CN209933720U - Hydrogen-rich temperature and humidity atomization device - Google Patents
Hydrogen-rich temperature and humidity atomization device Download PDFInfo
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- CN209933720U CN209933720U CN201822226751.1U CN201822226751U CN209933720U CN 209933720 U CN209933720 U CN 209933720U CN 201822226751 U CN201822226751 U CN 201822226751U CN 209933720 U CN209933720 U CN 209933720U
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Abstract
The utility model relates to a hydrogen-rich temperature and humidity atomizing device, include at least: the device comprises an electrolytic hydrogen generator, an ultrasonic atomizer, an atomized hydrogen mixing cavity, an eye mask and a voltage source; the output ends of the electrolytic hydrogen generator and the ultrasonic atomizer are respectively connected with the input end pipeline of the atomized hydrogen mixing ratio cavity through interfaces; the output end of the atomized hydrogen mixing cavity is connected with the eye mask through a first hose, the voltage source provides working voltage to be electrically connected with power supply ends of the electrolytic hydrogen generator and the ultrasonic atomizer, and hydrogen generated by the electrolytic hydrogen generator is generated. The device has the characteristics of convenient use and capability of avoiding cold stimulation.
Description
Technical Field
The utility model belongs to medical, cosmetic or domestic atomizing field relates to a rich hydrogen temperature and humidity atomizing device.
Background
The hydrogen molecule has the functions of resisting oxidation damage, resisting inflammation and resisting apoptosis, and is proved by experiments. The current utilization modes of hydrogen comprise drinking hydrogen-rich water, sucking hydrogen-containing gas, spraying atomized gas and the like.
Hot compress and fumigation are common treatment and health care measures in clinic and family. Hot gas fumigation is one of the methods for treating xerophthalmia and is a common measure for relieving asthenopia and preventing myopia. Due to popularization and long-term application of electronic products, people suffering from dry eye or having dry eye are increased, artificial tears are the most common treatment modes for improving dry eye symptoms, but artificial tears without preservatives are expensive and are not suitable for people with general symptoms. Artificial tears containing preservatives are inexpensive, but long-term use is not suitable because dry eye symptoms may be aggravated by the preservatives themselves. By fumigating with mist, partial symptoms of dry eye patients can be relieved. Compared with simple fog fumigation, the hydrogen-rich warm and wet steam fumigation is more beneficial to improving the symptoms of the xerophthalmia and the ophthalmia which is often accompanied by xerophthalmia patients. Dysregulation and spasm regulation are important causes of visual fatigue and causes of myopia. The hydrogen molecules have the effect of relieving sports fatigue, the visual fatigue can be relieved by hot compress, and the dual effects of hot compress and hydrogen intervention can be achieved by utilizing warm and humid steam fumigation rich in hydrogen, so that the recovery of the visual fatigue can be facilitated, and the prevention of myopia is helped.
The hot compress or fumigation has good effects on facial moisturizing, anti-inflammatory, and repairing skin injury and inflammation and injury of exposed part of body by cosmetics. The hydrogen-rich damp-heat mist fumigation can increase the tissue hydrogen content and play the anti-inflammatory role of hydrogen molecules while keeping the hot compress effect.
Aerosol inhalation has become a routine procedure for the adjuvant treatment of pharyngeal and respiratory tract disorders. The inhalation of the damp and cold fog is an irritation to the pharynx and the respiratory tract, particularly in the season of high occurrence of respiratory diseases, the stimulation is more easily generated to susceptible patients, cough is caused, and the experience is poor.
SUMMERY OF THE UTILITY MODEL
The utility model provides a hydrogen-rich temperature and humidity atomizing device which is convenient to use and can avoid cold stimulation.
