CN209873126U - Hydrogen and oxygen production equipment capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas - Google Patents

Abstract

The utility model belongs to the technical field of hydrogen and oxygen are made in the electrolysis, especially, relate to a hydrogen manufacturing oxygen making equipment that is used for exporting hydrogen-containing water, oxyhydrogen mist simultaneously. Including water storage container, electrolytic device, first outlet duct, second outlet duct, electrolytic device is including the electrolysis trough that has the SPE membrane, the electrolysis trough is located the negative and positive poles both sides of membrane and respectively is equipped with a set of water inlet, and the water inlet of both sides communicates through a communicating pipe, still be connected with liquid output pipeline on the second outlet duct, all be equipped with the ooff valve on liquid output pipeline and the communicating pipe. It is to carrying out electrolysis to the water of leading-in from water container through electrolytic device and produces the water that contains hydrogen and the water that contains oxygen after, give vent to anger pipeline formula through first pipeline and the second and say output, increase liquid output pipeline in addition after, multiplicable this equipment makes the function that contains hydrogen water, can directly derive hydrogen water and use, and the user's accessible is opened this ooff valve and is selected.

Description

Hydrogen and oxygen production equipment capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of hydrogen and oxygen are made in the electrolysis, especially, relate to a hydrogen manufacturing oxygen making equipment that is used for exporting hydrogen-containing water, oxyhydrogen mist simultaneously.

[ background of the invention ]

Research shows that hydrogen as one selective antioxidant matter has effective and obvious curative effect on liver diseases, including liver ischemia, drug hepatitis, liver cirrhosis caused by bile duct obstruction, fatty liver, etc. At present, products such as hydrogen production cups and the like are released in the market, so that people can conveniently take hydrogen in daily life.

Like hydrogen, oxygen therapy and oxygen health care products have health care effects, and oxygen is supplied to improve physiological and biochemical internal environments of human bodies and promote virtuous cycle of metabolic processes so as to achieve the purposes of treating diseases, relieving symptoms, promoting rehabilitation, preventing pathological changes and promoting health.

At present, the hydrogen-oxygen breathing machine and the hydrogen-oxygen generating device on the market only have the single function of generating hydrogen and oxygen for the user to breathe. Or simply a single function of generating hydrogen rich water for consumption by the user.

[ summary of the invention ]

For solving the problem of single function in the oxyhydrogen breathing machine in the prior art, the utility model provides a hydrogen and oxygen production equipment which can simultaneously output hydrogen-containing water and oxyhydrogen mixed gas.

The utility model discloses a realize through following technical scheme:

but hydrogen manufacturing oxygen plant of exportable hydrogen-containing water simultaneously, hydrogen and oxygen mist of exportable hydrogen-containing water, including water storage container, with the electrolytic device that water storage container connects, last first outlet duct that is used for supplying the gaseous outflow that the anode side produced and the second outlet duct that is used for supplying the gaseous outflow that the cathode side produced that is equipped with of electrolytic device, electrolytic device is including the electrolysis trough that has the SPE membrane, the electrolysis trough is located the negative and positive poles both sides of membrane and respectively is equipped with a set of water inlet, and the water inlet of both sides communicates through a intercommunication pipeline, still be connected with liquid output pipeline on the second outlet duct, all be equipped with the ooff valve on liquid output pipeline and the intercommunication pipeline, two the ooff valve can open simultaneously or close.

The hydrogen and oxygen production equipment capable of outputting hydrogen-containing water and simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas is characterized in that a water inlet pipeline is arranged between the water storage container and the water inlet on one side of the anode of the electrolysis device, a water pump is arranged on the water inlet pipeline, and one end of the communicating pipeline is connected between the water pump and the water inlet.

The hydrogen and oxygen production equipment capable of outputting hydrogen-containing water and simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas can output hydrogen-containing water, and the switch valve is an electromagnetic valve.

Can export hydrogen production oxygen plant of hydrogen-containing water, hydrogen oxygen mist of hydrogen-containing water simultaneously as above, it has first gas-water separator to connect on the first outlet duct, it has second gas-water separator to connect on the second outlet duct, first gas-water separator and the gas output pipeline on the second gas-water separator join the back and communicate with the gas delivery outlet.

