CN113382758A

CN113382758A - Noise reduction device, power device and coffee suction system

Info

Publication number: CN113382758A
Application number: CN201980075500.2A
Authority: CN
Inventors: 牛忠玉
Original assignee: Guangdong Yunhu Information Technology Co ltd; Guangzhou Yamasaki Biotechnology Co ltd
Current assignee: Guangdong Yunhu Information Technology Co ltd; Guangzhou Yamasaki Biotechnology Co ltd
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2021-09-10
Also published as: JP2022535788A; WO2020237636A1

Abstract

A noise reduction device is provided, which comprises a noise reduction unit, the power device (1) and the coffee suction system are characterized in that the noise reduction device comprises a noise reduction device body (13), a first cavity (131) and a second cavity (132) which are mutually independent are arranged inside the noise reduction device body (13), a first air inlet (1311) and a first air outlet (1312) are formed in the noise reduction device body (13) corresponding to the first cavity (131), a second air inlet (1321) and a second air outlet (1322) are formed in the noise reduction device body (13) corresponding to the second cavity (132), the first air inlet (1311) is communicated with the outside of the noise reduction device body (13), the first air outlet (1312) is connected with an air inlet interface (1211) of a compression air pump (12) of the atomizer, the second air inlet (1321) is connected with an air outlet interface (1212) of the compression air pump (12), the second air outlet (1322) is connected with an atomizing cup of the atomizer, and an elastic silencing ball (133) is arranged in at least one of the first cavity (131) and the second cavity (132).

Description

Noise reduction device, power device and coffee suction system

Technical Field

The present disclosure relates to the field of aerosolization devices, for example, to a noise reduction device, a power device, and a coffee inhalation system.

Background

The atomizer is a device which forms strong airflow by compressing air, sprays the liquid medicine on the atomizing baffle, and breaks up the liquid water molecule structure to generate water mist, has the functions of medical treatment, humidification and beauty treatment, and is suitable for treating upper respiratory tract infectious diseases such as cold, national rhinitis, nasal obstruction, nasal polyp, emphysema, acute and chronic pharyngitis, laryngitis, tracheitis, bronchial asthma and the like.

The noise level of the nebulizer is an important indicator of its quality. The working noise of the atomizer mainly comes from the vibration of the compressor and the noise of high-speed airflow, and the treatment emotion of a patient can be influenced when the noise is too high. At present, two modes of shock absorption and noise reduction are adopted for optimization on an atomizer. Specifically including setting up the device body and the amortization sponge of making an uproar that admits air in the atomizer, be equipped with suction nozzle, the air inlet that links to each other with the air pump on the device body of making an uproar that admits air, the air inlet communicates with each other with the suction nozzle, and the amortization sponge is located between suction nozzle and the air inlet. However, due to the material characteristics of the silencing sponge, dust particles easily block the fine holes during use, flow and atomization effects are affected, pollution is caused, and the silencing effect is gradually weakened along with the use time. In addition, the pressure and flow of the compressed air are mainly controlled by the compressor, and the pressure and flow are unstable, which can cause the atomized particles and the atomized amount to be suddenly large and small, so that the patient can be choked when in treatment.

In addition, coffee is one of the three major beverages in the world today. Research shows that after a certain amount of effective components in coffee are taken by human bodies, the coffee has the effects of preventing and controlling diabetes and reducing the risk of diabetes. At present, modern people have fast pace of life, high working pressure and insufficient sleep, and part of people often need to refresh and restore consciousness by drinking coffee drinks.

When a user refreshes through the coffee drink, the user mainly depends on taking caffeine in the coffee drink to temporarily drive away drowsiness and restore energy. However, the coffee drink is not suitable for people with diabetes and obesity because a certain amount of sugar is often added to improve the taste. And is required to be absorbed through gastrointestinal digestion by drinking into the stomach, which is unfavorable for digestive ulcer. And a large amount of coffee drinks are usually needed to be taken to achieve the expected effect, and the metabolism function of the stomach, liver and kidney is too heavy to exceed the load of normal people, so that the health of the human body is not good.

Disclosure of Invention

One object of an embodiment of the present invention is to: the noise reduction device can effectively reduce noise generated in the working process of the atomizer and provide a good using environment for a user.

Another object of an embodiment of the present invention is to: provided is a power device which has low operating noise and provides a user with a good working environment.

It is yet another object of embodiments of the invention to: the coffee suction system can enable active ingredients in coffee to directly enter the blood of a human body in a suction mode, and reduces the drinking requirement of the human body on the coffee.

In order to achieve the purpose, the following technical scheme is adopted in the paper:

on the one hand, the noise reduction device comprises a noise reduction device body, wherein a first cavity and a second cavity which are mutually independent are arranged inside the noise reduction device body, a first air inlet and a first air outlet are formed in the noise reduction device body corresponding to the first cavity, a second air inlet and a second air outlet are formed in the noise reduction device body corresponding to the second cavity, the first air inlet is communicated with the outside of the noise reduction device body, the first air outlet is connected with an air inlet interface of a compression air pump of an atomizer, the second air inlet is connected with an air outlet interface of the compression air pump, the second air outlet is connected with an atomizing cup of the atomizer, and an elastic silencing ball is arranged in at least one of the first cavity and the second cavity.

