CN109091733B - Medical atomization and oxygenation integrated equipment - Google Patents

Abstract

The invention discloses atomization and oxygenation integrated equipment for medical treatment, which comprises an air inlet pipe, a heating ball, a water-absorbent resin box, an air compressor, a molecular sieve tower, a fine sieve tower, an atomization device and a cold and hot dual-purpose electrode, wherein air enters the air inlet pipe, the heating ball realizes the mixing of the air and steam, the water-absorbent resin box absorbs water vapor in the air, the air compressor compresses the air, the molecular sieve tower separates air components, the fine sieve tower separates enriched oxygen again, the atomization device atomizes liquid medicine to form a liquid-gas mixture, and the cold and hot dual-purpose electrode heats or cools the liquid-gas mixture according to a sensor, so that oxygen generation, liquid medicine atomization and temperature regulation are realized through the device.

Description

Medical atomization and oxygenation integrated equipment

Technical Field

The invention relates to the technical field of medical equipment, in particular to atomization and oxygenation integrated equipment for medical treatment.

Background

Oxygen nebulization inhalation is one of the major methods of modern treatment of acute and chronic respiratory diseases. The principle of the oxygen atomization inhalation method is that high-speed oxygen flow is utilized to enable liquid medicine to form a mist suspension, and then the liquid medicine is inhaled into a respiratory tract along with respiration to achieve the purpose of treatment, the basic principle is that the high-speed oxygen flow passes through a capillary tube opening and generates negative pressure at the tube opening to suck the liquid medicine out from an adjacent tube opening, the sucked liquid medicine is impacted into fine droplets by the high-speed oxygen flow at the capillary tube opening to be sprayed into mist, and the mist is inhaled into the respiratory tract along with the respiration of a patient to achieve the effect of treatment, the existing atomization equipment does not have a device for filtering and generating oxygen, generally, oxygen is externally connected, the use is troublesome, the equipment is more, when oxygen does not exist, the treatment cannot be carried out, as the air contains a large amount of impurities and organic pollutants, a molecular sieve can accumulate a large amount of pollutants to cause sieve mesh blockage, the oxygen generation efficiency is reduced, the liquid medicine can not be atomized and the treatment effect can not be achieved; in the treatment process, the catheter is easily infected with bacteria and polluted under the condition of direct contact with the outside, the use condition of the liquid medicine cannot be judged in time, and the treatment of a patient is influenced.