As above but hydrogen and oxygen production equipment of hydrogen-containing water, oxyhydrogen mist can be exported simultaneously to exportable hydrogen-containing water, still be equipped with the recovery pipeline on the water storage container, liquid delivery outlet and recovery pipeline intercommunication on first gas-water separator and the second gas-water separator, and the intercommunication department still is equipped with the porous filter screen of being made by cellular material.

The hydrogen and oxygen production equipment capable of outputting hydrogen-containing water and simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas can output hydrogen-containing water, and a filter is further arranged on a gas output pipeline of the first gas-water separator.

As above-mentioned but hydrogen production oxygen plant of hydrogen-containing water, oxyhydrogen mist can be exported simultaneously to exportable hydrogen-containing water, still connect the humidification bottle between the gaseous delivery line junction on first gas-water separator and the second gas-water separator and the gaseous delivery outlet.

As above-mentioned but hydrogen and oxygen production equipment of exportable hydrogen-containing water's simultaneous output hydrogen-containing water, oxyhydrogen mist, gas delivery outlet department still is connected with the mouth of pipe of breathing and the gas diffusion mouth of pipe, but hydrogen-containing water's simultaneous output hydrogen-containing water, oxyhydrogen mist's hydrogen and oxygen production equipment of exportable hydrogen-containing water still include with the fan of gas diffusion mouth of pipe intercommunication.

The hydrogen and oxygen production equipment capable of outputting hydrogen-containing water and simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas can output hydrogen-containing water, and a pressure sensor is further arranged between the second air outlet pipe and the second air-water separator.

Compared with the prior art, the utility model discloses there is following advantage:

1. the utility model provides a but hydrogen manufacturing oxygen making equipment of simultaneous output hydrogen-containing water, oxyhydrogen mist, it is through electrolytic device to carry out the electrolysis to leading-in water in the water storage container and produce the water that contains hydrogen and the water back that contains oxygen, give vent to anger pipeline formula through first pipeline of giving vent to anger and second and do not export, increase liquid output pipeline in addition after, multiplicable this equipment manufacturing hydrogen-containing water's function, can directly derive hydrogen-containing water and use, this ooff valve is opened to the user's accessible and selects.

2. The utility model discloses but hydrogen manufacturing oxygen making equipment of simultaneous output hydrogen-containing water, oxyhydrogen mist still sets up the water inlet and feeds through the intercommunication pipeline of two water inlets through the both sides at the electrolysis trough, if only anode side is equipped with the water inlet, because under SPE membrane block, the water yield of cathode department can reduce, the hydrogen-containing water that is not enough to output the capacity supplies the user to use, and in this scheme, both can satisfy the breathing of high concentration hydrogen and use, can drink the hydrogen-containing water who is rich in hydrogen again. The hydrogen-containing water generated from the cathode of the electrolysis device can be directly led out through an output pipeline communicated with the second air outlet pipe for drinking by users. The water inlets on two sides are arranged to ensure that sufficient hydrogen-containing water can be output.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of a hydrogen and oxygen production plant capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas;

FIG. 2 is a cross-sectional view of a double-pipe air supply duct I;

FIG. 3 is a sectional view of a double-pipe air supply duct II;

FIG. 4 shows a third cross-sectional view of a double-duct air supply duct;

FIG. 5 shows a cross-sectional shape of a double-duct air supply duct IV;

fig. 6 shows a cross-sectional shape five of the double-duct air supply duct.

[ detailed description ] embodiments

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to further explain the present invention in detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model discloses a realize through following technical scheme:

as shown in fig. 1, but hydrogen-containing water, oxyhydrogen mist's hydrogen manufacturing oxygen making equipment is exported simultaneously, including water storage container 1, with the electrolytic device 2 that water storage container 1 is connected, be equipped with the gaseous outflow's that is used for supplying the anode side to produce first outlet duct 31 and be used for supplying the gaseous outflow's that cathode side produced second outlet duct 32 on electrolytic device 2, electrolytic device 2 is including the electrolysis trough that has the SPE membrane, the electrolysis trough is located the negative and positive poles both sides of membrane and respectively is equipped with a set of water inlet, and the water inlet of both sides communicates through a intercommunication pipeline 21, still be connected with liquid output pipeline 33 on the second outlet duct 32, all be equipped with the ooff valve on liquid output pipeline 33 and the intercommunication pipeline 21, two the ooff valve can open or close simultaneously. The utility model provides a but hydrogen manufacturing oxygen making equipment of simultaneous output hydrogen-containing water, oxyhydrogen mist, it is through electrolytic device to carry out the electrolysis to leading-in water in the water storage container and produce the water that contains hydrogen and the water back that contains oxygen, give vent to anger pipeline formula through first pipeline of giving vent to anger and second and do not export, increase liquid output pipeline in addition after, multiplicable this equipment manufacturing hydrogen-containing water's function, can directly derive hydrogen-containing water and use, this ooff valve is opened to the user's accessible and selects.

Further, a water inlet pipeline is arranged between the water inlet on one side of the anode of the water storage container 1 and the water inlet on one side of the anode of the electrolysis device 2, a water pump 12 is arranged on the water inlet pipeline, and one end of the communicating pipeline 21 is connected between the water pump 12 and the water inlet. If only the anode side is equipped with the water inlet, because under SPE membrane block, the water yield of cathode department can reduce, and the hydrogenous water that is not enough to output the capacity supplies the user to use, and in this scheme, both can satisfy the breathing of high concentration hydrogen and use, can drink the hydrogen-rich water who is rich in hydrogen again. The hydrogen-containing water generated from the cathode of the electrolysis device can be directly led out through an output pipeline communicated with the second air outlet pipe for drinking by users. The water inlets on two sides are arranged to ensure that sufficient hydrogen-containing water can be output.

And, the switching valve is a solenoid valve. And the structure is simple, and the control is convenient.

In addition, first gas-water separator 41 has been connect on first outlet duct 31, second gas-water separator 42 has been connect on second outlet duct 32, first gas-water separator 41 joins the back with the gaseous delivery outlet 5 intercommunication with the gaseous output pipeline on second gas-water separator 42. The produced gas has moisture, and can be directly used for human body to breathe after being separated by the gas-water separator, and the gas-water separator can adopt a traditional mechanical separator. In this scheme, first gas-water separator 41 that has hydrophobic ventilated membrane has been connect on first outlet duct 31, second gas-water separator 42 that has hydrophobic ventilated membrane has been connect on second outlet duct 32, gas output pipeline on first gas-water separator 41 and the second gas-water separator 42 joins the back and communicates with gas delivery outlet 5. After water led in from a water storage container is electrolyzed by an electrolysis device to generate water containing hydrogen and water containing oxygen, the water and the water are respectively led into a gas-water separator with a hydrophobic and breathable film to filter water after being output by a first gas outlet pipeline and a second gas outlet pipeline, and finally the dehydrated gas is led out from a gas output pipe to a gas output port of equipment. Wherein gas separator adopts hydrophobic ventilated membrane to carry out the steam in the filtering gas, its simple structure, and separation effect is good moreover for equipment volume reduces, is convenient for use on the respirator.

In this embodiment, the hydrophobic breathable film is specifically a microporous film made of polyolefin and fluoropolymer material, or a microporous film made of hydrophilic materials such as polyethersulfone, polyacrylonitrile, and ceramic subjected to hydrophobic treatment, in the first gas-water separator 41. The pore size is preferably less than 0.2 μm.

The hydrophobic gas-permeable membrane in the first gas-water separator 41 may be made as a silk membrane-like three-dimensional membrane. The hydrophobic breathable film has the advantages that the breathable property of the hydrophobic breathable film is utilized, and the hydrophobic breathable film is of a three-dimensional structure, so that the water vapor can be effectively separated, and the water vapor is prevented from being attached to the surface of the film layer to cause blockage. The principle is that under the state of water vapor, water particles are very fine, and can smoothly permeate into a capillary tube to the other side according to the principle of capillary motion, so that the vapor permeation phenomenon is generated. When water vapor is condensed into water drops, the particles become bigger, and water molecules can not smoothly separate from the water drops and permeate to the other side under the action of the surface tension of the water drops (mutual pulling and balancing among the water molecules), so that the water permeation is prevented, and the vapor permeable membrane has a hydrophobic function.