On the other hand, the power device uses the noise reduction device, the power device is configured to provide compressed air for atomization for the atomization device, the power device comprises a compressed air pump and the noise reduction device, a first air outlet of the noise reduction device is connected with an air inlet of the compressed air pump, a second air inlet of the noise reduction device is connected with an air outlet of the compressed air pump, and a second air outlet of the noise reduction device is connected with an atomization cup of the atomizer.

In another aspect, a coffee inhalation system is provided, which uses the above power device, and comprises an extraction device, the above power device, an atomization device and an inhalation device,

the extraction device is configured to extract coffee solvent from coffee beans;

the atomizing device configured to solvent atomize the coffee into atomized particles;

the inhalation device is configured to spray the atomized particles to the face position of a user, so that the user can inhale the atomized particles into the respiratory tract, the atomized particles directly enter the blood of a human body through the respiratory tract, and the inhalation device is connected with the atomization outlet of the atomization device.

Drawings

The present disclosure is described in further detail below with reference to the figures and examples.

Fig. 1 is a schematic perspective view of a power plant according to an embodiment of the present invention.

Fig. 2 is an exploded view of a power unit according to an embodiment of the present invention.

Fig. 3 is a schematic view of an internal structure of the noise reduction device of the atomizer according to the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an atomizing device and an inhalation device of a coffee inhalation system according to an embodiment of the present invention.

Fig. 5 is a cross-sectional view of an aerosolization mechanism of a coffee inhalation system in accordance with an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a cup body of an atomizing device of a coffee inhalation system according to an embodiment of the present invention.

Fig. 7 is a schematic perspective view of an atomizing core of an atomizing device of a coffee inhalation system according to an embodiment of the present invention.

Fig. 8 is a schematic perspective view of a cap of an atomizer of a coffee inhalation system according to an embodiment of the present invention.

Figure 9 is a cross-sectional view of a cup of a coffee inhaler system according to an embodiment of the present invention.

Figure 10 is a cross-sectional view of an atomizing cartridge of a coffee inhalation system in accordance with an embodiment of the present invention.

FIG. 11 is a cross-sectional view of a lid of the coffee inhaler system according to an embodiment of the invention.

Fig. 12 is an enlarged view at a in fig. 6.

In the figure:

1. a power plant; 11. a housing; 12. compressing the air pump; 121. a compression cylinder; 1211. an air inlet interface; 1212. an air outlet interface; 122. a drive motor; 13. a noise reducer body; 131. a first cavity; 1311. a first air inlet; 1312. a first air outlet; 1313. an airflow baffle; 132. a second cavity; 1321. a second air inlet; 1322. a second air outlet; 133. an elastic silencing ball; 134. an air inlet regulating valve; 135. an air outlet regulating valve; 14. a shock pad;

2. an atomizing device; 21. a cup body; 211. an atomizing column; 2111. atomizing column pores; 2112. closing the plate; 2113. a through hole; 2114. a limiting bulge; 22. an atomizing core; 221. a core barrel; 222. an end plate; 2221. a hemispherical recess; 223. an atomizing port; 23. a cup cover; 231. a mist guide pipe; 2311. an atomization outlet; 232. a first connecting plate; 2321. a hemispherical protrusion;

3. an inhalation device; 31. a face mask; 32. and (4) conveying the tube.

Detailed Description

Technical solutions of embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments, but not all embodiments. In the description herein, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integral to; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms herein can be understood in a specific context to one of ordinary skill in the art.

In this document, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise the first and second features being in direct contact, or may comprise the first and second features being in contact, not directly, but via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 12, in the present embodiment, a coffee inhalation system described herein includes an extraction device, a power device 1, an atomization device 2, and an inhalation device 3.

Wherein the extraction device is configured to extract coffee solvent from the coffee beans; the power device 1 is configured to provide compressed air for atomization for the atomization device 2, the power device 1 comprises a compressed air pump 12 and a noise reduction device, a first cavity 131 and a second cavity 132 which are independent of each other are arranged inside the noise reduction device, the first cavity 131 and the second cavity 132 are respectively connected with an air inlet 1211 and an air outlet 1212 of the compressed air pump 12, the first cavity 131 is communicated with the outside, the second cavity 132 is connected with the atomization device 2, and an elastic sound attenuation ball 133 is arranged in at least one of the first cavity 131 and the second cavity 132; the atomizing device 2 is configured to atomize the coffee solvent into atomized particles; the inhalation device 3 is configured to spray the atomized coffee solvent particles onto the face of the user so that the user can inhale the atomized coffee solvent particles into the respiratory tract, and the atomized coffee solvent particles directly enter the blood of the human body through the respiratory tract, and the inhalation device 3 is connected with the atomization outlet 2311 of the atomization device 2.