Disclosure of Invention

The invention aims to provide an atomization and oxygenation integrated device for medical treatment, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: an atomization and oxygenation integrated device for medical treatment comprises an air inlet system, an air purification system, a molecular sieve tower and an atomization device; the method is characterized in that: the air inlet system is arranged on the upper portion of the equipment body and comprises a dust cover, an air inlet, a dust screen, an air inlet pipe and an air pump, the air inlet pipe is arranged on the outer side of a top plate of the equipment body, the air inlet is arranged on two sides of the upper end of the air inlet pipe, the dust screen is arranged on the upper end of the air inlet, the dust cover is arranged above the dust screen, the lower portion of the air inlet pipe enters the inner side of the top plate, the air pump; the air purification system is arranged on the inner side of the top plate of the equipment body below the air inlet system, and comprises a heating ball, a first water pump, a serpentine water pipe, an air outlet, a filter box, a second water pump and a water tank, wherein the heating ball is provided with an annular mixing pipe, the annular mixing pipe is connected with a cooling plate, the outer side of the cooling plate is provided with the serpentine water pipe, the serpentine water pipe is provided with a serpentine water inlet, the tail end of the serpentine water pipe is provided with a serpentine water outlet, the serpentine water pipe is connected with the first water pump, the first water pump is connected with the water tank through a water pipe, the air outlet is connected with the air pipeline inside the cooling plate, the filter box is connected with the pipeline below the air outlet, the filter box is connected with the second water pump through a pipeline, the heating ball comprises a check valve, a heating ball shell, the device comprises a liquid level meter and an annular mixing pipe, wherein an air inlet pipe is connected with an air conveying pipe, one end of the air conveying pipe, which is connected with the air inlet pipe, is provided with a check valve, the other end of the air conveying pipe is sealed, the air conveying pipe is arranged in a heating ball, the bottom of the air conveying pipe is uniformly provided with capillaries, the liquid level meter is arranged in the heating ball, the outer wall of the heating ball is provided with a heating pipe binding post, the heating pipe binding post is connected with a stainless steel heating pipe, the stainless steel heating pipe is arranged in a heating ball shell, the bottom of the heating ball shell is provided with a heating ball water inlet, the heating ball water inlet is connected with a second water pump through a pipeline, the other side of the heating ball shell is provided with a mixed gas outlet, the mixed gas outlet is connected with the annular mixing pipe, the air outlet is connected with a first, one side of the second electric valve is connected with the molecular sieve tower through a pipeline; the molecular sieve tower is arranged on the inner side of the equipment body far away from the air inlet system and comprises a gas splitter valve, a molecular sieve tower air inlet pipe, an exhaust pipe, a fixed block and a molecular sieve pipe, the right side of the second electric valve is connected with a molecular sieve tower air inlet pipe, the lower end of the molecular sieve tower air inlet pipe is connected with a gas splitter valve, two sides of the gas splitter valve are provided with fixed blocks, a waste gas pipe is arranged above the right side of the gas splitter valve, the lower side of the gas splitter valve is provided with a molecular sieve pipe, the lower end of the molecular sieve pipe is provided with a fifth electric valve, the lower part of the fifth electric valve is connected with a bent pipe, the lower end of the bent pipe is connected with the oxygen collecting ball, the inner side of the upper part of the oxygen collecting ball is provided with the oxygen concentration detector, the lower part of the oxygen collecting ball is provided with an oxygen pipe, the oxygen pipe is internally provided with a fourth electric valve, the left end of the oxygen pipe is; the atomization device is arranged in the middle of the upper side of the bottom plate of the equipment body and comprises a sawtooth-shaped protection plate, a medicine discharge funnel, a medicine tube, a floating ball liquid level meter, a heating resistance wire, an arc-shaped oxygen collection cavity, a gas discharge port, an oxygen delivery tube, a sixth electric valve, a mixed gas collecting tube, a baffle, a medicine storage tank, a cold and hot dual-purpose electrode, a ventilation hole, a temperature detector, a gas pressure stabilizing valve and an oxygen supply tube, wherein the sawtooth-shaped protection plate is arranged above the atomization device, the medicine discharge funnel is arranged below the sawtooth-shaped protection plate, the medicine tube is connected below the medicine discharge funnel, the floating ball liquid level meter is arranged on the right side of the medicine tube, the medicine storage tank is arranged below the floating ball liquid level meter, the heating resistance wire is arranged on the inner side of the medicine storage tank, the gas discharge port is arranged below the heating resistance wire, the arc-shaped, and a sixth electric valve is arranged in the mixed gas collecting pipe, a cold and hot dual-purpose electrode is arranged on the left side of the mixed gas collecting pipe, a ventilation hole is formed in the cold and hot dual-purpose electrode, a temperature detector is arranged on the left side of the cold and hot dual-purpose electrode, a gas pressure stabilizing valve is arranged on the left side of the temperature detector, and the left side of the gas pressure stabilizing valve is connected with an oxygen supply.

The air intake system may prevent dust from falling directly into the device.

The control room controls the opening and closing of the electric valve, and controls the heating or refrigerating power of the cold and hot dual-purpose electrode through the temperature detector when oxygen generation is started.

The floating ball liquid level meter monitors the liquid height in the medicine storage tank and transmits the liquid height to the hands of workers through the wireless module.

The invention has the advantages of

The dust-proof cover is arranged, and the dust-proof net is arranged below the dust-proof cover, so that dust is prevented from directly entering the air inlet pipe, and the service life of the device is prolonged.

The invention is provided with the heating ball to gasify water and mix the water with air, thereby realizing the disinfection and sterilization of the air and removing impurities in the air when the water vapor is liquefied.

The invention is provided with an atomizing device for mixing oxygen and liquid medicine, the atomizing device is arranged on a serrated protection plate to prevent a medicine placing funnel from being polluted, the atomizing device is provided with a liquid height detector for detecting the height of the liquid medicine, and a worker is informed to add the liquid medicine when the liquid medicine is insufficient.