In addition, a material in which the hydrophobic gas-permeable membrane in the first gas-water separator 41 is made of a hydrophobic microporous material and the pore diameter thereof is smaller than 10 μm can also be used. The material can be hydrophobic microporous film of polyolefine or fluorine-containing high-molecular polymer, etc., and its pore size is preferably less than 0.2 micrometer. It also has better water-vapor separation effect.

In addition, still be equipped with recovery pipeline 11 on the water storage container 1, the liquid delivery outlet and the recovery pipeline 11 intercommunication on first gas-water separator 41 and the second gas-water separator 42, and the intercommunication department still is equipped with the porous filter screen 43 of being made by cellular material. The liquid separated by the gas-water separator can flow back to the water storage container through the recovery pipeline, so that the recycling is realized. Furthermore, by adding a porous screen, the liquid separated by the gas-water separator (hereinafter referred to as deaerated water) passes through the porous screen 43 at the deaerated water outlet to collect fine bubbles in the water, and the fine bubbles are collected into large bubbles (i.e., the produced gas among the bubbles), and a certain separation effect is also achieved, so that the gas collection efficiency can be improved. In addition, in the scheme, the aperture of the porous filter screen is preferably less than or equal to 1 mm.

Still further, a filter 6 is further arranged on the gas output pipeline of the first gas-water separator 41. The filter may be activated carbon filtration, which primarily filters ozone components that may be contained in the oxygen produced.

In addition, a humidification bottle 7 is connected between the junction of the gas output pipeline on the first gas-water separator 41 and the second gas-water separator 42 and the gas output port 5. The humidity in the mixed gas can be improved by adding the humidifying bottle 7, so that a user can absorb the mixed gas more comfortably; secondly, because the mixed gas contains hydrogen, the mixed gas is an explosive and flammable gas, the gas can be prevented from being flammable after the humidity is increased, and the safety performance is improved.

Still further, gas delivery outlet 5 department still is connected with breathing pipe 81 and gas diffusion mouth of pipe 82, but hydrogen manufacturing oxygen making equipment of export hydrogen-containing water, oxyhydrogen mist still include simultaneously with the fan 9 of gas diffusion mouth of pipe 82 intercommunication. In order to ensure that the mixed gas can be directly used for the user to exhale, the fan is used for introducing common air or filtered air, thereby reducing the concentration of oxyhydrogen in the mixed gas and facilitating the breathing use of the user. In addition, the breathing tube orifice and the gas diffusion tube orifice are respectively provided with an electromagnetic valve switch, so that the function of opening or closing the breathing tube orifice and the gas diffusion tube orifice can be selected by a user. When the hydrogen and the oxygen breathe, the mixing ratio is 2: 1, has certain potential safety hazard. The design here has fan and diffusion trachea, and the output air for blow away the hydrogen of human respirator nearby enrichment, avoid the detonation risk that brings behind the hydrogen concentration too high.

For comfort, the air inlet of the fan 9 is 2, one of the air inlets is close to the electrolysis device 2, the other air inlet is close to the ambient temperature, and the fan 9 is also provided with an ultrasonic atomization device for humidifying the air blown out by the fan. One located near the electrolyzer (hot air) and one at ambient temperature (ambient air), and then the temperature of the diffused air can be either regulated or continuously regulated. This provides the user with warm breathing gas even in cold winter. In the scheme, the heat generated by the electrolysis device in the starting process is optimally selected and utilized, and the fan takes out the part of heat and plays a role in heat dissipation. And the temperature can be adjusted by adjusting the air intake of 2 air inlets.

And a pressure sensor is arranged between the second gas outlet pipe 32 and the second gas-water separator 42. After the electrolysis device is started, whether the electrolysis is successful or not can be detected through the pressure sensor, and the gas inside the second gas outlet pipeline is changed due to the hydrogen generated after the electrolysis device is started successfully.

In a similar way, a hydrogen sensor can be arranged outside the pipeline of the device and used for detecting whether hydrogen leaks in the device or not, and the danger of explosion caused by leakage is avoided.

Still further, in order to make this equipment more intelligent, convenient, can increase level sensor in water storage container, it can in time detect and the user adds water toward water storage container.