The coffee solvent containing chlorogenic acid, caffeine and other effective components is directly extracted from coffee beans through an extraction device, then the coffee solvent is atomized into atomized particles through an atomization device 2, the atomized particles of the coffee solvent are sprayed to the face of a user through an inhalation device 3, and then the atomized particles of the coffee solvent are inhaled into the respiratory tract of the user in a breathing mode by the user, so that the atomized particles of the coffee solvent can directly enter the blood of a human body through the respiratory tract. And effective components such as chlorogenic acid, caffeine and the like in the coffee solvent are directly absorbed through respiratory tract and enter the blood of a human body, and then enter the circulation of the human body, so that the effective components such as chlorogenic acid, caffeine and the like can directly act on the human body, thus driving away sleepiness, recovering energy, preventing and controlling diabetes and reducing the risks of diabetes and cancer. Therefore, the pressure on digestive organs such as the stomach caused by slowly sucking the effective components such as caffeine and the like into the human body circulation through the traditional method of drinking coffee into the stomach and the digestive absorption action of the stomach is changed, the intake efficiency of the effective components such as chlorogenic acid, caffeine and the like is effectively improved, the sleepiness and the energy recovery of a user are quickly relieved, and even the effects of preventing and controlling diabetes and reducing the risks of diabetes and cancer are achieved. Especially for the users who suffer from digestive tract ulcer or diabetes and the like and are not suitable for taking coffee by drinking coffee drinks, the taking mode in the scheme can reduce the digestive pressure on the stomach of the user and avoid unnecessary sugar intake. And the absorption amount of the coffee solvent by a human body can be effectively enhanced through an atomization mode, so that the consumption of the coffee solvent is reduced, the economical efficiency of the atomization inhalation mode provided by the embodiment of the invention is higher, and the use cost is effectively reduced. In addition, by the atomization inhalation mode provided by the embodiment of the invention, adverse side effects on the stomach and other internal organs caused by a stomach absorption mode can be avoided.

In an embodiment of the invention, the coffee solvent atomized particles have a particle diameter below 10 microns. That is, in the present embodiment, the diameter of the atomized fine particles of the coffee solvent atomized by the atomizer 2 is required to be 10 μm or less.

Optionally, the atomizing device 2 atomizes the coffee solvent to a diameter of less than 3 microns to ensure absorption by the human body.

In addition, through the coffee inhalation system that provides in this scheme, can effectual improvement human body ingest the speed of effective component such as caffeine, and then realize alleviating user's drowsiness fast and the effect of recovering essence. The negative effects caused by excessive intake of the effective components such as caffeine caused by drinking a large amount of coffee drinks in order to enable the effective components such as caffeine to act on human bodies more quickly and play the roles of relieving sleepiness and recovering vigor when a user drinks the coffee drinks in a drinking mode are avoided.

The power device 1 according to the embodiment of the present invention includes a compression air pump 12 and a noise reduction device. The compressed air pump 12 is configured to provide compressed air for atomization for the atomization device 2, and the noise reduction device is configured to reduce noise generated by the compressed air pump 12 in the working process, so as to provide a comfortable use environment for a user and improve comfort of the user in the use process.

In an alternative embodiment, the compressed air pump 12 includes a compression cylinder 121 and a driving motor 122, and the driving motor 122 is connected to a piston rod of the compression cylinder 121 through a crankshaft in a transmission manner, so that the piston rod of the compression cylinder 121 is driven to reciprocate by the rotation of the driving motor 122, and continuous compressed air is provided for the atomization of the atomization device 2, thereby ensuring the normal atomization of the atomization device 2.

In an optional embodiment, the noise reduction device according to the embodiment of the present invention includes a noise reduction device body 13, a first cavity 131 and a second cavity 132 that are independent of each other are disposed inside the noise reduction device body 13, the noise reduction device body 13 is provided with a first air inlet 1311 and a first air outlet 1312 corresponding to the first cavity 131, the noise reduction device body 13 is provided with a second air inlet 1321 and a second air outlet 1322 corresponding to the second cavity 132, the first air inlet 1311 is communicated with the outside of the noise reduction device body 13, the first air outlet 1312 is connected to an air inlet interface 1211 of the compression air pump 12, the second air inlet 1321 is connected to an air outlet interface 1212 of the compression air pump 12, the second air outlet 1322 is connected to the atomizing device 2, and at least one of the first cavity 131 and the second cavity 132 is provided with the elastic sound-deadening ball 133.

By arranging the noise reduction device in front of the compressed air pump 12 of the atomizer and arranging the elastic silencing ball 133 in at least one of the first cavity 131 and the second cavity 132 of the noise reduction device body 13 of the noise reduction device, in the working process of the atomizer, part of the air entering the first cavity 131 or the second cavity 132 can directly act on the spherical surface of the elastic silencing ball 133, so that the flow direction of the air flowing through the surface of the elastic silencing ball 133 is forced to change, on the premise of ensuring sufficient air inflow or air outflow, the flow of the air flowing through the first cavity 131 or the second cavity 132 becomes smooth, the flow rate of the air is effectively reduced, noise caused by high-speed flow of the air is reduced, and the working noise of the atomizer is effectively reduced. When air enters the noise reduction device, the air acts on the elastic silencing balls 133, so that the elastic silencing balls 133 can roll or bounce inside the first cavity 131 or the second cavity 132 continuously, kinetic energy carried by the air entering is effectively converted into rolling kinetic energy of the elastic silencing balls 133 and heat energy released in the process of collision with the first cavity 131 or the second cavity 132, the kinetic energy of the air entering the noise reduction device is reduced, and a large amount of noise is prevented from being generated in the high-speed flowing process of the air. Make the patient the noise influence degree that receives when using the atomizer of the noise reduction device of this scheme of adoption decline, improve the comfort level that the patient used the atomizer.

