CN210904478U - Hydrogen breathing machine - Google Patents

Abstract

The utility model discloses a hydrogen breathing machine, this hydrogen breathing machine is including the water tank that is used for storing the pure water, a power for producing the hydrogen generating device of hydrogen and being used for the hydrogen generating device power supply, the water tank includes box and top cap, be equipped with the division board in the box, with first accommodation space and the second accommodation space of separating for the left and right sides in the box, the bottom intercommunication of first accommodation space and second accommodation space, the water tank top is sealed, hydrogen generating device's water inlet communicates the bottom of water tank, hydrogen generating device's hydrogen export communicates the upper portion of water tank, the upper portion of water tank still is equipped with hydrogen breathing interface. The water tank in this hydrogen breathing machine collects water storage and hydrogen and collects function and an organic whole, need not additionally set up hydrogen collecting container for hydrogen breathing machine structure is simplified, and volume and weight shrink, portable and use, and this hydrogen breathing machine not only can be used for the patient to breathe hydrogen, still can collect oxygen and be used for breathing and use, and the function is various.

Description

Hydrogen breathing machine

Technical Field

The utility model relates to a hydrogen generating equipment technical field, concretely relates to hydrogen breathing machine.

Background

The research shows that the hydrogen has the functions of oxidation resistance and inflammation resistance, and a plurality of diseases are related to inflammation and oxidation, so that the prevention and treatment of the diseases are worth of application and exploration of the hydrogen.

For the way of taking hydrogen into the human body, a way of directly breathing hydrogen, injecting or drinking a liquid saturated with hydrogen, or skin breathing hydrogen can be adopted. At present, for the treatment of using hydrogen for the body disease, the mode of breathing hydrogen directly is usually adopted, and the mode is comparatively simple and convenient, practical, effective, can directly make hydrogen in order to provide the breathing through hydrogen manufacturing machine.

However, the existing hydrogen production machine has complex structure and large volume, and the produced hydrogen has low purity and is inconvenient to use. For example, chinese patent publication No. CN207980136U describes a hydrogen respirator, which includes a water storage tank for storing water, a hydrogen generation device for generating hydrogen, and a gas-water separation device, and the separate design of the gas-water separation device results in a complicated structure, an increased volume, and inconvenience in use.

For the foregoing reasons, there is a need for a hydrogen ventilator.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydrogen breathing machine solves the technical problem that hydrogen breathing machine structure is complicated among the prior art, bulky.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the design is a hydrogen breathing machine, including the water tank that is used for storing the pure water, the hydrogen generating device that is used for producing hydrogen and be used for doing the power of hydrogen generating device power supply, the water tank is higher than hydrogen generating device is in order to be used for doing hydrogen generating device supplies water, the water tank top is sealed, hydrogen generating device's water inlet communicates the bottom of water tank, hydrogen generating device's hydrogen export communicates the upper portion of water tank, the upper portion of water tank still is equipped with hydrogen breathing interface.

Preferably, the water tank comprises a tank body and a top cover, a partition plate is arranged in the tank body to divide the tank body into a first accommodating space and a second accommodating space on the left side and the right side, a communication opening is formed in the bottom of the partition plate, and the bottoms of the first accommodating space and the second accommodating space are communicated through the communication opening;

the upper edge of the box body and the upper edge of the partition plate are in sealing fit with the top cover;

the hydrogen outlet and the hydrogen breathing interface are both communicated with the upper part of the first accommodating space;

an oxygen outlet of the hydrogen generating device is communicated to the top of the second accommodating space, and an oxygen breathing interface is further arranged at the top of the second accommodating space.

Preferably, a sealing ring is arranged between the top of the box body and the partition plate and the top cover.

Preferably, the hydrogen generating device comprises an electrolytic chamber, a cathode sheet, an anode sheet and a diaphragm arranged between the cathode sheet and the anode sheet are arranged in the electrolytic chamber, and the diaphragm is used for dividing the electrolytic chamber into a hydrogen generating area and an oxygen generating area;

the water inlet is communicated with the bottom of the electrolytic chamber, the hydrogen outlet is communicated with the hydrogen generation area, and the oxygen outlet is communicated with the oxygen generation area.