The utility model discloses a realize through following technical scheme: a hydrogen-rich warm and humid atomizing device, comprising at least: the device comprises an electrolytic hydrogen generator, an ultrasonic atomizer, an atomized hydrogen mixing cavity, an eye mask and a voltage source; the output ends of the electrolytic hydrogen generator and the ultrasonic atomizer are respectively connected with the input end pipeline of the atomized hydrogen mixing ratio cavity through interfaces; the output end of the atomized hydrogen mixing ratio cavity is connected with the eye mask through a first hose, the voltage source provides working voltage to be electrically connected with power supply ends of the electrolytic hydrogen generator and the ultrasonic atomizer, and hydrogen generated by the electrolytic hydrogen generator and atomized gas of the ultrasonic atomizer are output from the eye mask cavity after being mixed by the atomized hydrogen mixing ratio cavity.
The electrolytic hydrogen generator includes: an electrolytic cell, a negative electrode, a positive electrode; electrolyte water is filled in the electrolytic cell, a negative electrode and a positive electrode are inserted into the electrolytic cell from the upper end of the electrolytic cell, and the negative electrode and the positive electrode are separated by a separator; the upper end of the negative electrode is provided with a hydrogen collecting cover, and the upper end of the positive electrode is provided with an oxygen collecting cover; the hydrogen collecting cover is connected with the input port of the hydrogen collecting container through a second hose and a hydrogen output switch valve.
The cover opening of the oxygen collecting cover is connected with the oxygen collecting container through a third hose and an oxygen output switch valve pipeline.
The ultrasonic atomization device is characterized in that an ultrasonic atomization valve is arranged between the output end of the ultrasonic atomizer and the input end of the atomized hydrogen mixing ratio cavity, the ultrasonic atomization valve is connected with an ultrasonic atomization valve adjusting knob, and the ultrasonic atomization inlet amount is adjusted.
And a hydrogen output safety valve is arranged between the output end of the hydrogen collecting container and the atomized hydrogen mixing ratio cavity, the hydrogen output safety valve is connected with a hydrogen output safety valve adjusting knob, and the hydrogen output quantity is adjusted through the hydrogen output safety valve adjusting knob.
The atomized hydrogen mixing ratio cavity is provided with a flexible electric heating film outside, the atomized hydrogen mixing ratio cavity is provided with a temperature sensor, and the temperature in the atomized hydrogen mixing ratio cavity is controlled by the flexible electric heating film.
The eye mask (4) may also be a mask or a device for applying a hydrogen-rich atomising gas to the body surface.
The utility model can be used as an auxiliary treatment means for ophthalmology, respiratory department, surgery, dermatology department, etc., and can be used in the fields of beauty treatment and health care. Has the characteristics of convenient use, cold stimulation avoidance and the like.
Drawings
FIG. 1 is a schematic structural diagram of embodiment 1 of the present invention;
fig. 2 is a schematic structural diagram of embodiment 2 of the present invention.
In the figure, 1, an electrolytic hydrogen generator; 2. an ultrasonic atomizer; 3. an atomized hydrogen gas mixing ratio cavity; 4. eye masks; 5. a first hose; 6. an ultrasonic atomization valve; 7. an ultrasonic atomizing valve adjusting knob; 8. a hydrogen output safety valve adjusting knob; 9. a hydrogen output safety valve; 10. a voltage source; 11. a second hose; 12. a hydrogen output switch valve; 13. a hydrogen gas collection vessel; 14. an oxygen collection vessel; 15. a hydrogen collection hood; 16. an oxygen collection hood; 17. a partition plate; 18. electrolyte water; 19. an electrolytic cell; 20. a third hose; 21. an oxygen output switch valve; 22. a negative electrode; 23. a positive electrode; 24. a flexible electrothermal film; 25. a temperature sensor.