In a specific embodiment, the power device 1 further includes a housing 11, the compression air pump 12 and the noise reduction device are both disposed inside the housing 11, and a shock pad 14 is disposed between the compression air pump 12 and the noise reduction device and the housing 11, and the compression air pump 12 and the noise reduction device are fixed inside the housing 11 through the shock pad 14, so as to avoid mutual conduction of vibration of the compression air pump 12 and the noise reduction device or vibration of the housing 11, and further improve noise reduction effect.

In an alternative embodiment, a plurality of airflow baffles 1313 are disposed in the first cavity 131, and the airflow baffles 1313 divide the first cavity 131 into a plurality of air ducts connected in sequence. By arranging a plurality of airflow baffles 1313 in the first cavity 131 of the noise reduction device, the length of the air inlet passage of the compression air pump 12 can be effectively increased, so that the air flow speed can be effectively reduced in the first cavity 131, and the amount of noise generated on the air inlet passage of the compression air pump 12 can be reduced.

In an alternative embodiment, the airflow baffles 1313 are disposed on any two opposite sides of the first cavity 131 in a staggered manner, and an included angle is formed between two adjacent airflow baffles 1313. That is, each air duct in the first cavity 131 is set in a contracted state, so that the flow rate of air entering the first cavity 131 is further reduced, and noise generated in the high-speed air flowing process is effectively reduced.

Optionally, the airflow baffles 1313 may be arranged in a manner that a plurality of airflow baffles 1313 are respectively and convexly arranged on two opposite side surfaces in the airflow direction, and the airflow baffles 1313 on the two side surfaces are arranged in a staggered manner, so that the air passage in the first cavity 131 is arranged in a serpentine manner, the flow path of air in the first cavity 131 of the noise reduction device is increased, the flow speed of the air is further reduced, the air flows slowly in the first cavity 131, and the amount of noise caused by the air flowing on the air inlet channel of the compression air pump 12 is reduced.

Optionally, the first cavity 131, the second cavity 132 and the airflow baffle 1313 may be made of elastic materials, so that the elastic materials can effectively absorb the interaction force generated during the bouncing and rolling of the elastic silencing ball 133 by using the elastic action, and the kinetic energy of the elastic silencing ball 133 can be effectively absorbed and consumed.

In other embodiments, the airflow baffle 1313 may be provided in the form of a plurality of protrusions or the like provided on the sidewall of the first cavity 131 to block air. The structure of the gas flow baffle 1313 may be a straight structure or a curved structure.

In an alternative embodiment herein, the elastic noise reduction ball 133 is disposed in the first cavity 131 of the noise reduction device, and an elastic noise reduction ball 133 is disposed in each air channel in the first cavity 131, and the diameter of the elastic noise reduction ball 133 is larger than the smallest diameter of each air channel. That is to say, a plurality of airflow baffles 1313 are arranged in the first cavity 131 to divide the first cavity 131 into a plurality of air ducts connected in sequence, a plurality of elastic sound-absorbing balls 133 are arranged in each air duct, and the diameter of each elastic sound-absorbing ball 133 is larger than the minimum caliber of the air duct in the first cavity 131, so that the elastic sound-absorbing balls 133 can be limited in each air duct, the elastic sound-absorbing balls 133 are prevented from being centralized to a certain position to stay under the driving of air entering the noise reduction device, the kinetic energy of the air is reduced in all paths of air flowing through in a dispersing manner, and the noise volume generated by the air in the flowing process is effectively reduced.

In a particular embodiment herein, a layer of sound attenuating material is disposed on an inner wall of at least one of the first and

second cavities

131, 132. In an alternative embodiment, the sound-damping material layer may be a sound-damping sponge or a plurality of sound-damping holes may be formed on the sidewall of the first or

second cavity

131 or 132.

By arranging the sound attenuation material layer in the first cavity 131 or the second cavity 132, the sound attenuation material layer can assist in reducing noise caused by air flow, and the sound attenuation material layer and the elastic sound attenuation ball 133 effectively reduce noise generated by the atomizer during operation.

In the embodiment of the present invention, an inlet regulating valve 134 is disposed on the noise reducer body 13 corresponding to the first inlet 1311, the inlet regulating valve 134 is configured to regulate the amount of air taken in the first cavity 131, an outlet regulating valve 135 is disposed on the noise reducer body 13 corresponding to the second cavity 132, and the outlet regulating valve 135 is configured to regulate the amount of air taken out of the second outlet 1322.