The invention is provided with the cold and hot dual-purpose electrode to realize the regulation and control of the temperature of the mixed gas at the outlet, so that the temperature of the gas is not limited by the environment, and the gas pressure stabilizing valve is arranged to ensure the stable output of the gas.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a structural view of an atomizing device of the present invention;

FIG. 3 is an enlarged view of a portion of the cold and hot dual-purpose electrode of the present invention;

FIG. 4 is an enlarged view of the heating bulb of the present invention;

FIG. 5 is a diagram of a molecular sieve column of the present invention;

FIG. 6 is a schematic view of a serpentine shaped water tube of the present invention;

fig. 7 is a piping diagram of the air purification system of the present invention.

Names in the figures

1. An apparatus body; 2. an air pump; 3. an air inlet pipe; 4. an air inlet; 5. a dust cover; 6. a dust screen; 7. heating the ball; 8. a first water pump; 9. a serpentine water pipe; 10. an air outlet; 11. a filter box; 12. a second water pump; 13. a first electrically operated valve; 14. a water-absorbent resin tank; 15. a fixing plate; 16. an air compressor; 17. a second electrically operated valve; 18. a motor; 19. a molecular sieve tower air inlet pipe; 20. an exhaust gas pipe; 21. a third electrically operated valve; 22. a molecular sieve column; 23. an oxygen tube; 24. a fourth electrically operated valve; 25. a fine screening tower; 26. a flow meter; 27. a control room; 28. an atomizing device; 29. a cold and hot dual-purpose electrode; 30. a vent hole; 31. a temperature detector; 32. a gas pressure maintaining valve; 33. an oxygen supply tube; 34. a local enlarged view of the cold and hot dual-purpose electrode; 35. a water replenishing pipe; 36. a water tank; 37. a water inlet of the snakelike water pipe; 38. a cooling plate; 41. A water outlet of the snakelike water pipe; 2201. a gas diverter valve; 2202. a molecular sieve tube; 2203. a fifth electrically operated valve; 2204. bending the pipe; 2205. an oxygen collection ball; 2206. an oxygen concentration detector; 2208. A fixed block; 2801. a serrated protection plate; 2802. a medicine placing funnel; 2803. a medicine tube; 2804. a floating ball liquid level meter; 2805. heating resistance wires; 2806. an arc-shaped oxygen collecting cavity; 2807. an air release port; 2808. an oxygen delivery tube; 2809. a sixth electrically operated valve; 2810. a mixed gas collecting pipe; 2811. a baffle plate; 2812. a medicine storage tank; 7001. a check valve; 7002. heating the ball shell; 7003. a gas mixing chamber; 7004. a liquid level; 7005. a mixed gas outlet; 7006. a capillary tube; 7007. an air delivery pipe; 7008. a stainless steel heating pipe; 7009. a heating pipe wiring terminal; 7010. a water inlet of the heating ball; 7011. a liquid level meter; 7012. an annular mixing tube.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely described below by combining the attached drawings in the embodiment of the invention, and the invention provides a technical scheme that: the utility model provides an atomizing oxygenation integration equipment for medical treatment, includes equipment body 1, and equipment body 1 is including the air intake system that is located equipment body upper portion, the air purification system of air intake system below, the molecular sieve tower 22 of equipment body opposite side and the atomizing device on the equipment body bottom plate, air intake system, and including shield 5, air inlet 4, dust screen 6, intake pipe 3, air pump 2, and equipment body 1 roof outside sets up intake pipe 3, and intake pipe 3 upper end both sides set up air inlet 4, and air inlet 4 upper end sets up dust screen 6, and dust screen 6 top sets up shield 5, and intake pipe 3 lower part gets into the roof inboard, and air gets into the device from air inlet 4, gets into intake pipe 3 after dust screen 6 filters, and intake pipe 3 lower extreme sets up air pump 2, and air purification system is connected through intake pipe 3 to air pump 2, and air purification system includes heating ball, A first water pump 8, a serpentine water pipe 9, an air outlet 10, a filter box 11, a second water pump 12, a water tank 36, a check valve 7001, a heating ball shell 7002, a gas mixing chamber 7003, a liquid level 7004, a mixed gas outlet 7005, a capillary tube 7006, an air delivery pipe 7007, a stainless steel heating pipe 7008, a heating pipe terminal 7009, a heating ball water inlet 7010, a liquid level meter 7011 and an annular mixing pipe 7012, wherein an air inlet pipe 3 is connected with the air delivery pipe 7007, one end of the air delivery pipe 7007 connected with the air inlet pipe 3 is provided with the check valve 7001, the other end is closed, the air delivery pipe 7007 is arranged in the heating ball 7, the capillary tube 7006 is uniformly arranged at the bottom of the air delivery pipe 7007, the liquid level meter 7011 is arranged on one side of the inner wall of the middle part of the heating ball 7, one half of the liquid level meter 7011 is arranged below the liquid level 7004, the air delivery pipe 7007 is arranged below the liquid level 7004, the bottom of the heating ball shell 7002 is provided with a heating ball water inlet 7010, the heating ball shell 7002 is provided with a mixed gas outlet 7005 at the other side of the liquid level meter 7011, the mixed gas outlet 7005 is connected with an annular mixing pipe 7012, the top of a pipeline connected with the annular mixing pipe 7012 is provided with a cooling plate 38, the outer side of the cooling plate 38 is provided with a serpentine water pipe 9, the serpentine water pipe 9 is provided with a serpentine water pipe water inlet 37, the tail end of the serpentine water pipe 9 is provided with a serpentine water pipe water outlet 41, the serpentine water pipe 9 is connected with a first water pump 8, the first water pump 8 is connected with a water tank 36 through a water pipe, the mixed gas cooled by the cooling plate 38 moves towards the lower part of the pipeline, the inner side of the pipeline protrudes downwards to prevent air backflow, the right side of the protrusion is connected with an air outlet 10, the outer side of the pipeline is arc-shaped to guide liquefied water to the, the water absorption resin box 14 is connected with an air compressor 16 through a pipeline, a control chamber 27 is arranged at the bottom of the air compressor 16, a second electric valve 17 is arranged in the pipeline at the other side of the air compressor 16, the pipeline at one side of the second electric valve 17 is connected with a molecular sieve tower 22, air enters an air conveying pipe 7007 through a check valve 7001, the air is sprayed downwards from a capillary 7006 under the pressure of an air pump 2, then the mixed gas of the air and steam enters a gas mixing cavity 7003, the gas in the gas mixing cavity 7003 is mixed and then enters a mixed gas outlet 7005, the mixed gas is further mixed in an annular mixing pipe 7012 after passing through the mixed gas outlet 7005, the germ steam is liquefied after the mixed gas meets a cooling plate 38, at the moment, the germ steam in the air is killed in boiling water and steam, dust particles and organic matters enter water in the liquefaction process, the purified air is discharged from the air outlet, and condensed water drops, the filter box 11 filters the mixture, the filtered water enters the water tank 36 again through the second water pump, the water enters the serpentine water pipe 9 from the serpentine water pipe water inlet 37, the water absorbs heat of the cooling plate 38 while flowing in the serpentine water pipe 9, the liquid level meter 7011 detects the liquid level and controls the work of the first water pump 8, the serpentine water pipe 9 is a rectangular water pipe and is welded on the cooling plate 38, the heat conduction efficiency is effectively improved, the electric energy use and heating time are reduced, meanwhile, the liquefaction of water vapor is realized, the single water addition amount is small, water in the heating ball is continuously boiled, purified air discharged from the air outlet 10 enters the water absorption resin box 14 through the first electric valve, water absorption resin in the water absorption resin box 14 absorbs water, the air after the water absorption enters the air compressor 16, and the air compressor 16 compresses the air and enters the molecular sieve tower 22 through the second electric valve.