Preferably, two upright posts are arranged on the inner wall surface of the second accommodating space, slide rails are arranged on opposite side surfaces of the upright posts, a floating block capable of moving up and down is arranged between the two upright posts, a conducting strip is arranged on the bottom surface of the floating block, and grooves corresponding to the slide rails are arranged on two sides of the floating block; two electrode plates penetrating through the side wall of the bottom of the second accommodating space are arranged at the lower part between the upright posts at intervals, are positioned at the same elevation and are in sealing fit with the wall surface of the second accommodating space; the hydrogen breathing machine is also provided with a water shortage alarm, and the water shortage alarm is electrified after the two electrode plates are electrified.

Preferably, the hydrogen breathing machine is provided with a support frame, the water tank is arranged on the upper part of the support frame, and the hydrogen generating device is arranged on the lower part of the support frame.

Preferably, the hydrogen breathing machine also has a shell, a water level observation window is arranged on the shell, and the highest water level line of the water tank is positioned below the top in the water tank, so that a space for containing gas is reserved at the top of the water tank.

Preferably, the support frame is further provided with a cooling fan.

Preferably, a water filling port is arranged on the shell and communicated with the water tank through a water filling pipe, and a sealing plug is further arranged at the water filling port.

Preferably, a waste water discharge port is arranged on the shell and communicated to the bottom of the water tank through a drain pipe, and a drain cock is arranged on the waste water discharge port.

The utility model has the advantages of:

1. the utility model provides a function and an organic whole are collected to water tank collection water storage among the hydrogen breathing machine and hydrogen, do not need additionally to set up hydrogen and collect the container for the hydrogen breathing machine structure is simplified, and volume and weight dwindle, portable and use.

2. The hydrogen breathing machine is provided with a water shortage alarm, and can prevent the hydrogen generating device from being burnt.

3. This hydrogen breathing machine not only can be used for the patient to breathe hydrogen, still can collect oxygen and be used for breathing and use, and the function is various.

Drawings

Fig. 1 is a perspective view of a hydrogen respirator 1 according to the present invention;

fig. 2 is a schematic view of the internal structure of embodiment 1 of the hydrogen respirator of the present invention;

fig. 3 is an exploded view of embodiment 1 of the hydrogen respirator of the present invention;

fig. 4 is an exploded view of the water tank of embodiment 1 of the hydrogen respirator of the present invention;

fig. 5 is a perspective view of a tank body of a water tank in embodiment 1 of the hydrogen respirator of the present invention;

fig. 6 is a left side view of the water tank of embodiment 1 of the hydrogen respirator of the present invention;

FIG. 7 is a cross-sectional view A-A of FIG. 6;

FIG. 8 is an enlarged view of portion A of FIG. 7;

fig. 9 is a perspective view of a hydrogen generator in embodiment 1 of the hydrogen respirator of the present invention.

In the drawings, each reference numeral means: the water tank 11, the tank body 111, the partition plate 1111, the first accommodation space 1112, the second accommodation space 1113, the communication port 1114, the protrusion 1115, the top cover 112, the groove 1121, the sealing ring 113, the transverse sealing portion 1131, the hydrogen breathing port 1141, the oxygen breathing port 1142, the hydrogen input port 1143, the water adding port 1144, the oxygen input port 1145, the water outlet 1146, the waste water discharge port 1147, the hydrogen generator 12, the oxygen outlet 121, the hydrogen outlet 122, the water inlet 123, the power supply 13, the support frame 14, the first port 141, the second port 142, the left side plate 151, the right side plate 152, the top plate 153, the water adding port 1531, the sealing plug 1532, the transparent plate 154, the power supply port 155, the upright post 161, the slide rail 162, the floating block 163, the electrode plate 164, 165, and the heat.

Detailed Description

The following embodiments are only intended to illustrate the present invention in detail, and do not limit the scope of the present invention in any way.

Example 1:

a hydrogen respirator, please refer to fig. 1 to 9.

As shown in fig. 1 to fig. 3, the embodiment of the present invention provides a hydrogen respirator, which includes a water tank 11, a hydrogen generator 12 and a power supply 13, wherein the water tank 11, the hydrogen generator 12 and the power supply 13 are installed on a support frame 14, the water tank 11 is disposed on the upper portion of the support frame 14, and the hydrogen generator 12 is disposed on the lower portion of the support frame 14.