The air inlet adjusting valve 134 is arranged on the noise reduction device body 13 of the noise reduction device corresponding to the first air inlet 1311, and the air inlet adjusting valve can be configured to adjust the air volume entering the first cavity 131, so that the air volume entering the compression air pump 12 and the air volume flowing through the noise reduction device are effectively adjusted, the air volume and the flow rate entering the compression air pump 12 are effectively adjusted on the premise of ensuring the effective work of the atomizer, and a quiet use environment is obtained by a patient on the premise of ensuring the atomization quality of the atomizer.

The air outlet adjusting valve 135 is arranged on the noise reduction device body 13 corresponding to the second cavity 132, and can be configured to control the opening degree of the air outlet adjusting valve 15 to discharge part of air flowing through the first cavity 131 to the air through the air adjusting valve, so that the air quantity flowing from the second air outlet 1322 to the atomizing cup of the atomizer is adjusted, and the atomization adjustment of the atomizer is realized. When the second air outlet 1322 is blocked, the air outlet regulating valve 135 can also perform a pressure relief function, so that the compressed air in the second cavity 132 is discharged out of the second cavity 132, thereby avoiding the overlarge pressure in the second cavity 132 and performing a function of protecting the compressed air pump.

In addition, the air outlet regulating valve 135 is arranged, so that the air pumped out by the compression air pump 12 can be completely released, the air resistance of the compression air pump 12 in the working process is effectively reduced, and the energy consumption of the compression air pump 12 is reduced. In addition, the air outlet regulating valve 135 can also play a role in buffering and stabilizing the air flowing out of the noise reduction device, when the air flowing out of the compressed air pump 12 fluctuates, the air outlet regulating valve 135 can dynamically buffer and regulate the output air, and discharge the excessive air from the air regulating valve, or reduce the air amount flowing out of the air outlet regulating valve 135 when the air amount decreases, so as to ensure the air output of the second air outlet 122, and ensure the pressure of the compressed air flowing out of the noise reduction device to be stable.

In an alternative embodiment, the noise reduction device body 13 is provided with an inlet air filtering device corresponding to the first cavity 131, the inlet air filtering device is configured to filter air entering the first cavity 131, and the second cavity 132 is provided with an outlet air filtering device configured to filter air entering the atomizing cup. Through set up filter equipment in first cavity 131 or second cavity 132, can realize the filtration to the air of flowing through first cavity 131 and second cavity 132, guarantee the clean degree of the air that enters into the atomizing cup, avoid in the dust particle etc. in the air enters into the liquid medicine after the atomizing, arouse user's discomfort, even anaphylactic reaction.

In a specific embodiment, at least one of the first air inlet 1311 and the second air outlet 1322 is further provided with a noise reduction filter device. The silencing and filtering device is arranged at the first air inlet 1311 or the second air outlet 1322, so that the noise reduction effect of the noise reduction device can be effectively improved, the noise volume generated by the atomizer in the working process is further reduced, and a comfortable use environment is provided for a user.

In one embodiment herein, the resilient sound-deadening ball 133 is made of a resilient sanitary material, which can spring and roll within the first cavity 131 or the second cavity 132 in the noise reducing device.

The specific elastic sanitary material can be elastic medical rubber or other materials meeting the requirements.

In an alternative embodiment, the noise reducer is of a double-layer structure, and a sound insulation sealing shell is arranged outside the noise reducer body 13 to cover the noise reducer body 13 inside, so as to further isolate noise and avoid the noise from being transmitted from the inside of the noise reducer to the use environment of a user.

In the embodiment of the invention, the atomizing device 2 includes a cup body 21, an atomizing core 22 and a cup cover 23, an atomizing column 211 is convexly arranged on an inner bottom of the cup body 21, an atomizing column air hole 2111 is formed in the atomizing column 211 in a penetrating manner along an axial direction of the atomizing column 211, the atomizing core 22 is sleeved on the atomizing column 211, an atomizing cavity is formed between the atomizing core 22 and the atomizing column 211, an atomizing opening 223 communicated with the atomizing cavity is formed in one end of the atomizing core 22 away from the inner bottom of the cup body 21, the cup cover 23 is covered on the cup body 21, a mist guide pipe 231 is convexly arranged at one end of the cup cover 23 away from the cup body 21, the mist guide pipe 231 is communicated with the atomizing opening 223, and an atomizing outlet 2311 is formed in the mist guide pipe 231.

Through setting up by cup 21, atomizing device 2 that atomizing core 22 and bowl cover 23 are constituteed, can be with the coffee solvent atomizing that is drawed by extraction device becomes the atomizing particle, thereby make the coffee solvent enter into user's respiratory track through user's respiratory track, thereby make the coffee solvent get into human inner loop by user's respiratory track direct absorption, make effective component such as caffeine in the coffee solvent act on the human body sooner, play and alleviate sleepiness and the effect of regaining vigor, avoid the user to need through citing coffee drink in a large number and ingest effective component such as caffeine, in order to alleviate sleepiness and recovery vigor.