The molecular sieve tower 22 comprises a gas diverter valve 2201, a gas inlet pipe 19 of the molecular sieve tower, an exhaust pipe 20, a fixed block 2208, a molecular sieve tube 2202, a fifth electric valve 2203, an elbow 2204, an oxygen concentration detector 2206 and an oxygen collection ball 2205, the right side of the second electric valve 17 is connected with the gas inlet pipe 19 of the molecular sieve tower, the lower end of the gas inlet pipe 19 of the molecular sieve tower is connected with the gas diverter valve 2201, the two sides of the gas diverter valve 2201 are provided with the fixed block 2208, the upper side of the right side of the gas diverter valve 2201 is provided with the exhaust pipe 20, the lower side of the gas diverter valve 2201 is provided with the molecular sieve tube 2202, the lower end of the molecular sieve tube 2202 is provided with the fifth electric valve 2203, the elbow 2204 is connected below the elbow 2204, the lower end of the oxygen collection ball 2205 is connected with the oxygen concentration detector 2206 on the inner side of the upper part of the oxygen collection ball 2205, when the oxygen, compressed air entering from an air inlet pipe 19 of the molecular sieve tower enters different molecular sieve pipes 2202 through a gas splitter valve 2201, oxygen and other gases are separated in the molecular sieve pipes 2202, oxygen-enriched gas enters an oxygen collecting ball 2205 through a fifth electric valve 2203 and an elbow 2204, waste gas enters a waste gas pipe 20 through an air hole in a fixed block 2208, a fourth electric valve 24 is arranged in the oxygen pipe 23, the left end of the oxygen pipe 23 is connected with a fine sieve tower 25, a flow meter 26 is arranged on the left side of the fine sieve tower 25, an atomizing device 28 is arranged on the left side of the flow meter 26, a sawtooth-shaped protection plate 2801 is arranged above the atomizing device 28, a medicine discharge funnel 2802 is connected below the sawtooth-shaped protection plate 2801, a medicine pipe 2803 is connected below the medicine discharge funnel 2802, a floating ball liquid level meter 2804 is arranged on the right side of the medicine pipe 2803, the floating ball, a medicine storage tank 2812 is arranged below the floating ball liquid level meter 2804, a heating resistance wire 2805 is arranged on the inner side of the medicine storage tank 2812, a gas discharge port 2807 is arranged below the heating resistance wire 2805, an arc-shaped oxygen collection cavity 2806 is arranged below the medicine tube 2803, an oxygen conveying tube 2808 is arranged below the arc-shaped oxygen collection cavity 2806, a baffle 2811 is arranged on the left side of the medicine tube 2803, the upper end of the baffle 2811 is connected with a mixed gas collecting tube 2810, oxygen enters the arc-shaped oxygen collection cavity 2806 from the oxygen conveying tube 2808, a gas discharge port 2807 enters from pipelines on two sides of the arc-shaped oxygen collection cavity 2806, the sawtooth-shaped protection plate 2801 is opened to add medicine liquid, the medicine liquid enters the medicine tube 2803 from the medicine discharge funnel 2802, the medicine liquid enters the medicine storage tank 2812 from small holes on the bottom and side walls of the medicine tube 2803, the height of the medicine liquid is fed back in real time through the liquid level meter 2804, the gas discharge port 2807 sprays oxygen, the gas out when the medicine, a sixth electric valve 2809 is arranged in the mixed gas collecting pipe 2810, a cold and hot dual-purpose electrode 29 is arranged on the left side of the mixed gas collecting pipe 2810, the cold and hot dual-purpose electrode 29 can heat or refrigerate gas, so that the temperature of the gas is suitable for patients, a vent hole 30 is arranged on the cold and hot dual-purpose electrode 29, the mixed gas passes through the vent hole 30, a temperature detector 31 is arranged on the left side of the cold and hot dual-purpose electrode 29, a gas pressure stabilizing valve 32 is arranged on the left side of the temperature detector 31, the gas pressure stabilizing valve 32 enables the delivered oxygen to maintain the same pressure, and an oxygen supply.