Water tank 11 is used for storing the pure water, and hydrogen generating device 12 communicates with the bottom of water tank 11, then the water tank 11 that is located the eminence can directly carry the pure water to the hydrogen generating device 12 that is located the low department, and power 13 is used for hydrogen generating device 12 power supply, and hydrogen generating device 12 is the pure water electrolysis for hydrogen and oxygen output, can be used for supplying the patient to breathe the physiotherapy after the hydrogen is collected.

Further, as shown in fig. 4, the water tank 11 includes a tank body 111 and a top cover 112, a partition plate 1111 is provided in the tank body 111 to partition the inside of the tank body 111 into a first accommodating space 1112 and a second accommodating space 1113 on the left and right sides, tops of the first accommodating space 1112 and the second accommodating space 1113 are located at the same elevation, bottoms of the first accommodating space 1112 and the second accommodating space 1113 are communicated, and tops of the first accommodating space 1112 and the second accommodating space 1113 are closed.

Specifically, a sealing ring 113 is arranged between the box body 111 and the top cover 112, a transverse sealing portion 1131 matched with the upper edge of the partition plate 1111 is arranged in the middle of the sealing ring 113, the upper edge of the box body 111 and the upper edge of the partition plate 1111 are in sealing fit with the top cover 112 through the sealing ring 113, so that the top of the first accommodating space 1112 and the top of the second accommodating space 1113 are isolated, and the top of the first accommodating space 1112 and the top of the second accommodating space 1113 are sealed.

As shown in fig. 5, a hydrogen breathing port 1141 and an oxygen breathing port 1142 are provided at an upper portion of a rear side of the case 111, the hydrogen breathing port 1141 is communicated with the first accommodation space 1112, and the oxygen breathing port 1142 is communicated with the second accommodation space 1113. The upper part of the front side of the box 111 is provided with a hydrogen input port 1143, a water adding port 1144 and an oxygen input port 1145, the hydrogen input port 1143 and the water adding port 1144 are communicated with the first accommodating space 1112, and the oxygen input port 1145 is communicated with the second accommodating space 1113. A water outlet 1146 and a waste water discharge port 1147 are provided at a lower portion of a front side of the case 111, the water outlet 1146 is communicated with the first accommodation space 1112, and the waste water discharge port 1147 is communicated with the second accommodation space 1113.

As shown in fig. 9, a water inlet 123, a hydrogen outlet 122 and an oxygen outlet 121 are provided on a housing of the hydrogen generator 12, an electrolysis chamber is provided inside the hydrogen generator 12, a cathode sheet, an anode sheet and a diaphragm arranged between the cathode sheet and the anode sheet are provided in the electrolysis chamber, the diaphragm is used to divide the electrolysis chamber into a hydrogen generation region and an oxygen generation region, the water inlet 123 is communicated with the bottom of the electrolysis chamber, the hydrogen outlet 122 is communicated with the hydrogen generation region, and the oxygen outlet 121 is communicated with the oxygen generation region.

The oxygen outlet 121 of the hydrogen generator 12 is connected to the oxygen input port 1145 at the top of the second accommodating space 1113, and the hydrogen outlet 122 of the hydrogen generator 12 is connected to the hydrogen input port 1143 at the top of the first accommodating space 1112, so that the hydrogen and oxygen generated by the hydrogen generator 12 are collected at the top of the first accommodating space 1112 and the second accommodating space 1113, respectively.

As shown in fig. 3, a first interface 141 and a second interface 142 are disposed on the front surface of the support frame 14, the first interface 141 and the second interface 142 are respectively communicated with the hydrogen breathing interface 1141 and the oxygen breathing interface 1142, the first interface 141 is connected to the air tube to deliver the hydrogen collected at the top of the first accommodating space 1112 to the patient for breathing, and the second interface 142 is connected to the air tube to deliver the oxygen collected at the top of the second accommodating space 1113 to the patient for breathing.

The support frame 14 is further provided with a heat radiation fan 17, the power supply 13 supplies power to the heat radiation fan 17, and the heat radiation fan 17 is arranged beside the hydrogen generating device 12 and can radiate the heat of the hydrogen generating device 12 and the power supply 13.

Furthermore, a waste water discharge port is arranged on the bottom surface of the support frame 14 and is communicated with a waste water discharge interface 1147, a water discharge cock is arranged on the waste water discharge port, when the hydrogen breathing machine is normally used, the water discharge cock is screwed on the waste water discharge port to prevent water leakage, and when the hydrogen breathing machine is used for a long time, the water discharge cock can be unscrewed to discharge stale water in the water tank.