Detailed Description
Example 1
As shown in fig. 1, a hydrogen-rich warm and humid atomizing device at least comprises: the device comprises an electrolytic hydrogen generator 1, an ultrasonic atomizer 2, an atomized hydrogen mixing ratio cavity 3, an eye mask 4 and a voltage source 10; the output ends of the electrolytic hydrogen generator 1 and the ultrasonic atomizer 2 are respectively connected with the input end pipeline of the atomized hydrogen mixing ratio cavity 3 through interfaces; the output end of the atomized hydrogen mixing ratio cavity 3 is connected with the eye mask 4 through the first hose 5, the voltage source 10 provides working voltage to be electrically connected with the power supply ends of the electrolytic hydrogen generator 1 and the ultrasonic atomizer 2, and the hydrogen generated by the electrolytic hydrogen generator 1 and the atomized gas of the ultrasonic atomizer 2 are output from the eye mask 4 after being mixed by the atomized hydrogen mixing ratio cavity 3.
The electrolytic hydrogen generator 1 includes: an electrolytic cell 19, a negative electrode 22, a positive electrode 23; electrolyte water 18 is filled in the electrolytic bath 19, a negative electrode 22 and a positive electrode 23 are inserted into the electrolytic bath 19 from the upper end of the electrolytic bath 19, and the negative electrode 22 and the positive electrode 23 are separated by a separator 17; the upper end of the negative electrode 22 is provided with a hydrogen collecting cover 15, and the upper end of the positive electrode 23 is provided with an oxygen collecting cover 16; the hydrogen collecting cap 15 is connected to the input port of the hydrogen collecting container 13 through the second hose 11 and the hydrogen output switching valve 12.
However, electrolysis of water is also an important method of producing hydrogen, which does not produce carbon dioxide. It will be water (H)2O) generating oxygen (O) by current electrolysis2) And hydrogen (H) as a fuel2). When the current passes through water, hydrogen is formed at the cathode by reducing the water; at the anode, pass throughThe water is oxidized to form oxygen, and the amount of hydrogen produced is about twice that of oxygen.
The cover opening of the oxygen collection cover 16 is connected with the oxygen collection container 14 through a third hose 20 and an oxygen output switch valve 21.
The ultrasonic atomization valve 6 is arranged between the output end of the ultrasonic atomizer 2 and the input end of the atomized hydrogen mixing ratio cavity 3, the ultrasonic atomization valve 6 is connected with an ultrasonic atomization valve adjusting knob 7, and the ultrasonic atomization inlet amount is adjusted.
The hydrogen output safety valve 9 is arranged between the output end of the hydrogen collecting container 13 and the atomized hydrogen mixing ratio cavity 3, the hydrogen output safety valve 9 is connected with a hydrogen output safety valve adjusting knob 8, and the hydrogen output quantity is adjusted through the hydrogen output safety valve adjusting knob 8.
Example 2
As shown in fig. 2, the difference between the embodiment 2 and the embodiment 1 is that a flexible electrothermal film 24 is arranged outside the atomized hydrogen mixing ratio cavity 3, a temperature sensor 25 is arranged in the atomized hydrogen mixing ratio cavity 3, and the temperature in the atomized hydrogen mixing ratio cavity 3 is controlled by the flexible electrothermal film 24.
The eye mask of this embodiment may also be a face mask or other terminal end to facilitate application of the hydrogen-enriched warm, moist, and aerosolized gas to the treatment area.
Principle of operation
Atomization fumigation or hot compress is an auxiliary treatment means for clinically treating eye surface diseases, can change the blood circulation of local tissues, and promotes inflammation absorption and focus repair. Nebulized fumigation may also alleviate symptoms caused by lachrymal deficiency in patients with dry eye. Fumigation or hot compress is also commonly used as an adjuvant treatment for body surface inflammation and wounds. Aerosol inhalation is a common method for treating respiratory diseases, improving symptoms, and promoting sputum excretion. It has antioxidation, anti-inflammatory, biological effects such as anti-apoptosis to discover hydrogen in recent years, the utility model discloses leading-in hydrogen under atomizing or stifling environment makes local tissue shower in the warm and humid environment of low concentration hydrogen, will exert the biological effect of hydrogen molecule better, promotes the recovery of pathological change. The utility model discloses leading-in hydrogen in warm and humid fog, about 2% of the hydrogen of low concentration inhales and is favorable to the restoration of pharynx or respiratory tract inflammation and the discharge of phlegm, especially more helps to the patient that is in low humidity environment.