Specifically, the device is a respirator, and the upper gas outlet of the respirator is an exhalation port for a user to directly suck. And the electrolysis device can realize electrolysis and hydrogen-oxygen separation by adopting the conventional SPE membrane technology. Moreover, the breathing port is a double-pipe breathing port, which corresponds to the breathing pipe port and the gas diffusion pipe port of the gas output port, and in the scheme, the cross-sectional shape of the air supply pipeline of the double-pipe breathing port is as shown in fig. 2 to 6.

The utility model provides a but hydrogen manufacturing oxygen making equipment of simultaneous output hydrogen-containing water, oxyhydrogen mist, it is through electrolytic device to carry out the electrolysis to leading-in water in the water storage container and produce the water that contains hydrogen and the water back that contains oxygen, give vent to anger pipeline formula through first pipeline of giving vent to anger and second and do not export, increase liquid output pipeline in addition after, multiplicable this equipment manufacturing hydrogen-containing water's function, can directly derive hydrogen-containing water and use, this ooff valve is opened to the user's accessible and selects.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not to be construed as limiting the invention to the precise embodiments disclosed herein. All with the utility model discloses a method, structure etc. are similar, the same, or to the utility model discloses make a plurality of technological deductions under the design prerequisite, or the replacement should all regard as the utility model discloses a protection scope.

Claims (8)

1. The hydrogen and oxygen production equipment capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas is characterized by comprising a water storage container (1) and an electrolysis device (2) connected with the water storage container (1), the electrolysis device (2) is provided with a first gas outlet pipe (31) for the gas generated at the anode side to flow out and a second gas outlet pipe (32) for the gas generated at the cathode side to flow out, the electrolytic device (2) comprises an electrolytic tank with SPE membrane, a group of water inlets are respectively arranged on the two sides of the cathode and the anode of the electrolytic tank, the water inlets at the two sides are communicated through a communicating pipeline (21), the second air outlet pipe (32) is also connected with a liquid output pipeline (33), and the liquid output pipeline (33) and the communication pipeline (21) are respectively provided with a switch valve, and the two switch valves can be opened or closed simultaneously.

2. The apparatus for producing hydrogen and oxygen capable of simultaneously outputting hydrogen-containing water and mixed gas of hydrogen and oxygen according to claim 1, wherein a water inlet pipeline is arranged between the water storage container (1) and the water inlet on one side of the anode of the electrolysis device (2), a water pump (12) is arranged on the water inlet pipeline, and one end of the communication pipeline (21) is connected between the water pump (12) and the water inlet.

3. The apparatus for producing hydrogen and oxygen capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas as claimed in claim 2, wherein the switch valve is an electromagnetic valve.

4. The apparatus for producing hydrogen and oxygen capable of outputting hydrogen-containing water and hydrogen-oxygen mixed gas simultaneously as claimed in claim 2, wherein the first gas outlet pipe (31) is connected with a first gas-water separator (41), the second gas outlet pipe (32) is connected with a second gas-water separator (42), and the first gas-water separator (41) is communicated with the gas output port (5) after being merged with the gas output pipeline on the second gas-water separator (42).

5. The apparatus for producing hydrogen and oxygen capable of simultaneously outputting hydrogen-containing water and mixed gas of hydrogen and oxygen according to claim 4, wherein the water storage container (1) is further provided with a recycling pipeline (11), the liquid output ports of the first gas-water separator (41) and the second gas-water separator (42) are communicated with the recycling pipeline (11), and the communicating part is further provided with a porous filter screen (43) made of microporous material.

6. The apparatus for producing hydrogen and oxygen capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas as claimed in claim 5, wherein the gas output pipeline of the first gas-water separator (41) is further provided with a filter (6).

7. The hydrogen and oxygen production equipment capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas according to claim 4, wherein a humidification bottle (7) is further connected between the junction of the gas output pipeline on the first gas-water separator (41) and the gas output pipeline on the second gas-water separator (42) and the gas output port (5).

8. The apparatus for producing hydrogen and oxygen capable of simultaneously outputting hydrogen-containing water and hydrogen-oxygen mixed gas according to claim 4, wherein a pressure sensor is further disposed between the second gas outlet pipe (32) and the second gas-water separator (42).