying bottle 800 is provided with a humidifying bottle hydrogen outlet, which is convenient for a user to insert a hydrogen absorption pipe to absorb hydrogen, and the bottle cover is designed in a rotary knob mode, is convenient for water injection and inside cleaning and is sealed by a rubber pad.

The electrolyzer 400 of this embodiment is CA-300 produced by Calvoro, and adopts the latest PEM + MEA electrolysis core hydrogen production technology, and the core is a U.S. DuPont high-molecular proton exchange membrane composed of fluorine-containing polymer, which has good air tightness and can completely block oxygen generated by the anode to achieve the effect of hydrogen-oxygen shunt, and this technology is the reverse reaction engineering of a high-tech Proton Exchange Membrane Fuel Cell (PEMFC). Therefore, the risk of combustion and explosion caused by the harm of the traditional hydrogen production by-product and the mixing of hydrogen and oxygen can be avoided.

Example 2

This embodiment is a further improvement of embodiment 1, and in this embodiment, a tank float switch 102 is provided on the bottom side inside the water tank 100, and can be used as a water shortage alarm switch.

A separator float switch 502 is provided at the top of the inside of the gas-liquid separator 500 as a gas-liquid separator drain switch, and an electromagnetic valve 900 is provided on a connection pipe between the bottom drain port 501 and the tank bottom return port 103, and opens the electromagnetic valve to drain the water in the gas-liquid separator 500 into the tank 100 through the bottom drain port 501 and the tank bottom return port 103.

A temperature sensor is also provided outside the electrolytic bath 400.

Example 3

As the whole product, the utility model discloses still include shell structure and control system.

The shell structure comprises a bottom shell, a water tank connector, a water injection cover, a front panel, a base and the like. The control system comprises a display screen and a control panel which are arranged on a front panel, a main control panel, a pressure sensor, a safety valve, a temperature sensor, a switching power supply and the like. The electrolytic bath and the bracket are arranged on the base, and the water tank and the gas-liquid separator are arranged on the upper part of the bracket.

Preferably, the upper case is provided with a liquid level window at a position corresponding to the water tank 100, a folding hook is provided at the other side, and a handle and a water injection hole are provided at the top.

Preferably, a tilt switch is provided on the main control panel.

The utility model discloses be equipped with the water shortage and report to the police, trade water warning, excessive pressure warning (pressure detection), mechanical overvoltage protection, high temperature warning, slope and report to the police etc. guarantee the security in the equipment use, use safer.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (9)

1. The utility model provides a hydrogen absorption machine, its characterized in that includes water tank (100), pass through electrolysis trough (400) of pipeline intercommunication with delivery port (101) of water tank (100), pass through gas-liquid separator (500) of pipeline intercommunication with electrolysis trough hydrogen outlet (403) of electrolysis trough (400) and pass through humidifying bottle (800) of pipeline intercommunication with hydrogen outlet (504) of gas-liquid separator (500), be equipped with electrolysis trough return water way between electrolysis trough (400) and water tank (100), be equipped with separation return water pipeline between gas-liquid separator (500) and water tank (100), be equipped with TDS sensor (200) on the pipeline between water tank (100) and electrolysis trough (400), be equipped with check valve (1000) on the connecting line of gas-liquid separator (500) and humidifying bottle (800).

2. The hydrogen absorption machine according to claim 1, wherein a safety valve (600) is further arranged on the connecting pipeline between the gas-liquid separator (500) and the humidification bottle (800), and the safety valve (600) is positioned between the gas-liquid separator (500) and the one-way valve (1000).

3. The hydrogen absorption machine as claimed in claim 1, wherein a pressure sensor (700) is further disposed on the connection pipeline between the gas-liquid separator (500) and the humidification bottle (800), and the pressure sensor (700) is located between the gas-liquid separator (500) and the one-way valve (1000).

4. A hydrogen absorption machine according to claim 1, characterized in that the water outlet (101) is located at the bottom of the water tank (100), and a tank float switch (102) is provided on the inner bottom plate of the water tank (100).

5. A hydrogen absorption machine according to claim 1, characterized in that a separator float switch (502) is provided on an inner ceiling of the gas-liquid separator (500).

6. A hydrogen absorption machine according to claim 1, characterized in that a tee is provided in the piping between the water tank (100) and the electrolytic cell (400), which tee is connected to the water discharge opening (300) and is located in the piping between the TDS sensor (200) and the electrolytic cell (400).

7. The hydrogen absorption machine as claimed in claim 1, wherein a bottom drain outlet (501) is provided at the bottom of the gas-liquid separator (500), a tank bottom return port (103) is provided at the bottom of the water tank (100), and both ends of the separation return line are respectively communicated with the bottom drain outlet (501) and the tank bottom return port (103).

8. A hydrogen absorption machine according to claim 1 or 7, characterized in that the electromagnetic valve (900) is arranged on the separation return line.

9. A hydrogen getter according to claim 1, wherein said electrolytic cell (400) employs CA-300 manufactured by kavorro.

Images