In an alternative embodiment, the atomization column 211 is disposed in the cup body 21, and the atomization column air hole 2111 is opened through the atomization column 211, so that the compressed air provided by the power device 1 is introduced into the atomization column 211 and enters the cup body 21 through the atomization column air hole 2111 opened on the atomization column 211. Through establish atomizing core 22 on atomizing post 211, one of the inner bottom that cup 21 was kept away from to atomizing core 22 is served and is set up atomizing mouth 223, and make and form the atomizing chamber between atomizing post 211 and the atomizing core 22, when compressed air enters into inside the cup 21 through atomizing post gas hole 2111 on atomizing post 211, because atomizing core 22 overlaps and locates on atomizing post 211, make compressed air directly use atomizing core 22, then the rethread atomizing mouth 223 enters into in the cup 21, thereby atomizing chamber between atomizing post 211 and atomizing core 22 forms the negative pressure, inhale the coffee solvent in the cup 21 to the atomizing intracavity, with the compressed air cooperation of the atomizing chamber of flowing through with the coffee solvent atomizing one-tenth nanometer coffee solvent atomized particle, so that the respiratory tract absorbs.

In a particular embodiment, the inner bottom of the cup 21 is arranged in the shape of a truncated cone, the small end of which is located on the side close to the bottom of the cup. By providing the inner bottom in the shape of a truncated cone, it is possible to collect the coffee solvent at the bottom position of the cup body 21.

In the embodiment of the present invention, the atomizing core 22 includes a core barrel 221, the core barrel 221 has a first end and a second end opposite to each other, the second end is located at a side close to the inner bottom, the first end is provided with an end plate 222, the end plate 222 is provided with a hemispherical groove 2221 facing the second end, the atomizing opening 223 is correspondingly disposed in the hemispherical groove 2221, the cup cover 23 is provided with a first connecting plate 232 corresponding to the end plate 222, the first connecting plate 232 is provided with a hemispherical protrusion 2321 corresponding to the hemispherical groove 2221, the hemispherical protrusion 2321 is located in the hemispherical groove 2221, and the hemispherical protrusion 2321 and the hemispherical groove 2221 are spaced apart from each other.

By arranging the end plate 222 on the atomizing core 22, arranging the hemispherical groove 2221 on the end plate 222, and correspondingly arranging the hemispherical protrusion 2321 on the cup cover 23, the hemispherical protrusion 2321 is positioned in the hemispherical groove 2221, and the hemispherical protrusion 2321 and the hemispherical groove 2221 are arranged at intervals, so that the movement direction of the coffee solvent atomized particles coming out from the atomizing port 223 is changed, particles with an excessively large particle diameter directly hit on the hemispherical protrusion 2321 to be changed into coffee solvent atomized particles with a smaller particle diameter, or are blocked from entering the inner space of the cup body 21 from the cavity between the hemispherical protrusion 2321 and the hemispherical groove 2221, the coffee solvent atomized particles with a particle diameter meeting the requirement are filled in the cup body 21, and are guided out to the inhalation device 3 through the mist guide pipe 231 arranged on the cup cover 23 corresponding to the atomizing port 223, so that the user inhales in the respiratory tract, and the active ingredients such as caffeine in the coffee solvent atomized particles are absorbed, has the functions of relieving drowsiness, restoring energy and preventing and controlling diabetes.

In an alternative embodiment, a plurality of connection rods are spaced around the mist guide pipe 231, the first connection plate 232 is fixedly connected to the connection rods, and the first connection plate 232 is disposed parallel to the end plate 222. The atomizing core 22 is provided with a ring plate at the periphery thereof and adjacent to the first end of the core barrel 221, the center of the ring plate is coaxial with the center of the core barrel 221, the ring plate and the core barrel 221 are arranged at intervals and connected through a first connecting plate 232, and the core barrel 221 is in clearance fit with the atomizing column 211. The tip of connecting rod is the arc, and its butt is on atomizing core 22's crown plate, prevents that atomizing core 22 from taking place to beat in atomizing process.

In a specific embodiment, a sealing plate 2112 is arranged on one side of the atomization column 211 close to the atomization port 223, a through hole 2113 is arranged on the sealing plate 2112, the through hole 2113 is communicated with the atomization column air hole 2111, the through hole 2113 comprises a first hole, a second hole and a third hole which are arranged in sequence, the first hole is arranged on one side close to the inner bottom, and the hole diameters of the first hole, the second hole and the third hole are reduced in sequence. By providing the sealing plate 2112 at the end of the atomizing column 211 remote from the inner bottom of the cup body 21 and providing the first hole, the second hole and the third hole, the diameters of which are sequentially reduced, on the sealing plate 2112, it is possible to collect the compressed gas provided by the power unit 1 to provide a stronger impulsive force to disperse the coffee solvent into the coffee solvent atomized particles. And the first hole, the second hole and the third hole with the sequentially reduced hole diameters can avoid overlarge hole diameter change, so that the impulse loss of the compressed air is large.

In an optional embodiment, a plurality of limiting protrusions 2114 are provided on one side of the sealing plate 2112 of the atomizing column 211, which is close to the atomizing core 22, for preventing the atomizing core 22 and the atomizing column 211 from being attached to each other, so that the atomizing cavity between the atomizing core 22 and the atomizing column 211 is occupied by the squeezing, the normal operation of the atomizing cavity is ensured, and the atomizing effect of the atomizing device 2 is ensured.