The components and structures of the present embodiments that are not described in detail are well known in the art and do not constitute essential structural elements or elements.
Claims (7)
1. The utility model provides a rich hydrogen temperature and humidity atomizing device which characterized by: at least comprises the following steps: the device comprises an electrolytic hydrogen generator (1), an ultrasonic atomizer (2), an atomized hydrogen mixing cavity (3), an eye mask (4) and a voltage source (10); the output ends of the electrolytic hydrogen generator (1) and the ultrasonic atomizer (2) are respectively connected with the input end pipeline of the atomized hydrogen mixing ratio cavity (3) through interfaces; the output end of the atomized hydrogen mixing ratio cavity (3) is connected with the eye mask (4) through a first hose (5), a voltage source (10) provides working voltage to be electrically connected with the power supply ends of the electrolytic hydrogen generator (1) and the ultrasonic atomizer (2), and hydrogen generated by the electrolytic hydrogen generator (1) and atomized gas of the ultrasonic atomizer (2) are output by the eye mask (4) after being mixed by the atomized hydrogen mixing ratio cavity (3).
2. The hydrogen-rich warm and humid atomizing device according to claim 1, wherein: the electrolytic hydrogen generator (1) comprises: an electrolytic cell (19), a negative electrode (22), a positive electrode (23); electrolyte water (18) is filled in the electrolytic bath (19), a negative electrode (22) and a positive electrode (23) are inserted into the electrolytic bath (19) from the upper end of the electrolytic bath (19), and the negative electrode (22) and the positive electrode (23) are separated by a separator (17); the upper end of the negative electrode (22) is provided with a hydrogen collecting cover (15), and the upper end of the positive electrode (23) is provided with an oxygen collecting cover (16); the hydrogen collecting cover (15) is connected with the input port of the hydrogen collecting container (13) through a second hose (11) and a hydrogen output switch valve (12).
3. The hydrogen-rich warm and humid atomizing device according to claim 2, wherein: the cover opening of the oxygen collecting cover (16) is connected with the oxygen collecting container (14) through a third hose (20) and an oxygen output switch valve (21) by pipelines.
4. The hydrogen-rich warm and humid atomizing device according to claim 2, wherein: ultrasonic atomization ware (2) output and atomizing hydrogen mix and have ultrasonic atomization valve (6) between comparing chamber (3) input, ultrasonic atomization valve (6) are connected with ultrasonic atomization valve adjust knob (7), through adjusting ultrasonic atomization admission capacity.
5. The hydrogen-rich warm and humid atomizing device according to claim 2, wherein: the hydrogen output safety valve (9) is arranged between the output end of the hydrogen collecting container (13) and the atomized hydrogen mixing ratio cavity (3), the hydrogen output safety valve (9) is connected with a hydrogen output safety valve adjusting knob (8), and the hydrogen output quantity is adjusted through the hydrogen output safety valve adjusting knob (8).
6. The hydrogen-rich warm and humid atomizing device according to claim 2, wherein: atomizing hydrogen mix and have flexible electric heat membrane (24) than chamber (3) outside, atomizing hydrogen mixes and has temperature sensor (25) than chamber (3) in, mixes through flexible electric heat membrane (24) control atomizing hydrogen and compare chamber (3) internal temperature.
7. The hydrogen-rich warm and humid atomizing device according to claim 1, wherein: the eye mask (4) may also be a mask or a device for applying a hydrogen-rich atomising gas to the body surface.
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CN201822226751.1U CN209933720U (en) | 2018-12-28 | 2018-12-28 | Hydrogen-rich temperature and humidity atomization device |
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CN201822226751.1U CN209933720U (en) | 2018-12-28 | 2018-12-28 | Hydrogen-rich temperature and humidity atomization device |
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CN201822226751.1U Active CN209933720U (en) | 2018-12-28 | 2018-12-28 | Hydrogen-rich temperature and humidity atomization device |
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