As shown in fig. 3, a circular casing composed of a left side plate 151, a right side plate 152 and a transparent plate 154 is disposed outside the supporting frame 14, a top plate 153 is disposed on the top of the circular casing, wherein a water filling port 1531 is disposed on the top plate 153, and the water filling port 1531 is provided with a corresponding sealing plug 1532. The filling port 1531 is connected to the filling port 1144 of the upper portion of the housing 111 through a water pipe to fill pure water into the housing 111 through the filling port 1531, and when water is not filled, the filling port 1531 is sealed by the sealing plug 1532 to prevent leakage of hydrogen gas accumulated at the top of the first accommodating space 1112.

The transparent plate 154 is provided with a water level observation window, the water tank 11 is made of transparent material, and the water level line is arranged on the water tank 11 and can be observed through the water level observation window. The highest water level on the water tank 11 is located below the top inside the water tank 11 so that a space for containing gas is reserved at the top of the first and second accommodation spaces 1112 and 1113 inside the water tank 11.

The power interface 155 is arranged at the bottom of the annular shell of the hydrogen breathing machine, the power supply 13 is connected with 220V commercial power through the power interface 155, the power supply 13 comprises a voltage transformation circuit, 5V direct current is output by the voltage transformation circuit, the working voltage of the hydrogen generating device 12 is 5V, the working current is 4A, and the power supply 13 can meet the working requirement of the hydrogen generating device. A battery can be arranged in the power supply 13, and when the power interface 155 is not connected with electricity, the electromagnetism in the power supply 13 can be used for supplying power.

The bottom of the right side plate 152 is provided with a plurality of ventilation holes to facilitate the heat dissipation fan 17 to draw air outwards in the housing.

Further, as shown in fig. 5 and 7, two columns 161 are provided on an inner wall surface of the second accommodating space 1113, slide rails 162 are provided on opposite side surfaces of the two columns 161, a floating block 163 capable of moving up and down is provided between the two columns 161, grooves corresponding to the slide rails are provided on both sides of the floating block 163, and when the second accommodating space 1113 has water, the floating block 163 floats on the water surface.

Two electrode plates 164 penetrating through the side wall of the bottom of the second accommodating space 1113 are arranged at the lower part between the two upright posts 161 at intervals, the two electrode plates 164 are located at the same elevation and are in sealing fit with the wall surface of the second accommodating space 1113 to prevent water in the second accommodating space 1113 from being leaked, the bottom surface of the floating block 163 is provided with a conductive sheet 165, when the water level in the second accommodating space 1113 is lower than that of the electrode plates 164, the floating block 163 is lapped between the two electrode plates 164, and the two electrode plates 164 can conduct electricity. The hydrogen breathing machine is provided with a water shortage alarm, two electrodes of the water shortage alarm and two output ends of a power supply are electrically connected with the two electrode plates 164 correspondingly, and after the two electrode plates are electrified, the water shortage alarm is electrified to alarm.

Because the pure water is not conductive, can effectively solve the inconvenient technical problem who reports to the police of hydrogen breathing machine through above-mentioned scheme to prevent that hydrogen generating device 12 from burning futilely.

The hydrogen gas that hydrogen generating device 12 inputs into first accommodation space 1112 and the oxygen gas that inputs into second accommodation space 1113 all carry partial pure water, and because the effect of gravity, the pure water that gas carried can fall into the pure water of box 111 below, and as shown in fig. 5 and 7, division board 1111 bottom is equipped with intercommunication mouth 1114, and the bottom of first accommodation space 1112 and second accommodation space 1113 is through intercommunication mouth 1114 intercommunication, and consequently, hydrogen generating device 12 can constantly circulate and reentry hydrogen generating device 12 along with the water of gaseous output.

Further, in order to ensure the sealing performance between the box body 111 and the top cover 112, as shown in fig. 8, a groove 1121 is formed around the top cover 112, a corresponding protrusion 1115 is formed at the top of the box body 111, and the sealing ring 113 is correspondingly pressed between the groove 1121 and the protrusion 1115. Similarly, a groove corresponding to the top of partition 1111 is formed in the middle of the bottom of top cover 112, and transverse seal portion 1131 of seal ring 113 is pressed between the groove in the middle of the bottom of top cover 112 and the top of partition 1111.