In an optional scheme, the first hole and the second hole are arranged in a conical hole structure, the third hole is arranged in a cylindrical hole, compressed air is converged through the first hole and the second hole, the compressed air is stabilized through the third hole, and the flowing direction of the compressed air is guaranteed to be always parallel to the axial direction of the atomizing column 211. And the centerlines of the first, second and third holes are collinear and collinear with the centerline of the atomization port 223.

In an embodiment of the invention, the inhalation device 3 comprises a face mask 31 and a delivery tube 32, the delivery tube 32 being connected at one end to the face mask 31 and at the other end to the nebulization outlet 2311. By arranging the inhalation device 3 consisting of the mask 31 and the delivery pipe 32, the coffee solvent atomized particles can be concentrated at the face of the user, the dissipation of the coffee solvent atomized particles is avoided, and the amount of the coffee solvent inhaled by the user is accurately controlled.

In an alternative, the face mask 31 is directly connected to the mist guiding pipe 231 of the atomizing device 2 to shorten the transmission path between the face mask 31 and the atomizing device 2, so as to prevent the coffee solvent atomized particles from being changed into large particle structures after being blocked, and ensure the particle diameter of the coffee solvent atomized particles inhaled by the user.

In the embodiment of the present invention, the extraction device may be various extraction apparatuses having an extraction function, for example, an apparatus capable of performing a coffee extraction function using an extraction instrument, a coffee machine, or the like.

In one embodiment herein, a control end is further included, the control end being configured to control an operating state of the power plant 1. In an alternative embodiment, the control end may be a control button provided on the housing 11 of the power unit 1, or a wireless control device, a remote control device, or the like.

In an alternative embodiment, when the control end is a wireless control device, a wireless receiving device may be disposed inside the housing 11 of the power device 1, and the wireless receiving device is paired with the wireless control device, so that the start, the stop, and the gas output of the power device 1 can be controlled wirelessly by the wireless connection between the wireless control device and the wireless receiving device. In an alternative embodiment, the wireless control device and the wireless receiving device may be wirelessly connected by wireless network, bluetooth, mobile communication technology, or the like.

When the control end is a remote control device, a user terminal can be arranged in the power device 1, the user terminal can control the working state of the power device 1, the user terminal is connected with a server, a database or a cloud platform through a wireless communication technology (wireless network, 4G, 5G mobile communication or Bluetooth and the like), the remote control device is connected with the server, the database or the cloud platform through a network and further transmits a control signal to the user terminal, and the user terminal controls the power device 1 correspondingly according to the received control signal.

In an alternative embodiment, the power device 1 provided by the present disclosure may further include a display device configured to display the personal health data on the cloud platform database, so that the user can select the proper setting parameters and the coffee amount.

The display device may be a flat panel display or a liquid crystal display provided on the power unit 1.

In the description herein, it is to be understood that the terms "upper," "lower," "left," "right," and the like are based on the orientation or positional relationship shown in the drawings for convenience in description and simplicity of operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting herein. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example herein. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

Herein, through at least one in the first cavity and the second cavity at power device's the device body of making an uproar that falls sets up elasticity noise elimination ball, in atomizer working process, the air that enters into in first cavity or the second cavity will be partly direct action on the sphere of elasticity noise elimination ball, force the flow direction of the air on the surface of elasticity noise elimination ball to change, thereby under the prerequisite of guaranteeing sufficient air input or air output, make the flow of the air of first cavity or the second cavity of flowing through become gentle, the effectual velocity of flow that reduces the air and because the noise that the high-speed flow of air brought, thereby the effectual operating noise that reduces the atomizer. When air enters the noise reduction device, the air acts on the elastic silencing ball, so that the elastic silencing ball continuously rolls or jumps in the first cavity or the second cavity, kinetic energy carried by the air entering is effectively converted into rolling kinetic energy of the elastic silencing ball and heat energy released in the process of collision with the first cavity or the second cavity, the kinetic energy of the air entering the noise reduction device is reduced, and a large amount of noise is prevented from being generated in the high-speed flowing process of the air. Make the patient the noise influence degree that receives when using the atomizer of the noise reduction device of this scheme of adoption decline, improve the comfort level that the patient used the atomizer.

The coffee solvent containing chlorogenic acid, caffeine and other effective components is directly extracted from coffee beans through an extraction device, then the coffee solvent is atomized into coffee solvent atomized particles through an atomization device, the coffee solvent atomized particles are sprayed to the face of a user through an inhalation device, and then the coffee solvent atomized particles are inhaled into the respiratory tract of the human body by the user in a breathing mode, so that the coffee solvent atomized particles can directly enter the blood of the human body through the respiratory tract. And effective components such as chlorogenic acid, caffeine and the like in the coffee solvent can be directly absorbed through respiratory tract and enter the blood of a human body, and then enter the circulation of the human body, so that the effective components such as chlorogenic acid, caffeine and the like in the coffee solvent can directly act on the human body, thus driving away sleepiness, recovering energy, preventing and controlling diabetes, and reducing the risks of diabetes and cancer. Therefore, the pressure on digestive organs such as the stomach and the like caused by slowly sucking the active ingredients such as chlorogenic acid, caffeine and the like into the human body circulation through the digestive absorption effect of the stomach is changed, the intake efficiency of the active ingredients such as the chlorogenic acid, the caffeine and the like in the coffee solvent is effectively improved, the sleepiness and the energy recovery of a user are quickly relieved, and even the effects of preventing and controlling diabetes and reducing the risks of diabetes and cancer are achieved. Especially for the users who suffer from digestive tract ulcer or diabetes and the like and are not suitable for taking coffee by drinking coffee drinks, the taking mode in the scheme can reduce the digestion pressure on the digestive organs of the stomach and the like of the users and avoid unnecessary sugar intake.