Claims (6)

1. An atomization and oxygenation integrated device for medical treatment comprises an air inlet system, an air purification system, a molecular sieve tower and an atomization device; the method is characterized in that: the air inlet system is arranged on the upper portion of the equipment body and comprises a dust cover, an air inlet, a dust screen, an air inlet pipe and an air pump, the air inlet pipe is arranged on the outer side of a top plate of the equipment body, the air inlet is arranged on two sides of the upper end of the air inlet pipe, the dust screen is arranged on the upper end of the air inlet, the dust cover is arranged above the dust screen, the lower portion of the air inlet pipe enters the inner side of the top plate, the air pump; the air purification system is arranged on the inner side of a top plate of the equipment body below the air inlet system and comprises a heating ball, an annular mixing pipe is arranged on the heating ball, the annular mixing pipe is connected with a cooling plate, a serpentine water pipe is arranged on the outer side of the cooling plate and provided with a serpentine water inlet, a serpentine water pipe water outlet is arranged at the tail end of the serpentine water pipe, the serpentine water pipe is connected with a first water pump, the first water pump is connected with a water tank through a water pipe, an air pipeline on the inner side of the cooling plate is connected with an air outlet, a pipeline below the air outlet is connected with a filter box, the filter box is connected with a second water pump through a pipeline, a check valve is arranged at one end of the air conveying pipe, which is connected with an air inlet pipe, the other end of the air conveying pipe is closed, the air conveying pipe is arranged in the heating ball, capillaries are uniformly, heating ball casing bottom sets up the heating ball water inlet, the heating ball water inlet passes through the pipe connection with the second water pump, the heating ball casing sets up the mist outlet at the opposite side of level gauge, mist outlet connects annular mixing pipe, the air outlet passes through the pipe connection and is equipped with first motorised valve on resin case one side and the pipeline that absorbs water, the resin case that absorbs water passes through the pipe connection air compressor machine, the air compressor machine bottom sets up the control room, set up the second motorised valve in the air compressor machine opposite side pipeline, second motorised valve one side pipe connection molecular sieve tower, the molecular sieve tower passes through the pipe connection with the fine screen tower and is equipped with the flowmeter on the pipeline, the flowmeter left side sets up atomizing device.