Based on above embodiment, the utility model provides a function and an organic whole are collected to water tank collection water storage among the hydrogen breathing machine and hydrogen, do not need additionally to set up hydrogen and collect the container for the hydrogen breathing machine structure is simplified, and volume and weight reduce, portable and use, and this hydrogen breathing machine is equipped with the alarm of lack of water moreover, can effectively prevent that hydrogen generating device from burning futilely.

The present invention has been described in detail with reference to the accompanying drawings and embodiments, but those skilled in the art will understand that various specific parameters in the above embodiments can be changed without departing from the spirit of the present invention to form a plurality of specific embodiments, which are the common variation ranges of the present invention and will not be described in detail herein.

Claims (10)

1. The utility model provides a hydrogen breathing machine, is including the water tank that is used for storing the pure water, the hydrogen generating device that is used for producing hydrogen and be used for doing the power of hydrogen generating device power supply, the water tank is higher than hydrogen generating device is in order to be used for doing hydrogen generating device supplies water, a serial communication port, the water tank top is sealed, hydrogen generating device's water inlet communicates the bottom of water tank, hydrogen generating device's hydrogen export communicates the upper portion of water tank, the upper portion of water tank still is equipped with hydrogen breathing interface.

2. The hydrogen breathing machine according to claim 1, wherein the water tank comprises a tank body and a top cover, a partition plate is arranged in the tank body to divide the tank body into a first accommodating space and a second accommodating space on the left side and the right side, a communication port is arranged at the bottom of the partition plate, and the bottoms of the first accommodating space and the second accommodating space are communicated through the communication port;

the upper edge of the box body and the upper edge of the partition plate are in sealing fit with the top cover;

the hydrogen outlet and the hydrogen breathing interface are both communicated with the upper part of the first accommodating space;

an oxygen outlet of the hydrogen generating device is communicated to the top of the second accommodating space, and an oxygen breathing interface is further arranged at the top of the second accommodating space.

3. The hydrogen respirator of claim 2, wherein a seal ring is disposed between the top of the top cover and the top of the box and divider.

4. The hydrogen respirator of claim 2, wherein the hydrogen generation device comprises an electrolysis chamber, wherein a cathode sheet, an anode sheet and a diaphragm arranged between the cathode sheet and the anode sheet are arranged in the electrolysis chamber, and the diaphragm is used for dividing the electrolysis chamber into a hydrogen generation area and an oxygen generation area;

the water inlet is communicated with the bottom of the electrolytic chamber, the hydrogen outlet is communicated with the hydrogen generation area, and the oxygen outlet is communicated with the oxygen generation area.

5. The hydrogen breathing machine according to claim 2, wherein two columns are provided on the inner wall surface of the second accommodating space, slide rails are provided on the opposite side surfaces of the columns, a floating block capable of moving up and down is provided between the two columns, a conductive sheet is provided on the bottom surface of the floating block, and grooves corresponding to the slide rails are provided on both sides of the floating block; two electrode plates penetrating through the side wall of the bottom of the second accommodating space are arranged at the lower part between the upright posts at intervals, are positioned at the same elevation and are in sealing fit with the wall surface of the second accommodating space; the hydrogen breathing machine is also provided with a water shortage alarm, and the water shortage alarm is electrified after the two electrode plates are electrified.

6. The hydrogen respirator of claim 1, wherein the hydrogen respirator is provided with a support frame, the water tank is arranged at the upper part of the support frame, and the hydrogen generating device is arranged at the lower part of the support frame.

7. A hydrogen breathing machine according to claim 6, wherein the hydrogen breathing machine further comprises a housing, a water level observation window is provided on the housing, and the highest water level line of the water tank is located below the top inside the water tank, so that a space for containing gas is reserved at the top of the water tank.

8. The hydrogen respirator of claim 7, wherein the support frame is further provided with a heat dissipation fan.

9. The hydrogen respirator of claim 7, wherein the housing is provided with a water filling port, the water filling port is communicated with the water tank through a water filling pipe, and the water filling port is further provided with a water filling sealing plug.

10. A hydrogen breathing machine according to claim 7, wherein the housing is provided with a waste drain opening which communicates through a drain pipe to the bottom of the water tank, the waste drain opening being provided with a drain cock.

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