Claims

The utility model provides a device of making an uproar falls, is provided with mutually independent first cavity and second cavity including falling the device body of making an uproar, fall and correspond on the device body of making an uproar fall first air inlet and first gas outlet have been seted up to first cavity, fall and correspond on the device body of making an uproar fall second air inlet and second gas outlet have been seted up to the second cavity, first air inlet with fall the outside intercommunication of device body of making an uproar, first gas outlet and the interface connection that admits air of the compression air pump of atomizer, the second air inlet with the interface connection that gives vent to anger of compression air pump, the second gas outlet with the atomizing cup of atomizer is connected, first cavity with be provided with the elasticity amortization ball in at least one of the second cavity.
The noise reducer according to claim 1, wherein a plurality of airflow baffles are disposed in the first chamber, and the airflow baffles separate the first chamber into a plurality of sequentially connected air ducts.
The noise reducer according to claim 2, wherein the airflow baffles are alternately arranged on any two opposite side surfaces of the first cavity, and an included angle is formed between two adjacent airflow baffles.
The noise reducer of claim 3 wherein each of the air channels has the resilient sound-damping ball disposed therein.
The noise reducer according to claim 1, wherein an air inlet adjusting valve is provided on the noise reducer body corresponding to the first air inlet, and the air inlet adjusting valve is configured to adjust an amount of air taken in the first cavity.
The noise reducer according to claim 1, wherein an outlet regulating valve is disposed on the noise reducer body corresponding to the second cavity, and the outlet regulating valve is configured to regulate an outlet amount of the second outlet.
A power device, use the noise reduction device of any claim 1 to 6, the power device is configured to provide compressed air for atomization for an atomization device, the power device includes a compressed air pump and the noise reduction device, a first air outlet of the noise reduction device is connected with an air inlet interface of the compressed air pump, a second air inlet of the noise reduction device is connected with an air outlet interface of the compressed air pump, and a second air outlet of the noise reduction device is connected with an atomization cup of the atomizer.
A coffee inhalation system using the power plant of claim 7, comprising an extraction device, the power plant, an aerosolization device and an inhalation device,

the extraction device is configured to extract coffee solvent from coffee beans;

the atomizing device configured to solvent atomize the coffee into atomized particles;

the inhalation device is configured to spray the atomized particles to the face position of a user, so that the user can inhale the atomized particles into the respiratory tract, the atomized particles directly enter the blood of a human body through the respiratory tract, and the inhalation device is connected with the atomization outlet of the atomization device.
The coffee inhalation system of claim 8, wherein the atomization device comprises a cup body, an atomization core and a cup cover, an atomization column is convexly arranged on the inner bottom of the cup body, an atomization column air hole is formed in the atomization column in a penetrating manner along the axial direction of the atomization column, the atomization core is sleeved on the atomization column, an atomization cavity is formed between the atomization core and the atomization column, an atomization opening communicated with the atomization cavity is formed in one end, far away from the inner bottom of the cup body, of the atomization core, the cup cover is arranged on the cup body, a mist guide pipe is convexly arranged at one end, far away from the cup body, of the cup body, the mist guide pipe is communicated with the atomization opening, and the atomization outlet is formed in the mist guide pipe.
The coffee inhalation system of claim 9, wherein said atomizing core comprises a core barrel having a first end and a second end opposite to each other, said second end is located at a side close to said inner bottom, said first end is provided with an end plate, said end plate is recessed with a hemispherical recess toward said second end, said atomizing opening is correspondingly formed in said hemispherical recess, said cup cover is provided with a first connecting plate corresponding to said end plate, said first connecting plate is provided with a hemispherical protrusion corresponding to said hemispherical recess, said hemispherical protrusion is located in said hemispherical recess, and said hemispherical protrusion is spaced from said hemispherical recess.
The coffee inhalation system of claim 9, wherein a sealing plate is disposed on a side of the aerosolizing post adjacent to the aerosolizing opening, a through-hole is disposed on the sealing plate, the through-hole communicating with the aerosolizing post air hole, the through-hole comprising a first hole, a second hole and a third hole disposed in this order, the first hole being located on a side adjacent to the insole, the first hole, the second hole and the third hole decreasing in diameter in this order.
The coffee inhalation system of claim 8, wherein the inhalation device comprises a mask and a delivery tube connected at one end to the mask and at the other end to the nebulization outlet.