2. The integrated atomizing and oxygen increasing device for medical treatment according to claim 1, wherein: the atomization device is arranged in the middle of the upper side of the bottom plate of the equipment body and comprises a sawtooth-shaped protection plate, a medicine discharge funnel, a medicine tube, a floating ball liquid level meter, a heating resistance wire, an arc-shaped oxygen collection cavity, a gas discharge port, an oxygen conveying tube, a sixth electric valve, a mixed gas collecting tube, a baffle, a medicine storage tank, a cold and hot dual-purpose electrode, a ventilation hole, a temperature detector, a gas pressure stabilizing valve and an oxygen supply tube, wherein the sawtooth-shaped protection plate is arranged above the atomization device, the medicine discharge funnel is arranged below the sawtooth-shaped protection plate, the medicine tube is connected below the medicine discharge funnel, the floating ball liquid level meter is arranged on the right side of the medicine tube, the medicine storage tank is arranged below the floating ball liquid level meter, the heating resistance wire is arranged on the inner side of the medicine storage tank, the gas discharge port is arranged below the heating resistance wire, the arc-shaped oxygen, and a sixth electric valve is arranged in the mixed gas collecting pipe, a cold and hot dual-purpose electrode is arranged on the left side of the mixed gas collecting pipe, a ventilation hole is formed in the cold and hot dual-purpose electrode, a temperature detector is arranged on the left side of the cold and hot dual-purpose electrode, a gas pressure stabilizing valve is arranged on the left side of the temperature detector, and the left side of the gas pressure stabilizing valve is connected with an oxygen supply.

3. The integrated atomizing and oxygen increasing device for medical treatment according to claim 1, wherein: the molecular sieve tower sets up and keeps away from air intake system inboard at the equipment body, and include gaseous flow divider, molecular sieve tower intake pipe, the exhaust pipe, the fixed block, the molecular sieve pipe, the fifth motorised valve, the return bend, oxygen concentration detector, the ball is collected to the oxygen, molecular sieve tower intake pipe is connected on second motorised valve right side, molecular sieve tower intake pipe lower extreme connection gas flow divider, gaseous flow divider both sides set up the fixed block, gaseous flow divider right side top sets up the exhaust pipe, gaseous flow divider downside sets up the molecular sieve pipe, molecular sieve pipe lower extreme sets up the fifth motorised valve, fifth motorised valve below connecting bend, the ball is collected to the oxygen is connected to the return bend lower extreme, oxygen is collected ball upper portion inboard and is set up the oxygen concentration detector, oxygen is collected the ball below and is set up the oxygen hose, set up the fourth motorised valve in the.

4. The integrated atomizing and oxygen increasing device for medical treatment according to claim 1, wherein: the air intake system prevents dust from falling directly into the device.

5. The integrated atomizing and oxygen increasing device for medical treatment according to claim 1, wherein: the control room controls the opening and closing of the electric valve, and controls the heating or refrigerating power of the cold and hot dual-purpose electrode through the temperature detector when oxygen generation is started.

6. The integrated atomizing and oxygen increasing device for medical treatment according to claim 2, wherein: the floating ball liquid level meter monitors the liquid height in the medicine storage tank and transmits the liquid height to the hands of workers through the wireless module.

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